CN112320365A - Online automatic balance device - Google Patents

Abstract

An online automatic balance device is characterized in that a transfer mechanism, a material receiving mechanism and a water receiving box are arranged on a rack, a material pushing mechanism is arranged on the transfer mechanism, parts reach a material placing position through the transfer mechanism, and the parts fall onto a material box placed on the material receiving mechanism through the material pushing mechanism. The water receiving box is arranged at the lower part of the transfer mechanism. The automatic part placing device can automatically place parts in the material containing disc in order, and can avoid mutual collision among the parts; manual operation can be replaced, and the working efficiency is improved.

Description

Online automatic balance device

Technical Field

The invention relates to the field of a swinging plate of a shaft workpiece.

Background

The shaft parts are very common parts in the mechanical industry and very important parts, the shape error precision of the shaft parts directly influences the mechanical motion performance and the service life, the shaft parts are more and more required to the shaft along with the development of the mechanical industry, shaft production enterprises are more and more engaged, the shaft parts are not eliminated in fierce competition, the first task is to control the product quality precision, the collision between the parts and the parts in the machining process has great influence on the product quality, and the machining cost is greatly wasted. The part collision prevention by only manual participation can cause great waste, and the efficiency is lower.

Disclosure of Invention

The invention aims to provide an online automatic tray placing device which can replace manual operation, realize automatic orderly placing of parts in a material containing tray, avoid mutual collision of the parts and improve working efficiency.

The invention mainly comprises a frame, a transfer mechanism, a material receiving mechanism and a water receiving box.

Wherein, a transfer mechanism, a receiving mechanism and a water receiving box are arranged on the frame, and a pushing mechanism is arranged on the transfer mechanism. The parts reach the material placing position through the moving mechanism, and fall into a material box placed on the material receiving mechanism through the material pushing mechanism. The water receiving box is arranged at the lower part of the transfer mechanism.

Further, receiving mechanism is including connecing the work or material rest, connecing the silo, connect the material bearing roller, connect material conveyer belt and motor A. The receiving mechanism is arranged on the frame through the receiving frame, the receiving groove is arranged on the receiving frame, two groups of receiving carrier rollers are arranged in the receiving groove and are connected through the receiving conveyor belt, and one end of one receiving carrier roller is connected with the motor A through belt transmission.

Further, the transfer mechanism comprises a support frame, a carrier roller bearing seat, a carrier roller, a conveyor belt and a motor B. The transfer mechanism is arranged on the frame through a transfer frame, and a support frame is fixed on the transfer frame. Two ends of the transfer frame are provided with two groups of carrier roller bearing blocks, a carrier roller is arranged between each group of carrier roller bearing blocks, one end of one carrier roller is connected with a motor B through belt transmission, and a conveying belt is arranged between the two carrier rollers.

Furthermore, a flange is arranged on the inner side of the transfer frame of the transfer mechanism.

Further, the pushing mechanism comprises a support, an air cylinder, an inductive switch and a pushing block. The pushing mechanism is arranged on a support frame of the transfer mechanism, a plurality of supports are fixed on the support frame, and the number of the supports is the same as that of the transverse material troughs of the material tray. And each support frame is provided with an air cylinder, the free end of the piston rod of each air cylinder is fixed with a material pushing block, and the material pushing block is provided with an inductive switch. When the parts in the material pushing block are detected through the inductive switch, the air cylinder works, and the parts are pushed out by the material pushing block.

Furthermore, the movement direction of the material pushing block is the same as the direction of the transfer mechanism, a material pushing groove is formed in the material pushing block, and the direction of the material pushing groove is parallel to the material receiving conveyor belt. The parts are fed into the material pushing groove of the material pushing block through the material receiving mechanism, the air cylinder pushes the material pushing block, the parts are separated from the material receiving conveying belt, and the parts fall into the corresponding material grooves of the material box.

When the automatic feeding device is used, the device is started, the material receiving conveyor belt starts to work, the parts are conveyed by the material receiving conveyor belt and reach the material placing position, the induction switch detects that the parts exist, the air cylinder works, the parts are pushed out by the material pushing groove of the material pushing block, and the parts fall into the corresponding material groove of the material box through the material receiving block. The material box is placed in the material box, and the material box is placed in the material box. And one material tray is full, the next material tray is placed, and the circulation work is performed.

Compared with the prior art, the invention has the following advantages:

(1) the automatic arrangement of the parts in the material containing disc is realized, and the parts can be prevented from colliding with each other;

(2) manual operation can be replaced, and the working efficiency is improved.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a side view of the present invention;

FIG. 4 is a schematic three-dimensional view of a pusher chute of the present invention;

in the figure, 1-a rack, 2-a material receiving frame, 3-a material receiving groove, 4-a material receiving carrier roller, 5-a material receiving conveying belt, 6-a motor A, 7-a transferring frame, 8-a supporting frame, 9-a carrier roller bearing seat, 10-a carrier roller, 11-a motor B, 12-a conveying belt, 13-a retaining edge, 14-a water receiving box, 15-a bracket, 16-an air cylinder, 17-a material pushing block, 18-an inductive switch, 19-a material pushing groove and 20-a material tray.

Detailed Description

In the schematic diagrams of the present invention shown in fig. 1 to 4, a transfer mechanism, a receiving mechanism and a water receiving box are arranged on a frame 1, the receiving mechanism comprises a receiving frame, a receiving groove, receiving carrier rollers, a receiving conveyor belt and a motor a, the receiving mechanism is arranged on the frame through the receiving frame 2, the receiving groove 3 is arranged on the receiving frame, two groups of receiving carrier rollers 4 are arranged in the receiving groove, the receiving carrier rollers are connected through the receiving conveyor belt 5, and one end of one receiving carrier roller is connected with the motor a6 through belt transmission. The transfer mechanism comprises a support frame, a carrier roller bearing seat, a carrier roller, a conveyor belt and a motor B. The transfer mechanism is arranged on the frame through a transfer frame 7, and a support frame 8 is fixed on the transfer frame. Two ends of the transfer frame are provided with two groups of carrier roller bearing blocks 9, a carrier roller 10 is arranged between each group of carrier roller bearing blocks, one end of one carrier roller is connected with a motor B11 through belt transmission, and a conveying belt 12 is arranged between the two carrier rollers. The inner side of the transfer frame of the transfer mechanism is provided with a flange 13. The water receiving box 14 is arranged at the lower part of the transfer mechanism. The material pushing mechanism is arranged on the transferring mechanism. The material pushing mechanism comprises a support, a cylinder, an inductive switch and a material pushing block. The pushing mechanism is arranged on a support frame of the transfer mechanism, five supports 15 are fixed on the support frame, and the number of the supports is the same as that of the transverse material troughs of the material tray. Each bracket is provided with an air cylinder 16, the free end of the piston rod of each air cylinder is fixed with a material pushing block 17, and the material pushing block is provided with an inductive switch 18. The moving direction of the material pushing block is the same as the direction of the transfer mechanism, a material pushing groove 19 is formed in the material pushing block, and the direction of the material pushing groove is parallel to the material receiving conveyor belt. The parts are fed into the material pushing groove of the material pushing block through the material receiving mechanism, when the parts in the material pushing block are detected through the inductive switch, the air cylinder pushes the material pushing block, the parts are pushed out by the material pushing block, the parts are separated from the material receiving conveyor belt, and the parts fall into the corresponding material grooves of the material box 20.

Claims (7)

1. The utility model provides an online automatic balance device, mainly includes frame, transfer mechanism, receiving mechanism and water receiving box, its characterized in that: the rack is provided with a transfer mechanism, a receiving mechanism and a water receiving box, the pushing mechanism is arranged on the transfer mechanism, the parts reach the material placing position through the moving mechanism, the parts fall on a material box of the receiving mechanism through the pushing mechanism, and the water receiving box is arranged at the lower part of the transfer mechanism.

2. The on-line automatic balance device according to claim 1, wherein: the receiving mechanism comprises a receiving frame, a receiving groove, receiving carrier rollers, a receiving conveyor belt and a motor A, the receiving mechanism is arranged on the frame through the receiving frame, the receiving groove is arranged on the receiving frame, two groups of receiving carrier rollers are arranged in the receiving groove, the receiving carrier rollers are connected through the receiving conveyor belt, and one end of one receiving carrier roller is connected with the motor A through belt transmission.

3. The on-line automatic balance device according to claim 1, wherein: the transfer mechanism comprises a support frame, carrier roller bearing blocks, carrier rollers, a conveyor belt and a motor B, the transfer mechanism is erected on the rack through transfer, the support frame is fixed on the transfer frame, two groups of carrier roller bearing blocks are arranged at two ends of the transfer frame, the carrier roller is arranged between each group of carrier roller bearing blocks, one end of one carrier roller is connected with the motor B through belt transmission, and the conveyor belt is arranged between the two carrier rollers.

4. The on-line automatic balance device according to claim 1 or 3, characterized in that: the inner side of the transferring frame of the transferring mechanism is provided with a flange.

5. The on-line automatic balance device according to claim 1, wherein: the pushing mechanism comprises a support, a cylinder, an inductive switch and a pushing block, the pushing mechanism is arranged on a support frame of the transfer mechanism, the support frame is fixed with the support, the cylinder is arranged on each support frame, the free end of a piston rod of each cylinder is fixed with one pushing block, and the inductive switch is arranged on the pushing block.

6. The on-line automatic balance device according to claim 1 or 5, wherein: the number of the brackets is the same as that of the transverse material grooves of the material tray.

7. The on-line automatic balance device according to claim 1 or 5, wherein: the moving direction of the material pushing block is the same as the direction of the transfer mechanism, a material pushing groove is formed in the material pushing block, and the direction of the material pushing groove is parallel to the material receiving conveyor belt.

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