CN217835462U - Raw materials transfer equipment is used in aluminium alloy production - Google Patents

Abstract

The utility model relates to a raw material transferring device for aluminum profile production, which comprises a transferring vehicle main body, wherein the transferring vehicle main body is provided with a fixing unit for fixedly placing an aluminum bar and a material transferring unit for transferring the aluminum bar to the fixing unit; the fixing unit comprises a placing rack, the upper part of the placing rack is inclined, and the first stop block is fixedly connected to one side, close to the material moving unit, above the placing rack; a sliding groove is formed in the placing frame along the inclined direction, connecting walls are arranged at two ends of the sliding groove, a sliding block is connected in the sliding groove in a sliding mode, and a second stop block is fixedly connected to the sliding block; the slider is provided with a through threaded hole, the connecting wall is provided with a through hole, the threaded hole and the through hole are internally provided with an adjusting screw in a through mode, and two ends of the adjusting screw are rotatably connected with the two connecting walls. This scheme replaces artifical or crane etc. to remove the aluminium bar to transfer car (buggy) main part through moving the material unit, uses labour saving and time saving more to can swiftly fix many aluminium bars effectively, guarantee that the transfer in-process aluminium bar does not drop and transport efficiently.

Description

Raw materials transfer equipment is used in aluminium alloy production

Technical Field

The utility model relates to an aluminium alloy production facility technical field specifically relates to an aluminium alloy production is with raw materials transfer equipment.

Background

During the processing of the aluminum profile frame, raw materials (aluminum bars) need to be transferred among various operation machines. The traditional mode of transporting generally adopts artifical transport or crane transport, adopts artifical transport to waste time and energy, and the crane lifts by crane also more troublesome, and the frame of transporting of ordinary handcart form can not fix raw and other materials well again, leads to the raw materials to drop easily and causes the damage.

The existing improvement scheme, such as the chinese utility model patent with the publication number CN 2133255U, realizes the fixation of the raw material, but it adopts a slide bar perpendicular to the advancing direction of the screw rod, the slide bar is provided with a bevel groove inclined at a certain angle with the advancing direction of the screw rod, the extrusion rod is also arranged obliquely in cooperation with the bevel groove, so that the requirement for the processing precision is high, and the problem that the oblique cooperation part is blocked and can not move is likely to occur; and only one raw material can be fixed and transported at a time, the efficiency is low, and the patent does not show how to place the raw materials on the equipment, and the raw materials can be carried by manpower or a crane, so that the inconvenience still exists.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that: the utility model provides a raw materials transfer apparatus is used in aluminium alloy production uses labour saving and time saving more, realizes replacing manual work or crane transport completely to can transport many aluminium bars simultaneously, and can swiftly fix many aluminium bars effectively, guarantee that the transfer in-process aluminium bar does not drop.

According to the technical scheme of the utility model, the utility model provides a raw material transferring device for aluminum profile production, which comprises a transferring vehicle main body, wherein the transferring vehicle main body is provided with a fixing unit for fixedly placing an aluminum bar and a material transferring unit for transferring the aluminum bar to the fixing unit; the fixing unit comprises a placing rack, the placing rack is inclined, and one side close to the material moving unit is higher than one side far away from the material moving unit; a first stop block and a second stop block which are used for clamping and fixing the aluminum bar are arranged above the placing frame in parallel along the inclined direction; the first stop block is fixedly connected to one side, close to the material moving unit, above the placing frame; a sliding groove is formed in the placing frame along the inclined direction, connecting walls are arranged at two ends of the sliding groove, matched sliding blocks are connected in the sliding groove in a sliding mode, and a second stop block is fixedly connected to the sliding blocks; the slider is provided with a through threaded hole, the connecting wall is provided with a through hole, the threaded hole and the through hole are internally provided with an adjusting screw in a through way, and two ends of the adjusting screw are rotationally connected with the two connecting walls.

Preferably, the first stopper and the second stopper have inwardly inclined slanted stopper portions at upper portions of the opposite sides.

Preferably, the adjusting screw is fixedly provided with an adjusting turntable at one end far away from the material moving unit.

Preferably, the material moving unit comprises a material moving arm, one end of the material moving arm is movably connected with the transfer trolley main body through a driving mechanism, and the other end of the material moving arm is provided with a material moving clamp; the material moving clamp comprises a first clamp body fixedly connected with the material moving arm and a second clamp body rotatably connected with the material moving arm or the first clamp body; the material moving device further comprises a telescopic mechanism, one end of the telescopic mechanism is rotatably connected with the second clamp body, and the other end of the telescopic mechanism is rotatably connected with the material moving arm.

Preferably, the driving mechanism comprises a cylindrical rotating platform, the rotating platform is rotatably connected with the trolley main body, a hinge base is arranged on the rotating platform, the material moving arm is hinged with the hinge base through a rotating shaft, a first motor is arranged on one side of the hinge base, and an output shaft of the first motor is fixedly connected with the rotating shaft.

Furthermore, a gear ring is arranged on the outer side face of the rotating platform, a gear is meshed with one side of the rotating platform and is rotationally connected with the transfer trolley body, and a second motor used for driving the gear to rotate is arranged on the transfer trolley body.

Preferably, the upper surface of the transfer trolley main body is provided with a mounting groove, and the gear and the rotating platform are both arranged in the mounting groove.

Preferably, the second clamp body is provided with an arc-shaped curved surface matched with the aluminum bar, and the second clamp body is positioned above the material moving arm; the first stop block is provided with an avoiding groove for accommodating part of the material moving clamp.

Preferably, the fixing unit and the material moving unit are provided with anti-skid soft pads at the parts for clamping and fixing the aluminum bar.

According to some embodiments, the vehicle body is a trolley or a motor-driven flat car.

Compared with the prior art, the utility model discloses a beneficial technological effect as follows:

1. the utility model discloses a raw materials transfer equipment is used in aluminium alloy production replaces artifical or crane etc. to remove the aluminium bar to transfer car (buggy) main part, labour saving and time saving more through the comparatively simple material unit that moves of structure.

2. The utility model discloses a raw materials transfer apparatus is used in aluminium alloy production can be according to actual need at every turn transport one or many aluminium bars to fix the aluminium bar through fixed unit is swift effectively, guarantee that the aluminium bar does not drop among the transportation process, avoided the economic loss that probably appears.

3. The utility model discloses a raw materials transportation equipment for aluminium alloy production structural design is reasonable ingenious, adopts simple material structure and the action of moving to realize required function, and control is also simpler, is more convenient for realize automatic control, and manufacturing cost is lower.

Drawings

Fig. 1 is a schematic perspective view of a transfer device according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a fixing unit and a material moving clip part according to an embodiment of the present invention.

Reference numbers in the figures illustrate:

1. a transfer vehicle main body;

2. a fixing unit;

3. a material moving unit;

4. placing a rack;

5. a first stopper;

6. a second stopper;

7. a chute;

8. a slider;

9. a connecting wall;

10. adjusting the screw rod;

11. a bevel gear part;

12. adjusting the turntable;

13. a material moving arm;

14. a drive mechanism;

15. a material moving clamp;

16. a first clamp body;

17. a second clip body;

18. a telescoping mechanism;

19. a rotating table;

20. a hinged seat;

21. a first motor;

22. a ring gear;

23. a gear;

24. a second motor;

25. installing a groove;

26. avoiding the groove.

Detailed Description

The utility model provides a raw materials transfer apparatus is used in aluminium alloy production removes the aluminium bar to transfer car main part through moving the material unit and replacing manual work or crane etc. uses labour saving and time saving more to can swiftly fix one or many aluminium bars effectively through fixed unit, guarantee that the aluminium bar does not drop in the transportation.

Referring to fig. 1 and 2, the raw material transferring apparatus for aluminum profile production of the present invention includes a transferring vehicle body 1, the transferring vehicle body 1 is, for example, a handcart or an electric flat car, and wheels are movably connected to the bottom or both sides of the transferring vehicle body 1. The transfer trolley body 1 is provided with a fixing unit 2 for fixedly placing the aluminum bar and a material moving unit 3 for moving the aluminum bar to the fixing unit 2.

Fixed unit 2 includes rack 4, and rack 4 for the block or for frame construction for example, the top slope of rack 4 is higher than keeping away from the one side that moves material unit 3 near moving one side of material unit 3, forms a slope promptly, and the aluminium bar can roll down along the slope to make many aluminium bars of placing in proper order automatic place side by side. A first stop block 5 and a second stop block 6 which are used for clamping and fixing the aluminum bar are arranged above the placing frame 4 side by side along the inclined direction, and at least one of the first stop block 5 and the second stop block 6 is movably connected with the placing frame 4.

In an embodiment, referring to fig. 2, the first stopper 5 is fixedly connected to a side of the placing frame 4 near the material moving unit 3. The rack 4 is provided with a chute 7 along the inclined direction, and both ends of the chute 7 are provided with connecting walls 9 (the connecting walls 9 can be a part of the rack 4, and the rack 4 provided with the chute 7 is integrally box-shaped). The sliding chute 7 is internally and slidably connected with a sliding block 8 which is matched with the sliding chute 7, for example, the sliding chute 7 is a square chute, and the sliding block 8 is a square block. The sliding block 8 is fixedly connected with a second stop block 6. The slider 8 is provided with a through threaded hole, the connecting wall 9 is provided with a through hole, and an adjusting screw 10 is arranged in the threaded hole and the through hole in a penetrating manner. The two ends of the adjusting screw 10 are rotatably connected with the two connecting walls 9, for example, connected through bearings, or the two ends of the adjusting screw 10 penetrate out of the connecting walls 9 and are fixedly connected with blocking pieces, so that the adjusting screw 10 is limited and can not move basically but only rotate. Along with the rotation of the adjusting screw rod 10, the sliding block 8 which is in threaded connection cannot rotate under the limiting action of the sliding groove 7 and moves back and forth along the adjusting screw rod 10, so that the first stop block 5 and the second stop block 6 release and compress and fix the aluminum bar between the first stop block and the second stop block. An adjusting turntable 12 is fixedly arranged at one end of the adjusting screw 10 far away from the material moving unit 3 so as to be screwed. It is conceivable that, in order to lock the sliding block 8, positioning bolts may be used, for example, and a plurality of positioning bolts are screwed to both sides of the sliding groove 7, and after the sliding block 8 is moved to a desired position, the corresponding positioning bolts are tightened, and sufficient friction force is generated by extrusion to achieve locking and positioning.

Thus, the utility model discloses a first dog 5 and the second dog 6 that transversely set up carry out the centre gripping to the aluminium bar of transversely placing fixed, have avoided the inconsistent condition of centre gripping direction and slider moving direction among the prior art to the difficult problem that blocks that appears, and lower to the machining precision requirement, the cost is lower. In addition, due to the adoption of the fixing mode, a plurality of aluminum bars can be clamped and fixed at the same time for transferring as shown in fig. 2, and the efficiency is higher.

Preferably, the first stopper 5 and the second stopper 6 have inwardly inclined stopper portions 11 at upper portions of opposite sides. Further preferably, the inner surface of the inclined stopper 11 is a curved surface to which the aluminum rod is attached. Therefore, when the aluminum bar is compressed, downward acting force can be provided, and the aluminum bars can be arranged and fixed better. Furthermore, the placing frame 4 may be slightly concave, so that the contact position between the aluminum bars is inclined upward relative to the situation shown in fig. 2 during pressing, and the aluminum bars on the two sides are directly pressed to generate a component force pressing the aluminum bar in the middle, thereby achieving a better fixing effect.

The material moving unit 3 comprises a material moving arm 13, one end of the material moving arm 13 is movably connected with the transfer vehicle main body 1 through a driving mechanism 14, and the other end of the material moving arm 13 is provided with a material moving clamp 15. The material moving clamp 15 comprises a first clamp body 16 fixedly connected with the material moving arm 13 and a second clamp body 17 rotatably connected with the material moving arm 13 or the first clamp body 16. The material moving device further comprises a telescopic mechanism 18, such as an air cylinder, an oil cylinder, a telescopic rod and the like, one end of the telescopic mechanism 18 is rotatably connected with the second clamp body 17, the other end of the telescopic mechanism 18 is rotatably connected with the material moving arm 13, and the movable connection is formed by a hinge mode such as an existing hinge seat and a hinge shaft.

The driving mechanism 14 comprises a cylindrical rotating platform 19, the rotating platform 19 is rotatably connected with the trolley body 1, a hinge base 20 is arranged on the rotating platform 19, the material moving arm 13 is hinged with the hinge base 20 through a rotating shaft, a first motor 21 (for example, fixedly connected through an arc-shaped fixing block) is arranged on one side of the hinge base 20, an output shaft of the first motor 21 is fixedly connected with the rotating shaft, and an input end of the first motor 21 is connected with a switch and a power supply. In this way, the first motor 21 controls the lifting and lowering of the transfer arm 13 and the transfer gripper 15.

The outer side surface of the rotating platform 19 is provided with a gear ring 22, one side of the rotating platform 19 is engaged with a gear 23, the gear 23 is rotatably connected with the transfer trolley main body 1, and the transfer trolley main body 1 is provided with a second motor 24 (fixedly connected through an arc-shaped fixing block for example) for driving the gear to rotate. For example, a rotating shaft is vertically and fixedly connected to the gear 23, an output shaft of the second motor 24 is fixedly connected to an upper end of the rotating shaft, an input end of the second motor 24 is connected to a switch and a power supply, and a lower end of the rotating shaft is rotatably connected to the trolley body 1 through a bearing. The gear 23 is controlled by the second motor 24 to rotate, and the rotating table 19 is driven to rotate, so that the material transferring arm 13 and the material transferring clamp 15 rotate.

In the preferred embodiment, the upper surface of the transfer trolley body 1 is provided with a mounting groove 25, the gear 23 and the rotating platform 19 are both arranged in the mounting groove 25, so that the meshing structure of the gear 23 and the gear ring 22 is protected, and further, a dust cover can be arranged above the gear 23.

Further preferably, referring to fig. 2, the second clamp 17 has an arc-shaped curved surface matching with the aluminum bar, the second clamp 17 is located above the material moving arm 13, and the first clamp 16 is a plate extending along the material moving arm 13 and having no clamping jaw structure at its end. The second clamp 17 surrounds approximately half of the circumference of the aluminum bar, and the first clamp 16 is plate-shaped and is pressed by the acting force of the telescopic mechanism 18 to realize clamping and fixing. In the state shown in fig. 2, in order to transfer the aluminum rod from the material moving clamp 15 to the fixing unit 2, the first stopper 5 is provided with an avoiding groove 26 (for example, as shown in fig. 1, the first stopper 5 is a left section and a right section which are disconnected in the middle) for accommodating part of the material moving clamp 15, the material moving arm 13 rotates to incline downwards, the tail end of the first clamp 16 enters the avoiding groove 26, the telescopic mechanism 18 opens the second clamp 17, and the aluminum rod rolls along the first clamp 16 to the rack 4 and then rolls along the inclined plane of the rack 4 for arrangement. The lengths of the first clamping body 16 and the material moving arm 13 are set to be a small part of the length as shown in fig. 2, and the first clamping body and the material moving arm 13 are overlapped with the placing rack 4, so that the material moving arm 13 can be lifted up after an aluminum bar falls into the placing rack 4, and then the material moving arm rotates to continuously clamp and place the aluminum bar.

It can be imagined that it can also to move material unit 3 to adopt current arm structure, and the utility model discloses preferred embodiment has simplified through structural design and has moved the action that material unit 3 need go on, only need control move material arm 13 go on about and these two dimension rotations can, consequently preferably adopt above-mentioned material unit 3 that moves, for arm structure is simpler, the cost is lower. The utility model discloses a move material unit 3 and realized carrying the aluminium bar from the end of a process, for example on the terminal conveyer belt of a production water line, this conveyer belt be commonly used, two conveyer belts that set up side by side along the direction of transfer, and the aluminium bar is transversely placed on it, moves material arm 13 and moves material clamp 15 and can follow the clearance between these two conveyer belts and upwards move, lifts up the aluminium bar from the conveyer belt, and then shifts to fixed unit 2. The trouble that prior art still need artifical transport or crane transport has been solved like this, helps reducing workshop staff's intensity of labour.

Further, the fixing unit 2 and the part (such as the second clamping body 17 and the inner side surface of the inclined blocking part 11) which clamps and fixes the aluminum bar on the moving unit 3 are provided with anti-skid soft pads made of rubber materials, so that the anti-skid fixing effect is further improved, and the aluminum bar is protected from surface damage caused by fixed clamping.

Furthermore, the transfer car main part adopts programmable control's electronic flatcar, is based on the utility model discloses a scheme can realize automatic the transportation, improves assembly line automation degree.

To sum up, the utility model discloses following beneficial technological effect has:

1. the utility model discloses a raw materials transfer apparatus is used in aluminium alloy production replaces artifical or crane etc. to remove the aluminium bar to transfer car (buggy) main part, labour saving and time saving more through the comparatively simple material unit that moves of structure.

2. The utility model discloses a raw materials transfer apparatus is used in aluminium alloy production can transport one or many aluminium bars at every turn according to actual need to can swiftly fix the aluminium bar effectively through fixed unit, guarantee that the aluminium bar does not drop in the transportation, avoid the economic loss that probably appears.

3. The utility model discloses a raw materials transportation equipment for aluminium alloy production structural design is reasonable ingenious, adopts simple material structure and the action of moving to realize required function, and control is also simpler, is more convenient for realize automatic control, and manufacturing cost is lower.

Claims (10)

1. The raw material transfer equipment for aluminum profile production is characterized by comprising a transfer trolley main body (1), wherein a fixing unit (2) for fixedly placing an aluminum bar and a material transfer unit (3) for transferring the aluminum bar to the fixing unit (2) are arranged on the transfer trolley main body (1);

the fixing unit (2) comprises a placing rack (4), the placing rack (4) is inclined upwards, and one side close to the material moving unit (3) is higher than one side far away from the material moving unit (3); a first stop block (5) and a second stop block (6) which are used for clamping and fixing the aluminum bar are arranged above the placing frame (4) in parallel along the inclined direction; the first stop block (5) is fixedly connected to one side, close to the material moving unit (3), above the placing frame (4); a sliding groove (7) is formed in the placing frame (4) along the inclined direction, two ends of the sliding groove (7) are respectively provided with a connecting wall (9), a matched sliding block (8) is connected in the sliding groove (7) in a sliding mode, and the sliding block (8) is fixedly connected with the second stop block (6); the slider (8) is provided with a through threaded hole, the connecting wall (9) is provided with a through hole, the threaded hole and the through hole are internally provided with an adjusting screw rod (10) in a penetrating manner, and two ends of the adjusting screw rod (10) are rotatably connected with the connecting wall (9).

2. The aluminum profile production raw material transfer apparatus as recited in claim 1, wherein the first stopper (5) and the second stopper (6) have inwardly inclined stopper portions (11) at upper portions of opposite side surfaces.

3. The aluminum profile production raw material transfer equipment as recited in claim 1, wherein an adjusting turntable (12) is fixedly arranged at one end of the adjusting screw (10) far away from the material transfer unit (3).

4. The aluminum profile production raw material transfer equipment as recited in any one of claims 1 to 3, wherein the transfer unit (3) comprises a transfer arm (13), one end of the transfer arm (13) is movably connected with the transfer vehicle main body (1) through a driving mechanism (14), and the other end of the transfer arm (13) is provided with a transfer clip (15); the material moving clamp (15) comprises a first clamp body (16) fixedly connected with the material moving arm (13) and a second clamp body (17) rotatably connected with the material moving arm (13) or the first clamp body (16); the material moving device is characterized by further comprising a telescopic mechanism (18), wherein one end of the telescopic mechanism (18) is rotatably connected with the second clamp body (17), and the other end of the telescopic mechanism (18) is rotatably connected with the material moving arm (13).

5. The aluminum profile production raw material transfer equipment as recited in claim 4, wherein the driving mechanism (14) comprises a cylindrical rotating table (19), the rotating table (19) is rotatably connected with the transfer trolley body (1), an articulated seat (20) is arranged on the rotating table (19), the material moving arm (13) is articulated with the articulated seat (20) through a rotating shaft, a first motor (21) is arranged on one side of the articulated seat (20), and an output shaft of the first motor (21) is fixedly connected with the rotating shaft.

6. The aluminum profile production raw material transfer apparatus as recited in claim 5, wherein a gear ring (22) is provided on an outer side surface of the rotary table (19), a gear (23) is engaged with one side of the rotary table (19), the gear (23) is rotatably connected to the trolley body (1), and a second motor (24) for driving the gear to rotate is provided on the trolley body (1).

7. The aluminum profile production raw material transfer apparatus as recited in claim 6, wherein a mounting groove (25) is formed in an upper surface of the transfer vehicle main body (1), and the gear (23) and the rotating table (19) are both disposed in the mounting groove (25).

8. The aluminum profile production raw material transfer equipment as recited in claim 4, wherein the second clamp body (17) has an arc-shaped curved surface which is matched with the aluminum bar, and the second clamp body (17) is positioned above the material moving arm (13); the first stop block (5) is provided with an avoiding groove (26) used for accommodating part of the material moving clamp (15).

9. The aluminum profile production raw material transfer equipment as claimed in any one of claims 1 to 3, wherein the parts of the fixing unit (2) and the material moving unit (3) for clamping and fixing the aluminum bar are provided with anti-slip soft pads.

10. The aluminum profile production raw material transfer apparatus as recited in any one of claims 1 to 3, wherein the transfer vehicle body (1) is a cart or an electric flat car.

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