CN209815037U - Displacement device for circulating assembly line - Google Patents

Abstract

The utility model relates to a displacement device for a circulating assembly line, which comprises a frame, two belt conveying lines arranged in parallel on the frame, a reversing guide rail perpendicular to the belt conveying lines, two top discs, two jacking devices, two motors, a synchronous belt and a synchronous wheel; the belt conveying line is arranged on the rack; the reversing guide rail is arranged on the rack; the installation height of the reversing guide rail is higher than that of the belt conveying line; the top disc is placed on a belt conveying line; the jacking device is arranged right below the top disc; the synchronous belt is arranged on the side of the rack and the reversing guide rail; the motor is arranged on the frame; the synchronous belt is installed in the synchronous wheel. The utility model has the advantages that: simple structure, fast response speed and small occupied space.

Description

Displacement device for circulating assembly line

Technical Field

The utility model relates to a displacement device, concretely relates to a displacement device for circulating assembly line.

Background

Industrial production often requires application to a fabrication line, which is traditionally a flow line. The assembly line requires a plurality of operators to work around the production line, so that the production cost is high and the efficiency is low. The intelligent production line becomes a mainstream, but the problem of large occupied space of the connection equipment still exists in part of intelligent production lines on the market. The circulating assembly line effectively overcomes the defects of large volume and low efficiency of the traditional mechanism, wherein the displacement structure is the core part of the circulating assembly line.

Therefore, how to provide a displacement device for a circulation assembly line, which has a simple structure, a fast response speed and a small occupied space, is the research object of the utility model.

Disclosure of Invention

For solving the prior art problem, the utility model discloses the technical scheme who adopts is:

a displacement device for a cyclical assembly line, comprising: the device comprises a rack, two belt conveying lines arranged in parallel on the rack, a reversing guide rail perpendicular to the belt conveying lines, two top discs, two jacking devices, two motors, a synchronous belt and a synchronous wheel; the belt conveying line is arranged on the rack; the reversing guide rail is arranged on the rack; the installation height of the reversing guide rail is higher than that of the belt conveying line; the top disc is placed on a belt conveying line; the jacking device is arranged right below the top disc; the synchronous belt is arranged on the side of the rack and the reversing guide rail; the motor is arranged on the frame; the synchronous belt is installed in the synchronous wheel.

Furthermore, tracks are arranged on two sides of the top plate, the running direction and speed of the tracks are consistent with those of the synchronous belt, and the height of the tracks is slightly lower than that of the belt conveying line.

Further, the track running direction and speed of the top disc are consistent with those of the synchronous belt.

Furthermore, one side of the top plate is provided with an unnotched baffle plate, and the baffle plate is provided with a proximity switch.

Further, the top plate is simultaneously raised and lowered.

Further, the jacking device is powered by the motor.

The utility model has the advantages that: the displacement device is a core part of the circular assembly line, the processing parts are moved from one belt conveying line to the other belt conveying line, manual intervention is abandoned, and the circular movement of the processing parts on the production line is finally realized to form the circular assembly production line. The utility model discloses simple structure, response speed are fast, take up an area of the space few.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a front view of the present invention.

Fig. 4 is a plan view of the present invention.

Wherein: motor 11, motor 12, top dish 21, top dish 22, jacking device 31, jacking device 32, switching-over guide rail 4, hold-in range 5, belt transfer chain 61, belt transfer chain 62, frame 7, synchronizing wheel 8.

Detailed Description

In order to make the technical solution of the present invention more understandable to those skilled in the art, the present invention is further analyzed with reference to fig. 1-4.

As shown in fig. 1, a motor 11, a motor 12, a top disc 21, a top disc 22, a jacking device 31, a jacking device 32, a reversing guide rail 4, a synchronous belt 5, a belt conveying line 61, a belt conveying line 62, a frame 7 and a synchronous wheel 8; the belt conveying line 61 and the belt conveying line 62 are arranged on the frame 7; the reversing guide rail 4 is arranged on the frame 7; the installation height of the reversing guide rail 4 is higher than that of the belt conveying line 61 and the belt conveying line 62; the top tray 21 is placed on the belt conveyor line 61, and the top tray 22 is placed on the belt conveyor line 62; the jacking device 31 is arranged right below the top disc 21, and the jacking device 32 is arranged right below the top disc 22; the synchronous belt 5 is arranged on the side of the frame 7 and the reversing guide rail 4; the motor 11 and the motor 12 are arranged on the frame 7; the timing belt 5 is mounted in a timing wheel 8.

The surface of the processing member is a square member, both sides of which are placed on the belt conveying line 61 and are carried by the belt conveying line 61. When the belt conveyor line 61 conveys the processing component to the proximity of the top tray 21, the processing component is ready to start the transfer process of the transfer from the belt conveyor line 61 to the belt conveyor line 62. One side of the top disc 21 and one side of the top disc 22 are provided with unnotched baffles which are provided with proximity switches. When the processing part reaches the baffle of the top disc 21, the proximity switch senses the processing part and then feeds back information to the PLC controller, and the PLC controller gives instructions to the motor 11 and the motor 12. The processing part reaches the top disc 21, the side of the top disc 21 with the baffle blocks the processing part, and due to the fact that the weight of the processing part is small, the pressure on the track is not large, and the response speed of the jacking device 31 is high, the processing part cannot cause excessive abrasion to the belt conveying line 61 when being blocked by the top disc 21. And tracks are arranged on two sides of the top disc 21 and the top disc 22, and the running direction and speed of the tracks are consistent with those of the synchronous belt. In the top tray 21, both sides of the processing member which do not contact the rails of the belt line 61 contact the rails on both sides of the top tray 21. The processing part is completely positioned in the middle of the top disc 21, the proximity switch of the top disc 21 induces the processing part and then feeds back information to the PLC, and the PLC gives instructions to the motor 11 and the motor 12. The motor 11 and the motor 12 provide power for the jacking device 31 and the jacking device 32, and the jacking device 31 and the jacking device 32 move upwards to jack the top disc 21 and the top disc 22 to the same height of the reversing guide rail 4. The track in the reversing guide rail 4 is coordinated by the synchronous wheel 8, the running speed of the track is the same as that of the synchronous belt 5, the synchronous belt 5 enables the track running direction and speed of the top disc 21 and the top disc 22 to be consistent with those of the synchronous belt 5 through the synchronous wheel 8, and therefore the track speed in the reversing guide rail 4 is the same as that of the top disc 21 and the top disc 22. The device has the advantages of high response speed, low abrasion to the machine, no need of intervention of workers and production cost reduction.

After the top disc 21 and the top disc 22 are jacked, the machining part is conveyed to the reversing guide rail 4 by the rail of the top disc 21, the reversing guide rail 4 can move the machining part to the rail of the top disc 22, the machining part reaches the top disc 22, when the induction switch in the top disc 22 detects that the 2B is completely positioned in the middle of the top disc, the top disc 22 sends a signal to the PLC controller, and the PLC controller gives an instruction motor 11 and a motor 12, so that the top disc 21 and the top disc 22 are lowered to be at the same height as the belt conveying line 61 and the belt conveying line 62. Since the top tray rail is slightly lower than the belt conveyor line 62, the belt conveyor line 62 rail smoothly brings the processing member to the belt conveyor line 62 smoothly, and the transfer of the processing member from the belt conveyor line 61 to the belt conveyor line 62 is completed.

The circular assembly production line uses the displacement device, so that the transfer of the processing parts can be completed in a small space without a special connection device. The displacement device is simple in structure and high in practicability, and can be used for completing the manufacture of machining parts in a full-automatic manner by matching with other machining devices of a circulating assembly line.

The technical solutions provided by the present application are introduced in detail, and the principles and embodiments of the present application are explained herein by applying embodiments, and the descriptions of the embodiments are only used to help understand the method and the core ideas of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (6)

1. A displacement device for a cyclical assembly line, characterized by: the method comprises the following steps: the device comprises a rack, two belt conveying lines arranged in parallel on the rack, a reversing guide rail perpendicular to the belt conveying lines, two top discs, two jacking devices, two motors, a synchronous belt and a synchronous wheel; the belt conveying line is arranged on the rack; the reversing guide rail is arranged on the rack; the installation height of the reversing guide rail is higher than that of the belt conveying line; the top disc is placed on a belt conveying line; the jacking device is arranged right below the top disc; the synchronous belt is arranged on the side of the rack and the reversing guide rail; the motor is arranged on the frame; the synchronous belt is installed in the synchronous wheel.

2. A displacement device for a cyclical assembly line as claimed in claim 1, characterized in that: and tracks are arranged on two sides of the top disc, the running direction and speed of the tracks are consistent with those of the synchronous belt, and the height of the tracks is slightly lower than that of the belt conveyor line.

3. A displacement device for a cyclical assembly line as claimed in claim 1, characterized in that: and the track running direction and speed of the top disc are consistent with those of the synchronous belt.

4. A displacement device for a cyclical assembly line as claimed in claim 1, characterized in that: one side of the top disc is provided with a baffle without a notch.

5. A displacement device for a cyclical assembly line as claimed in claim 1, characterized in that: the top plate is simultaneously raised and lowered.

6. A displacement device for a cyclical assembly line as claimed in claim 1, characterized in that: the jacking device is powered by the motor.