CN219116467U - Loading attachment is used in aluminium alloy ex-trusions processing - Google Patents

Abstract

The utility model relates to a feeding device for processing aluminum alloy sections, which comprises a bearing seat and first rotating rollers, wherein a roller groove is formed in the bearing seat, a plurality of first rotating rollers are arranged in the roller groove, a sliding groove is formed in the bearing seat, a push plate is slidably arranged in the sliding groove, and a bottom plate is arranged on the side wall of the bearing seat and positioned at two ends of the first rotating rollers; the rotation of wire wheel is realized through the work of second motor, coil the stay cord, and then drive roller board and gearbox go up and down along the slide rail of support column, will pile up on bearing the weight of the aluminium alloy ex-trusions on the seat and remove to first roller, drive the threaded rod through first motor work and rotate, and then drive the push pedal and remove, aluminium alloy ex-trusions on the first roller propelling movement is to the second roller that changes, then the second roller goes up and down the back, through the work of third motor, chain and sprocket drive second roller are rotatory, remove the processing platform of different co-altitude with aluminium alloy ex-trusions, realize the material loading operation.

Description

Loading attachment is used in aluminium alloy ex-trusions processing

Technical Field

The utility model relates to the technical field of aluminum alloy profile machining, in particular to a feeding device for aluminum alloy profile machining.

Background

Aluminum alloy profiles are the most widely used nonferrous metal structural materials in industry, and are widely applied in aviation, aerospace, automobiles, mechanical manufacturing, ships, construction, decoration and chemical industries.

When the aluminum alloy section is processed, the section is required to be respectively conveyed to processing devices with different heights for processing, and the aluminum alloy section has large mass and volume, so that the time consumption is long and the feeding efficiency is low when the aluminum alloy section is actually conveyed for feeding.

Disclosure of Invention

The utility model solves the problems that the feeding device for processing the aluminum alloy section bar solves the technical problems that the aluminum alloy section bar needs to be respectively conveyed to processing devices with different heights for processing when being processed, and the aluminum alloy section bar has large mass and volume, consumes long time when being actually conveyed for feeding, and has low feeding efficiency.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the feeding device for processing the aluminum alloy section comprises a bearing seat and first rotating rollers, wherein a roller groove is formed in the bearing seat, a plurality of first rotating rollers are arranged in the roller groove, a sliding groove is formed in the bearing seat, and a push plate is slidably arranged in the sliding groove;

the bearing seat side wall and be located first roller both ends and all install the bottom plate, the support column is all installed at bottom plate topside both ends, and the roof is installed on the support column top, slidable mounting has roller board and transmission case between the support column, install a plurality of second roller between roller board and the transmission case.

Preferably, the first motor is installed to the bearing seat lateral wall, first motor output is located the spout and installs the threaded rod, and threaded rod and push pedal threaded connection.

Preferably, each support column side wall is provided with a sliding rail, and the roller plate and the transmission case are mounted on the sliding rails.

Preferably, the wheel plates are arranged on the two top plates, the wire wheels are rotatably arranged on the inner sides of the wheel plates, and the two wire wheels are connected through the rotating shaft.

Preferably, one of the wheel plates is provided with a second motor, the output end of the second motor is connected with one of the wire wheels, the wire wheels are wound with pull ropes, and the two pull ropes penetrate through the top plate and are connected with the roller plate and the transmission case respectively.

Preferably, the sprocket is installed in the second roller end part, and a plurality of sprocket passes through chain drive, install the third motor on the transmission case, and third motor output is connected with one of them sprocket.

The beneficial effects of the utility model are as follows: the rotation of wire wheel is realized through the work of second motor, coil the stay cord, and then drive roller board and gearbox go up and down along the slide rail of support column, will pile up on bearing the weight of the aluminium alloy ex-trusions on the seat and remove to first roller, drive the threaded rod through first motor work and rotate, and then drive the push pedal and remove, aluminium alloy ex-trusions on the first roller propelling movement is to the second roller that changes, then the second roller goes up and down the back, through the work of third motor, chain and sprocket drive second roller are rotatory, remove the processing platform of different co-altitude with aluminium alloy ex-trusions, realize the material loading operation.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a top view of the carrier of the present utility model;

fig. 3 is a cross-sectional view of the gear box of the present utility model.

Legend description:

1. a bearing seat; 2. a first rotating roller; 3. a roller groove; 4. a chute; 5. a threaded rod; 6. a first motor; 7. a push plate; 8. a bottom plate; 9. a support column; 10. a top plate; 11. a roller plate; 12. a transmission case; 13. a second roller; 14. a rotating shaft; 15. a wire wheel; 16. a second motor; 17. a third motor; 18. sprocket teeth; 19. and (5) pulling the rope.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Specific examples are given below.

Referring to fig. 1-3, a feeding device for processing aluminum alloy sections comprises a bearing seat 1 and first rotating rollers 2, wherein a roller groove 3 is formed in the bearing seat 1, a plurality of first rotating rollers 2 are installed in the roller groove 3, a sliding groove 4 is formed in the bearing seat 1, a push plate 7 is slidably installed in the sliding groove 4, a first motor 6 is installed on the side wall of the bearing seat 1, a threaded rod 5 is installed in the sliding groove 4 at the output end of the first motor 6, the threaded rod 5 is in threaded connection with the push plate 7, the first motor 6 works to drive the threaded rod 5 to rotate, the push plate 7 is driven to move, the aluminum alloy sections on the first rotating rollers 2 are pushed to move, and the aluminum alloy sections on the first rotating rollers 2 are pushed to a second rotating roller 13;

the bearing seat 1 is provided with side walls, bottom plates 8 are arranged at two ends of the first rotating roller 2, support columns 9 are arranged at two ends of the top side of the bottom plates 8, top plates 10 are arranged at the top ends of the support columns 9, roller plates 11 and transmission boxes 12 are slidably arranged between the support columns 9, a plurality of second rotating rollers 13 are arranged between the roller plates 11 and the transmission boxes 12, sliding rails are arranged on the side walls of each support column 9, the roller plates 11 and the transmission boxes 12 are arranged on the sliding rails, wheel plates are arranged on the two top plates 10, wire wheels 15 are rotatably arranged on the inner sides of the wheel plates, the two wire wheels 15 are connected through rotating shafts 14, a second motor 16 is arranged on one of the wheel plates, the output end of the second motor 16 is connected with one wire wheel 15, a pull rope 19 is wound on the wire wheel 15, the two pull ropes 19 respectively penetrate through the top plates 10 and the roller plates 11 and the transmission boxes 12, the rotation of the wire wheel 15 is realized through the second motor 16, the roller plates 11 and the transmission boxes 12 are further wound along the sliding rails of the support columns 9, the second rotating rollers 13 are arranged in the transmission boxes 12, tooth 18 are arranged on the transmission boxes 12, the transmission wheels 18 are rotatably connected with one of the transmission wheels 17 through the third motor 18, and the transmission wheels are further connected with one of the transmission wheels 17 through the third roller wheels, and the transmission wheels 13.

The second motor 16 works to drive the two second rotating rollers 13 and the rotating shaft 14 to rotate, the pull rope 19 is wound, the roller plate 11 and the transmission box 12 are driven to lift along the sliding rail of the supporting column 9, when the second rotating rollers 13 on the roller plate 11 and the transmission box 12 are flush with the first rotating rollers 2, the aluminum alloy section bar stacked on the bearing seat 1 moves onto the first rotating rollers 2, the first motor 6 works to drive the threaded rod 5 to rotate, the push plate 7 is driven to move, the aluminum alloy section bar positioned on the first rotating rollers 2 is pushed onto the second rotating rollers 13, after the second rotating rollers 13 lift, the third motor 17 works, the chain and the sprocket 18 drive the second rotating rollers 13 to rotate, and the aluminum alloy section bar moves onto the processing platform.

The rotation of the wire wheel 15 is realized through the operation of the second motor 16, the stay cord 19 is wound, the roller plate 11 and the transmission box 12 are driven to lift along the sliding rail of the supporting column 9, the aluminum alloy section bar piled on the bearing seat 1 is moved onto the first rotating roller 2, the first motor 6 is operated to drive the threaded rod 5 to rotate, the push plate 7 is driven to move, the aluminum alloy section bar positioned on the first rotating roller 2 is pushed onto the second rotating roller 13, after the second rotating roller 13 is lifted, the second rotating roller 13 is driven to rotate through the transmission of the third motor 17, and the chain and the sprocket 18 move the aluminum alloy section bar to processing platforms with different heights, so that the feeding operation is realized.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The feeding device for processing the aluminum alloy section bar is characterized by comprising a bearing seat (1) and first rotating rollers (2), wherein a roller groove (3) is formed in the bearing seat (1), a plurality of first rotating rollers (2) are arranged in the roller groove (3), a sliding groove (4) is formed in the bearing seat (1), and a push plate (7) is arranged in the sliding groove (4) in a sliding mode;

the bearing seat is characterized in that the bottom plate (8) is arranged at the two ends of the first rotating roller (2) on the side wall of the bearing seat, the supporting columns (9) are arranged at the two ends of the top side of the bottom plate (8), the top plate (10) is arranged at the top ends of the supporting columns (9), a roller plate (11) and a transmission case (12) are slidably arranged between the supporting columns (9), and a plurality of second rotating rollers (13) are arranged between the roller plate (11) and the transmission case (12).

2. The feeding device for aluminum alloy profile machining according to claim 1, wherein a first motor (6) is installed on the side wall of the bearing seat (1), a threaded rod (5) is installed in the sliding groove (4) at the output end of the first motor (6), and the threaded rod (5) is in threaded connection with the pushing plate (7).

3. The feeding device for aluminum alloy profile machining according to claim 1, wherein each side wall of the supporting column (9) is provided with a sliding rail, and the roller plate (11) and the transmission case (12) are mounted on the sliding rails.

4. The feeding device for aluminum alloy profile machining according to claim 1, wherein wheel plates are mounted on the two top plates (10), wire wheels (15) are rotatably mounted on the inner sides of the wheel plates, and the two wire wheels (15) are connected through a rotating shaft (14).

5. The feeding device for aluminum alloy profile machining according to claim 4, wherein one of the wheel plates is provided with a second motor (16), the output end of the second motor (16) is connected with one of the wire wheels (15), the wire wheels (15) are wound with pull ropes (19), and the two pull ropes (19) respectively penetrate through the top plate (10) and are connected with the roller plate (11) and the transmission case (12).

6. The feeding device for aluminum alloy profile processing according to claim 1, wherein the end part of the second rotating roller (13) is positioned in the transmission case (12) and provided with chain teeth (18), the plurality of chain teeth (18) are transmitted through a chain, the transmission case (12) is provided with a third motor (17), and the output end of the third motor (17) is connected with one of the chain teeth (18).

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