Multi-stage sleeve type lifting mechanism for robot

A lifting mechanism and sleeve-type technology, which is applied in the field of robots, can solve problems such as uneven lifting speed, large gaps and easy deformation, and mechanism loads that are easy to swing, so as to achieve simple and reliable transmission structure, neat winding arrangement, and ensure stability. Effect

Inactive Publication Date: 2019-01-15
SHENZHEN LAUNCH DIGITAL TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] 1. A single guide rail is used as a guide. Due to the slender mechanism, the structure is unstable, and the gap is large and easy to deform;
[0006] 2. The wire rope is wound on the reel, the rope is difficult to arrange, the positioning accuracy is not accurate, and the lifting speed is uneven;
[0007] 3. The descent is driven by gravity, the motor releases the wire rope, and it is easy to shake up and down during movement;
[0008] 4. The mechanism load is easy to swing due to the influence of external inertial force
[0011] 1. The scissor mechanism is not beautiful, and the cables and flat belts are exposed and cannot be hidden;
[0012] 2. The scissor mechanism has many movable joints, the gap is easy to accumulate, and the angle of the scissors is uneven;
[0013] 3. The scissor mechanism has low rigidity and is easy to swing;
[0014] 4. The force on both sides of the double scissors structure is uneven, and the scissors are easy to tilt

Method used

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  • Multi-stage sleeve type lifting mechanism for robot
  • Multi-stage sleeve type lifting mechanism for robot
  • Multi-stage sleeve type lifting mechanism for robot

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0051] A preferred embodiment of the present invention provides a multi-stage sleeve-type lifting mechanism for a robot. The drive assembly includes a drive motor 1 with an adjustable drive speed, a reducer 2, and a synchronous pulley 15. The drive motor 1 is connected to the The speed reducer 2 is connected in transmission, and the speed reducer 2 is connected in transmission with the synchronous pulley 15, and the synchronous pulley 15 is connected with the reel 3 through the synchronous belt 16.

[0052] The working principle of this embodiment: the mechanism is driven by a motor, the reducer 2 decelerates, and then the rotational motion and torque are transmitted to the reel 3 through the transmission of the synchronous pulley 15, and the reel 3 winds or releases the flat belt 4 to The moving end of the mechanism (ie base plate 9) is lifted and released.

Embodiment 2

[0054] The present invention provides a multi-stage telescopic lifting mechanism for a robot on the basis of Embodiment 1. The drive motor 1 is equipped with an encoder and a brake capable of power-off braking.

[0055] The working principle of this embodiment: the drive motor 1 has its own encoder and brake, and the encoder is used to control the position of the moving end of the mechanism, to locate and repeat the positioning of the moving end; the brake is a power-off brake, which is used for sudden power failure and shutdown Always protect the moving end of the lifting mechanism from falling down due to gravity.

Embodiment 3

[0057] A preferred embodiment of the present invention provides a multi-stage sleeve type lifting mechanism for robots, one end of the flat belt 4 is connected to the bottom plate 9, and the other end passes through the innermost sleeve 8 and bypasses the flat belt bogie 5 After being wound on the reel 3, the length of the flat belt 4 can be cut according to actual needs. The material of the flat belt 4 is a stretch-resistant material, and the flat belt 4 is a polyester belt.

[0058] The working principle of this embodiment: the flat belt bogie 5 can prevent the flat belt 4 from rubbing against the sleeve, protect the flat belt 4 and reduce the winding resistance of the flat belt 4 . The winding length of the flat belt 4 is cut according to the actual required length, and the flat belt 4 can be cut according to the distance from the moving end of the mechanism to the ground. Because the length of the flat belt 4 has been adjusted, when the reel 3 has released all the flat bel...

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PUM

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Abstract

The invention discloses a multi-stage sleeve type lifting mechanism for a robot. The mechanism includes a driving assembly, a reel, a flat belt bogie and a multi-stage sleeve, wherein the multi-stagesleeve is a rectangular parallelepiped sleeve, the multi-stage sleeve comprises an outermost sleeve, multiple intermediate sleeves and an innermost sleeve, the bottom of the innermost sleeve is fixedly provided with a bottom plate, the driving assembly and a drum are driven by a synchronous belt, the drum is connected with the bottom plate through a flat belt, a top stop plate, a bottom stop plateand a guide plate are arranged between two adjacent-stage sleeves, an expansion plate spring is arranged in the middle of the guide plate, when the flat belt winds to drive the multi-stage sleeve toexpand and contract, that the sleeves are stably clamped to each other without twisting or falling off can be guaranteed by the structure. Compared with the prior art, the structure has good rigidity,high stability, can prevent twisting and has high positioning precision.

Description

technical field [0001] The invention belongs to the technical field of robots, and in particular relates to a multi-stage sleeve-type lifting mechanism for a robot. Background technique [0002] At this stage, with the development of robot technology, various intelligent inspection and monitoring robots are more and more widely used, and are mostly used in large supermarkets, warehouses, farms, factories, power distribution rooms, substations and other places. The height of each monitoring point is also different, and the height difference is getting bigger and bigger. The traditional pan-tilt rotation alone can no longer fully cover the monitoring range. There is an urgent need for a robot capable of three-dimensional monitoring, so a robot lifting mechanism has emerged as the times require. [0003] The solution of prior art 1: a multi-stage lifting mechanism, driven by a motor, with a single guide rail and a slider as a guiding device, and adopts the pulley principle. W...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B25J19/00
CPCB25J19/00
Inventor 沈辉李松林
Owner SHENZHEN LAUNCH DIGITAL TECH
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