Solution Description
h body stamping punching push line with transfer manipulator
JS36 straight facet 2 details push is made for the application of higher precision, weighty steel stampings works, these kinds of as motorbike and bicycle parts, and house equipment factors. Automation provisions, JX36 can be very easily upgraded for progressive robotic or mechanical transfer program.
Functions:
1) Welded Metal plate framework with CZPT beam, column and the foundation tightened and merged into 1 body by taut bolts.
2) Herringbone gear transmission.
3) Slide guiding adopts eight-side orthogonal information rail or forty five degree inclined 4-facet guide rail.
four) Pneumatic friction clutch and brake.
five) Equipped with hydraulic overload protecting unit.
six) Computerized oil lubrication method with standard time and potential.
seven) Duplex valves imported. Managed by PLC with worldwide model.
eight) Buttons, indicators, AC contactors, air circuit breakers and other managing products are imported from international brand
9) Double loop handle by imported digital and mechanical cam controller.
ten) Optional: air cushion, entrance-back again moving bolster, hydraulic cushion, lower pace shut top adjustment and transmission technique, gentle curtain.
Information:
Parameters:
Parameter | Unit | JS36- 250 | JS36- three hundred | JS36- 400 | |
Nominal Ability | KN | 2500 | 3000 | 4000 | |
Nominal strain stroke | mm | thirteen | 13 | 13 | |
Slide Stroke | mm | four hundred | four hundred | four hundred | |
Strokes For each Moment | spm | 16 | sixteen | 16 | |
Max Die Set Top | mm | 650 | 720 | 770 | |
Die Peak Adjustment | mm | 315 | four hundred | four hundred | |
Bolster Size | L×R | mm | 2600 | 2800 | 2800 |
F×B | mm | 1300 | 1600 | 1600 | |
Slide Bottom Dimension | L×R | mm | 2600 | 2800 | 2800 |
F×B | mm | 1300 | 1600 | 1600 | |
Facet Knockout Rod | Construction | rigidity | rigidity | rigidity | |
Knockout stress | KN | 100 | a hundred and fifty | a hundred and fifty | |
Cushion | Clamping pressure | KN | 510 | 600 | 600 |
Withdraw strain | KN | 510 | 600 | 600 | |
Amount | Pc | one | one | 1 | |
Stroke | mm | 200 | 200 | two hundred | |
General Proportions | Height | mm | 6960 | 7000 | 7000 |
L×R | mm | 4760 | 5100 | 5100 | |
F×B | mm | 4200 | 4000 | 4000 | |
Motor Electricity | KW | 37 | 37 | 45 | |
Weight | T | seventy five | 90 | 104 | |
Parameter | Device | JS36- 500 | JS36- 630 | JS36- 800 | |
Nominal Ability | KN | 5000 | 6300 | 8000 | |
Nominal force stroke | mm | 13 | 13 | 13 | |
Slide Stroke | mm | four hundred | five hundred | five hundred | |
Strokes For each Minute | spm | sixteen | fourteen | ten | |
Max Die Established Top | mm | 650 | 1100 | 990 | |
Die Top Adjustment | mm | 400 | five hundred | four hundred | |
Bolster Dimension | L×R | mm | 2800 | 3500 | 3640 |
F×B | mm | 1600 | 1800 | 1800 | |
Slide Base Dimensions | L×R | mm | 2800 | 3500 | 3640 |
F×B | mm | 1600 | 1800 | 1800 | |
Facet Knockout Rod | Structure | rigidity | rigidity | rigidity | |
Knockout force | KN | 150 | a hundred and fifty | one hundred fifty | |
Cushion | Clamping strain | KN | 600 | one thousand | a thousand |
Withdraw stress | KN | 600 | 1000 | one thousand | |
Amount | Laptop | 1 | 1 | 1 | |
Stroke | mm | two hundred | 250 | 250 | |
General Dimensions | Height | mm | 7400 | 8000 | 8500 |
L×R | mm | 5100 | 6200 | 6800 | |
F×B | mm | 4000 | 4370 | 4600 | |
Motor Electricity | KW | seventy five | ninety | one hundred ten | |
Weight | T | 142 | a hundred and eighty | 210 | |
Parameter | Device | JS36-1000 | JS36-1250 | JS36-1600 | |
Nominal Capability | KN | 10000 | 12500 | 16000 | |
Nominal force stroke | mm | 13 | 13 | 13 | |
Slide Stroke | mm | 500 | 600 | 500 | |
Strokes Per Minute | spm | 10 | twelve | 10 | |
Max Die Set Peak | mm | a thousand | 1300 | 950 | |
Die Top Adjustment | mm | 400 | five hundred | 400 | |
Bolster Measurement | L×R | mm | 4000 | 4000 | 5000 |
F×B | mm | 2000 | 2000 | 2000 | |
Slide Base Dimension | L×R | mm | 4000 | 4000 | 5000 |
F×B | mm | 2000 | 2000 | 2000 | |
Side Knockout Rod | Composition | rigidity | rigidity | air | |
Knockout stress | KN | a hundred and fifty | a hundred and fifty | one hundred | |
Cushion | Clamping strain | KN | 1200 | 1500 | 1500 |
Withdraw force | KN | 1200 | 1500 | 1500 | |
Amount | Personal computer | one | 1 | one | |
Stroke | mm | 250 | 250 | 250 | |
All round Proportions | Top | mm | 9000 | 9900 | 10000 |
L×R | mm | 7500 | 8500 | 8500 | |
F×B | mm | 5300 | 5600 | 5600 | |
Motor Power | KW | one hundred ten | 132 | 132 | |
Weight | T | 255 | 320 | 480 |
Racks are employed to transform rotary movement into linear movement. The spur enamel of the rack cut into 1 experience of the sq. or circular rod part and work with the pinion, which is a small cylindrical gear that meshes with the rack. Generally, racks and pinions are collectively referred to as “rack and pinion”.
Gears are used in a big quantity of mechanical products. Most importantly, they give equipment reduction for motorized gear. This is crucial due to the fact usually small motors that spin very quick can offer ample electricity to the device, but not enough torque, the pressure that triggers an object to spin or twist on an axis. For instance, an electric powered screwdriver has a really large equipment reduction (minimizes the speed of a rotating machine (like an electric powered motor)) simply because it calls for a lot of torque to turn the screw. But the motor creates only a small quantity of torque at higher speeds. With gear reduction, the output speed can be diminished while increasing the torque.