For and Days to Ship,Please Con˜gure Online. Electromagnetic … · 2019-02-25 · Electromagnetic...
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Electromagnetic Holders / Rectifiers for Electromagnetic HoldersDC Powered
Part Number
MGD20
Part Number
MGEC2
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Q�Rectifiers for Electromagnetic Holders
(27.
5)10
0
155
L=2m
216200
110
0
230
Terminal Block
Mounting Hole 4-Ø5Pilot Lamp
Pilot Lamp
ON/OFF Switch
ON/OFF Switch
Fuse (3A)
Fuse (3A)
Output Terminal(Red / White)
ON
OFF15521
100
150
60
0.75mm2 Flat Type, 2 Conductors 21 100
ON
OFF
(27.
5)10
0
155
L=2m
216200
110
0
230
Terminal Block
Mounting Hole 4-Ø5Pilot Lamp
Pilot Lamp
ON/OFF Switch
ON/OFF Switch
Fuse (3A)
Fuse (3A)
Output Terminal(Red / White)
ON
OFF15521
100
150
60
0.75mm2 Flat Type, 2 Conductors 21 100
ON
OFF
MGEC1 MGEC2
Spring force separates objects from the magnet stuck by residual magnetism.ON OFF OFF ON
A screw can be magnetized to pick up workpieces.
QMore OptionsInstallation Example of Screw with Nose FCBBG (P.204)
QCountermeasure for residual magnetismInstallation Example of Spring Plungers NPJS (P. -1507)1
MGX20
ESee the page on the right for features, use conditions and cautions on Electromagnet Holders.
QFeature · Electromagnet holder with a coil wound around the attraction body. (Polarity Reversible) · Can be used on end effectors of robots to carry small work pieces. · Electrical control can be utilized for turning ON / OFF and remote controlling of the magnet. · For power supply, a rectifier is necessary. Select a rectifier for relevant voltage. (Applicable Rectifier: MGEC)
QCondition of Use · Installation Location: Indoor (Ambient temperature: -10~40°C) · Applicable Metal Subject Surface: flat (no protrusions, holes, etc.) *Use entire holder surface for attraction. · Duty Ratio: Continuous (100% ED)
MGE30MGET30MGE40MGE50MGE60MGES20MGES30MGES40MGES50MGES60SMGES30MGX20MGX30MGXS20MGXS30
0
100
200
300
400
500
600
700
800
1 2 3 4 5
Attraction Force (N)
Attraction Force (N)
Plate Thickness Characteristics
Gap Characteristics
Plate Thickness (mm)
0
200
400
600
800
1,000
1,200
1,400
0 0.1 0.2 0.3 0.4 0.5 Gap (mm)
MGD20
MGE20MGET20
MGD30
MGE30MGET30MGE40MGE50MGE60MGES20MGX20MGES30MGES40MGES50MGES60SMGES30MGX30MGXS20MGXS30
MGD20
MGE20MGET20
MGD30
MGE30MGET30MGE40MGE50MGE60MGES20MGES30MGES40MGES50MGES60SMGES30MGX20MGX30MGXS20MGXS30
0
100
200
300
400
500
600
700
800
1 2 3 4 5
Attraction Force (N)
Attraction Force (N)
Plate Thickness Characteristics
Gap Characteristics
Plate Thickness (mm)
0
200
400
600
800
1,000
1,200
1,400
0 0.1 0.2 0.3 0.4 0.5 Gap (mm)
MGD20
MGE20MGET20
MGD30
MGE30MGET30MGE40MGE50MGE60MGES20MGX20MGES30MGES40MGES50MGES60SMGES30MGX30MGXS20MGXS30
MGD20
MGE20MGET20
MGD30
EReference graph indicating attraction force saturation. Usable up to "Maximum Attraction Force (N)".E"Plate Thickness Characteristics" graph shows the relationship of attraction force vs. subject metal thickness (polished 1018 Carbon Steel), and "Gap Characteristics" graph shows the gap distance of attraction surface vs. subject metal.
QPrecautions for Use · Attraction force of electromagnetic holder may decrease considerably depending on condition of use. 1Plate Thickness: Attraction force decreases as plate thickness decreases. 2Gap: Attraction force decreases as gap increases between the
attraction side of magnet and the object. 3Material: Attraction force shown is based on 1018 Carbon Steel. 4Surface of attracted object: Attraction force decreases as the object surface is rougher. 5Coil Heating: Attraction force decreases as the excited electromagnet coil temperature rises. Decrease rate is 10 to 20% (approx.). · Maximum attraction force is for subject material of 1018 Carbon Steel (polished
surface, 50mm thick plate). · There will be some residual magnetism after the power is turned OFF.
Features, Operating Conditions and Precautions for Use for Electromagnet HoldersQTapped Through Hole Type QAxial Cable TypeQStandard Type
QThin TypeQSuper Thin Type
QRectangle
MGE (Standard Type)
MGES (Low Profile Type)
SMGES (Super Low Profile Type)
MGD (Rectangle Type)
MGET (Axial Cable Type)MGX (Tapped Through Hole, Standard)
MGXS (Tapped Through Hole, Low Profile)
Rotation PreventionHole d
Lead Wire 0.3mm2x2Min. Bending Radius R23.5
C
E
D
M2xPM1xP
(B) (A)(L)
d1 d2
m1 m2
H
h
Plastic Part
AttractionSide
E
d1 d2 D
H
hRotation PreventionHole d
M1xP
( L)
C
Cable 0.3mm2, 2 ConductorsMin. Bending Radius R23.5
AttractionSide
PlasticPart
m1
(B) (A)
E
C 5
Hm1
M1xP
(L) (Ø5.5)
(6.7
)
d1 d2 D
FAttractionSide
Plastic Part
Lead Wire0.3mm2x2
(A)
d1 d2 D
E
H
M1xP
(L)
h
Lead Wire0.3mm2x2
Rotation PreventionHole d
CPlastic Part
AttractionSidem1
· MGEC1
· MGEC2
· MGEC1
· MGEC2
U
V
R
S
Single Phase 24V
Single Phase 90V
R S U V
1 3 4-+
2
Tr
PL
+(3)
(1) (2)
(1)~(4) Terminal Block No.
(1)~(4) Terminal Block No.
-(4)
OUTPUTDC24V max3A
INPUTAC100V
F
Tr
PL
+(3)
(1) (2) -(4)
OUTPUTDC90V max3A
U
V
VU
+ -
Jumper Wire (Remove it during remote ON/OFF operations)
Wiring to Electromagnet Holder
Wiring to Electromagnet Holder
INPUTAC100V
F
Red Black
· MGEC1
· MGEC2
· MGEC1
· MGEC2
U
V
R
S
Single Phase 24V
Single Phase 90V
R S U V
1 3 4-+
2
Tr
PL
+(3)
(1) (2)
(1)~(4) Terminal Block No.
(1)~(4) Terminal Block No.
-(4)
OUTPUTDC24V max3A
INPUTAC100V
F
Tr
PL
+(3)
(1) (2) -(4)
OUTPUTDC90V max3A
U
V
VU
+ -
Jumper Wire (Remove it during remote ON/OFF operations)
Wiring to Electromagnet Holder
Wiring to Electromagnet Holder
INPUTAC100V
F
Red Black
· MGEC1
· MGEC2
· MGEC1
· MGEC2
U
V
R
S
Single Phase 24V
Single Phase 90V
R S U V
1 3 4-+
2
Tr
PL
+(3)
(1) (2)
(1)~(4) Terminal Block No.
(1)~(4) Terminal Block No.
-(4)
OUTPUTDC24V max3A
INPUTAC100V
F
Tr
PL
+(3)
(1) (2) -(4)
OUTPUTDC90V max3A
U
V
VU
+ -
Jumper Wire (Remove it during remote ON/OFF operations)
Wiring to Electromagnet Holder
Wiring to Electromagnet Holder
INPUTAC100V
F
Red Black
QFeature · Rectifies input AC source into DC. Used as a power supply for the electromagnet holder.QCircuit QInterconnection
1. Before wiring, remove the rear cover.2. Connect leads from electromagnet holder to terminals 3 and 4 of the rectifier unit.
For remote ON / OFF operations, remove the jumper wire from terminals 1 and 2, and replace with signal input leads.
3. Pull out each wire from filmed grommet, and tighten the cover with screws.
1. Connect leads of electromagnetic holder to red and black terminals located on the front terminal block.
E�Provide proper GFCI devices to avoid fire and smoke that may be caused by short circuited electromagnet holders.
EElectromagnet will not operate properly unless correctly wired.
QOperation Method1. ON / OFF operated with the switch on the front side of the rectifier unit. · Pilot lamp turns ON / OFF. · Electromagnet holder will be excited, and the workpiece will be attracted / released.2-1. Turn the ON/OFF switch to ON when operating it remotely. (Pilot lamp is always on.)2-2. ON/OFF is operated remotely. [ON Operation] · Terminal 1 and 2 on terminal block are closed. (Electromagnet holder will be excited, and the workpiece will be attracted.) [OFF Operation] · Terminal 1 and 2 on terminal block are opened. (Excitation of an electromagnetic holder stops, and the work will be released.)
Switch
Lamp
Fuse3A
Black (-)
Red (+)
REC
INPUTAC100V
OUTPUTDC90V,max3A
· MGEC2
· MGEC1
MMaterialSSurface TreatmentBody 1018 Carbon Steel Electroless Nickel PlatingPlastic Part Epoxy Resin -
EMaximum attraction force is for subject material of 1018 Carbon Steel (polished surface, 50mm thick plate). *Dimensions in ( ) are for MGET.
Part Number H d1 d2 (A) (B) C* M1xP M2xPEffective Screw Depth Rotation Prevention Hole
E (L) F Voltage (V)
Current (A)
Max. Attraction Force N {kgf}
Mass (g) Unit Price
Type D m1 m2 d h
MGEMGET(*only)
*20 28 8 17.4 5.5 3.25 4 (3.25) 4x0.7 - 8 - - - -
700
-24
0.06 28 {2.8} 70 *30 40 13 27 7.2
6 10
(3.95)
6x1.0- 12 -
4 310 - 0.17 180 {18} 200
40 40 16 35 7.2 - 12 - 15 - 0.24 300 {30} 350
50 50 24 44.4 7.2 4.5 8x1.25 - 15 -5 4
18 -90
0.11 600 {60} 700
60 60 31 52.7 7.2 3 15 10x1.5 - 20 - 20 - 0.20 1,200 {120} 1200
MGES
20 20 6 17 5.5 1.5 12 4x0.7 - 5 - - - -
200
-24
0.07 10 {1} 40
30 20 13 27 5.52 15
6x1.0- 10 -
3 210 - 0.08 100 {10} 80
40 20 17 34 5.5 - 10 - 15 - 0.09 220 {22} 150
50 25 24 42 5.5 8x1.25 - 12 - 3 2 18 -90
0.10 500 {50} 300
60 30 32 50 5.5 3 18 10x1.5 - 16 - 4 3 20 - 0.21 1,000 {100} 500
MGX 20 28 8 17.4 5.5 3.5 4 (4.5) 4x0.7 3x0.5 8 16.3 - - -700
-24
0.06 16 {1.6} 70 30 40 13 27 7.2 6 10 (5) 6x1.0 4x0.7 12 22.6 4 3 10 - 0.17 108 {10.8} 200
MGXS 20 20 6 17 5.5 1.5 12 4x0.7 3x0.5 5 11.3 - - -200
-24
0.07 6 {0.6} 40 30 20 13 27 5.5 2 15 6x1.0 4x0.7 10 4.6 3 2 10 - 0.08 60 {6} 80
SMGES 30 15 11.5 27.5 5.5 1.3 15 6x1.0-
8-
3 2 10 200 - 24 0.06 50 {5} 60 - -
MGD 20 20 6 17.6 5.5 - 5 4x0.7 - 5 - - - 20 700 40 24 0.13 40 {4} 100 30 20 13 27.6 5.5 - 7 6x1.0 - 10 - - - 30 700 60 24 0.17 150 {15} 200
Part Number Input Voltage
Output Voltage DC(V)
Max. Allowable Current (A) Weight (kg) Unit PriceType No.
MGEC 1 Single PhaseAC100V
243
3.5
2 90 1
E�Work in parallel connections using with terminal blocks, etc. when multiple electromagnet holders used in one rectifier. Max. allowable electromagnet holders for one rectifier = Max. allowable current of the rectifier (3A) / Operating current of electromagnet holders (Since electromagnet holders operating current may vary with its models and sizes, refer to "Current (A)" in the table on the left-hand page.)
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