Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast...

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THE VOICE OF THE NORTH AMERICAN CONVEYOR INDUSTRY 2019 CEMA ENGINEERING CONFERENCE CONVEYOR CHAIN AND SPROCKET COMMITTEE MEETING La Playa Hotel, Naples, FL Tuesday, June 25, 2019 – 1:00 pm AGENDA 1. Call to order 2. Attendance and Introductions 3. Review and Approval of June 26, 2018 Minutes (Attached) 4. Old Business a) Conveyor Chain Sprocket Types and Definition Document – Document approved at CEMA Annual Meeting 2019. b) Conveyor Chain, Installation, Maintenance & Best Practices 001 - Chordal Action Document approved at CEMA Annual Meeting 2019. c) Corrosion Resistant Chains: Coated/Plated vs. Stainless, Plastic Chains – Discuss status of this activity and next steps required. (Draft chemical compatibility guide attached.) 5. New Business a) CEMA Std. 601 (1995) Overhead Trolley Conveyors – Discrepancies between the unit book and the standard. (Draft 3 attached). b) Discuss enhancing Unit Handling Section (Maintenance guide on chain selection and performance, Definition and detail on how and when to replace chain) – Discuss specific scope and application. c) CEMA White Paper – Volunteers needed d) Section Publication Projects ideas (from 2019 Annual Meeting): Green environmental impact to chain & sprocket life and quality Lubrication specification and recommendation to chain and sprocket life Video for Safety, Installation, Maintenance and Best Practices. Calculating rated working load best practices, AUS and other chain standard calculations. 6. Election of a Vice-Chair of the Committee 7. Next Meeting – June 16, 2020, La Playa Hotel, Naples, FL 8. Adjourn Tom Perdue, Chair Roger Bruere, Vice Chair Conveyor Equipment Manufacturers Association

Transcript of Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast...

Page 1: Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast Iron 304 Stainless Steel 316/316Ti/321 Stainless Steel 440 Stainless Steel 17-4PH Stainless

THE VOICE OF THE NORTH AMERICAN CONVEYOR INDUSTRY

2019 CEMA ENGINEERING CONFERENCE CONVEYOR CHAIN AND SPROCKET COMMITTEE MEETING

La Playa Hotel, Naples, FL Tuesday, June 25, 2019 – 1:00 pm

AGENDA

1. Call to order

2. Attendance and Introductions

3. Review and Approval of June 26, 2018 Minutes (Attached)

4. Old Business a) Conveyor Chain Sprocket Types and Definition Document – Document approved at

CEMA Annual Meeting 2019. b) Conveyor Chain, Installation, Maintenance & Best Practices 001 - Chordal Action –

Document approved at CEMA Annual Meeting 2019. c) Corrosion Resistant Chains: Coated/Plated vs. Stainless, Plastic Chains – Discuss status

of this activity and next steps required. (Draft chemical compatibility guide attached.)

5. New Business a) CEMA Std. 601 (1995) Overhead Trolley Conveyors – Discrepancies between the unit

book and the standard. (Draft 3 attached). b) Discuss enhancing Unit Handling Section (Maintenance guide on chain selection and

performance, Definition and detail on how and when to replace chain) – Discuss specific scope and application.

c) CEMA White Paper – Volunteers needed d) Section Publication Projects ideas (from 2019 Annual Meeting):

• Green environmental impact to chain & sprocket life and quality • Lubrication specification and recommendation to chain and sprocket life • Video for Safety, Installation, Maintenance and Best Practices. • Calculating rated working load best practices, AUS and other chain standard

calculations.

6. Election of a Vice-Chair of the Committee

7. Next Meeting – June 16, 2020, La Playa Hotel, Naples, FL

8. Adjourn

Tom Perdue, Chair Roger Bruere, Vice Chair

Conveyor Equipment Manufacturers Association

Page 2: Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast Iron 304 Stainless Steel 316/316Ti/321 Stainless Steel 440 Stainless Steel 17-4PH Stainless

THE VOICE OF THE CONVEYOR INDUSTRY OF THE AMERICAS

MINUTES OF THE CEMA ENGINEERING CONFERENCE

CONVEYOR CHAIN & SPROCKET COMMITTEE MEETING

Tuesday, June 26, 2018

1. Call to Order Committee Chair Thomas Perdue, Cambridge Engineered Solutions; called the meeting to order at 1:05 pm.

2. Roll Call and Introductions (attached).

3. Committee Purpose and Value. • Purpose: To provide the most current chain & sprocket information available within the

industry and represent all types of conveyor chain, i.e. roller, drive, engineered, drop forged, plastic, wire belt, etc.

• Value: Develop a standardized and effective ability to identify chain & sprocket products and conditions that best fit the needs of member organizations and end user application requirements.

4. Minutes from the June 27, 2017 were reviewed and approved.

5. Old Business a) Sprocket Types and Definition Document, Draft 1 – Status Review.

- Need to review sections for continuity and consistency. - Tom Perdue, Cambridge Engineered Solutions; will provide Kris Ferguson, US

Tsubaki Power Transmission, LLC.; what additional information is required on any other industry-standard sprocket types.

- Arnesto Rodriguez, Habasit America; will provide information on plastic sprockets to Tom Perdue.

- Final draft of Sprocket Document to be submitted by March 2019 from Tom Perdue. - Volunteers to review technical accuracy, content – Brian Cline, Webster Industries,

Inc.; and David Stronczek, Martin Sprocket & Gear, Inc.

6. New Business a) Discuss including Technical Note: Chordal Action as addendum to Conveyor Chain

Installation, Maintenance, & Best Practices – 001 document. - Suggestions/comments for technical note – to be submitted by August 24th to Tom

Perdue. - Other methods for reducing chordal action: compensating sprockets, conveyor shaft

positioning, Ray Kisaberth, Webster Industries, Inc.; and Kris Ferguson, US Tsubaki Power Transmission, LLC.

Conveyor Equipment Manufacturers Association

Page 3: Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast Iron 304 Stainless Steel 316/316Ti/321 Stainless Steel 440 Stainless Steel 17-4PH Stainless

THE VOICE OF THE CONVEYOR INDUSTRY OF THE AMERICAS

- Darkening of sprocket images and text – Roger Bruere, 4B Components Ltd.; sent to Kimberly, CEMA.

b) New document request: Corrosion Resistant Chains: Coated/Plated vs. Stainless, Plastic chains – when to use. Other – to be specified.

- Table of Corrosion & Wear Resistance by Materials/Applications – Ray Kisaberth, Webster Industries, Inc.; and Kris Ferguson, US Tsubaki Power Transmission, LLC; for steel chains, Arnesto Rodriguez, Habasit America; for plastic chains – Draft due November 30, 2018 to Tom Perdue. Tom will send reminders as needed for this information.

c) CEMA White Papers – Volunteers needed. - Matthew Whyte, Timken Drives, LLC; will propose a topic.

d) Discuss enhancing Unit Handling Section (Maintenance guide on chain selection and performance, Definition and detail on how and when to replace chain).

- To be discussed further after everyone has a chance to review current Document. - CEMA will send Dan Fannin’s Survey to all attendees of this meeting as none of them

received it. - CEMA will send Material List to Tom Perdue and Roger Bruere for review of materials

for Chain/Sprockets, they were not aware that a list was being developed. 7. The next scheduled meeting will be on June 25, 2019 at La Playa Hotel, Naples, FL

8. Meeting was adjourned at 2:24 pm

Respectfully submitted, Thomas Perdue, Chair Roger Bruere, Vice Chair

Page 4: Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast Iron 304 Stainless Steel 316/316Ti/321 Stainless Steel 440 Stainless Steel 17-4PH Stainless

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Acetaldehyde C2H4O B B C C A A A A C D D A A

Acetamine HCl B B B B B B A

Acetate Solvents - A A D B B A A A A B D D D

Acetic Acid (aerated) C2H4O2 C D D C A A C C C D

Acetic Acid (air free) C2H4O2 C D D C A A A C C D D

Acetic Acid (crude) C2H4O2 C D D D A A A C D D D

Acetic Acid Glacial C2H4O2 C D D D C A D B A C D C D A

Acetic Acid (pure) C2H4O2 C D D D D A D A A C D D D

Acetic Acid 10% C2H4O2 C D D D C A D A A C D D B A

Acetic Acid 80% C2H4O2 C D D D D A D A A C D D D

Acetic Acid Vapors - B D C D C C D

Acetic Anhydride C4H6O3 C D D D B B B B B C D D D A

Acetone C3H6O A A A A B A B A A A D D B A

Other Ketones RC(=O)R' A A A A A A A D D B

Acetyl Chloride CH3COCl C B A C C A A A D D D D

Acetylene C2H2 A C A A A A A A A C B A A

Acid Fumes - B D D D B C D

Acrylonitrile C3H3N B A A C A A A A A D D D

Air - A A A A A A A A A A A A

Alcohol, Amyl C5H11OH B B B B A A B B B C B A

Alcohol, Butyl C4H9OH A B B C A A B A B B A A

Alcohol, Diacetone CH3C(O)CH2C(OH)(CH3)2 A B B B A A B B B D D A

Alcohol, Ethyl C2H6O B B B B A A A B B B A A B

Alcohol, Fatty - B B B B A B B B A

Alcohol, Isopropyl C3H8O B B B B B B B B B C A A

Alcohol, Methyl CH4O C B B B A A A B A B B C B

Alcohol, Propyl C3H8O B B A B A A B A B B A A

Alumunia - A A A A

Aluminum Acetate Al(C2H3O2)3 C C C B B B C D D D

Aluminum Chloride (dry) AlCl3 C D D D D C D B B D B A C A

Aluminum Chloride Solution - B D D D C D D C B D B A D A

Aluminum Fluoride AlF3 C D D D D C D C A C A A C

Aluminum Hydroxide AlH6O3 B D D D A A A A B D A A B

Aluminum Nitrate AlN3O9 D D D D C B A C D B D C

Aluminum Oxalate C6AlO12-3 B B A B D

Aluminum Potassium Sulfate AlKO8S2 B B C D C B C B C B B C

Aluminum Sulfate (Alum) Al2O12S3 C C D D B B D B C C A A C

Amines R3-xNHx C B B C A A A B C D D D

Ammonia Alum AlH28NO20S2 C C B A B B C B C

Ammonia, Anh. Liquid NH3 A D A B B A A A A D B D D

Ammonia Aqueous H5NO B C C C A A B D D C

Ammonia Gas (hot) H3N B C B B B A A D A D D

Ammonia Liquor - A C A B C B A A D D D D

Ammonia Solutions - B D B C A A A D C D D

Ammonium Acetate C2H3O2NH4 A D D D B B A B D C D D

Ammonium Bicarbonate NH4HCO3 B B C C B B B B A B

Ammonium Bromide 5% NH4Br D B B B

Ammonium Carbonate (NH4)2CO3 B D B B B B A B B D C B D

Ammonium Chloride NH4Cl C C D D D C B C B D B A C

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Ammonium Hydroxide 28% NH4OH C D C B B B B A B D B B C

Ammonium Hydroxide Conc. NH4OH C D C B A B A C D C B D

Ammonium Monosulfate - D A B A B D

Ammonium Nitrate (NH4)(NO3) B D D B A A A A D A B C

Ammonium Oxalate 5% C2H8N2O4 A A D A A A B D D B

Ammonium Persulfate H8N2O8S2 D D C D A A A A D C D B D

Ammonium Phosphate (mono) (NH4)3PO4 B C D D C B A A C C C A B

Ammonium Phosphate Di-basic (NH4)2HPO4 B C D C B B A B C D A A B

Ammonium Phosphate Tri-basic - B C D C B B A B C C A A B

Ammonium Sulfate (NH4)2SO4 C D C C C C A B B D B C C

Ammonium Sulfide (NH4)2S B D D D C B B B D A D B

Ammonium Sulfite (NH4)2SO4, D C C C B A A B D B B C D

Amyl Acetate CH3COO(CH2)4CH3 A A C C A B C A A B D C C A

Amyl Chloride C5H11Cl B B A B B B B A A D D A

Aniline C6H7N C D C C A A A A B C D C B A

Aniline Dyes - C C C C A A A A C C B B

Apple Juice - B C D D B A A A A

Aqua Regia (Strong Acid) - D D D D D C C D D D D D

Aromatic Solvents - A A C B A B D A A

Arsenic Acid AsH3O4 D C D D A B B A C A A D

Asphalt Emulsion - C B B B A A A B B D A B

Asphalt Liquid - C B B B A A B A C A B

Barium Carbonate CBaO3 C B B B B B A A A B B A A

Barium Chloride BaCl2 D B C C A B A A A B A A A

Barium Cyanide Ba(CN)2 D C C A B A C C B A B

Barium Hydrate BaH2O2 D D A B A

Barium Hydroxide Ba(OH)2 D D C C B A A A A D A A D

Barium Nitrate Ba(NO3)2 B D A A B A B D A A B

Barium Sulfate BaSO4 C B B C C B A A A C A A B

Barium Sulfide BaS D C C C C B A A D A A A

Beer - A B C D A A A A A B A B A

Beet Sugar Liquors - A B B B A A A A B A A B

Benzaldehyde C7H6O B B B C C A A B A D D A A

Benzene (Benzol) C6H6 B A B B B B A A A D A A A

Benzoic Acid C7H6O2 B C D D B B A A B C C A B A

Beryllium Sulfate BeO4S B B B B B B B A

Bleaching Powder Wet - B C C B C A D B B

Blood (meat juices) - B B D A A A A B A B B

Borax (Sodium Borate) Na2B4O7ꞏ10H2O C B C A A A A A A B A A B A

Bordeaux Mixture - A A

Borax Liquors - C A C C B B A A B

Boric Acid BH3O3 C C D D B C A B A B B A A A

Brake Fluid - B B A B A A A A B D D B

Brines (saturated) - C B C C B B B B A A A A A

Bromine (dry) Br D C D D D D C B D D A D D

Bunker Oils (Fuel) - A B A B A A A A B A A

Butadiene C4H6 A B B B A A A A C C A A

Butane C4H10 A A B C A A A A B B A A A

Butter - A D C A D B A A

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Buttermilk - A D D D A A A D D A A A

Butyl Acetate C6H12O2 B B B B C B A A B D D B A

Butylene C4H8 A A A A A A A A A D D A A

Butyric Acid C4H8O2 B B D D C B A A A C C C B A

Calcium Bisulfite CaH2O6S2 C D D D B B B D C A A D

Calcium Carbonate CaCO3 C D C D A B A A A C B A A A

Calcium Chlorate Ca(ClO3)2 B C B C B B A B B B C

Calcium Chloride CaCl2 D C C C C B C B A B A A D A

Calcium Hydroxide Ca(OH)2 C D C C B B A A C A A D

Calcium Nitrate Ca(NO3)2 C B B C C B B A B B A D A

Calcium Phosphate Ca3(PO4)2 D C C B B B B

Calcium Silicate Ca2SiO4 D C C B B B A

Calcium Sulfate CaO4S C B B C B C A A A B A A D

Caliche Liquor - B A B A

Camphor C10H16O C C B C B A C B B B A A

Cane Sugar Liquors C12H22O11 B B A B A A A A A B B A

Carbonated Beverages - B B D B B B C B B A

Carbonated Water - A D B C A A A B B B A A A

Carbon Bisulfide CS2 B C B B A B A A B B D A A

Carbon Dioxide (dry) CO2 B B B B A A A A B C B A

Carbonic Acid CH2O3 A D B D A B D A A C B A B A

Carbon Monoxide CO A A B B A A A A A B B A

Carbon Tetrachloride (dry) CCl4 C B C C B A A A B D B B B

Carbon Tetrachloride (wet) CCl4 D C D D A B A B C D B B B

Casein - C C C B C B B A

Castor Oil - A A A A A A A A B A A A A

Caustic Potash HKO C C B B A A A C B D A

Caustic Soda HNaO D D B B A A A A B C C D A

Cellulose Acetate - B B B B B D D C

China Wood Oil (Tung) - A C C C A A A A A A A

Chlorinated Solvents - C C C C C B A D C A

Chlorinated Water D D C D C C C C C B A D

Chlorine Gas (dry) Cl2 C D C B B B B A D C B D B

Chlorobenzene (dry) C6H5Cl B B B C A A A A B D A C

Chloroform (dry) CHCl3 C B C C A A A A B D B B B

Chlorophyll (dry) - B B B B B B B

Chlorosulfonic Acid (dry) HSO3Cl C C C B D C D C A C D D D D

Chrome Alum CrKO8S2 C C B C A B B B B

Chromic Acid<50% CrH2O4 D D D D B C B C D D C D A

Chromic Acid>50% CrH2O4 D D D D C C C D D D C D A

Chromium Sulfate Cr2O12S3 B C D B B B B B B C

Cider - B D A A A A A A A A A

Citric Acid C6H8O7 C D D D B C A A A D B A C A

Citrus Juices - C B D D B A A A A A

Coca Cola Syrup - A A B B A

Coconut Oil - B B C C A A A B B A A A A

Coffee - A A C C A A A A B A A A A

Coffee Extracts (hot) - A A C C A A A

Coke Oven Gas - A C B B A A B B C B C

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Cooking Oil - B B B B A A A A A

Copper Acetate C4H6CuO4 D D C D A B C C D C

Copper Carbonate CCuO3 D A A A

Copper Cyanide CCuN D D C D B A A C D A B B

Copper Nitrate Cu(NO3)2 D D D D A B B D D A A A

Copper Sulfate CuO4S D D D D B B A D D A A D

Corn Oil - B B B C A B A B B A A A A

Cotton seed Oil - B B B C A B A B B A B B

Cresol C7H8O A C A C A B A B A D D D A

Creosote Oil - B B B B A A A B B C A D A

Cresylic Acid C7H8O C B C D A B A A C D B D

Crude Oil, sour - A C C C B B A B D A A A

Crude Oil, sweet - A B A B A A A A B A A A

Cupric Nitrate CuN2O6 D A D D

Cutting Oils, Water Emulsions - A A B B A A A A A A A

Cyanide Plating Solution - D D D B D B B D

Cyclohexane C6H12 A A A B A A A A A C A A A

Cyclohexanone C6H10O A B B B A A A B B D D A A

Detergents, Synthetic - B B A B A B A A B B A A A

Dextrin C18H32O16 B A B B B B A B B A

Dichloroethane C2H4Cl2 B B C B A B B D D B B

Dichloroethyl Ether C4H8Cl2O B B A B A B B D D C D

Diesel Oil Fuels - A A A A A A A A A A A A A

Diethylamine C4H11N B C C B A A A B A B D B

Diethyl Benzene - B D A C

Diethylene Glycol C4H10O3 B B A A B A B B A A B B

Diethyl Sulfate (C2H5)2SO4 A B A B B B A C B A

Dimethyl Formamide C3H7NO B B B B A A A A C B D C

Dimethyl Phthalate C10H10O4 A B D C

Dioxane C4H8O2 B A A B B A A A D D C

Dipentane (Pinene) C10H16 A A A A A A B B A

Disodium Phosphate HNa2O4P B B B B B B B B A

Dowtherm C24H20O A A B B A A A A A D A A

Drilling Mud - B B A A A A A A B B A A

Dry Cleaning Fluids - A C B B A A B B D

Drying Oil - C C C B B B B A

Enamel - A B

Epsom Salts MgO4S B A C A A B A A B B B A B

Ethane C2H6 A B B A A A A B A A A B

Ethers H2O B A B B A A A A A B D C C A

Ethyl Acetate C4H8O2 B B B B B B A A B D D A A

Ethyl Acrylate C5H8O2 B B A B A A A A A D D B

Ethyl Benzene C8H10 A A B B B B A B C A A

Ethyl Bromide C2H5Br B A B B B B B B A

Ethyl Chloride (dry) C2H5Cl B B B B A A A A B C B B

Ethyl Chloride (wet) C2H5Cl D C C D C B B B C C B B

Ethylene Chloride C2H4Cl B C B A B A A D D B

Ethylene Dichloride C2H4Cl2 B B B A B A A A B D D C B

Ethylene Glycol C2H6O2 A B B B B A A B B A A B A

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Ethylene Oxide C2H4O D D B C B B B B B D D C

Ethyl Ether C4H10O B B A B B A B A B D D B

Ethyl Silicate C8H20O4Si B B B B B B B A

Ethyl Sulfate C4H10O4S A D D B A A

Fatty Acids R-COOH C C D D B B A A C B A B A

Ferric Hydroxide FeH3O3 C D A A B A

Ferric Nitrate FeN3O9 D D D D B B A A D D A A D

Ferric Sulfate Fe2O12S3 D C D D B B A A D D A A D

Ferrous Ammonium Citrate C6H(5+4y)Fe(x)N(y)O7 B B A

Ferrous Chloride Cl2Fe D D D D D D D D C A A D

Ferrous Sulfate FeH2O4S C C D D B B A A C A A D

Ferrous Sulfate (Saturated) - C C C C A B C B B

Fertilizer Solutions - D C A A A A A B D B A

Fish Oils - B B A B A A A A A A A A

Flue Gases CO C B A B A A A A C C C

Fluoboric Acid BF4H C C B B B A C A A B

Fluorosilicic Acid F6H2Si D B D D C B B A B C C B A

Formaldehyde (cold) CH4 B B B B B A A A B B D A A

Formaldehyde (hot) CH4 B B C D B C B B B A A

Formic Acid (cold) CH2O2 B D D D C B A A C D B C A

Formic Acid (hot) CH2O2 B D D D B B B D A D A

Freon Gas (dry) - B A B B A A A A C C A

Freon 11, MF,112, BF CCl3F D A B C A A A A B C C D

Freon 12, 32, 114, 115 CCl2F2 B A B B B A A B B B B B

Freon 21, 31 CHCl2F B A B C C A A B B D D A

Freon 22 CHClF2 D A B C A A A B B D D A

Freon 113, TF C2Cl3F3 D A B C C A A B B B D A

Freon (wet) - D B D C B B B B D B

Fruit Juices - B D D D A A A A B B A A C A

Fuel Oil - B B A B A A A B A A A A

Fumaric Acid C4H4O4 B A A

Furfural C5H4O2 A A A B A A A A B D D B

Gallic Acid 5% C7H6O5 B C D D B B B B B B A A

Gas, Manufactured - C B B B A B A A A A

Gas, Natural - B B B B A A A A A A A

Gas, Odorizers - A A B B A B B B A A

Gasoline (aviation) - A A A B A A A A C A A A

Gasoline (leaded) - A A A A A A A B A C A A A

Gasoline (motor) - A A A B A A B C A A A

Gasoline (refined) C12H13N5O6S2 A B B B A B C A A A

Gasoline (sour) - A B B B A C B C A A A

Gasoline (unleaded) - A A A B A A A B A C A A A

Gelatine - A C D D A A A A B B A A B A

Glucose C6H12O6 A A B B A A A A A A A A

Glue - A A A B A B A A A A B A

Glycerine (Glycerol) C3H8O3 A B B B A B A A A C A A A

Glycol Amine - C D A B B B A A C A C C

Glycol C2H6O2 B B B B A B A A A B A C A

Graphite CH4 B B C A B B B B A

Page 9: Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast Iron 304 Stainless Steel 316/316Ti/321 Stainless Steel 440 Stainless Steel 17-4PH Stainless

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Grease - B B A A A A A A B A A B

Helium Gas He B B B A A B B B A

Heptane C7H16 A A A A A A A A A A A A

Hexane C6H14 A A A A A A A A A A A A

Hexanol, Tertiary A A A A A A A A A A B A

Hydraulic Oil Petr. Base - A B A A A A A A A A A B A

Hydrazine H4N2 C D C D A B A B C C C B A

Hydrocyanic Acid CHN C D D C B A B B D B A C A

Hydrofluoric Acid 20% HF D D D D D D D C A C D A D C

Hydrofluoric Acid 50% HF D D D D D D D B C D B D C

Hydrofluoric Acid 75% HF D D D D D D D C D B D C

Hydrofluoric Acid 100% HF D D D D D D D C D B D C

Hydrofluosilicic Acid H2SiF6 D B D D C C B B B B A B

Hydrogen Gas (cold) H A A B A A A A A A B A A

Hydrogen Gas (hot) H C B B B A

Hydrogen Peroxide Conc. H2O2 C D D D B B A C D D B D A

Hydrogen Peroxide, Dilute H2O2 C D D D B B A B D A A D A

Hydrogen Sulfide (dry) H2S C C C C C C B B D C D C A

Hydrogen Sulfide (wet) H2S C C C D C C C C D C D C A

Hypo (Sodium Thiosulfate) Na2S2O3 B C D D B B A B B C A A

Iluminating Gas - A A A A A A A A A

Ink-Newsprint C11H16O3P+ C C D D C A B B B A A B

Iodoform CHI3 C C B C A A A C C D A A

Iso-Butane C4H10 A A B A A A A A A B A A

Iso-Octane C8H18 A A A B A A A A A A A A A

Isopropyl Acetate C5H10O2 B B C B B A A B D D D

Isopropyl Ether C6H14O A A A B A A A A A C D D A

JP-4 Fuel - A A A A A A A A A A A A

JP-5 Fuel - A A A A A A A A A B A A

JP-6 Fuel - A A A A A A A A A A A A

Kerosene - B A B B A A A A A A A A A A

Ketchup - C C C A A A C A A A

Ketones CH2O B A A A A A A A A D D D A

Laquer (and Solvent) - A C D C B B B A A D D D

Lactic Acid Concentrated (cold) C3H6O3 C D D D B A A A D B A C A

Lactic Acid Concentrated (hot) C3H6O3 C D D D B B B D C B C A

Lactic Acid Dilute (cold) C3H6O3 B D D D B A A A C B A B A

Lactic Acid Dilute (hot) C3H6O3 B D D D B A B C C B B A

Lactose C12H22O11 B B C B B B B A

Lard - A B A A A A A B A B A A

Lard Oil - B B C C A B A B C A A A

Lead Acetate C4H6O4Pb D C C D B B B B C A D B

Lead Sulfate O4PbS D C C D C B B B B B B A

Lecithin C46H89NO8P+ B C C C A B B A D B A

Linoleic Acid C18H32O2 B C C B B B B A C B B B

Linseed Oil - A A A A A A A A B A A A A

Lithium Chloride ClLi C B C B A B A A B B B A

Liquid Petroleum Gas (LPG) C3H7NO2 A A A B A B B A A A A

Lubricating Oil Petroleum Base C6H6 A A A A A A A A A A A A

Page 10: Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast Iron 304 Stainless Steel 316/316Ti/321 Stainless Steel 440 Stainless Steel 17-4PH Stainless

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Ludox O2Si C D A B B A A C B B B

Magnesium Bisulfate HMgO4S+ D B B B A A A B A B B A

Magnesium Bisulfade - C D D B B B B A

Magnesium Carbonate CMgO3 A B B B B A A A A B B B A

Magnesium Chloride Cl2Mg D C C D D C A D B B A A A A

Magnesium Hydroxide H2MgO2 D B B B B A A B B A A A

Magnesium Hydroxide (hot) H2MgO2 D C B B B A A A B A A

Magnesium Nitrate MgN2O6 B C B B B A A B C B B A

Magnesium Sulfate MgO4S B B B B A A A B C A A A

Maleic Acid C4H4O4 B B C C A B A B B B B A A A

Maleic Anhydride C4H2O3 B B B A B A B D B D

Malic Acid C4H6O5 B B D D A B A B C A A A A

Malt Beverages - A A A A A

Manganese Carbonate - B B B A

Manganese Sulfate MnO4S B D B D B A B A A B B B

Mayonnaise - D D D B A B B D A A A

Meat Juices - B D A B A

Melamine Resins C3H6N6 D D C C C D B A A

Methanol CH4O A A A A A A A A A B B A A

Mercuric Chloride Cl2Hg D D D D D D D D D A A B A

Mercuric Cyanide C2HgN2 D D D D C B C D D A A A

Mercurous Nitrate HgNO3 D D D D A A A D D B B A

Mercury Hg C D A A A A A A B A A A A A

Methane CH4 A A A A A A A A A A A A

Methyl Acetate C3H6O2 A A B B A A A A B D D B

Methyl Acetone C4H8O A A A A A A A A A D D D

Methyl Amine CH5N B C B B A A A C D D D A

Methyl Bromide 100% CH3Br C C C D B B B B D B A D

Methyl Cellosolve C3H8O2 B A B B B A A A A C D D

Methyl Cellulose - A D C

Methyl Chloride CH3Cl D C A B A A A A B D B C

Methyl Ethyl Ketone C4H8O B A A A A A A A A D D B A

Methylene Chloride CH2Cl2 C B B B B A A A B D C B B

Methyl Formate C2H4O2 B C B A A A A A D D A

Methyl Isobutyle Ketone C6H12O B B A B A A A D D C

Milk & Milk Products - C C C D A A A A A B A A A A

Mineral Oils - A A A B A A A A A A A A A

Mineral Spirits - A B B B A B A B B A A A

Mixed Acids (cold) - D D C C B C D B D

Molasses, crude - B B A A A A A A A A A A A

Molasses, Edible - A B A C A A A A A A A A A

Molybdic Acid H2MoO4 A A

Monochloro Benzene (dry) C6H5CI B B A B A A A B D B C

Morphine C17H19NO3 B B B B A B D D A A

Mustard C4H8Cl2S B A B B A A A A B A A C

Naptha - A A A B A A A A A A B A B A

Napthalene C10H8 A B A B A A A A A D A B A

Natural Gas, Sour - B A A B A A A B A A A B

Nickel Ammonium Sulfate H8N2NiO8S2 D D D D A C D A B C

Page 11: Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast Iron 304 Stainless Steel 316/316Ti/321 Stainless Steel 440 Stainless Steel 17-4PH Stainless

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Nickel Chloride Cl2Ni D D D D D B B C D A A A

Nickel Nitrate N2NiO6 D D D D B B A C C A A C

Nickel Sulfate NiO4S D D D D B B B B C A A B

Nicotinic Acid C6H5NO2 A A C C A B B D B C B

Nitric Acid 10% HNO3 C D D D A B A A D D C A D A

Nitric Acid 30% HNO3 D D D D A B B D D C A D A

Nitric Acid 80% HNO3 D D D D A B C D D D B D B

Nitric Acid 100% HNO3 B D D D A B C D D D B D

Nitric Acid Anhydrous - B D D C B B D D D D A D

Nitrobenzene C6H5NO2 B D A B B A B B B D C B A

Nitrogen N2 A A A A A A A A A A A A

Nitrous Acid 10% HNO2 D D D D B B B D C C A B

Nitrous Gases - B D B C A D B A

Nitrous Oxide N2O B B B C B B B D C B A A

Oils&Fats - B A B A

Oils&Animal - A A A A A B A B A

Oils, Petroleum (refined) C6H6 A B A B A A A A C A D B

Oils, Petroleum (sour) C6H6 A C B C A A A A C A D B

Oils, Water Mixture - A A B B A A A A A A A

Olaic Acid - B B A D

Oleic Acid C18H34O2 B D C C A B B A B C B C C

Oleum H2O4S C C B D B B B C D D A D

Oleum Spirits - D D D B D C A D

Olive Oil - A B B A A A A A A A A A

Oxalic Acid C2H2O4 C C C D B B A B B C C A C A

Oxygen O2 A A A A A A A A A B A D

Ozone (dry) O3 A A A A B A A A A D B C B

Ozone (wet) O3 B B B C A A B D B C B

Paints & Solvents - A A A A A A A D B A

Palmitic Acid C16H32O2 B C C C B B A A B B A A

Palm Oil - A B C C A B A A C B A D

Paper Pulp - C B B A B B B A

Paraffin CnH2n+2 A A B B A A A A A A A A A A

Paraformaldehyde CH2O B B B B B B B A

Paraldehyde C6H12O3 B B A

Pentane C5H12 A A B B B B A A B A A B

Perchlorethylene (dry) C2Cl4 B C B B B A A B B D A B

Petrolatum (Vaseline Petr. Jelly) - B B C C A B A A A A A B

Phenol C6H6O A D C D B A A A A D B C A

Phosphate Ester 10% - C D A C A A C D A A

Phosphate Acid 10% - C D D D C B D B A D A

Phosphoric Acid 50% (cold) H3O4P D D D D D C B D D B A D A

Phosphoric Acid 50% (hot) H3O4P D D D D D C C D D B A D A

Phosphoric Acid 85% (cold) H3O4P D D D D D C C D D C B D A

Phosphoric Acid 85% (hot) H3O4P D D D D D C D D D C D A

Phosphoric Anhydride P2O5 C D B A B C D D D

Phosphorus Trichloride PCl3 C B C A A A A D B D A

Phthalic Acid C8H6O4 C B D C B B A B B C A C A

Phthalic Anhydride C8H4O3 B B D C A B A A B C A C

Page 12: Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast Iron 304 Stainless Steel 316/316Ti/321 Stainless Steel 440 Stainless Steel 17-4PH Stainless

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Picric Acid C6H3N3O7 C D D D B B B D C C A B

Pineapple Juice - A C C C A A A A A

Pine Oil - B B B B A A A A C A A D

Pitch (Bitumen) C6H6 A C A

Polysulfide - C D B B B B B C

Polyvinyl Acetate C6H12O2 B B C B A B B B B A

Polyvinyl Chloride C2H3Cl B D B B B A

Potassium Bicarbonate CHKO3 C A D B A B B B C B A B

Potassium Bichromate Cr2K2O7 B B B A A B B B A

Potassium Bisulfate HKO4S B C C A C C B A A

Potassium Bisulfite HKO4S C C D D B D A A A

Potassium Bromide BrK C C C D B A B B B C A A A

Potassium Carbonate CK2O3 C B B B B A A A A C A A B

Potassium Chlorate ClKO3 B B B B B A A A A C A A B

Potassium Chloride KCl D C C B B B B B B C A A A A

Potassium Chromate CrK2O4 B B B B B B B A A A B A C

Potassium Cyanide KCN D D B B B B A A A D A A C A

Potassium Dichromate Cr2K2O7 B D C C B B A A A C A A B

Potassium Ferricyanide C6FeK3N6 C D C C B A A B A D A A C

Potassium Ferrocyanide C6FeK4N6+4 C C C C B B A A A C A A A

Potassium Hydroxide Dilute (cold) HKO D D B D B B A A D A D C

Potassium Hydroxide to 70% (cold) HKO D D C D B B B A D B D C

Potassium Hydroxide Dilute (hot) HKO D D B D B B C A D B D

Potassium Hydroxide to 70% (hot) HKO D D C D B B C A D C D

Potassium Iodide IK B C B B A B A B D A A A

Potassium Nitrate KNO3 B B B B B B A A A B A A B

Potassium Oxalate C2K2O4 B A B B B A A

Potassium Permanganate KMnO4 B B B B B A B A A B A A C A

Potassium Phosphate (mono) KH2PO4 D C C A B A B A A A

Potassium Phosphate Di-basic K2HPO4 B B A A A B A A A

Potassium Phosphate Tri-basic K3PO4 D A A B B B

Potassium Sulfate K2O4S B C B B B A B A A B A A B

Potassium Sulfide HK2S+ C D D C B A A B D D A A A

Potassium Sulfite K2O3S B B D C B A B C C B A A

Producer Gas - B B B B A B A A A A A

Propane Gas C3H8 A A A A A A A B B A A B

Propyl Bromide C3H7Br B B B B A B B B B A

Propylene Glycol C3H8O2 C B B B B B A A A A A A B A

Pyridine C5H5N B B B B B B B A C B D D B A

Pyrolgalic Acid - B B B B B B A A A A A A D

Quench Oil - A B B B A A A A

Quinine Sulfate (dry) C40H50N4O8S A B A B B A

Resins & Rosins - A A A A A A B A A

Resorcinal C6H6O2 A B C C A A A A B D B B

Road Tar C2H4O3 A A A A A A B A A

Roof Pitch - A A B B A A A

Rosin Emulsion C15H20O6 A A A A A A A A A D C C

R P-1 Fuel - B B C C B B A A B

Rubber Latex Emulsions - C C D D B A B C B A B C

Page 13: Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast Iron 304 Stainless Steel 316/316Ti/321 Stainless Steel 440 Stainless Steel 17-4PH Stainless

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Rubber solvents - B B C C A B A B A A A

Salad Oil - B B D B B A B B B A B A

Salicylic Acid C7H6O3 B C

Salt (NaCl) NaCl+H2O B D C D C B B A A A B A A

Salt Brine NaCl C C C D B B A B C A B B

Sauerkraut Brine - A B A B A A A A A A A A

Sea Water - B B B B A B B A A

Sewage - D D C C B D D

Shellac - D D D D B B D B B D

Silicone Fluids Si D D D D B A B D D C A A A

Silver Bromide AgBr B A B A A

Silver Cyanide CAgN C B B B A A A B B A A A

Silver Nitrate CAgN B B C C B B A B B B B D B

Silver Plating sol. - D B B C A A A B B A A B

Soap Solutions (Stearates) C21H42O4 B B A A A B B B A

Sodium Acetate C2H4O2 C B C C A B B A A B A A A

Sodium Aluminate AlNaO2 B A A A A C D A

Sodium Benzoate C7H6O2 D D D D A A A B C A A B

Sodium Bicarbonate CHNaO3 C B D D B A A B C B A A C

Sodium Bichromate Cr2Na2O7 C B C C B B A A A A A A A

Sodium Bisulfate 10% H2NaO4S D B C D C B A B B B A A A

Sodium Bisulfite 10% HNaO3S D B D D A A B A A D

Sodium Borate C15H22O2 B B C C B A B A A A A

Sodium Bromide 10% BrNa B B C D B B A A A

Sodium Carbonate (Soda Ash) CNa2O3 D B B B A B A B B A A B A

Sodium Chlorate ClNaO3 C B B C A B A A C B A A A

Sodium Chloride ClNa B C B C B B B B B B A A B A

Sodium Chromate CrNa2O4 B C B B B A A A B A A D

Sodium Citrate C6H5Na3O7 D A A

Sodium Cyanide CNNa D D B B A A A B B D A A A

Sodium Ferricyanide C6FeN6Na3 B C B B B B C A

Sodium Fluoride FNa B C D D D B C B B B A A A

Sodium Hydroxide 20% (cold) NaOH D C A A B A A A B A B B A

Sodium Hydroxide 20% (hot) NaOH D C B B A B B B B C C A

Sodium Hydroxide 50% (cold) NaOH D D A B B A A A D A C C A

Sodium Hydroxide 50% (hot) NaOH D D B B A B B D B C C A

Sodium Hydroxide 70% (cold) NaOH D D C B C A A A D B D D A

Sodium Hydroxide 70% (hot) NaOH D D C B A B B D D D D A

Sodium Hypochlorite (Bleach) ClNaO D D D D D D D D D B B D A

Sodium Hyposulfite Na2S2O4 B B B A

Sodium Lactate C3H5NaO3 D A B A

Sodium Metaphosphate Na6O18P6 C D C B A B A B B A A B

Sodium Metasilicate (cold) Na2O3Si D B B C A A A A A B B D

Sodium Metasillicate (hot) Na2O3Si D B C D A A A D

Sodium Nitrate NNaO3 B B B B B A A B B B C A A A

Sodium Nitrite NNaO2 A B B A B A B B C B B

Sodium Perborate BNaO3 C D B C B C A A B C A B

Sodium Peroxide Na2O2 C C C D A B A A D C A D B

Sodium Phosphate (mono) NaH2PO4 D C B D B B A B C B A B

Page 14: Conveyor Equipment Manufacturers Association · Aluminum Brass Carbon Steel Ductile Iron / Cast Iron 304 Stainless Steel 316/316Ti/321 Stainless Steel 440 Stainless Steel 17-4PH Stainless

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Sodium Phosphate Di-basic Na2HPO4 D C C C A B A B C A A A

Sodium Phosphate Tri-basic Na3PO4 D C C C A B A B C B A A

Sodium Polyphosphate Na6O18P6 D D D B B B B C B A B

Sodium Salicylate C7H5NaO3 A A C

Sodium Silicate Na2O3Si B C B B A B A A D A A C A

Sodium Silicate (hot) Na2O3Si C D C C B B B D C A

Sodium Sulfate Na2O4S A B B B B A C A A B A A B

Sodium Sulfide HNaS D D C B B B A A D A A B A

Sodium Sulfite NaO3S- C C B A B A A C B A B A

Sodium Tetraborate C15H22O2 C D A A A A B A A B

Sodium Thiosulfate Na2S2O3 A D C C A B A B B A A C

Soybean Oil - B B C C A A A A A A A D

Starch C27H48O20 B B B B A A A A B A A A A

Steam (212°F) - B B A A A A A A B D C D

Stearic Acid C18H36O2 B C C C B B A A A B A A A A

Styrene C8H8 A A B B A A A A B D B A

Sugar Liquids - A A B B A A A A A A A A A A

Sugar, Syrups & Jam - B B B C A A A C A A

Sulfate Black Liquor H2O4S D C C C B B A B D C B D

Sulfate Green Liquor H2O4S D C C C B B A B D C B D

Sulfate White Liquor H2O4S D C C C B B B C D C B D A

Sulfur S C C C C A B A B D D B B A

Sulfur Chloride SCl D D D D D D D D D C D A D

Sulfur Dioxide (dry) SO2 B B B B C A A B B D A B A

Sulfur Dioxide (wet) SO2 B D D B C A D D B A

Sulfur Hexafluoride SF6 A B A B B D

Sulfur, Molten - A D C B A B A C D B D

Sulfur Trioxide SO3 A D B B A B B A C D B D D

Sulfur Trioxide (dry) SO3 A C B B D B B B B D A D D

Sulfuric Acid 0 to 77% H2SO4 D D D D D C C C D B A D A

Sulfuric Acid 100% H2SO4 D D C C C C C C D D B D A

Sulfurous Acid H2O3S C D D D B B C B B D C A C A

Tall Oil - C B B B A A A A B B A A

Tannic Acid (Tannin) C27H24O18 C B C C B B A B B B B A B A

Tanning Liquors C27H24O18 A A A A A A A B A B

Tar & Tar Oils C2H4O3 B A A A A A A A A C A A

Tartaric Acid C4H6O6 B D D D C A B A A B C A B A

Tetraethyl Lead C8H20Pb B B B C A B A A A B A A

Toluol (Toluene) C7H8 A A A A A A A A A D B C B

Tomato Juice - A C B C A A A A B A A B

Transformer Oil - A B A B A A A A A A A A A

Tributyl Phosphate C12H27O4P A A A A A A A A B D D A A

Trichlorethylene C2HCl3 B A B C B B A A B D B C

Trichloroacetic Acid C2HCl3O2 D B D D D C B B C C D A

Triethanolamine C6H15NO3 B C C A B A A C C D A A

Triethylamine C6H15NO3 B A B A B C D

Trisodium Phosphate Na3O4P D A B B A A A C A B A

Tung Oil - B B B B A A A A B A A A

Turpentine C10H16 A C B B A B A A B B A A A

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CHEMICAL COMBATIBILITY CHART

Alu

min

um

Bra

ss

Ca

rbo

n S

tee

l

Duc

tile

Iron

/ C

ast

Iron

304

Sta

inle

ss S

teel

316/

316T

i/321

Sta

inle

ss S

tee

l

440

Sta

inle

ss S

teel

17-4

PH

Sta

inle

ss S

teel

Mo

ne

l

Bro

nze

Bun

a N

(N

itrile

)

Vito

n

Del

rin®

UH

MW

PE

®

Urea CH4N2O B B C C B B A B C C C A A

Uric Acid C5H4N4O3 C B A B B B

Varnish - A B C C A A A A A A C B A

Vegetable Oils - A B A B A A A A B A A A

Vinegar C2H4O2 D C D D A A A A A C C C B

Vinyl Acetate C4H6O2 B B A B B B A B C D C C

Water (distilled) H2O A B C D A A A A A A B B A

Water (fresh) H2O A B C C A A A A A A B A

Water (acid mine) - D D D D B B A B C A D A

Waxes - A A A A A A A A A

Whiskey & Wines - C B D D A A A A A B A A A

Xylene, Xylol (dry) C24H30 A A B B B A A A A D B A B

Zinc Bromide Br2Zn D B D D B B B B A

Zinc Hydrosulfite ZnS2O4 D C A B A A B D A A C

Zinc Sulfate ZnSO4 D C C D B B A A B C A A C

Zinc Zn C A A A

A = Excellent B = Good C = Poor D = Do not use Blank = No information available

Ratings are based at room temperatures unless otherwise specified.

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Unit Handling Conveyors

OVERHEAD TROLLEY CHAIN CONVEYORS

CEMA Std. 601-2019 - Draft 3Revision of CEMA Std. 601-1995

Approved: XXXX

Conveyor Equipment Manufacturers Association

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CEMA Std. 601 - 2019

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DISCLAIMER

The information provided herein is advisory only.

These recommendations provided by CEMA are general in nature and are not intended as a substitute for professional advice. Users should seek the advice, supervision and/or consultation of qualified engineers, safety consultants, and other qualified professionals.

Any use of this publication, or any information contained herein, or any other CEMA publication is made with the agreement and understanding that the user and the user’s company assume full responsibility for the designs, safety, specifications, suitability and adequacy of any conveyor system, system component, mechanical or electrical device designed or manufactured using this information.

The user and the user’s company understand and agree that CEMA, its member companies, its officers, agents and employees are not and shall not be liable in any manner under any theory of liability to anyone for reliance on or use of these recommendations. The user and the user’s companies agree to release, hold harmless and indemnify and defend CEMA, its member companies, successors, assigns, officers, agents and employees from any and all claims of liability, costs, fees (including attorney’s fees), or damages arising in any way out of the use of this information.

CEMA and its member companies, successors, assigns, officers, agents and employees make no representations or warranties whatsoever, either expressed or implied, about the information contained herein, including, but not limited to, representations or warranties that the information and recommendations contained herein conform to any federal, state or local laws, regulations, guidelines or ordinances.

Conveyor Equipment Manufacturers Association

5672 Strand Ct., Suite 2Naples, Florida 34110-3314

www.cemanet.org

Copyright © 2019 All rights reserved.

ISBN - 1-891171-50-X

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TABLE OF CONTENTS

Section PageI INTRODUCTION 4II DEFINITIONS FOR TROLLEY CHAIN CONVEYORS 7III CONVEYOR COMPONENTS 10

Rivetless Chain Dimensions - Drop Forged 10 Trolley Dimensions 11 Vertical Bolts 11 Horizontal Bolts 13 For X-228 Chain 15 Trolley Attachments Dimensions - Vertical Bolts 16 Trolley Attachments Dimensions - Horizontal Bolts 18 Roller Turn Dimensions 20 Traction Wheel Turn Dimensions 21

IV DESIGN PROCEDURE AND ENGINEERING DATA 22 Overhead Trolley Conveyor Symbols - Plan View 22 Typical Trolley Conveyor Installation 23 Design Steps 24 Conveyor Drives 29 Types of Drives 29 Standard Drive Speed Ranges 29 Guards - Typical Sections 32

V VERTICAL CURVE DATA 33 Vertical Curve Beam Radii for Overhead Conveyors as Related to Trolley Spacing 33 Compound Vertical Curve 34

VI TROUBLESHOOTING, LUBRICATION GUIDE AND INSPECTION CHECKLIST 37 Troubleshooting Guide 37 Lubrication Guide for Overhead Monorail Conveyors 39 Equipment, Maintenance and Services 40 Suggested Inspection Checklist for Trolley Conveyor Systems 40

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SECTION I - INTRODUCTION

Overhead Monorail ConveyorThe overhead trolley chain conveyor is an extremely flexible material handling means. This is due in part because

its design is based upon a single rail from which the conveying means and the product is suspended, normally over other work areas. It can be installed to follow almost any path, changing direction vertically or horizontally. Using multiple drives, a single path can be typically several 1000 ft long.

Although monorail conveyors are most commonly thought of in relation to automotive or appliance manufacturing, they are used in practically every industry worldwide. Moving product through processes, conveying finished goods to staging or shipping and returning of fixtures are normal applications.

In certain environments, humans cannot survive or human health is endangered, yet conveying means are essential. Under many conditions, other types of conveyors are not practical or would not have acceptable life expectancy. The overhead monorail conveyor combines its directional flexibility (horizontal and vertical curve movement) with its tolerance to adverse environments to broaden its applications to user requirements.

Beyond warehouse and material transportation in ambient indoor or outdoor environments, other industrial applications for product processing include:

• Washing/cleaning/finishing• Phosphatizing or similar treatments • Solvent degreasing• Paint stripping• Baking/drying• Prime and finish painting• Freezing• Cooling• Clean room• Food and pharmaceutical handling• Other selection tote return• Irradiation

Product carriers are especially designed to suit secure handling while providing ease in loading and unloading, whether this is done manually, semi-automatically, or automatically. Further design considerations are required where the product is processed and not merely transported.

With adequate part (or carrier) clearance within recommended allowable loading, any type of product may be transported. Carriers may be in the form of hooks, slings, boxes, fixtures, racks, trays, baskets, or one of other numerous configurations designed to suit the application requirement.

The preferred conveyor system uses standard components wherever possible in the principal interest of economics (minimum cost). Countless specially designed components are available and are used where required. In this event, it is recommended that the manufacturer be consulted. While this standard relates to continuous powered chain monorail conveyors, overhead monorail conveyors fall into four main classifications:

• Horizontal manual push monorail conveyor• Continuous powered (chain/cable) monorail conveyor • Power and free monorail conveyor• Electrified monorail conveyor

Typically each of these classifications relies upon a track section that is either floor supported or is suspended

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with "hanging steel" from the building structure. Under-guarding is required in areas below the conveyor path anywhere that area is accessible to people. The under-guarding must be properly labeled cautioning against its use as service access and should not be accessible to any but maintenance personnel.

Horizontal Manual Push Monorail ConveyorHorizontal Manual Push Monorail Conveyors generally utilize either an “I” beam track with wheeled trolleys

running on the beam flanges or they utilize a box formed, tubular or fabricated “enclosed “track with internal trolleys running on the inside track flanges. Products, or carriers designed to support the product can be suspended from one or more trolleys dependent upon capacity and curve clearance requirements. Because trolleys are independent of each other, and rely on an operator to move the trolley, manual push monorail conveyors can be very flexible and are not restricted to only straight line or circular paths, layouts can also provide for change of carrier direction. The layout can include not only curved track sections but also track switches and spurs, trolley escapements and stops and also trolley turntables. In more sophisticated arrangements, gravity flow of carriers on pitched track sections can be included. However, keep in mind that in gravity applications, the carrier either manually or with a powered assist, must be returned to the higher track elevations, a version of Power and Free Monorail. (Inverted “T” section tracks and light tubular tracks are offered by some manufacturers for very light duty applications).

Continuous Powered (chain/cable) Monorail ConveyorContinuous Powered (chain/cable) Monorail Conveyors, similarly, utilize both the “I” beam track and the

enclosed track configurations. With the “I” beam track, intermittently spaced trolleys are connected in series, to each other, by rivetless chain, coil chain or cable depending upon the manufacturer’s design. Enclosed track designs for powered monorail, typically integrate both horizontal guide wheels and vertical load carrying wheels into the interconnecting chain (not an independent trolley) which then runs within the enclosed track. As with the manual push monorail, the powered variant utilizes a box formed, tubular or fabricated enclosed track section. Product or carriers designed to support the product are suspended from one or more attachments/pendants extending below the track. On the “I” beam track variant, the attachment/pendant is bolted into and between the trolley halves, while with the enclosed track variant the attachment/pendant mounts onto an axle within the chain. (Inverted “T” section tracks and light tubular tracks are offered by some manufacturers for very light duty applications).

Power and Free Monorail ConveyorPower and Free Monorail conveyors, combine the best features of both non-powered/manual push, and powered

conveyors. These conveyors offer the directional flexibility and manual interaction of the manual push systems, but also can incorporate the powering of product carriers to multiple destinations.

Most power and free designs consist of two parallel tracks either configured as “side by side” or “over/under”. These arrangements, which vary by manufacturer, provide for one of the tracks to support the load bearing trolley/trolleys and carrier/load bar from which the product and/or carrier is suspended. The parallel powered track incorporates drive mechanism and the power chain that provides the motive force. Most often, a chain/trolley attachment (pusher dog assembly) attached to the chain on the power track latches onto a mating provision on the load bearing trolley. This latching feature can be released or reengaged to allow for mechanical control and in the “side by side” configuration can reroute to move the power interface to the other side of the carrier/load bar.

Product carriers may be tracked/routed thru the system by several control methods or even by creating and utilizing a carriers’ unique “bar code” or "license plate” identity. At decision points within the system, carriers can be “actively” accumulated, diverted into spur sections, and stopped and/or positioned for automated interface. This can also allow for real time management updates of process elements. Other complex actions such as automatic carrier loading/unloading and carrier rotation can be incorporated into the design. More costly than a straight power overhead monorail conveyor, power and free conveyors incorporate significantly more sophisticated hardware, controls, software, and installation elements but can also provide for a controllable process and reporting system.

Electrified Monorail ConveyorAn Electrified Monorail Conveyor (EMC) is an overhead or inverted conveyor where each carrier is self-powered

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via individual electrical gear motors and controls. Typically, conductor bars are mounted to a single track supplying the electrical power, control and communication to the individual carriers.

EMC systems are well suited to flexible production systems. The conveyor has the ability to operate at a wide range of speeds from creep to over 300 fpm, along with acceleration, deceleration and precise braking functions. Transport/Delivery and Assembly are ideal applications for an EMC because of the increased speed and control flexibility capabilities. Another good application for EMC can be long delivery buffer and storage systems. However, the relative high cost of individual motorized carriers, compared with the cost of the product, the product they are carrying could offset this advantage.

There are several key elements that contribute to the flexibility of an EMC system layout. Switches of the sliding or rotating type allow for carriers to transfer horizontally from one monorail and/or process to another. Vertical drop/lift stations or incline and decline rails are other key elements that makes EMC a versatile system.

Because of its high speed and positioning capabilities and flexibility the EMC is compatible with a variety of manufacturing processes from storage/delivery systems to automated build lines to sortation systems. The EMC interface/transit time in/out requirements is relatively low, thus minimizing transfer time in and out of the manufacturing process.

Specific Safety Standards (Reference ANSI B20.1)Safety Considerations

a) In areas where the parted chain, cable, or other linkage would permit a runaway condition on an inclined or declined section, and where personnel are present, anti-runaway devices shall be provided. The conveyor path may be arranged so that travel of the uncontrolled conveyor will be arrested before it enters an area where personnel are present.

b) In areas where personnel perform work of a moving conveyor and guards would impair the workers' performance, the load shall be cradled, hooked, bolted, or otherwise attached to the carrier.

Guardinga) Nip points occur at traction wheels, sprockets, caterpillar drives, and roller turns and shall be guarded unless

guarded by location.b) The telltale effect of the moving conveyor components serves as a warning device and permits unguarded

nip or shear points at heights of less than 2.44 m (8 ft).c) Automatic stops or closures shall prevent a trolley or trolleys from moving off the track during the portion

of a cycle when any track end is not aligned with its mating member.d) Hoisting equipment for lift sections or drop sections or both shall stop or control the vertical motion in the

event of power failure.e) On inclined or declined conveyors or sections, where personnel are present and there may be an occurrence

of uncontrolled movement of a free trolley, arresting devices shall be provided. A rigid pusher dog on the power chain with positive carrier engagement shall be considered and acceptable means, or the conveyor path may be arranged so that travel of the uncontrolled free trolley, carrier, or load, or combination thereof, will be arrested before it enters the personnel area.

f) Guards shall be provided to restrict unauthorized personnel from entering hazardous loading, unloading, and transfer areas. When guarding is not feasible, clear and legible warnings shall be provided.

g) Access to lift or drop sections shall be guarded to prevent unauthorized personnel from entering the area. Warning signs shall be posted where guarding is not feasible, unless access to lift or drop sections is guarded by location.

h) Where conveyors are located above personnel, and the possibility exists that the transported product may fall off for any cause, guards (spill guards) shall be provided.

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SECTION II - DEFINITIONS FOR TROLLEY CHAIN CONVEYORS

Adjustable Speed Drive - A type of drive designed with a speed changing device by which the speed of the conveyor can be changed.

Air-operated Take-up - A take-up mechanism where adjustments are made automatically by an air cylinder.

Antibackup - See Backstop.

Antirunaway - A safety device to stop a declining conveyor and thus prevent running away in event of an electrical or mechanical failure.

Automatic lubricator - A device used to lubricate the chain, trolley wheels, or other conveyor components automatically as they pass.

Automatic Take-up - A take-up mechanism where adjustments are made automatically.

Backstop - A mechanical device to prevent reversal of a loaded conveyor under action of gravity when forward travel is interrupted.

Backup Bar - A metal bar used to back up the caterpillar chain of a drive to hold the drive chain dogs in proper contact with the conveyor chain.

Backup Rollers - Series of rollers so mounted as to back up the conveyor chain to hold it in proper relation to the caterpillar chain dogs.

Balanced Drives - Drives so designed that two or more such drives on a single conveyor may be synchronized to pull predetermined shares of the load.

Beam Clamp - A device for gripping the flange of supporting beams or trusses for the purpose of suspending from same a structure such as a conveyor frame or track.

Bracing - Diagonal or horizontal members used to prevent swaying in conveyor supporting structure.

Caterpillar Chain - A short endless chain on which dogs or teeth are spaced to mesh with and move, or be moved by, a conveyor chain.

Caterpillar Chain Dog - A dog or tooth attached to a caterpillar drive chain to provide the driving contact with the conveyor chain.

Caterpillar Drive - A drive equipped with a caterpillar chain to engage with, and provide the propelling force to the conveyor chain.

Caterpillar Chain Take-up Sprocket - The non-driving sprocket of a caterpillar drive, adjustable for proper tensioning of the caterpillar chain.

Center Link - The loop-shaped link of rivetless chain which provides the bearing surfaces for the pins and permits passage of the trolley load support members through the chain.

Chain Pin - The pin that is used to connect succeeding links of a chain about which the links pivot.

Change of Elevation - Vertical distance between the upper horizontal track of a vertical curve to the corresponding

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point on the lower horizontal track.

Compound Vertical Curve - An assembly of two single vertical curves with necessary connecting track to accomplish a change in elevation.

Conveyor Guard - A structure mounted below the conveyor path to protect personnel and equipment below.

Counterweighted Take-up - A take-up mechanism where the adjustment is made automatically by the potential energy of weights.

Drive Frame - The structure which supports the drive shaft assembly and machine parts and which contains or supports the motive power or supports the assembly to which the motive power is connected.

Drive Shaft - Main driving shaft on which the conveyor sprocket is mounted.

Drive Sprocket - Sprocket of a caterpillar drive or of a sprocket drive.

Drop - The vertical distance from the bottom of the track to centerline of the chain.

Finger Guard - Enclosure around trolleys and chain to protect personnel nip/pinch points.

Hanger Steel - Angles or rods by which a conveyor is hung from supports above.

Link - A chain unit of one pitch length.

Load Bar - A device to distribute a load over two or more trolleys.

Machinery Guard - A covering or barricade for safety purposes such as gear, chain, and V-belt guards.

Multiple Drives - Two or more motorized and load-sharing drives applied to a single conveyor for the purpose of reducing the chain tension over the entire conveyor length.

Rivetless Chain - A completely forged, heat-treated chain comprised of pins, side links, and center links which can be assembled or disassembled without the use of tools.

Roller Turn - A series of vertical rollers mounted in a frame to guide a conveyor chain around a horizontal curve.

Roller Turn Roller - The vertical roller with integral bearings as used in the roller turn.

Screw Take-up - A take-up mechanism having provision for manual adjustment by one or more screws.

Side Link - That portion of the chain which longitudinally connects joint portions at each end of the center link with chain pins.

Single Vertical Curve - A section of track bent in a desired curve to change the direction of a conveyor in the vertical plane.

Spring Take-up - A take-up mechanism where adjustments are made automatically by the potential energy of springs.

Sprocket Drive - A conveyor chain driving unit using a sprocket to transmit power to the chain, located at a turn of approximately 90° or more.

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Superstructure - Members to which the hanger steel is connected and which transfer the load to the building members or floor support columns.

Take-up - The assembly of the necessary structural and mechanical parts which provides the means to adjust the conveyor length to compensate for chain stretch, shrink, or wear and to maintain proper tension.

Track - The I-beam section on which trolley wheels roll while being propelled.

Traction Wheel - A smooth, straight face wheel without dogs or teeth.

Traction Wheel Turn - See Wheel Turn.

Trolley - An assembly of two half-trolleys (each with wheel, bearing, and bracket) and an attachment. It is used to support and move suspended loads and to carry the load connecting and conveying chain.

Trolley Attachments - Trolley attachment configurations vary depending on the product being transported.• "B" Bolt Attachment - A trolley attachment having a threaded rod projection for attaching a load bar or various

objects. • "H" Clevis Attachment - A forked or clevis type trolley attachment• "I" Idler Attachment - An attachment used to complete the assembly of a non-load carrying trolley.• "C" Pendant Attachment - A single bar trolley attachment projecting through the chain having a single hole for

supporting loads.

Trolley Brackets - Drop forged, cast, or pressed steel members to which the trolley wheels are attached with provision for connecting to the chain.

Trolley Conveyor - A series of trolleys supported from an overhead track and connected by an endless propelling chain with load usually suspended from the trolley. Trolley conveyors may be designed for single or multiple plane operation.

Trolley Wheel - The wheel with integral bearing mounted to the trolley bracket. • Full Complement - Maximum number of balls without a retainer. • Retainer - Balls are separated by a retainer for low friction.

Wheel Turn - A horizontal turn employing a traction wheel which guides the conveyor chain around a horizontal curve.

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SECTION III - CONVEYOR COMPONENTS

Rivetless Chain Dimensions - Drop Forged

Chain Type

A*Nominal

Pitch[in (mm)]

BHeight of

Center Link

[in (mm)]

CMax.

Width of Chain

[in (mm)]

DHeight of

Center Link at

Flat[in (mm)]

E Max.

Overall Length of

Pin[in (mm)]

FDiameter

of Pin[in (mm)]

GMin.

Length of Pin

Between Heads

[in (mm)]

HMin.

Lengthof Flat on

Center Link

[in (mm)]

IMin.

Inside Width of Center

Link[in (mm)]

X-228 (X-50-6) 2 (50.8) 0.47

(11.91)0.69

(17.46)0.38

(9.53)1.13

(28.57)0.25

(6.35)0.83

(21.03)1.06

(26.99)0.31

(7.94)X-348

(X-75-13) 3 (76.2) 0.75 (19.05)

1.09 (27.78)

0.5(12.7)

1.84 (46.83)

0.5(12.7)

1.28 (32.54)

1.63 (41.28)

0.56 (14.29)

X-458 (X-100-16) 4 (101.6) 1

(25.4)1.41

(35.72)0.63

(15.88)2.25

(57.15)0.63

(15.88)1.63

(41.28)2.25

(57.15)0.69

(17.46)X-678

(X-150-22) 6 (152.4) 1.28 (32.54)

2(50.8)

0.81 (20.64)

3.13 (79.38)

0.88 (22.23)

2.25 (57.15)

3.38 (85.73)

0.97 (24.61)

* Actual pitch varies from nominal.

Average Length of Production Chain

ChainType

Average Length of Nominal 10 ft Strand

[in (mm)]

Assembled Weight[lbs/ft (kg/m)]

X-228 (X-50-6) 120.60 (3063.24) 0.75 (1.12)

X-348 (X-75-13) 120.60 (3063.24) 2.10 (3.13)

X-458 (X-100-16) 120.80 (3068.32) 3.10 (4.61)

X-678 (X-150-22) 120.90 (3070.86) 6.10 (9.08)

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Trolley Dimensions - Vertical Bolts (most common)

I-Beam Size Chain Type

Drop[in (mm)]

H Max.Width of Trolley Bracket

[in (mm)]

JCenterline of Lubrication

Fitting to Bottom of

Beam[in (mm)]

K Min.Minimum Distance Between

Wheel Inside Faces

[in (mm)]

L Max.Overall

Width of Trolley

Assembly[in (mm)]

3 in @ 5.7 lbs/ft(76.2 mm @ 8.48 kg/m)

X-348(X-75-13) 2.5 (63.5) 1.63 (41.28) 1.44 (36.51) 0.63 (15.88) 4.25 (107.95)

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16)

3.19 (80.96) 2.25 (57.15) 1.88 (47.63) 0.63 (15.88) 5.38 (136.53)4 (101.6) 2.25 (57.15) 1.88 (47.63) 0.63 (15.88) 5.5 (139.7)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 4 (101.6) 3.38 (85.73) 2.69 (68.26) 0.75 (19.05) 7.63 (193.68)

I-Beam Size Chain Type

M Max.Clearance Width of Trolley

Bracket at Lubrication

Fitting[in (mm)]

NCenterline of Chain to Centerline of Upper Bolt Hole[in (mm)]

OCenterline of Chain to Centerline of Lower Bolt Hole[in (mm)]

P Min.Interface of Dimension

from Centerline of Chain

to Trolley Bracket

[in (mm)]

Q Max.Centerline of Chain to Bottom of

Bracket[in (mm)]

3 in @ 5.7 lbs/ft(76.2 mm @ 8.48 kg/m)

X-348(X-75-13) 3.81 (96.84) 1 (25.4) 0.88 (22.23) 1.06 (26.99) 1.31 (33.34)

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16)

4.63 (117.48) 1.31 (33.34) 0.81 (20.64) 1.25 (31.75) 1.31 (33.34)4.63 (117.48) 1.31 (33.34) 0.81 (20.64) 1.25 (31.75) 1.31 (33.34)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 7.63 (193.68) 1.63 (41.27) 1.13 (28.58) 1.56 (39.69) 1.75 (44.45)

NOTE: P Min. is measured vertically at outside edge of chain.

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I-Beam Size Chain Type

RThickness of Attachments

[in (mm)]

SDiameter of Mounting

Bolts[in (mm)]

T Min.Slope of Wheels

from the Vertical[deg.]

3 in @ 5.7 lbs/ft(76.2 mm @ 8.48 kg/m)

X-348(X-75-13) 0.25 (6.35) 0.31 (7.94) 1

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16)

0.38 (9.53) 0.38 (9.53) 10.38 (9.53) 0.38 (9.53) 1

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 0.5 (12.7) 0.5 (12.7) 1

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Trolley Dimensions - Horizontal Bolts

I-Beam Size Chain Type

Drop[in (mm)]

H Max.Width of Trolley Bracket

[in (mm)]

JCenterline of Lubrication

Fitting to Bottom of

Beam[in (mm)]

K Min.Minimum Distance Between

Wheel Inside Faces

[in (mm)]

L Max.Overall

Width of Trolley

Assembly[in (mm)]

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16)

3.81 (96.84) 2.25 (57.15) 1.88 (47.63) 0.63 (15.88) 5.38 (136.53)4 (101.6) 2.25 (57.15) 1.88 (47.63) 0.63 (15.88) 5.5 (139.7)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 4 (101.6) 3.38 (85.73) 2.69 (68.26) 0.75 (19.05) 7.63 (193.68)

I-Beam Size Chain Type

M Max.Clearance Width of Trolley

Bracket at Lubrication

Fitting[in (mm)]

NCenterline of Chain to Centerline of Upper Bolt Hole[in (mm)]

P Min.Interface of Dimension

from Centerline of Chain

to Trolley Bracket

[in (mm)]

RThickness of Attachments

[in (mm)]

SDiameter of Mounting

Bolts[in (mm)]

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16)

4.94 (125.41) 1.88 (47.63) 1.25 (31.75) 0.63 (15.88) 0.38 (9.53)4.75 (120.65) 2 (50.8) 1.25 (31.75) 0.63 (15.88) 0.38 (9.53)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 7.63 (193.68) 2.5 (63.5) 1.56 (39.69) 0.88 (22.23) 0.5 (12.7)

NOTE: P Min. is measured vertically at outside edge of chain

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I-Beam Size Chain Type

T Min.Slope of

Wheels from the Vertical

[deg.]

WDistance Between

Centerline of Bolt Holes[in (mm)]

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16)

2 1.38 (34.93)2 1.38 (34.93)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 2 2 (50.8)

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Trolley Dimensions - For X-228 Chain

I-Beam Size Chain Type

Drop[in (mm)]

H Max.Width of Trolley Bracket

[in (mm)]

JCenterline of Lubrication

Fitting to Bottom of

Beam[in (mm)]

K Min.Minimum Distance Between

Wheel Inside Faces

[in (mm)]

L Max.Overall

Width of Trolley

Assembly[in (mm)]

2 in @ 3.76 lbs/ft(50.8 mm @ 5.59 kg/m)

X-228(X-50-6) 1.88 (47.63) 1 (25.4) 0.56 (14.29) 4.69 (119.06) 3.5 (88.9)

I-Beam Size Chain Type

M Max.Clearance Width of Trolley

Bracket at Lubrication

Fitting[in (mm)]

NCenterline of Chain to Centerline of Upper Bolt Hole[in (mm)]

OCenterline of Chain to Centerline of Lower Bolt Hole[in (mm)]

P Min.Interface of Dimension

from Centerline of Chain

to Trolley Bracket

[in (mm)]

Q Max.Centerline of Chain to Bottom of

Bracket[in (mm)]

2 in @ 3.76 lbs/ft(50.8 mm @ 5.59 kg/m)

X-228(X-50-6) 0.75 (19.05) 1.91 (48.42) 0.97 (24.61) 3.41 (86.52) 0.25 (6.35)

NOTE: P Min. is measured vertically at outside edge of chain

I-Beam Size Chain Type

RThickness of Attachments

[in (mm)]

SDiameter of Mounting

Bolts[in (mm)]

T Min.Slope of Wheels

from the Vertical[deg.]

2 in @ 3.76 lbs/ft(50.8 mm @ 5.59 kg/m)

X-228(X-50-6) 0.19 (4.76) 1.03 (26.19) 5.5

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Trolley Attachment Dimensions - Vertical Bolts (Most Common)

I-Beam Size

Chain Type

NCenterline of Chain to Centerline

of Bolt Holes

[in (mm)]

RThickness

of Attachment

[in (mm)]

SDiameter of Mounting

Bolts[in (mm)]

UWidth of Opening Between

Assembled Clevis Halves

[in (mm)]

VWidth of

Attachment[in (mm)]

3 in @ 5.7 lbs/ft(76.2 mm @ 8.48 kg/m)

X-348(X-75-13) 1 (25.4) 0.25 (6.35) 0.31 (7.94) 0.56 (14.29) 1.5 (38.1)

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16) 1.31 (33.34) 0.38 (9.53) 0.38 (9.53) 0.69 (17.46) 2.13 (53.98)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 1.63 (41.28) 0.5 (12.7) 0.5 (12.7) 0.81 (20.64) 3 (76.2)

I-Beam Size Chain Type

WDistance Between

Centerlines of Bolt Holes

[in (mm)]

XCenterline of Chain to Centerline

of Load Mounting

Hole[in (mm)]

Y Centerline of Load

Mounting Hole to

Bottom of Attachment

[in (mm)]

ZHole

Diameter for Load

Mounting[in (mm)]

AADiameter of Rod on Bolt Attachment

[in (mm)]

3 in @ 5.7 lbs/ft(76.2 mm @ 8.48 kg/m)

X-348(X-75-13) 1.88 (47.63) 3.13 (79.38) 0.63 (15.88) 0.5 (12.7) 0.5 (12.7)

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16) 2.13 (53.98) 2.88 (73.03) 0.75 (19.05) 0.5 (12.7) 0.63 (15.88)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 2.75 (69.85) 3.63 (92.08) 1.13 (28.58) 0.75 (19.05) 0.88 (22.23)

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I-Beam Size Chain Type

ABThickness of Clevis

Half[in (mm)]

ACOverall

Length of Rod on Bolt Attachment

[in (mm)]

ADCenterline

of Load Mounting

Hole to Inside Bend

Line of Clevis Attachment

[in (mm)]

AECenterline of Chain

to Bottom of Bolt

Attachment[in (mm)]

3 in @ 5.7 lbs/ft(76.2 mm @ 8.48 kg/m)

X-348(X-75-13) 0.13 (3.18) 1.81 (46.04) 1 (25.4) 4.25 (107.95)

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16) 0.19 (4.76) 2.13 (53.98) 1 (25.4) 4.94 (125.41)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 0.25 (6.35) 3 (76.2) 1.13 (28.58) 6.13 (155.58)

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Trolley Attachment Dimensions - Horizontal Bolts

I-Beam Size Chain Type

NCenterline of Chain to Centerline

of Bolt Holes

[in (mm)]

RThickness

of Attachment

[in (mm)]

SDiameter of Mounting

Bolts[in (mm)]

UWidth of Opening Between

Assembled Clevis Halves

[in (mm)]

VWidth of

Attachment[in (mm)]

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16) 2 (50.8) 0.63 (15.88) 0.37 (9.53) 0.69 (17.46) 2.25 (57.15)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 2.5 (63.5) 0.88 (22.23) 0.5 (12.7) 0.88 (22.23) 3.38 (85.73)

I-Beam Size Chain Type

WDistance Between

Centerlines of Bolt Holes

[in (mm)]

XCenterline of Chain to Centerline

of Load Mounting

Hole[in (mm)]

YCenterline

of Load Mounting

Hole to Bottom of

Attachment[in (mm)]

ZHole

Diameter for Load

Mounting[in (mm)]

AADiameter of Rod on Bolt Attachment

[in (mm)]

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16) 1.38 (34.93) 3 (76.2) 0.75 (19.05) 0.56 (14.29) 0.63 (15.88)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 2 (50.8) 3.63 (92.08) 1 (25.4) 0.81 (20.64) 1 (25.4)

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I-Beam Size Chain Type

ABThickness of Clevis

Half[in (mm)]

ACOverall

Length of Rod on Bolt Attachment

[in (mm)]

ADCenterline of

Load Mounting Hole to Inside

Bend Line of Clevis

Attachment[in (mm)]

AECenterline of Chain

to Bottom of Bolt

Attachment[in (mm)]

ANCenterline of

Load Mounting Hole to Bottom

of Pendant Attachment

[in (mm)]

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16) 0.31 (7.94) 4 (101.6) 1.81 (46.04) 4.63 (117.48) 0.81 (20.64)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 0.25 (6.35) 3.25 (82.55) 1.69 (42.86) 6.16 (156.37) --

I-Beam Size Chain Type

APBolt

Diameter for Pendant

Load Mounting[in (mm)]

ARThickness

of Pendant Load

Mounting Boss

[in (mm)]4 in @ 7.7 lbs/ft

(101.6 mm @ 11.45 kg/m)X-458

(X-100-16) 0.81 (20.64) 0.5 (12.7)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) -- --

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Roller Turn Dimensions

I-Beam Size Chain Type

Drop Bottom of Beam to Centerline of

Chain[in (mm)]

AL Min.Bottom of

Beam to Top of Roller Hub

[in (mm)]

Nominal Radius

[in (mm)]

Degrees of Turn

30 45 60 90 180

3 in @ 5.7 lbs/ft(76.2 mm @ 8.48 kg/m)

X-348(X-75-13) 2.5 (63.5) 1.44 (36.51)

18 (457.2)

24 (609.6)

30 (762)

36 (914.4)

48 (1219.2)

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16)

3.19 (80.96) 1.94 (49.21)

18 (457.2)

24 (609.6)

30 (762)

36 (914.4)

48 (1219.2)

60 (1524)

72 (1828.8)

4 (101.6) 2.75 (69.85)

18 (457.2)

24 (609.6)

30 (762)

36 (914.4)

48 (1219.2)

60 (1524)

72 (1828.8)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 4 (101.6) 2.44 (61.91)

24 (609.6)

30 (762)

36 (914.4)

48 (1219.2)

60 (1524)

72 (1828.8)

Standard Size

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CEMA Std. 601 - 2019

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Traction Wheel Turn Dimensions

I-Beam Size Chain Type

Drop Bottom of Beam to

Centerline of Chain

[in (mm)]

AF Min.Height of Traction Wheel

Rim[in (mm)]

AL Min.Bottom of Beam to Top of

Roller Hub[in (mm)]

Nominal Diameter[in (mm)]

Degrees of Turn

30 45 60 90 180

3 in @ 5.7 lbs/ft(76.2 mm @ 8.48 kg/m)

X-348(X-75-13) 2.5 (63.5) 2 (50.8) 1.44 (36.51)

18 (457.2)

24 (609.6)

30 (762)

36 (914.4)

42 (1066.8)

48 (1219.2)

60 (1524)

4 in @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16)

3.19 (80.96)

2.5 (63.5)

1.94 (49.21)

18 (457.2)

24 (609.6)

30 (762)

36 (914.4)

42 (1066.8)

48 (1219.2)

60 (1524)

72 (1828.8)

4 (101.6) 2.75 (69.85)

18 (457.2)

24 (609.6)

30 (762)

36 (914.4)

42 (1066.8)

48 (1219.2)

60 (1524)

72 (1828.8)

6 in @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22) 4 (101.6) 3 (7.62) 2.44 (61.91)

24 (609.6)

36 (914.4)

42 (1066.8)

48 (1219.2)

60 (1524)

72 (1828.8)

Standard Size

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SECTION IV - DESIGN PROCEDURE AND ENGINEERING DATA

Overhead Trolley Conveyor Symbols - Plan View

HORIZONTAL STRAIGHT CONVEYOR VERTICAL CURVE

DIRECTION OF TRAVEL

EL EL

ANTI-BACKUP

UP

ELEL

ANTI-RUNAWAY

DOWN

ELEL

EXPANSION JOINT

CONVEYOR GUARD

OVEN

TEMP.

OVEN, WASHER, OR SPRAY BOOTH ENCLOSURE

SPROCKET DRIVE

CATERPILLAR DRIVE

ROLLER TURN TRACTION WHEEL

ROLLER TURN TAKE-UP

SPR

EAD

TRACTION WHEEL TAKE-UP

SPR

EAD

DIA

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Typi

cal T

rolle

y Co

nvey

or In

stal

latio

n

See

Guar

ds a

t the

en

d of

this

secti

on

for m

ore

info

rmati

on

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Design Steps

Metric Conversion: Calculations may be performed in the English system, as shown, or in metric.

The following steps will assist you in designing an Overhead Trolley Conveyor System:

Step A. Draw Plant Layout1. Draw Layout to largest practical scale. For example: 1/4 in =1 ft or 1/8 in = 1 ft (50:1 or 100:1)2. Make a plan view of plant area in which the conveyor is to be erected. Show dimensioned column or

bay lines. Indicate “North” direction relative to building.3. Locate and label all obstructions which affect the path of the conveyor, such as columns, walls, machinery,

work areas, and aisles on the plan view.

Step B. Design a Carrier1. Determine number of parts to be placed on each carrier and their relative position on carrier. Make the

carrier as compact as possible.2. Design carrier to permit easy loading and unloading of parts.3. Design the carrier to carry loads within the rated capacity of the trolley. Trolley capacities are listed in

this section.4. Design carrier bracket to fit a trolley attachment to which the load or carrier can most easily be attached,

keeping within the load ratings.5. Standard trolley attachments can be selected from the data and illustrations in this section.

Step C. Determine Conveyor Size1. Select a trolley arrangement, either a single trolley with attachment or double trolley with load bar, in

this section that has a capacity rating exceeding the total weight of the carrier designed in Step B and the carried load.

2. The trolley size will determine the size of the conveyor in the average conveyor application. However, the chain pull, as calculated in Step N, must not exceed the recommended capacity for the selected size chain as shown in this section.

Step D. Determine Track Elevations1. Elevations are measured from floor line to top of I-beam track.2. At loading, unloading, and manual operating stations, the conveyor height must permit an operator to

access the carrier easily.3. The conveyor height over work areas and aisles must allow traffic to pass freely conveyor under guards.4. Indicate the elevation at all vertical curves. See typical conveyor layout at beginning of this section.

Step E. Determine Material flow1. On plant layout, locate all load and unload points and, also, any processing stations that will be served

by the conveyor. Typical stations: Dip tanks, paint booths, bake ovens (indicate temperature).2. Draw conveyor route so that it connects all areas in their proper work sequence with the most practical

path for the system, using standard components where possible. Keep parallel conveyor routes as closely spaced as possible to reduce the amount of supporting members and guards required.

3. Be sure the path of conveyor does not interfere with any machine operations or work areas.4. Indicate location of drive, take-up, vertical curves, and horizontal turns relative to column lines. Refer

to typical layout and conveyor symbols and glossary at beginning of this section.

Step F. Select Vertical Curves1. For increased conveyor life, use the largest recommended radius possible for vertical curves in your

layout. Use minimum radius vertical curves only in conveyor areas where necessary. See vertical curve radii chart, section V.

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2. Select a load spacing.3. Using Figure 9, select a degree of incline for vertical curves that will provide a clearance between carriers,

or load silhouette when they are moving on the incline. To assure clearance between carriers, dimension “A” must be greater than carrier length.

4. Because of carrier sway, clearance must be provided between top of carrier and conveyor chain.5. Indicate on layout drawing the horizontal length (tangent to tangent) of each vertical curve, its radius

and degree.6. Locate each vertical curve relative to some adjacent component, as shown on typical conveyor layout

at beginning of this section.

Figure 9.

Step G. Select Horizontal Turns1. Make a plan view layout of horizontal turn, as shown in Figure 10. Clearance between adjacent carriers

or maximum load silhouette while they are negotiating turns will determine the minimum horizontal turn radius.

2. For increased conveyor life, use the largest standard radius possible for horizontal turns in your layout. Select the horizontal turns best suited to your requirements from Section III, Conveyor Components.

3. Provide for one (1) 180° horizontal turn in your layout, as near as possible on the output side of the drive unit, for use as a slack chain take-up. If possible, place this take-up at the bottom of a vertical curve.

Figure 10. Plan View Layout of Horizontal Turn

Step H. Determine Guard Requirements1. For standard guard methods, refer to the end of this section.2. Select type of conveyor guard best suited to your requirements and which meets all safety specifications.

CLEARANCE

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3. Be sure loaded carriers will clear all guards. 6 in clearance on each side is usually sufficient. It is especially important to check clearances on horizontal and vertical curves. Carrier templates can be used for this purpose. If maintenance access is required from inside the conveyor guard, increase clearance on one side by a minimum of 24 in.

4. Locate each guard relative to some adjacent conveyor component or column line as shown on typical conveyor layout at beginning of this section.

Step I. Determine Trolley Spacing1. To determine the trolley spacing, refer to Step F, Numbers 3, 4 and 5, then go to Step G, Number 1.

Note the carrier spacing selected for proper clearances. Refer to Table 4 and note the recommended spacing for trolleys. If your required carrier spacing is greater than the recommended trolley spacing, intermediate trolleys are required.

2. When laying out the conveyor path, a distance equal to the maximum trolley spacing selected should be allowed between tangent lines of vertical curves and horizontal turns.

Step J. Determine Maximum Conveyor Speed1. A speed of 50 to 70 fpm is normally considered as maximum. However, 30 fpm usually allows easy

loading and unloading and assures longer conveyor life. Lowest possible speeds are recommended to suit required production. Required conveyor speed in fpm is equal to the number of carriers per minute multiplied by carrier spacing in ft.

2. To illustrate this formula: a. Assume your production rate is 1,200 parts per hour. b. Assume each carrier holds four (4) parts. c. Required number of carriers per hour equals 1,200 divided by 4 or 300 carriers. d. Required number of carriers per minute is 300 divided by 60 or 5 carriers. e. Assume a carrier spacing of 24 in or 2 ft. f. Five (5) carriers per minute multiplied by carrier spacing of 2 ft equals a conveyor speed of 10 fpm.

3. To allow for variation in production requirements, it is advisable to set a maximum speed of about two times that calculated. A variable speed drive with a speed range of about 3 to 1 is the most common.

a. The maximum speed is 20 fpm or 2 x 10 fpm. b. Using a 3 to 1 ratio variable speed drive would give you a speed range of 6.6 fpm to 20 fpm.

Step K. Determine Conveyor Length1. Obtain the sum of all straight track dimensions.2. Obtain the sum of all arc lengths on the horizontal turns.3. Obtain the sum of all arc lengths on the vertical curves by using the vertical curve charts in Section V,

Vertical Curve Data.4. The total length of the conveyor is equal to the sum of steps 1, 2, and 3.

Step L. Determine Moving Load1. The moving load on a conveyor is equal to the sum of the weights of all moving parts—chain, trolleys,

carriers, and loads.2. Establish distances from loading to unloading points and determine the number of loaded and empty

carriers in the system during maximum loading of conveyor.3. The following example illustrates the procedure for determining moving load assuming the conveyor is

300 ft long, carriers are at 2 ft centers, and distance from loading to unloading points is 250 ft. 300 ft X-458 chain with trolleys at 2 ft centers at 7.1 Ibs/ft = 2,130 Ibs 125 loaded carriers at 250 Ibs each = 31,250 Ibs 25 empty carriers at 20 Ibs each = 500 Ibs The total moving load is 33,880 lbs

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Step M. Determine Lift Load1. The lift load is the amount of force required to pull the moving load upward along the vertical curves

in the entire system.2. To calculate this force, determine the net difference in elevation of all the loaded vertical curves (inclines

and declines) in the system. This net vertical rise or fall (ft) will be considered the total lifting height of the conveyor.

3. The lift load or chain pull for the elevation changes of the conveyor is equal to the total lift height (ft) multiplied by the individual load weight (lbs), then divided by the load spacing (ft).

Example: Assume that the net elevation change of all loaded vertical curves results in a total rise or lifting height of 12 ft, the load on each carrier is 230 Ibs, and the carriers are on 2 ft centers.

12 ft x 230 lbs Lift Load = = 1,380 lbs 2 ft

The chain, trolleys, and carriers are excluded from the calculations because they are balanced by the portion of the system that moves down the vertical curves.

NOTE: If the net difference of elevation in the system is negative due to greater elevation change as a result of loaded declines, the lift load resultant will be negative.

Step N. Determine Chain Pull1. Chain pull is the effort necessary to maintain the normal operating speed of a conveyor under a rated

capacity load. To arrive at this final driving effort, it is necessary to add the lift load and the friction factors, expressed as a small percentage of the moving load, which act as resistance to the progress of the conveyor. The moving load and the lift load were calculated in Steps L and M.

2. Frictional resistance is found in the bearings of the trolley wheels, roller or traction wheel turns, vertical curves, and the drive unit itself. This friction figure is represented as a small percentage and is listed in the table below for each conveyor size. It should be noted that these percentages are for average conveyors which travel under normal conditions.

3. Select from Table 1 the friction factor indicated for your conveyor size. NOTES:

- A large number of vertical and horizontal curves will create slightly higher friction.- The conveyor manufacturer should be consulted for specific information on friction factors.

Table 1. Friction Factors

Operating ConditionsBall Bearing Trolleys

(in)2 3 4 6

32°F to 250°F (0°C to 121°C) - Average Good Conditions 2.5 2 1.75 1.5250°F to 375°F (121°C to 191°C) - Auto Oil Lubrication 3.5 3 2.5 2For adverse environmental conditions and temperature over 375°F (191°C), consult manufacturer -- -- -- --

4. To determine chain pull due to friction, multiply total moving load by selected friction factor. Using figures from previous examples, the following illustrates proper procedure:

Total moving load (from Step L) = 33,880 lbs Multiply by friction factor (Table 1) = 0.025 Friction chain pull = 847 Ibs

5. Add lift load to friction chain pull to obtain total chain pull: Friction chain pull = 847 Ibs

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Lift load (from Step M) = 1,380 lbs Total chain pull = 2,227 Ibs

6. Refer to Table 3 and determine if chain size selected has sufficient capacity for required chain pull.7. Consult conveyor manufacturer to obtain a drive of sufficient size for the calculated chain pull.NOTE: Above method of calculating chain pull is an approximation to determine drive size or number of drives required. When adverse environmental conditions exist (such as high temperature, caustic solutions, excessive dust, corrosive solutions) or the conveyor is abnormally long or complex (1,000 ft; 20 changes of direction), a progressive chain pull computation is necessary where the friction losses are progressively calculated and accumulated through the path along the conveyor.

Step O. Locate Drive1. Locate the drive so it will apply a pulling force on the most heavily loaded portion of the system.2. For best results, locate the drive at some high point in the conveyor system and place the take-up just

after the drive at a lower point.3. Locate drive on conveyor layout. Relate location to some adjacent component, as shown in Typical

Conveyor Layout at beginning of this section.

Step P. Summarize1. For quick and easy reference, make a legend on your layout covering the following subjects (Refer to

Typical Conveyor Layout): a. Speed of conveyor. Mark direction of travel. b. Length of conveyor c. Trolley spacing d. Carrier spacing e. Weight of empty carrier f. Maximum weight of loaded carrier g. Total moving load h. Maximum lift load i. Maximum chain pull j. Type of drive (caterpillar or sprocket); electrical specs k. Cross section of guard with dimensions

Step Q. Safety Codes (Reference current ANSI B20.1)Safety Considerations

a) In areas where the parted chain, cable, or other linkage would permit a runaway condition on an inclined or declined section, and where personnel are present, anti-runaway devices shall be provided. The conveyor path may be arranged so that travel of the uncontrolled conveyor will be arrested before it enters an area where personnel are present.

b) In areas where personnel perform work of a moving conveyor and guards would impair the workers' performance, the load shall be cradled, hooked, bolted, or otherwise attached to the carrier.

Guardinga) Nip points occur at traction wheels, sprockets, caterpillar drives, and roller turns and shall be guarded

unless guarded by location.b) The telltale effect of the moving conveyor components serves as a warning device and permits unguarded

nip or shear points at heights of less than 2.44 m (8 ft).c) Automatic stops or closures shall prevent a trolley or trolleys from moving off the track during the portion

of a cycle when any track end is not aligned with its mating member.d) Hoisting equipment for lift sections or drop sections or both shall stop or control the vertical motion in

the event of power failure.e) On inclined or declined conveyors or sections, where personnel are present and there may be an

occurrence of uncontrolled movement of a free trolley, arresting devices shall be provided. A rigid pusher

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dog on the power chain with positive carrier engagement shall be considered and acceptable means, or the conveyor path may be arranged so that travel of the uncontrolled free trolley, carrier, or load, or combination thereof, will be arrested before it enters the personnel area.

f) Guards shall be provided to restrict unauthorized personnel from entering hazardous loading, unloading, and transfer areas. When guarding is not feasible, clear and legible warnings shall be provided.

g) Access to lift or drop sections shall be guarded to prevent unauthorized personnel from entering the area. Warning signs shall be posted where guarding is not feasible, unless access to lift or drop sections is guarded by location.

h) Where conveyors are located above personnel, and the possibility exists that the transported product may fall off for any cause, guards (spill guards) shall be provided

Conveyor DrivesThe most important component of the conveyor system is the drive. The drive gives the conveyor motion and

controls conveyor speed.

Types of DrivesTwo Standard types of drives (caterpillar and sprocket) are available for overhead trolley conveyor systems.

A caterpillar drive uses a chain made of precision steel rollers with driving dogs that mesh with the links of the conveyor chain to deliver driving force. A sprocket drive makes use of a sprocket whose teeth mesh with the links of the conveyor chain to deliver driving force.

Standard Drive Speed RangesAll drives are furnished with either constant or variable speeds. Variable speed drives allow flexible production

schedules. Variable speed drives are commonly 3:1. Greater speed variations are available. VDF drives and Inverter Duty Motors are now commonly available from various manufacturers for speed change needs.

Figure 11. Plan View of Drive Frames Indicating Hand of Drive

To determine the hand of the drive, look in the direction of the chain travel (the chain is moving away from you). If the drive is to be placed on the right side of chain, it is a right hand drive. If it is on the left side of chain, it is a left hand drive.

NOTE: Overload protection shall be provided on all drives. Overload protection is typically set at 150% of rated drive capacity.

Chain Travel for Right Hand Drive

Drive Sprocket

Idler/Caterpillar Chain Take-up Sprocket

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Table 2. Combined Chain and Trolley Weights per Foot of Conveyor for Uniform Trolley Spacing

I-Beam Size Chain Type Trolley Spacing [in (mm)]

Combined Chain and Trolley Weights[lbs/ft (kg/m)]

3" @ 5.7 lbs/ft(76.2 mm @ 8.48 kg/m)

X-348 (X-75-13)

6 (152.4) 8.3 (12.35)12 (304.8) 5.3 (7.87)18 (457.2) 4.3 (6.40)24 (609.6) 3.8 (5.64)30 (762) 3.5 (5.22)

4" @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m)

X-458(X-100-16)

8 (203.2) 15.1 (22.47)16 (406.4) 9.1 (13.55)24 (609.6) 7.1 (10.56)32 (812.8) 6.1 (9.09)

6" @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m)

X-678(X-150-22)

12 (304.8) 25.7 (38.25)24 (609.6) 16.2 (24.11)36 (914.4) 12.5 (18.60)

Table 3. Recommended Maximum Allowable Chain Pull on Drop Forged Rivetless Chain (Heat Treated)

Chain Type Maximum Chain Pull [lbs (kg)]

X-348(X-75-13) 1500 (680)

X-458(X-100-16) 3000 (1360)

X-678(X-150-22) 5500 (2500)

Table 4. Minimum Recommended Radius and Diameter Turns for Various Trolley Spacings

Chain Type Trolley Spacing [in (mm)]

Traction Wheel Diameter[in (mm)]

Roller Turn Radius

[in (mm)]

X-348(X-75-13)

Up to 18 (457.2) 24 (609.6)18 (457.2)24 (609.6) 30 (762)

30 (762) 36 (914.4)X-458

(X-100-16)Up to 24 (609.6) 30 (762)

24 (609.6)32 (812.8) 36 (914.4)

X-678(X-150-22)

12 (304.8) 36 (914.4)36 (914.4)24 (609.6) 42 (1066.8)

36 (914.4) 48 (1219.2)

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Table 5. Approximate Allowable Suspended Load on Single Trolley

I-Beam Size Maximum Load Capacity [lbs (kg)]

3" @ 5.7 lbs/ft(76.2 mm @ 8.48 kg/m) 200 (90)

4" @ 7.7 lbs/ft(101.6 mm @ 11.45 kg/m) 400 (180)

6" @ 12.5 lbs/ft(152.4 mm @ 18.60 kg/m) 1200 (540)

Load Capacity = Two times single trolley = in (mm)

Figure 12. Dual Trolley With Load Bar

Guards

Conveyor guards are recommended where loaded conveyors pass over aisles, work stations, machinery, or where work carriers are not permanently fastened to conveyor, to prevent injury or damage from falling parts. Dimensions of guards are determined by the size of loaded carriers. 6 in minimum clearance on each side is required. Vertical height should permit loaded carriers to clear a fallen part lying on the bottom of the guard. Check all pertinent safety codes for specific requirements.

A wide variety of materials is available for guard construction, including woven wire mesh, expanded metal, and sheet steel. Size and weight of the part being handled determine the correct choice. Support steel and headers are usually structural angles.

Typical Sections

• Sheet Metal Type: Sheet metal guards are often used after dip tanks or washes, where dripping may be problem, and on conveyors carrying small or fine materials that would pass through expanded metal or wire mesh.

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• Expanded Metal or Wire Mesh Type: Conveyor guards are fabricated from heavy gauge expanded metal or wire mesh and welded to angle iron frames.

• Multiple Run: If several runs of loaded conveyors can be routed close together, a single wide guard will serve more than one conveyor.

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SECTION V - VERTICAL CURVE DATA

Table 6. Vertical Curve Beam Radii for Overhead Conveyors as Related to Trolley Spacing. Minimum and Recommended Radius of Vertical Curve Beams

Chain Type Trolley Spacing[in (mm)]

Radius of vertical Curve[in (mm)]

Minimum Recommended

X-228(X-50-6)

8 (203.2) 24 (609.6) 48 (1219.2)12 (304.8) 36 (914.4) 48 (1219.2)16 (406.4) 48 (1219.2) 48 (1219.2)20 (508) 72 (1828.8) 72 (1828.8)

24 (609.6) 96 (2438.4) 96 (2438.4)

X-348 (X-75-13)

12 (304.8) 48 (1219.2) 60 (1524)18 (457.2) 60 (1524) 78 (1981.2)

24 (609.6) 78 (1981.2) 96 (2438.4)30 (762) 92 (2336.8) 120 (3048)

36 (914.4) 108 (2743.2) 144 (3657.6)

X-458X-100-16

8 (203.2) 36 (914.4) 72 (1828.8)16 (406.4) 66 (1676.4) 96 (2438.4)24 (609.6) 84 (2133.6) 120 (3048)32 (812.8) 108 (2743.2) 144 (3657.6)

X-678X-150-22

12 (304.8) 72 (1828.8) 144 (3657.6)24 (609.6) 132 (3352.8) 180 (4572)36 (914.4) 192 (4876.8) 240 (6096)

NOTE: Minimum radii to be used only when absolutely required and only after considering chain pull, imposed load on trolley, beam wear, and possibility of surge.

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Compound Vertical Curve

For vertical drop greater than shown subtract drop "D" of appropriate degree and radius in Table 7 from actual drop "D" and use the remainder to compute "S" and "L" dimensions as shown below:

For 15° Curves: S = Remainder X 3.864 L = Remainder X 3.732 + "L" from Table 7

For 20° Curves: S = Remainder X 2.924 L = Remainder X 2.7475 + "L" from Table 7

For 30° Curves: S = Remainder X 2 L = Remainder X 1.732 + "L" from Table 7

For 45° Curves: S = Remainder X 1.414 L = Remainder + "L" from Table 7

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Example: 96 in radius, 30° curve, 60 in drop, vertical curve

Total Drop = 60 inChart Drop = 25.75 inRemainder = 34.25 in

S = 34.25 in X 2 = 68.5 in L = 34.25 X 1.732 + 96 =155.321 in

To calculate the arc length of any curve, horizontal or vertical, for use in determining the total chain length the following formula can be used:

Example: Find the arc length of an 10 in radius, 45° horizontal turn.

3.1416 x Arc Radius x Arc Degree180Arc Length =

3.1416 x 18 in x 45°180Arc Length = = 14.137

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Table 7. Compound Vertical Curve Table

Radius[in (mm)]

Drop[in (mm)]

L[in (mm)]

A[in (mm)]

Angle[Deg.]

48 (1219.2)

3.25 (82.55) 24.88 (631.82) 12.56 (319.09) 155.81 (147.64) 32.81 (833.44) 16.75 (425.45) 20

12.88 (327.03) 48 (1219.2) 25.13 (638.18) 3028.13 (714.38) 67.88 (1724.03) 37.69 (957.26) 45

60 (1524)

4.06 (103.19) 31.06 (788.99) 15.69 (398.46) 157.25 (184.15) 41.06 (1042.99) 20.94 (531.81) 20

16.06 (407.99) 60 (1524) 31.44 (798.51) 3035.13 (892.18) 84.88 (2155.83) 47.13 (1196.98) 45

72 (1828.8)

4.94 (125.41) 37.25 (946.15) 18.88 (479.42) 15

8.69 (220.66) 49.25 (1250.95) 25.13 (638.18) 20

19.31 (490.54) 72 (1828.8) 37.69 (957.26) 3042.19 (1071.56) 101.81 (2586.04) 56.56 (1436.69) 45

78 (1981.2)

5.31 (134.94) 40.38 (1025.53) 20.44 (519.11) 159.44 (239.71) 53.38 (1355.73) 27.25 (692.15) 20

20.88 (530.22) 78 (1981.2) 40.81 (1036.64) 3045.69 (1160.46) 110.31(2801.94) 61.25 (1555.75) 45

96 (2438.4)

6.5 (165.09) 49.69 (1262.06) 25.13 (638.18) 1511.63 (295.28) 65.69 (1668.46) 33.5 (850.9) 2025.75 (654.05) 96 (2438.4) 50.25 (1276.35) 30

56.25 (1428.75) 135.75 (3448.05) 75.38 (1914.52) 45

120 (3048)

8.19 (207.96) 62.13 (1577.98) 31.44 (798.51) 1514.5 (368.29) 82.06 (2084.39) 41.88 (1063.63) 20

32.13 (815.98) 120 (3048) 62.81 (1595.44) 3070.31 (1785.94) 169.69 (4310.06) 94.25 (2393.95) 45

144(3657.6)

9.81 (249.24) 74.56 (1893.89) 37.69 (957.26) 1517.38 (441.33) 98.5 (2501.9) 50.25 (1276.35) 2038.56 (979.49) 144 (3657.6) 75.38 (1914.52) 30

84.38 (2143.13) 203.63 (5172.08) 113.13 (2873.38) 45

180(4572)

12.25 (311.15) 93.19 (2366.96) 47.13 (1196.98) 1521.69 (550.86) 123.13 (3127.38) 62.81 (1595.44) 20

48.25 (1225.55) 180 (4572) 94.25 (2393.95) 30105.44 (2678.11) 254.56 (6465.89) 141.38 (3590.93) 45

240(6096)

16.38 (415.93) 124.25 (3155.95) 62.81 (1595.44) 1528.94 (735.01) 164.19 (4170.36) 83.75 (2127.25) 20

64.31 (1633.54) 240 (6096) 125.63 (3190.88) 30140.56 (3570.29) 339.44 (8621.71) 188.5 (4787.9) 45

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SECTION VI - TROUBLESHOOTING, LUBRICATION GUIDE AND INSPECTION CHECKLIST

Table 8. Troubleshooting Guide

Problem Possible Causes Remedy

Chain

1. Excessive chain wear.(NOTE: The chain will elongate due to wear; this is normal wear and is no fault of the system)

Lack of lubrication. Lubricate chain.Sluggish or frozen trolley wheels. See #1 under "trolleys".

Roller turn roller frozen. See #1 under "Roller Turns".

Obstruction in chain path. Remove obstruction and remove and replace chain if damaged.

Conveyor Overloaded. Conveyor should not be loaded beyond its designated capacities.

2. Excessive slack chain.

Chain growth through normal wear.

Adjust take-up and, if necessary, remove links in chain.

Maintenance schedule not adhered to. Reinstitute maintenance.

3. Surging chain. Same as #1 above. Also see "Drive". Same as #1 above. Also see "Drive".

Trolleys

1. Sluggish or frozen trolley wheels.

Residue accumulated from over lubrication.

Remove from conveyor and clean. Remove welsh plug to clean and press on new plug with blunt tool.

Bearing corroded or worn out. Replace trolleys.

Lack of lubrication. Lubricate chain.Incorrect lubrication. Verify lubricant: replace if necessary.Maintenance schedule not adhered to. Reinstitute maintenance.

2. Bent trolley brackets. Damaged in jam or by obstruction.

Remove obstruction and replace damaged trolley bracket with new bracket. (Do not attempt to straighten bent brackets)

Roller Turns 1. Sluggish or frozen roller turn rollers.

Dirt or grease residue.Clean thoroughly or replace if bearings are damaged. See Lubrication Guide.

Lack of lubrication. Lubricate roller.Incorrect lubrication. Verify lubricant: replace if necessaryMaintenance schedule not adhered to. Reinstitute maintenance.

I-Beam

1. Excessive wear or peening of flanges at vertical curves.

Excessive chain tension. See #1 under "Chain".

2. Excessive wear on I-Beam web.

Bent trolley brackets. See #2 under "Trolleys".Eccentric loading. Load carriers symmetrical.

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Table 8. Troubleshooting Guide (cont.)

Trouble Possible Causes Remedy

Take-up1. Floating frame movement sluggish or frozen.

Spring compression, air pressure or counterweight load too great.

Reduce the spring, air or counterweight loading.

Dry or damaged expansion joints.

Lubricate if dry and replace with new expansion joints if damaged.

Guide wheels worn or frozen. Clean thoroughly or replace if worn.

Drive

1. Decrease in conveyor speed.

Belt slippage. Adjust belt by loosening bolts on motor and pull back until belt is snug.

Set screws on pulley are loose and causing pulley to rotate on shaft.

Align pulley and tighten set screws.

2. Drive stops. Conveyor chain pull is excessive. See #1 under "Chain".

3. Excessive noise in reducer.

Lack of lubrication. Fill reducer with oil to oil level plate; or if needed change oil. Grease all fittings.

Oil leak.Tighten all grease fittings and pipe plugs, clear breather tube opening and add lubricant.

Worn or broken gear or bearing.

Disassemble reducer and replace damaged part.

4. Motor running above normal temperature.

Conveyor chain pull excessive. See #1 under "Chain".Electrical. Inspect electrical wiring and controls.Bearing failure. Inspect and replace motor.

5. Slapping or pulsating caterpillar chain.

Chain too loose.Adjust drive take-up until chain is snug. (Do not remove any links of caterpillar chain or dogs).

Conveyor chain or caterpillar chain worn beyond use. Replace.

6. Floating frames sluggish or frozen.

Obstruction. Remove obstruction and repair or replace any damaged equipment.

Guide wheels worn or frozen with dirt or grease residue. Clean thoroughly or replace if worn.

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Table 9. Lubrication Guide for Overhead Monorail Conveyors

Component Part Inspection Interval (See Note #1)

Lubricants at Temperature to 250°F (121°C)

(See Note #2)

Trolley WheelsOpen Race 30 days Oil = ISO 15-150Closed 30 days Grease = NLGI #2

Chain Pins -- 30 days Oil = ISO 15-150

Caterpillar DriveRoller Chain 30 days Oil = ISO 15-150Dogs 30 days Grease = NLGI #2

Back-up Rollers -- 30 days Grease = NLGI #2Back-up Bar -- 30 days Grease = NLGI #2

Traction WheelsAnti-friction 30 days Grease = NLGI #2Carbon 30 days NoneGraphite 30 days None

Roller TurnsAnti-friction 30 days Grease = NLGI #2Carbon 30 days NoneGraphite 30 days None

Floating Frame Wheels -- 30 days Grease = NLGI #2Take-up Frame Wheels -- 30 days Grease = NLGI #2

Track -- 30 days (Inspect for wear) None

Drive

Reducer Bearings 30 days See Manufacturer's Nameplate for lubrication requirements on reducer

and motor

Gear Box 30 daysIdler Sprocket 30 daysMotor 30 days

NOTE #1: The inspection interval and lubrication frequency should be adjusted according to the application; i.e.: Elevated temperatures and/or process conditions.

NOTE #2: Consult conveyor manufacturer or lubrication specialists for lubricant recommendations specific to each application especially for those above 250°F (121°C).

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Equipment, Maintenance and Services

Automated equipment for precise delivery of lubricants to conveyor wear points, cleaning equipment, and maintenance services are available to the users of conveyors. Consult with the conveyor manufacturer or the providers of these products and services for application assistance.

Suggested Inspection Checklist for Trolley Conveyor Systems

Check for:1. Chain: Lubrication, excessive wear, slack chain.2. Trolleys: Lubrication, sluggish or frozen wheels, bent bracket, loose bracket bolts.3. I-Beam: Wear and peening on flanges at vertical curves; wear on web at load or unload points, horizontal

and vertical curves; obstacles on track interfering with trolley path.4. Roller Turns: Lubrication, roller bearing wear, roller face wear, loose roller bolts, loose brackets bolts.5. Traction Wheels: Lubrication, bearings, rim wear, loose hub bolts, alignment.6. Take-up: Lubrication, roller bearing wear, roller face wear, loose roller bolts, loose bracket bolts,travel

remaining, spring (screw) adjustment; expansion joint conditions (lubrication, wear, free movement); ease of floating frame travel.

7. Drive: Lubrication (cat chain, machinery components, bearings, oil level in reducer), wear (cat chain, back-up bar, back-up rollers, cat unit sprockets), adjustments (cat unit take-up, cat chain should be tight; back-up bar; limit switch cut-off tripper bar), overload condition (chain pull indicator reading in overload zone, motor or reducer running at excessive temperature), belt drive condition (pulleys are aligned and set screws are tight, belts are in good condition and are not slipping), excessive oil leakage from reducer, loose mounting bolts, ease of floating frame travel.

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