CN218193209U - Automatic feeding device for iron shell shaft core - Google Patents

Abstract

The utility model discloses an iron-clad axle core automatic feeding device, solve present feed mechanism and mostly can only carry out the material loading to iron-clad or axle core, when carrying out the material loading simultaneously to iron-clad and axle core, be not convenient for connect iron-clad and axle core, the efficiency that leads to processing is slower, and the loading attachment structure is comparatively single, be not convenient for carry out the centre gripping to the iron-clad in the welded, and after the welding, be not convenient for take a sample to the processing product, increase the technical problem of the user operation degree of difficulty. The feeding device comprises an operation table and a laser welding machine which is arranged at the top of the operation table and used for welding an iron shell shaft core; the top fixedly connected with two deflectors of operation panel, the equal swing joint in one side that two deflectors are relative has first conveyer belt, the left side of operation panel is provided with feed mechanism. This loading attachment is convenient for carry out the centre gripping to the iron-clad, accomplishes the back at the welding, can take a sample the product, and has increased the efficiency of processing.

Description

Iron-clad shaft core automatic feeding device

Technical Field

The utility model belongs to the technical field of iron-clad axle core, concretely relates to iron-clad axle core automatic feeding device.

Background

The feeding device used during the welding of the iron shell shaft core in the prior art has the following problems:

1. most of the existing feeding mechanisms can only feed the iron shell or the shaft core, and when the iron shell and the shaft core are simultaneously fed, the iron shell and the shaft core are inconvenient to connect, so that the processing efficiency is low;

2. and loading attachment structure is comparatively single, is not convenient for carry out the centre gripping to the iron-clad during the welding, and after the welding, is not convenient for take a sample to the processing product, increases the user and operates the degree of difficulty.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

An insufficient to prior art, an object of the utility model is to provide an iron-clad axle core automatic feeding device, this loading attachment aims at solving current feed mechanism and mostly can only carry out the material loading to iron-clad or axle core, when carrying out the material loading simultaneously to iron-clad and axle core, be not convenient for connect iron-clad and axle core, the efficiency that leads to processing is slower, and the loading attachment structure is comparatively single, be not convenient for carry out the centre gripping to the iron-clad in the welded time, and after the welding, be not convenient for take a sample the processing product, increase the technical problem of the user operation degree of difficulty.

(2) Technical scheme

In order to solve the technical problem, the utility model provides an automatic feeding device for an iron shell shaft core, which comprises an operating platform and a laser welding machine arranged on the top of the operating platform and used for welding the iron shell shaft core; the utility model discloses a portable electric tool box, including operation panel, two leading pads of top fixedly connected with of operation panel, the equal swing joint in one side that two leading pads are relative has first conveyer belt, the left side of operation panel is provided with feed mechanism, feed mechanism is including placing the box, the right side of placing the box has seted up the discharge gate, the inner chamber swing joint of placing the box has the movable plate, the first electric telescopic handle of left side fixedly connected with of movable plate, first electric telescopic handle is close to place one side of box with place box fixed connection.

When using this technical scheme's loading attachment, when carrying out the material loading to the iron-clad, place the iron-clad in the inner chamber of placing the box, through the effect of gravity, the iron-clad removes to the bottom of placing the box, at this moment through starting first electric telescopic handle, it removes to the right side to drive the movable plate through first electric telescopic handle, it removes to make the movable plate drive the iron-clad right side, it removes to the top of first conveyer belt to make the iron-clad remove, first conveyer belt drives the iron-clad and removes this moment, when removing the iron-clad to the bottom of laser-beam welding machine, first conveyer belt stop movement, place the axle core in the inner chamber of iron-clad this moment, weld iron-clad and axle core through the laser-beam welding machine, thereby reach the effect of carrying out the material loading to the iron-clad, after the movable plate pushes away the iron-clad to the top of first conveyer belt, shrink first electric telescopic handle, make the iron-clad fall once more in the bottom of placing the box.

Preferably, the top fixedly connected with second electric telescopic handle of operation panel, second electric telescopic handle's top fixedly connected with backup pad, the bottom swing joint of backup pad has the commentaries on classics board, the top swing joint of commentaries on classics board has electronic clamping jaw, the top fixedly connected with second motor of backup pad, the output of second motor run through the backup pad and with commentaries on classics board fixed connection. Through the setting of backup pad and electric clamping jaw, carry out after the welded iron-clad and axle core move the certain distance to the right side after, start the second motor, drive the commentaries on classics board through the second motor and rotate for electric clamping jaw is located the top of iron-clad axle core, contracts second electric telescopic handle, makes electric clamping jaw carry out the centre gripping to iron-clad axle core, rotates the commentaries on classics board again, thereby reaches the effect of taking a sample to the iron-clad.

Furthermore, the opposite sides of the two guide plates are movably connected with clamping plates, the opposite sides of the two clamping plates are fixedly connected with third electric telescopic rods, and the surfaces of the third electric telescopic rods are fixedly connected with the inner walls of the guide plates. Through grip block and third electric telescopic handle's setting, after iron-clad axle center removed the bottom to the laser-beam welding machine, start third electric telescopic handle for two grip blocks remove to relative one side, reach the effect of carrying out the centre gripping to the iron-clad.

Furthermore, the right side of the heat conduction oil heater is provided with an air outlet pipe for air outlet, the front side of the operating platform is fixedly connected with an axle core storage box, the top of the axle core storage box is rotatably connected with a rotating shaft, the top of the rotating shaft is fixedly connected with a fixed plate, the bottom of the fixed plate is fixedly connected with a fourth electric telescopic rod, and the bottom of the fourth electric telescopic rod is fixedly connected with an electromagnet. Store the setting of box and pivot through the axle core, place the axle core in the inner chamber that the box was stored to the axle core, the countershaft was rotated this moment, and it is rotatory to drive the fixed plate through the pivot, through making the electro-magnet be located the top of axle core, starts fourth electric telescopic handle this moment, will make electro-magnet and axle core contact and adsorb, and rethread first motor drives the axle core and removes the inner chamber to the iron-clad to reach the effect of carrying out the material loading to the axle core.

Furthermore, the inner cavity of the shaft core storage box is movably connected with a second conveyor belt, the bottom of the shaft core storage box is fixedly connected with a first motor, and the output end of the first motor penetrates through the shaft core storage box and is fixedly connected with the rotating shaft.

Furthermore, the rear side of the operation panel is fixedly connected with a storage box, and the top of the storage box is horizontally flush with the top of the operation panel. Through the setting of storing the box for place the iron-clad axle center after the sample.

Furthermore, the bottom of the inner wall of the discharge hole is horizontally flush with the top of the first conveyor belt, and the movable plate is oblique.

(3) Advantageous effects

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the utility model discloses a loading attachment passes through the setting of feed mechanism, when carrying out the material loading to the iron-clad, place the iron-clad in placing the inner chamber of box, through the effect of gravity, the iron-clad removes to placing the bottom of box, at this moment through starting first electric telescopic handle, drive the movable plate through first electric telescopic handle and move to the right side, make the movable plate drive the iron-clad and move right, make the iron-clad move to the top of first conveyer belt, at this moment first conveyer belt drives the iron-clad and moves, when moving the iron-clad to the bottom of laser welder, first conveyer belt stops moving, place the axle core in the inner chamber of iron-clad at this moment, weld iron-clad and axle core through the laser welder, thereby reach the effect of carrying out the material loading to the iron-clad, through the setting of axle core box and pivot, place the axle core in the inner chamber of axle core storage box, at this moment, the axle rotates, drive the fixed plate through the pivot and rotate, through making the electro-magnet be located the top of axle core, start fourth electric telescopic handle, will make the electro-magnet contact and adsorb with the axle core at this moment, store the axle core, the storage box moves the inner chamber of axle core again, thereby reach the effect that the electric motor drives the axle core again;

2. through the setting of backup pad and electric clamping jaw, carry out after the welded iron-clad and axle core move the certain distance to the right side after, start the second motor, drive the commentaries on classics board through the second motor and rotate for electric clamping jaw is located the top of iron-clad axle core, contracts second electric telescopic handle, makes electric clamping jaw carry out the centre gripping to iron-clad axle core, rotates the commentaries on classics board again, thereby reaches the effect of taking a sample to the iron-clad.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the apparatus of the present invention;

fig. 2 is a front sectional view of a feeding structure in one embodiment of the apparatus of the present invention;

fig. 3 is a schematic perspective view of a second electric telescopic rod and a rotating plate according to an embodiment of the present invention;

FIG. 4 is a perspective view of a shaft core storage box and a second conveyor according to an embodiment of the present invention;

fig. 5 is a partial enlarged view of a portion a of fig. 1 according to an embodiment of the present invention.

The labels in the figures are: 1. an operation table; 2. laser welding machine; 3. a guide plate; 4. a first conveyor belt; 5. a feeding mechanism; 51. placing the box; 52. a discharge port; 53. moving the plate; 54. a first electric telescopic rod; 6. a second electric telescopic rod; 7. a support plate; 8. rotating the plate; 9. an electric jaw; 10. a second motor; 11. a clamping plate; 12. a third electric telescopic rod; 13. a spindle storage box; 14. a rotating shaft; 15. a fixing plate; 16. a fourth electric telescopic rod; 17. an electromagnet; 18. a second conveyor belt; 19. a storage box; 20. a first motor.

Detailed Description

The specific embodiment is an automatic feeding device for an iron shell shaft core, the structural schematic diagram of which is shown in fig. 1, and the feeding device comprises an operation table 1 and a laser welding machine 2 which is arranged at the top of the operation table 1 and used for welding the iron shell shaft core; two deflector 3 of top fixedly connected with of operation panel 1, the equal swing joint in one side that two deflector 3 are relative has first conveyer belt 4, the left side of operation panel 1 is provided with feed mechanism 5, feed mechanism 5 is including placing box 51, the right side of placing box 51 has seted up discharge gate 52, the inner chamber swing joint of placing box 51 has movable plate 53, the first electric telescopic handle 54 of left side fixedly connected with of movable plate 53, first electric telescopic handle 54 is close to the one side of placing box 51 and places box 51 fixed connection.

For the present embodiment, the model and specification of the laser welding machine 2 can be set as required.

Wherein, top fixedly connected with second electric telescopic handle 6 of operation panel 1, top fixedly connected with backup pad 7 of second electric telescopic handle 6, the bottom swing joint of backup pad 7 has commentaries on classics board 8, the top swing joint of commentaries on classics board 8 has electric clamping jaw 9, the top fixedly connected with second motor 10 of backup pad 7, the output of second motor 10 run through backup pad 7 and with commentaries on classics board 8 fixed connection, the equal swing joint in one side that two deflectors 3 are relative has grip block 11, the equal fixedly connected with third electric telescopic handle 12 in one side that two grip block 11 are reverse, the surface of third electric telescopic handle 12 and the inner wall fixed connection of deflector 3, the front side fixedly connected with axle core of operation panel 1 stores box 13, the top rotation that the axle core stored box 13 is connected with pivot 14, the top fixedly connected with fixed plate 15 of pivot 14, the bottom fixedly connected with fourth electric telescopic handle 16 of fixed plate 15, the bottom fixedly connected with 17 of fourth electric telescopic handle 16, the inner chamber swing joint that the axle core stored box 13 has second conveyer belt 18, the bottom fixedly connected with first motor 20 that the box 13, the output that first motor 20 runs through and stores the axle core and is connected with pivot 14.

In addition, a storage box 19 is fixedly connected to the rear side of the operating table 1, the top of the storage box 19 is horizontally flush with the top of the operating table 1, the bottom of the inner wall of the discharge hole 52 is horizontally flush with the top of the first conveyor belt 4, and the movable plate 53 is inclined.

The front cross-sectional view of the feeding structure of the feeding device is shown in fig. 2, the perspective view of the second electric telescopic rod 6 and the rotating plate 8 is shown in fig. 3, the perspective view of the spindle storage box 13 and the second conveyor belt 18 is shown in fig. 4, and the enlarged partial view of a point a in fig. 1 is shown in fig. 5.

It should be noted that the length of each electric telescopic rod can be set as required.

When the device of the technical proposal is used, the iron shell is placed in the inner cavity of the placing box 51 when the iron shell is fed, by the action of gravity, the iron shell moves to the bottom of the placing box 51, at this time by starting the first electric telescopic rod 54, the moving plate 53 is driven by the first electric telescopic rod 54 to move towards the right side, so that the moving plate 53 drives the iron shell to move towards the right side, so that the iron shell moves to the top of the first conveyor belt 4, at the moment, the first conveyor belt 4 drives the iron shell to move, when the iron case is moved to the bottom of the laser welder 2, the first conveyor belt 4 stops moving, the shaft core is placed in the inner cavity of the shaft core storage box 13, at this time, the rotating shaft 14 is rotated, the fixed plate 15 is driven to rotate by the rotating shaft 14, the electromagnet 17 is positioned at the top of the shaft core, the fourth electric telescopic rod 16 is started, the electromagnet 17 is contacted with and adsorbed by the shaft core, the shaft core is driven to move to the inner cavity of the iron shell by the first motor 20, thereby achieving the effect of feeding the shaft core, welding the iron shell and the shaft core through the laser welding machine 2, thereby achieving the effect of feeding the iron shell, after the iron shell shaft core moves to the bottom of the laser welding machine 2, the third electric telescopic rod 12 is started, so that the two clamping plates 11 move towards the opposite side to achieve the effect of clamping the iron shell, after the welded iron shell and the shaft core move towards the right side for a certain distance, the second motor 10 is started, the second motor 10 drives the rotating plate 8 to rotate, so that the electric clamping jaw 9 is positioned at the top of the iron shell shaft core, the second electric telescopic rod 6 is contracted, so that the electric clamping jaw 9 clamps the shaft core of the iron shell and rotates the rotating plate 8, and the effect of sampling the iron shell is achieved.

Claims (7)

1. An automatic feeding device for an iron shell shaft core comprises an operating platform (1) and a laser welding machine (2) which is arranged at the top of the operating platform (1) and used for welding the iron shell shaft core; the automatic feeding device is characterized in that two guide plates (3) are fixedly connected to the top of an operating platform (1), a first conveying belt (4) is movably connected to one side, opposite to the two guide plates (3), of the operating platform (1), a feeding mechanism (5) is arranged on the left side of the operating platform (1), the feeding mechanism (5) comprises a placing box (51), a discharging port (52) is formed in the right side of the placing box (51), a moving plate (53) is movably connected to an inner cavity of the placing box (51), a first electric telescopic rod (54) is fixedly connected to the left side of the moving plate (53), and the first electric telescopic rod (54) is close to one side of the placing box (51) and the placing box (51) is fixedly connected.

2. The automatic feeding device of the iron shell shaft core according to claim 1, wherein a second electric telescopic rod (6) is fixedly connected to the top of the operating platform (1), a supporting plate (7) is fixedly connected to the top of the second electric telescopic rod (6), a rotating plate (8) is movably connected to the bottom of the supporting plate (7), an electric clamping jaw (9) is movably connected to the top of the rotating plate (8), a second motor (10) is fixedly connected to the top of the supporting plate (7), and an output end of the second motor (10) penetrates through the supporting plate (7) and is fixedly connected with the rotating plate (8).

3. The automatic feeding device of the iron shell shaft core as claimed in claim 1, wherein a clamping plate (11) is movably connected to one side of each of the two guide plates (3) opposite to each other, a third electric telescopic rod (12) is fixedly connected to one side of each of the two clamping plates (11) opposite to each other, and the surface of the third electric telescopic rod (12) is fixedly connected with the inner wall of the guide plate (3).

4. The automatic feeding device for the iron shell shaft cores of claim 1, wherein a shaft core storage box (13) is fixedly connected to the front side of the operating platform (1), a rotating shaft (14) is rotatably connected to the top of the shaft core storage box (13), a fixed plate (15) is fixedly connected to the top of the rotating shaft (14), a fourth electric telescopic rod (16) is fixedly connected to the bottom of the fixed plate (15), and an electromagnet (17) is fixedly connected to the bottom of the fourth electric telescopic rod (16).

5. The automatic feeding device of the iron shell shaft core of claim 4, characterized in that the inner cavity of the shaft core storage box (13) is movably connected with a second conveyor belt (18), the bottom of the shaft core storage box (13) is fixedly connected with a first motor (20), and the output end of the first motor (20) penetrates through the shaft core storage box (13) and is fixedly connected with the rotating shaft (14).

6. The automatic feeding device of the iron shell shaft core is characterized in that a storage box (19) is fixedly connected to the rear side of the operating platform (1), and the top of the storage box (19) is horizontally flush with the top of the operating platform (1).

7. The automatic feeding device of the iron shell shaft core according to claim 1, characterized in that the bottom of the inner wall of the discharge hole (52) is level with the top of the first conveyor belt (4), and the shape of the moving plate (53) is oblique.

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