CN218840892U

CN218840892U - Workpiece splitting device

Info

Publication number: CN218840892U
Application number: CN202222845733.8U
Authority: CN
Inventors: 晏友胜
Original assignee: Suzhou Huida Hengye Technology Group Co ltd
Current assignee: Suzhou Huida Hengye Technology Group Co ltd
Priority date: 2022-10-27
Filing date: 2022-10-27
Publication date: 2023-04-11
Anticipated expiration: 2032-10-27

Abstract

The utility model discloses a work piece divides row device, including assembly line equipment and first mounting panel, the one end of first mounting panel is connected with the flow distribution plate through first round pin hub rotation, and wherein the top of a riser is connected with the second mounting panel, and the one end that the riser was kept away from to the second mounting panel is connected with the cylinder through third round pin hub rotation, and the cylinder has the expansion end, and the activity is served fixedly connected with hinge ring, and hinge ring is connected through second round pin hub rotation with the middle part of flow distribution plate. When the movable end extends out, the flow distribution plate is driven to rotate, the left half assembly line device is obliquely cut off by the flow distribution plate, and the workpiece is pushed to the right half assembly line device under the reaction force of the flow distribution plate. When the movable end retracts, the direction of movement of the diverter plate is reversed. Constantly repeat above-mentioned action, a work piece is divided into two, and two work pieces can be carried simultaneously in the action of vanning machinery, puts into the packing box with two work pieces, and vanning efficiency has improved one time.

Description

Workpiece splitting device

Technical Field

The utility model relates to a work piece divides row device belongs to automatic vanning equipment field.

Background

After the workpieces are processed, the workpieces are sequentially discharged from assembly line equipment, and the workpieces are boxed one by using a boxing machine, so that the boxing speed is low and the efficiency is low. For example, the manipulator can pack one workpiece each time, and the manipulator reciprocates for multiple times to finish the packing. Therefore, it is an urgent technical problem to be solved by those skilled in the art to improve the packing efficiency and pack a plurality of workpieces at a time.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide a workpiece sorting device. Divide into two with the last a plurality of work pieces of discharging in proper order of assembly line equipment to the mechanical one-time motion of case packer can be with two work pieces vanning simultaneously, has promoted vanning efficiency.

In order to achieve the above purpose, the utility model discloses a technical scheme is: the utility model provides a work piece divides row device, including assembly line equipment, the intermediate junction of assembly line equipment has first support, first support includes a pair of riser and diaphragm, the both sides at assembly line equipment are connected respectively to a pair of riser, the both ends of diaphragm are connected with the top of a pair of riser respectively, the first mounting panel of horizontally is connected to the middle part of diaphragm, the one end that the diaphragm was kept away from to first mounting panel is rotated through first round pin axle and is connected with the flow distribution plate, wherein the top of a riser is connected with the second mounting panel, the one end that the riser was kept away from to the second mounting panel is rotated through third round pin axle and is connected with the cylinder, the cylinder has the expansion end, fixedly connected with hinge ring on the expansion end, hinge ring rotates through second round pin axle with the middle part of flow distribution plate and is connected.

In order to prevent that the work piece after the flow distribution of flow distribution plate from mixing into one row, the utility model discloses further setting up to: the workpiece sorting device further comprises an isolation mechanism, the tail end of the assembly line equipment is also connected with a first support, and the middle parts of the transverse plates of the pair of first supports are connected with the two ends of the isolation mechanism respectively. The isolation mechanism is arranged in the middle of the assembly line device, and two rows of workpieces are prevented from being mixed together.

The utility model discloses further setting up to: the isolation mechanism comprises a vertical plate and an isolation plate, the top end of the vertical plate is connected with the middle of the transverse plate, and the bottom end of the vertical plate is connected with the isolation plate. The isolation mechanism that riser and division board are constituteed has the advantage that the preparation material is few, also can play simultaneously and prevent that two work pieces from mixing the function of being one.

The utility model discloses further setting up to: the conveyor belt device comprises a driving mechanism, a foot rest, a first main beam, a second main beam, a conveyor belt and a pair of supporting rollers, wherein two ends of one supporting roller are respectively and rotatably connected with the end parts of the first main beam and the second main beam, and two ends of the other supporting roller are respectively and rotatably connected with the other end parts of the first main beam and the second main beam; the conveying belt is provided with two straight sections and turning sections at two ends, and the straight sections are parallel to the first mounting plate; the conveyor belt is closely sleeved on the pair of supporting rollers and is supported by the pair of supporting rollers; the foot rest is connected below first girder and second girder. The driving mechanism drives the conveyor belt to rotate between the pair of supporting rollers, the workpieces move along with the conveyor belt, the workpieces deviate from the movement track under the action force of the splitter plate to form two rows of workpieces, and the two rows of workpieces are distributed in the left half and the right half of the assembly line device respectively.

The utility model discloses further setting up to: the driving mechanism comprises a first driving plate, a second driving plate, a first driven roller, a second driven roller, a driving roller, a plurality of deep groove ball bearings, a speed reducer and a motor, the first driving plate is connected below the first main beam, the second driving plate is connected below the second main beam, two ends of the first driven roller and the second driven roller are respectively rotatably connected to the upper parts of the first driving plate and the second driving plate through the deep groove ball bearings, and two ends of the driving roller are respectively rotatably connected to the lower parts of the first driving plate and the second driving plate through the deep groove ball bearings; the speed reducer is fixedly connected with the first driving plate, the output end of the speed reducer is connected with one end of the driving roller, and the input end of the speed reducer is connected with the motor. The conveying belt sequentially bypasses a pair of supporting rollers, a first driven roller, a driving roller and a second driven roller to form a closed loop. The motor drives the driving roller to rotate through the speed reducer, three quarters of the side surface of the driving roller is in contact with the conveying belt, and the conveying belt is powerfully driven to run.

In order to prevent that the work piece from dropping from the assembly line, the utility model discloses further setting up to: the first main beam and the second main beam are connected with a plurality of second supports, the second supports connected with the first main beam and the second main beam are respectively connected with a guard plate, and the pair of guard plates are respectively positioned above the first main beam and the second main beam in parallel.

Compared with the prior art, the beneficial effects of the utility model are that: when the movable end of the cylinder extends out, the flow distribution plate is driven to rotate around the first pin shaft and the second pin shaft, the left half-width assembly line device is obliquely cut off by the flow distribution plate, a workpiece on the assembly line device is in contact with the flow distribution plate and is pushed to the right half-width assembly line device under the reaction force of the flow distribution plate, and the workpiece moves towards the downstream of the assembly line device along with the movement of the assembly line device. When the movable end of the cylinder retracts, the movement direction of the splitter plate is opposite. The actions are repeated continuously, one row of workpieces are divided into two rows, two workpieces can be conveyed simultaneously through one action of the boxing machine, the two workpieces are placed into the packaging box, and the boxing efficiency is doubled.

Drawings

FIG. 1 is a schematic perspective view of a workpiece arraying device;

FIG. 2 is a partially enlarged structural view of circle A in FIG. 1;

FIG. 3 is a top view of the workpiece arraying device;

FIG. 4 is a plan view of another state of the workpiece arraying device;

FIG. 5 is a schematic structural diagram of a driving device;

fig. 6 is a perspective view of another state of the workpiece arraying device.

In the figure: 1. a workpiece; 2. a splitter plate; 3. a vertical plate; 4. a transverse plate; 5. a first pin shaft; 6. a vertical plate; 7. a separator plate; 8. a guard plate; 9. a second bracket; 10. a foot rest; 11. a third pin shaft; 13. a cylinder; 14. a first mounting plate; 15. a first main beam; 16. a second main beam; 17. a conveyor belt; 18. a movable end; 19. a hinge ring; 20. a second pin shaft; 21. a second mounting plate; 22. a first drive plate; 23. a second drive plate; 24. a first driven roller; 25. a second driven roller; 26. a drive roll; 27. a speed reducer; 28. a motor; 29. a support roller; 30. provided is a deep groove ball bearing.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Referring to fig. 1-4, a workpiece splitting device in this embodiment includes an assembly line device, a first support is connected to the middle of the assembly line device, the first support includes a pair of vertical plates 3 and a horizontal plate 4, the pair of vertical plates 3 are connected to two sides of the assembly line device, two ends of the horizontal plate 4 are connected to top ends of the pair of vertical plates 3, a first horizontal mounting plate 14 is connected to the middle of the horizontal plate 4, one end of the first mounting plate 14, which is far away from the horizontal plate 4, is rotatably connected to the splitter plate 2 through a first pin 5, the top end of one of the vertical plates 3 is connected to a second mounting plate 21, one end of the second mounting plate 21, which is far away from the vertical plate 3, is rotatably connected to a cylinder 13 through a third pin 20, the cylinder 13 has a movable end 18, a hinge ring 19 is fixedly connected to the movable end 18, and the hinge ring 19 is rotatably connected to the middle of the splitter plate 2 through a second pin 20.

The workpiece sorting device further comprises an isolation mechanism, the tail end of the assembly line equipment is also connected with a first support, and the middle parts of the transverse plates 4 of the pair of first supports are connected with the two ends of the isolation mechanism respectively. The isolation mechanism comprises a vertical plate 6 and an isolation plate 7, the top end of the vertical plate 6 is connected with the middle part of the transverse plate 4, and the bottom end of the vertical plate is connected with the isolation plate 7.

The conveyor belt 17 device comprises a driving mechanism, a foot rest 10, a first main beam 15, a second main beam 16, a conveyor belt 17 and a pair of supporting rollers 29, wherein two ends of one supporting roller 29 are respectively and rotatably connected with the ends of the first main beam 15 and the second main beam 16, and two ends of the other supporting roller 29 are respectively and rotatably connected with the other ends of the first main beam 15 and the second main beam 16; the conveyor belt 17 has two straight sections parallel to the first mounting plate 14 and two turning sections at both ends; the conveyor belt 17 is closely sleeved on a pair of supporting rollers 29 and supported by the pair of supporting rollers 29; the foot rest 10 is connected below a first main beam 15 and a second main beam 16. Preferably, the support rollers 29 are rotatably connected at both ends to the ends of the first and second

main beams

15, 16 by means of cylindrical roller bearings.

Referring to fig. 5-6, the driving mechanism includes a first driving plate 22, a second driving plate 23, a first driven roller 24, a second driven roller 25, a driving roller 26, a plurality of deep groove ball bearings 30, a speed reducer 27 and a motor 28, the first driving plate 22 is connected below the first main beam 15, the second driving plate 23 is connected below the second main beam 16, two ends of the first driven roller 24 and the second driven roller 25 are respectively rotatably connected to the upper portions of the first driving plate 22 and the second driving plate 23 through the deep groove ball bearings, and two ends of the driving roller 26 are respectively rotatably connected to the lower portions of the first driving plate 22 and the second driving plate 23 through the deep groove ball bearings; the speed reducer 27 is fixedly connected with the first driving plate 22, an output end of the speed reducer 27 is connected with one end of the driving roller 26, and an input end of the speed reducer 27 is connected with the motor 28.

The first main beam 15 and the second main beam 16 are connected with a plurality of second supports 9, the second supports 9 connected with the first main beam 15 and the second main beam 16 are respectively connected with a guard plate 8, and the pair of guard plates 8 are respectively positioned above the first main beam 15 and the second main beam 16 in parallel.

To sum up, the utility model discloses a principle of work piece branch row device does: the conveyor belt 17 passes around a pair of support rollers 29, a first driven roller 24, a drive roller 26, and a second driven roller 25 in this order to form a closed loop. The motor 28 drives the driving roller 26 to rotate through the speed reducer 27, three-quarters of the side surface of the driving roller 26 is in contact with the conveyor belt 17, and the conveyor belt 17 is forcefully driven to run. The workpiece 1 moves with the conveyor 17. When the movable end 18 of the cylinder 13 extends out, the splitter plate 2 is driven to rotate around the first pin shaft 5 and the second pin shaft 20, the left half width of the assembly line device is obliquely cut off by the splitter plate 2, the workpiece 1 on the assembly line device is contacted with the splitter plate 2, deviates from the movement track under the reaction force of the splitter plate 2 and is pushed to the right half width of the assembly line device, and the workpiece 1 moves towards the downstream of the assembly line device along with the movement of the assembly line device. When the movable end 18 of the cylinder 13 is retracted, the direction of movement of the diverter plate 2 is reversed. The cylinder 13 repeats the above-mentioned actions continuously, one row of the work pieces 1 is divided into two rows, and the two rows of the work pieces 1 are distributed in the left half and the right half of the assembly line device, respectively. Two workpieces 1 can be conveyed simultaneously by one action of a boxing machine, and the boxing efficiency is doubled by putting the two workpieces 1 into a packing box.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the above embodiments is to let the person skilled in the art understand the contents of the present invention and implement the present invention, which can not limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims

1. The utility model provides a work piece divides row device, including assembly line equipment, a serial communication port, the intermediate junction of assembly line equipment has first support, first support includes a pair of riser and diaphragm, the both sides at assembly line equipment are connected respectively to a pair of riser, the both ends of diaphragm are connected with the top of a pair of riser respectively, the first mounting panel of horizontally is connected to the middle part of diaphragm, the one end that the diaphragm was kept away from to first mounting panel is rotated through first round pin axle and is connected with the flow distribution plate, wherein the top of a riser is connected with the second mounting panel, the one end that the riser was kept away from to the second mounting panel is rotated through third round pin axle and is connected with the cylinder, the cylinder has the expansion end, fixedly connected with hinged ring on the expansion end, hinged ring rotates through second round pin axle with the middle part of flow distribution plate and is connected.

2. The workpiece arraying device according to claim 1, further comprising an isolating mechanism, wherein the tail end of the assembly line equipment is also connected with the first support, and the middle parts of the transverse plates of the pair of first supports are respectively connected with two ends of the isolating mechanism.

3. The work sorting device according to claim 2, wherein the isolation mechanism includes a vertical plate and an isolation plate, a top end of the vertical plate is connected to a middle portion of the cross plate, and a bottom end of the vertical plate is connected to the isolation plate.

4. The workpiece arraying device according to claim 3, wherein the conveyor belt device comprises a driving mechanism, a foot rest, a first main beam, a second main beam, a conveyor belt and a pair of support rollers, two ends of one support roller are respectively and rotatably connected with the ends of the first main beam and the second main beam, and two ends of the other support roller are respectively and rotatably connected with the other ends of the first main beam and the second main beam; the conveying belt is provided with two straight sections and turning sections at two ends, and the straight sections are parallel to the first mounting plate; the conveyor belt is closely sleeved on the pair of supporting rollers and is supported by the pair of supporting rollers; the driving mechanism drives the conveying belt to rotate; the foot rest is connected below the first main beam and the second main beam.

5. The workpiece sorting device according to claim 4, wherein the driving mechanism comprises a first driving plate, a second driving plate, a first driven roller, a second driven roller, a driving roller, a plurality of deep groove ball bearings, a speed reducer and a motor, the first driving plate is connected below the first main beam, the second driving plate is connected below the second main beam, two ends of the first driven roller and the second driven roller are rotatably connected to the upper portions of the first driving plate and the second driving plate through the deep groove ball bearings respectively, and two ends of the driving roller are rotatably connected to the lower portions of the first driving plate and the second driving plate through the deep groove ball bearings respectively; the speed reducer is fixedly connected with the first drive plate, the output end of the speed reducer is connected with one end of the drive roll, and the input end of the speed reducer is connected with the motor.

6. The workpiece arraying device according to claim 4, wherein a plurality of second supports are connected to the first main beam and the second main beam, a guard plate is connected to each of the second supports connected to the first main beam and the second main beam, and a pair of guard plates are respectively positioned above the first main beam and the second main beam in parallel.