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Splittable transfer device and splittable transfer method

A technology for conveying devices and extending directions, which is applied in the direction of packaging, conveyors, conveyor objects, etc., and can solve problems such as product damage and cost increase

Active Publication Date: 2020-10-23
FOXSEMICON INTEGRATED TECHNOLOGY (SHANGHAI) INC +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In the production of the factory, many parts and some finished products need to be transported to the place of need by conveying device (as continuous conveyor), and different products need to be transported to different places, and the continuous conveyor in the prior art is on the When different products are diverted to different directions, it is often necessary to move the products through a lateral movement device, which increases the cost and easily causes damage to the products during the lateral movement

Method used

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  • Splittable transfer device and splittable transfer method
  • Splittable transfer device and splittable transfer method
  • Splittable transfer device and splittable transfer method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0057] see figure 1 , the first omnidirectional wheels 30 and the second omnidirectional wheels 50 are evenly and spaced on each axle 10, and the first omnidirectional wheels 30 and the second omnidirectional wheels 50 are arranged alternately on each axle 10 . Moreover, the first omni-directional wheels 30 and the second omni-directional wheels 50 are arranged alternately along the parallel direction of the plurality of wheel axles 10 .

[0058] When in use, the object 200 is placed on the divertable conveying device 100 and is in contact with the roller body 333 of the first omnidirectional wheel 30 and the roller body (not shown) of the second omnidirectional wheel 50 , when When the controller controls the driving member 70 to simultaneously drive the first omni-directional wheel 30 and the second omni-directional wheel 50 to rotate in the same direction, the object 200 will move along the side-by-side direction of the wheel shafts 10 . When the controller controls the d...

Embodiment 2

[0060] see image 3 First omni-directional wheels 30 and second omni-directional wheels 50 are evenly and spaced on each wheel shaft 10 , and the first omni-directional wheels 30 and the second omni-directional wheels 50 are arranged alternately on the wheel shaft 10 . Moreover, the arrangement order of the first omni-directional wheels 30 and the second omni-directional wheels 50 on any two adjacent wheel axles 10 is the same.

[0061] In use, when the controller controls the driving member 70 to simultaneously drive the first omni-directional wheel 30 and the second omni-directional wheel 50 to rotate in the same direction, the object 200 will move along the side-by-side direction of the wheel shaft 10 move. When the controller controls the driving member 70 to only drive the first omni-directional wheel 30 or the second omni-directional wheel 50 to rotate, the object 200 will move in a direction parallel to the surface where the wheel axle 10 is located. Move in a directi...

Embodiment 3

[0063] see Figure 4 , on any axle 10, only the first omnidirectional wheels 30 are evenly spaced or only the second omnidirectional wheels 50 are evenly spaced, and the first omnidirectional wheels 30 and the second omnidirectional wheels 50 Alternately arranged along the side-by-side direction of the plurality of axles 10 .

[0064] In use, when the controller controls the driving member 70 to simultaneously drive the first omni-directional wheel 30 and the second omni-directional wheel 50 to rotate in opposite directions, the object 200 will move along the extension direction of the wheel shaft 10 move. When the controller controls the driving member 70 to only drive the first omni-directional wheel 30 or the second omni-directional wheel 50 to rotate, the object 200 will move in a direction parallel to the surface where the wheel axle 10 is located. Move in a direction perpendicular to the connecting shaft 331 of the driven roller 33 on the first omni-directional wheel 3...

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PUM

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Abstract

A divertable conveying device for conveying objects, the divertable conveying device includes a plurality of parallel axles, a plurality of first omnidirectional wheels and a plurality of second omnidirectional wheels, the plurality of first omnidirectional The wheel and the plurality of second omni-directional wheels are rotatably sleeved on the plurality of wheel axles and arranged in a matrix, and the first omni-directional wheels and the second omni-directional wheels are arranged along the arrangement direction of the wheel axles. Or / and arranged alternately along the side-by-side direction of several wheel shafts, each of the first omni-directional wheels and the second omni-directional wheels respectively includes a hub arranged on the wheel shaft and a plurality of driven rollers arranged on the periphery of the hub, the When the first omni-directional wheel and the second omni-directional wheel are side by side, the driven roller of the first omni-directional wheel is mirror-symmetrical to the driven roller of the second omni-directional wheel, and the driven roller of the first omni-directional wheel The driven roller and the driven roller of the second omni-directional wheel are used to support the object.

Description

technical field [0001] The invention relates to a conveying device, in particular to a divertable conveying device and a divertable conveying method using the divertable conveying device. Background technique [0002] In the production of the factory, many parts and some finished products need to be transported to the place of need by conveying device (as continuous conveyor), and different products need to be transported to different places, and the continuous conveyor in the prior art is on the When different products are diverted to different directions, it is often necessary to move the products through a lateral movement device, which increases the cost and easily causes damage to the products during the lateral movement. Contents of the invention [0003] In view of this, it is necessary to provide a splittable delivery device that solves the above problems. [0004] It is also necessary to provide a splittable transfer method using the above splittable transfer dev...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B65G47/64
CPCB65G47/64B65G47/2445B65G13/10B65G2207/34B65G13/04B65G39/04B65G2201/02B65G39/10
Inventor 邱义君黄俊凯呂至誠陈春忠
Owner FOXSEMICON INTEGRATED TECHNOLOGY (SHANGHAI) INC