CN219750191U - Amorphous alloy iron core bundling mechanism - Google Patents

Abstract

The utility model relates to an amorphous alloy iron core bundling mechanism which comprises a workbench, wherein square holes are formed in the upper end face of the workbench and are positioned on two sides of the workbench, moving blocks are arranged in the square holes, sliding blocks are fixedly arranged on the two side faces of the moving blocks, sliding grooves are formed in the inner walls of the square holes, the sliding blocks are slidably installed with the sliding grooves, clamping blocks are fixedly arranged on the upper end face of the moving blocks, fixing plates are fixedly arranged on the two side faces of the workbench, air cylinders are fixedly arranged on the outer walls of the fixing plates, the output ends of the air cylinders penetrate through the fixing plates and the workbench and are fixedly connected with the moving blocks, iron core bodies are arranged in the middle positions of the two clamping blocks, and a user can move the clamping blocks through controlling the air cylinders so as to push the two iron core bodies to be contacted with each other, so that bundling is conveniently carried out in the later period.

Description

Amorphous alloy iron core bundling mechanism

Technical Field

The utility model relates to the technical field of amorphous alloy iron core bundling, in particular to an amorphous alloy iron core bundling mechanism.

Background

The prior art has the advantages that the prior art is mainly provided with two materials, namely a silicon steel belt and an amorphous alloy, the amorphous alloy is a material for manufacturing the transformer iron core, compared with the silicon steel belt, the amorphous alloy iron core is of a semi-annular structure, and a bundling mechanism is generally used for bundling the amorphous alloy iron core for convenience in placement and transportation, but the traditional bundling mode is generally performed manually, and the amorphous alloy iron core has large weight, so that a large amount of manpower and material resources are inevitably consumed in the working mode.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides an amorphous alloy iron core bundling mechanism for solving the technical problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an amorphous alloy iron core bundling mechanism, includes the workstation, square hole has all been seted up to the up end of workstation and be located the both sides, square hole's inside all is equipped with the movable block, the both sides face of movable block is all fixed and is equipped with the slider, the spout has all been seted up on square hole's the inner wall, slider all with spout slidable mounting, the up end of movable block is all fixed and is equipped with the clamp splice, the both sides face of workstation is all fixed and is equipped with the fixed plate, all be fixed on the outer wall of fixed plate and be equipped with the cylinder, the output of cylinder all passes fixed plate and workstation, and with movable block fixed connection, two the intermediate position of clamp splice is equipped with the iron core body, the iron core body is provided with two sets of and sets up relatively, the rear end of iron core body and the up end that is located the workstation are fixed and are equipped with the limiting plate, limiting plate and iron core body contact.

Preferably, the front end of iron core body just is located the up end of workstation and has seted up and has dodged the hole, the inside slip of dodging the hole is equipped with the sliding block, the up end of sliding block is fixed to be equipped with the roof, the outer wall and the iron core body contact of roof, the screw hole has been seted up on the inner wall of dodging the hole, the inside of screw hole is equipped with the threaded rod, the one end and the sliding block rotation installation of threaded rod, the other end passes the screw hole and is fixedly equipped with the hand wheel, is convenient for make two iron core bodies keep controlling the alignment.

In a further preferred aspect, the inner wall of the limiting plate is provided with a first steel belt accommodating groove, the inner wall of the clamping block is provided with a second steel belt accommodating groove correspondingly, the first steel belt accommodating groove and the second steel belt accommodating groove are provided with a plurality of groups, and the first steel belt accommodating groove and the second steel belt accommodating groove are located on the same horizontal plane, so that the reserved steel belts are placed conveniently.

In a further preferred aspect, the lower end face of the workbench is fixedly provided with fixed barrels on four corners, sliding rods are slidably arranged in the fixed barrels, bases are fixedly arranged on the lower end face of the sliding rods, and the workbench is convenient to move stably.

In a further preferred aspect, the electric pushing rods are fixedly arranged on the upper end face of the base and located on two sides of the base, the supporting frames are fixedly arranged on the lower end face of the workbench and located on the right upper end of the electric pushing rods, and the output ends of the electric pushing rods are fixedly connected with the supporting frames and are convenient to adjust the height of the workbench.

In a further preferred embodiment, the first steel strip accommodating groove and the second steel strip accommodating groove are both located at the upper end of the top plate, and reserved steel strips are arranged in the first steel strip accommodating groove and the second steel strip accommodating groove, so that the two iron core bodies are conveniently bundled.

In a further preferred aspect, the inner wall of the avoidance hole and two sides of the threaded rod are respectively provided with a telescopic rod, so that the sliding block is more stable in moving.

Compared with the prior art, the utility model provides an amorphous alloy iron core bundling mechanism, which has the following beneficial effects:

according to the utility model, by arranging the workbench, the square hole, the moving block, the sliding groove, the clamping block and the air cylinder, a user can put the two iron core bodies on the workbench through the lifting equipment and oppositely put the two iron core bodies, then control the air cylinder to move the clamping block so as to push the two iron core bodies to be contacted, then respectively pull out two ends of a reserved steel belt in the first steel belt accommodating groove and the second steel belt accommodating groove, and finally connect the two iron core bodies by using the packer, so that the binding can be completed;

according to the utility model, the limiting plate, the avoidance hole, the sliding block, the top plate, the threaded rod and the hand wheel are arranged, so that a user can rotate the threaded rod by rotating the hand wheel, and at the moment, the threaded rod drives the sliding block and the top plate to move, so that the top plate pushes the two iron core bodies flat, the situation that the two iron core bodies are uneven left and right during bundling is prevented, and the iron core is convenient to use;

according to the utility model, the fixed cylinder, the sliding rod, the base, the electric push rod and the supporting frame are arranged, so that a user can change the height of the workbench by controlling the electric push rod, and workers with different heights can use the workbench conveniently.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an amorphous alloy core bundling mechanism according to the present utility model;

FIG. 2 is a schematic view of the positions of a clamping block, a cylinder and a limiting plate on a workbench in the utility model;

FIG. 3 is a schematic view of the positions of the slide block, the clamping block, the first steel strip receiving groove and the second steel strip receiving groove on the movable block according to the present utility model;

FIG. 4 is a schematic view of the position of the support frame on the workbench according to the utility model;

FIG. 5 is a schematic view showing the position of the top plate on the slider according to the present utility model.

In the figure: 1. a work table; 2. square holes; 3. a moving block; 4. a slide block; 5. a chute; 6. clamping blocks; 7. a fixing plate; 8. a cylinder; 9. an iron core body; 10. a limiting plate; 11. avoiding holes; 12. a sliding block; 13. a top plate; 14. a threaded hole; 15. a threaded rod; 16. a hand wheel; 17. a first steel strip receiving groove; 18. a second steel strip receiving groove; 19. a fixed cylinder; 20. a slide bar; 21. a base; 22. an electric push rod; 23. a support frame; 24. reserving a steel belt; 25. a telescopic rod.

Description of the embodiments

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.

Examples

Referring to fig. 1-5, an amorphous alloy iron core bundling mechanism comprises a workbench 1, square holes 2 are formed in the upper end face of the workbench 1 and located on two sides of the workbench, moving blocks 3 are arranged in the square holes 2, sliding blocks 4 are fixedly arranged on two side faces of the moving blocks 3, sliding grooves 5 are formed in the inner walls of the square holes 2, the sliding blocks 4 are slidably mounted with the sliding grooves 5, clamping blocks 6 are fixedly arranged on the upper end face of the moving blocks 3, fixing plates 7 are fixedly arranged on the two side faces of the workbench 1, air cylinders 8 are fixedly arranged on the outer walls of the fixing plates 7, output ends of the air cylinders 8 penetrate through the fixing plates 7 and the workbench 1 and are fixedly connected with the moving blocks 3, iron core bodies 9 are arranged in the middle of the two clamping blocks 6, the iron core bodies 9 are arranged in two groups and are oppositely arranged, limiting plates 10 are fixedly arranged on the rear ends of the iron core bodies 9 and located on the upper end faces of the workbench 1, and the limiting plates 10 are in contact with the iron core bodies 9.

In this embodiment, the front end of the iron core body 9 and the upper end surface located on the workbench 1 are provided with the avoidance hole 11, the inside of the avoidance hole 11 is slidably provided with the sliding block 12, the upper end surface of the sliding block 12 is fixedly provided with the top plate 13, the outer wall of the top plate 13 is in contact with the iron core body 9, the inner wall of the avoidance hole 11 is provided with the threaded hole 14, the inside of the threaded hole 14 is provided with the threaded rod 15, one end of the threaded rod 15 is rotatably mounted with the sliding block 12, the other end passes through the threaded hole 14 and is fixedly provided with the hand wheel 16, and a user can move the top plate 13 by rotating the hand wheel 16 so as to level the two iron core bodies 9.

In this embodiment, the inner wall of the limiting plate 10 is provided with a first steel strip accommodating groove 17, the inner wall of the clamping block 6 is provided with a second steel strip accommodating groove 18 correspondingly, the first steel strip accommodating groove 17 and the second steel strip accommodating groove 18 are provided with a plurality of groups, and are all located on the same horizontal plane, so that a user can put the reserved steel strip 24 into the first steel strip accommodating groove 17 and the second steel strip accommodating groove 18.

In this embodiment, the lower terminal surface of workstation 1 just is located four angles and all fixes and be equipped with fixed section of thick bamboo 19, and the inside of fixed section of thick bamboo 19 all slides and is equipped with slide bar 20, and the lower terminal surface of slide bar 20 all is fixed and is equipped with base 21, can make workstation 1 more steady when removing.

In this embodiment, the upper end face of the base 21 and the two sides of the base are both fixedly provided with the electric push rods 22, the lower end face of the workbench 1 and the right upper end of the electric push rods 22 are both fixedly provided with the supporting frames 23, the output ends of the electric push rods 22 are both fixedly connected with the supporting frames 23, and a user can control the electric push rods 22 to enable the workbench 1 to move up and down.

In this embodiment, the first steel strip accommodating groove 17 and the second steel strip accommodating groove 18 are located at the upper end of the top plate 13, and the reserved steel strips 24 are disposed in the first steel strip accommodating groove and the second steel strip accommodating groove, so that a user can connect two ends of the reserved steel strips 24 through the packer to achieve the effect of bundling the iron core body 9.

In this embodiment, the telescopic rods 25 are disposed on the inner wall of the avoidance hole 11 and on two sides of the threaded rod 15, so that the sliding block 12 can be more stable during movement, and the rotation phenomenon of the sliding block is prevented.

Examples

To sum up, when in use, a user can put two iron core bodies 9 on the workbench 1 through lifting equipment, and put them relatively, then move the clamping block 6 through the control cylinder 8 to push the two iron core bodies 9 to make them contact, then rotate the threaded rod 15 through the rotating hand wheel 16, at this moment, the threaded rod 15 drives the sliding block 12 and the top plate 13 to move, so that the top plate 13 pushes the two iron core bodies 9 flat, the situation that left and right misalignment occurs when bundling is prevented, finally, two ends of the reserved steel belts 24 in the first steel belt accommodating groove 17 and the second steel belt accommodating groove 18 are respectively pulled out, finally, bundling can be completed through connection of the reserved steel belts by using the packer, and the user can also change the height of the workbench 1 through controlling the electric push rod 22, so that workers with different heights can use the steel belts conveniently.

In all the above mentioned solutions, in which the connection between two components can be chosen according to the actual situation, a welded, bolt-and-nut-fitted connection, a bolt-or-screw connection or other known connection means, which are not described in detail herein, where reference is made to a written fixed connection, the preferred consideration is welding, although embodiments of the utility model have been shown and described, it will be understood by those skilled in the art that numerous variations, modifications, substitutions and alterations can be made to these embodiments without departing from the principle and spirit of the utility model, the scope of which is defined by the appended claims and their equivalents.

Claims (7)

1. The utility model provides an amorphous alloy iron core bundling mechanism, includes workstation (1), its characterized in that: the utility model discloses a square hole (2) has all been seted up to up end and being located both sides of workstation (1), the inside of square hole (2) all is equipped with movable block (3), the both sides face of movable block (3) is all fixed and is equipped with slider (4), spout (5) have all been seted up on the inner wall of square hole (2), slider (4) all with spout (5) slidable mounting, the up end of movable block (3) is all fixed and is equipped with clamp splice (6), the both sides face of workstation (1) is all fixed and is equipped with fixed plate (7), all be fixed on the outer wall of fixed plate (7) and be equipped with cylinder (8), the output of cylinder (8) all passes fixed plate (7) and workstation (1), and with movable block (3) fixed connection, two the intermediate position of clamp splice (6) is equipped with iron core body (9), iron core body (9) are provided with two sets of and become relative setting, the rear end of iron core body (9) and the up end that is located workstation (1) are fixed and are equipped with limiting plate (10), iron core body (10) and limiting plate (9).

2. An amorphous alloy core bundling mechanism according to claim 1, wherein: the utility model discloses a high-precision iron core, including iron core body (9), screw hole (14) are seted up to the front end of iron core body (9) and be located the up end of workstation (1), the inside slip of dodging hole (11) is equipped with slider (12), the up end of slider (12) is fixed to be equipped with roof (13), the outer wall and the iron core body (9) contact of roof (13), screw hole (14) have been seted up on the inner wall of dodging hole (11), the inside of screw hole (14) is equipped with threaded rod (15), the one end and slider (12) rotation installation of threaded rod (15), and the other end passes screw hole (14) and is fixed to be equipped with hand wheel (16).

3. An amorphous alloy core bundling mechanism according to claim 1, wherein: first steel band holding tank (17) have been seted up on the inner wall of limiting plate (10), second steel band holding tank (18) have all been seted up on the inner wall of clamp splice (6) correspondingly, first steel band holding tank (17) and second steel band holding tank (18) all are provided with the multiunit, and all are located same horizontal plane.

4. An amorphous alloy core bundling mechanism according to claim 1, wherein: the automatic fixing device is characterized in that fixed barrels (19) are fixedly arranged on the lower end face of the workbench (1) and located at four corners, sliding rods (20) are slidably arranged in the fixed barrels (19), and bases (21) are fixedly arranged on the lower end face of the sliding rods (20).

5. The amorphous alloy core bundling mechanism according to claim 4, wherein: the automatic lifting device is characterized in that the upper end face of the base (21) is fixedly provided with electric push rods (22) on two sides, the lower end face of the workbench (1) is fixedly provided with supporting frames (23) on the right upper ends of the electric push rods (22), and the output ends of the electric push rods (22) are fixedly connected with the supporting frames (23).

6. An amorphous alloy core bundling mechanism according to claim 3, wherein: the first steel belt accommodating groove (17) and the second steel belt accommodating groove (18) are both positioned at the upper end of the top plate (13), and reserved steel belts (24) are arranged in the first steel belt accommodating groove and the second steel belt accommodating groove.

7. An amorphous alloy core bundling mechanism according to claim 2, wherein: the inner wall of the avoidance hole (11) and the two sides of the threaded rod (15) are respectively provided with a telescopic rod (25).