CN220331632U - Multi-wire cutting machine for magnetic materials convenient to place - Google Patents

Abstract

The application discloses conveniently put multi-wire cutting machine of magnetic material relates to magnetic material cutting field, the on-line screen storage device comprises a workbench, be fixed with the support frame on the workstation, install the cutting line on the cutting line roller on the support frame, be provided with the cutting table on the workstation, be provided with moving mechanism between workstation and the cutting table, be provided with fixture on the cutting table, the oil groove has been seted up on the workstation. Utilize moving mechanism to stretch out the workstation with the cutting bench on the workstation, after the cutting bench stretches out the workstation, the operating personnel will put the thing board of putting of magnetic material and put on the cutting bench, then utilize fixture on the cutting bench to fix the thing board, then utilize moving mechanism to remove the cutting bench at workstation central authorities again, then utilize the cutting line on the cutting line roller to cut the magnetic material, through utilizing moving mechanism to stretch out the cutting bench to can let operating personnel more convenient put the magnetic material.

Description

Multi-wire cutting machine for magnetic materials convenient to place

Technical Field

The application relates to the field of magnetic material cutting, in particular to a magnetic material multi-wire cutting machine convenient for placing magnetic materials.

Background

The multi-wire cutting is a novel cutting processing method for simultaneously cutting hard and brittle materials such as semiconductors into hundreds of sheets at one time by taking abrasive materials into a semiconductor processing area to grind through high-speed reciprocating motion of metal wires, and is different from the traditional cutting modes such as a knife saw blade, a grinding wheel and the like and also different from advanced laser cutting and inner circle cutting, and the principle is that a steel wire moving at high speed drives a cutting blade material attached to the steel wire to rub, so that the cutting effect is achieved.

The existing cutting of the magnet is generally carried out by cutting the neodymium-iron-boron magnet, the operation flow is basically that an operator places groups of neodymium-iron-boron magnet blocks on a long storage plate, then temporary fixing is carried out by using special glue, and then the worker moves the storage plate with the neodymium-iron-boron magnet blocks to a cutting table of a multi-wire saw for cutting.

However, the distance between the cutting line and the cutting table of the multi-wire cutting machine is smaller, the operation of operators generally is to put one end of the object placing plate on the workbench, then push the object placing plate to enter the cutting position on the workbench, and when the cut magnet blocks are taken out, hands are required to extend into the space between the workbench and the cutting line to take out the object placing plate, so that the operation space is smaller, and the operation is more inconvenient.

Disclosure of Invention

The purpose of the present application is: for solving the distance that the cutting line that proposes among the above-mentioned prior art and cutting table is less when placing the magnetic path that needs to cut or take the magnetic path that cuts, operating space is less, the inconvenient problem of operation, this application provides a conveniently put the multi-wire saw of magnetic material.

The application specifically adopts the following technical scheme for realizing the purposes:

the utility model provides a conveniently put multi-wire cutting machine of magnetic material, includes the workstation, be fixed with the support frame on the workstation, install the cutting line roller on the support frame, install the cutting line on the cutting line roller, install the cutting cover on the support frame, be provided with the cutting platform on the workstation, be provided with moving mechanism between workstation and the cutting platform, be provided with fixture on the cutting platform, the oil groove has been seted up on the workstation.

Through adopting above-mentioned technical scheme, utilize moving mechanism to stretch out the workstation with the cutting bench on the workstation, after the cutting bench stretches out the workstation, operating personnel put the thing board of putting that has put the magnetic material and put on the cutting bench, then utilize fixture on the cutting bench to fix the thing board, then utilize moving mechanism to remove the cutting bench at workstation central authorities again, through utilizing moving mechanism to stretch out the cutting bench to can let operating space increase of operating personnel, more convenient put the magnetic material.

Further, the movable assembly comprises a movable rack, the movable rack is located in a through groove formed between the cutting table and the workbench, the movable rack is fixedly connected with the cutting table, a driving gear is arranged on one side of the movable rack, the driving gear is meshed with the movable rack, the driving gear is located in the through groove, the driving gear is rotationally connected with the workbench, a driving assembly is arranged on one side of the driving gear, and a limiting assembly is arranged between the cutting table and the workbench.

Through adopting above-mentioned technical scheme, drive assembly utilizes to drive the gear and drives the removal rack, removes the rack and drives the cutting board, and the cutting board stretches out from the workstation under limit assembly's restriction to can operating personnel put the magnetic material or remove the space of magnetic material bigger, make things convenient for taking of magnetic material.

Further, the height of the driving gear is consistent with the height of a through groove formed between the cutting table and the workbench.

Through adopting above-mentioned technical scheme, let drive assembly when rotating and driving the gear, drive the gear and can directly drive the removal rack to can conveniently remove the cutting board.

Further, the limiting component comprises two limiting blocks symmetrically fixed on two sides of the cutting table, the limiting blocks are L-shaped, and limiting grooves corresponding to the limiting blocks are formed in the working table.

Through adopting above-mentioned technical scheme, the stopper of cutting platform both sides removes at the spacing groove on the workstation, and the stopper plays certain support to the cutting platform to can reduce the possibility that receives pressure to drop from the workstation after the cutting platform stretches out the workstation.

Further, the drive assembly is including setting up the transmission shaft on the cutting bench, the both ends rotation of transmission shaft are connected with the supporting shoe, the supporting shoe is located and link up the inslot, and with workstation fixed connection, the transmission shaft is close to the one end that drives the gear and is fixed with the worm, the one end fixedly connected with worm wheel that drives the gear, the worm meshes with the worm wheel mutually, the support frame is run through to the one end of transmission shaft, be fixed with driving motor on the support frame, driving motor's output and transmission shaft fixed connection.

Through adopting above-mentioned technical scheme, the transmission shaft rotation drives the worm rotation, and the worm utilizes the worm wheel to drive the gear rotation to can be more convenient remove the cutting platform.

Further, be provided with two symmetrical backup pads between cutting table and the workstation, the backup pad is fixed on the cutting table, the backup pad rotates and is connected with a plurality of backing roll, the backing roll is inconsistent with the workstation.

Through adopting above-mentioned technical scheme, when the backup pad drives the backing roll, the backing roll contradicts the workstation and rotates to can let the cutting bench remove more laborsaving.

Further, the fixture comprises four fixing blocks which are rectangular and distributed and fixed on the cutting table, a threaded pipe is rotationally connected to the fixing blocks, a threaded rod is connected to the threaded pipe in a threaded mode, and a clamping block is fixed to one end, far away from the threaded pipe, of the threaded rod.

Through adopting above-mentioned technical scheme, the threaded rod drives the grip block and contradicts the side of putting the thing board, restricts putting the thing board of putting the magnetic material to can let putting the thing board of putting the magnetic material more stable, reduce the cutting error.

Further, the clamping block is rectangular, one side of the clamping block is abutted against the cutting table, and one side of the clamping block, far away from the threaded rod, is fixedly provided with a plurality of fixing nails.

Through adopting above-mentioned technical scheme, the grip block limits the threaded rod, then the staple on the grip block is contradicted and is put the thing board of putting of magnetic material to make the magnetic material can be more stable put on the cutting bench.

In summary, the present application includes at least one of the following benefits;

1. the utility model provides a, through utilizing drive assembly to rotate and drive the gear, drive the gear and drive the movable rack, the movable rack drives the cutting board, the cutting board stretches out under limit assembly's restriction from the workstation, then put the thing board of putting the magnetic material directly on the cutting board, or put directly on the cutting board, then reverse rotation drives the gear, it utilizes the movable rack to drive the cutting board and removes the normal position and cut, after the cutting is accomplished, the reuse drives the gear and removes the rack and stretch out the cutting board, then put thing board and the magnetic material take off on the cutting board, the purpose that can let the cutting board stretch out the workstation, let put and take out the magnetic material when, the space of operation is bigger, put the magnetic material more convenient.

2. The utility model discloses a through rotating the screwed pipe, the screwed pipe rotation lets the threaded rod remove on the screwed pipe, and the threaded rod drives the grip block and contradicts the side of putting the thing board, restricts putting the thing board that has put the magnetic material, has reached and can let to put the thing board that has put the magnetic material more stable place in the cutting bench, reduces the purpose of the error of cutting.

Drawings

Fig. 1 is a first perspective view of a multi-wire saw of the present application;

FIG. 2 is a second perspective view of the multi-wire saw of the present application;

FIG. 3 is a third perspective view of the multi-wire saw of the present application;

fig. 4 is a fourth perspective view of the multi-wire saw of the present application;

FIG. 5 is an enlarged schematic view of FIG. 2A of the present application;

fig. 6 is an enlarged schematic view at B in fig. 4 of the present application.

Reference numerals illustrate:

1. a work table; 2. a support frame; 3. a cutting cover; 4. a cutting table; 5. a moving mechanism; 51. moving the rack; 52. driving a gear; 53. a drive assembly; 531. a transmission shaft; 532. a worm; 533. a support block; 534. a worm wheel; 54. a limit component; 541. a limiting block; 542. a limit groove; 6. a wire cutting roller; 7. cutting lines; 8. a clamping mechanism; 81. a fixed block; 82. a threaded tube; 83. a threaded rod; 84. a clamping block; 9. an oil flow groove; 10. a support roller; 11. a support plate; 12. and (5) fixing nails.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-6.

The embodiment of the application discloses a magnetic material multi-wire cutting machine convenient for placing magnetic materials.

Referring to fig. 1, 2 and 3, a multi-wire cutting machine for conveniently placing magnetic materials comprises a workbench 1, wherein a support frame 2 is fixed on the workbench 1, a wire cutting roller 6 is installed on the support frame 2, a cutting wire 7 is installed on the wire cutting roller 6, a cutting cover 3 is installed on the support frame 2, a cutting table 4 is arranged on the workbench 1, a moving mechanism 5 is arranged between the workbench 1 and the cutting table 4, a clamping mechanism 8 is arranged on the cutting table 4, and an oil flowing groove 9 is formed in the workbench 1. When the multi-wire cutting machine is needed to be used, firstly, the cutting table 4 on the workbench 1 is extended out of the workbench 1 by the moving mechanism 5, after the cutting table 4 is extended out of the workbench 1, an operator places a placing plate with magnetic materials on the cutting table 4, then fixes the placing plate by the clamping mechanism 8 on the cutting table 4, then moves the cutting table 4 in the center of the workbench 1 by the moving mechanism 5, recently descends the cutting cover 3, cuts the magnetic materials by the cutting line 7 on the cutting line roller 6, and can extend the cutting table 4 by the moving mechanism 5, so that the operator can place the magnetic materials more conveniently.

Referring to fig. 1, 2 and 5, the moving assembly comprises a moving rack 51, the moving rack 51 is located in a through groove formed between the cutting table 4 and the working table 1, the moving rack 51 is fixedly connected with the cutting table 4, a driving gear 52 is arranged on one side of the moving rack 51, the driving gear 52 is meshed with the moving rack 51, the driving gear 52 is located in the through groove, the driving gear 52 is rotationally connected with the working table 1, a driving assembly 53 is arranged on one side of the driving gear 52, and a limiting assembly 54 is arranged between the cutting table 4 and the working table 1. Firstly, the driving component 53 is utilized to rotate to drive the gear 52, the gear 52 is driven to drive the movable rack 51, the movable rack 51 drives the cutting table 4, the cutting table 4 stretches out from the workbench 1 under the limit of the limiting component 54, then the object placing plate with the magnetic material is directly placed on the cutting table 4, or is directly placed on the cutting table 4, then the gear 52 is driven to reversely rotate, the gear 52 is driven to drive the cutting table 4 to move to perform cutting in situ by utilizing the movable rack 51, after the cutting is completed, the cutting table 4 stretches out by utilizing the driving gear 52 and the movable rack 51, then the object placing plate and the magnetic material on the cutting table 4 are taken down, and the space for placing the magnetic material or moving the magnetic material of an operator is larger by enabling the cutting table 4 to stretch out of the workbench 1, so that the taking of the magnetic material is facilitated.

Referring to fig. 4 and 6, the height of the driving gear 52 is identical to the height of the through groove formed between the cutting table 4 and the table 1. The height of the driving gear 52 is consistent with that of the through groove, when the driving component 53 rotates to drive the gear 52, the driving gear 52 can directly drive the movable rack 51, and the driving gear 52 is arranged between the movable rack 51 and the driving component 53, so that the cutting table 4 can be conveniently moved.

Referring to fig. 3 and 4, the limiting assembly 54 includes two limiting blocks 541 symmetrically fixed at both sides of the cutting table 4, the limiting blocks 541 are L-shaped, and a limiting groove 542 corresponding to the limiting blocks 541 is formed in the table 1. When the cutting table 4 moves, the cutting table 4 drives the limiting block 541, the limiting block 541 slides in the limiting groove 542, the limiting blocks 541 on two sides of the cutting table 4 move in the limiting groove 542 on the workbench 1, the limiting block 541 plays a role in supporting the cutting table 4, and the limiting block 541 slides in the limiting groove 542 while supporting the cutting table 4 to reduce the possibility that the cutting table 4 falls from the workbench 1 due to pressure after extending out of the workbench 1.

Referring to fig. 4 and 6, the driving assembly 53 includes a driving shaft 531 disposed on the cutting table 4, two ends of the driving shaft 531 are rotatably connected with a supporting block 533, the supporting block 533 is located in a through groove and is fixedly connected with the working table 1, one end of the driving shaft 531, which is close to the driving gear 52, is fixed with a worm 532, one end of the driving gear 52 is fixedly connected with a worm wheel 534, the worm 532 is meshed with the worm wheel 534, one end of the driving shaft 531 penetrates through the supporting frame 2, a driving motor is fixed on the supporting frame 2, and an output end of the driving motor is fixedly connected with the driving shaft 531. The driving motor is utilized to drive the transmission shaft 531, the transmission shaft 531 rotates under the support of the supporting block 533, the transmission shaft 531 rotates to drive the worm 532 to rotate, the worm 532 drives the worm wheel 534 to rotate, the worm wheel 534 rotates to drive the gear 52 to rotate, and the worm wheel 534 is utilized to drive the gear 52 to rotate by utilizing the worm 532, so that the cutting table 4 can be moved more conveniently.

Referring to fig. 3, 4 and 6, two symmetrical support plates 11 are provided between the cutting table 4 and the table 1, the support plates 11 are fixed on the cutting table 4, the support plates 11 are rotatably connected with a plurality of support rollers 10, and the support rollers 10 are abutted against the table 1. When the cutting table 4 is moved, the cutting table 4 drives the supporting plate 11, the supporting plate 11 drives the supporting roller 10, the supporting roller 10 abuts against the workbench 1 and rotates, and the supporting roller 10 is driven to slide on the workbench 1 by utilizing the cutting table 4, so that the cutting table 4 can be moved more labor-saving.

Referring to fig. 1 and 2, the clamping mechanism 8 includes four fixing blocks 81 which are rectangular and distributed and fixed on the cutting table 4, a threaded pipe 82 is rotatably connected to the fixing blocks 81, a threaded rod 83 is screwed to the threaded pipe 82, and a clamping block 84 is fixed to one end of the threaded rod 83 away from the threaded pipe 82. After the object placing plate with the magnetic materials is placed on the cutting table 4, the threaded pipe 82 is rotated, the threaded pipe 82 rotates to enable the threaded rod 83 to move on the threaded pipe 82, the threaded rod 83 drives the clamping blocks 84 to abut against the side edges of the object placing plate, the object placing plate with the magnetic materials is limited, the object placing plate with the magnetic materials is fixed by the clamping blocks 84 on the threaded rod 83, and therefore the object placing plate with the magnetic materials can be more stable, and cutting errors are reduced.

Referring to fig. 2, 4 and 6, the clamping block 84 is rectangular, one side of the clamping block 84 is abutted against the cutting table 4, and a plurality of fixing nails 12 are fixed on one side of the clamping block 84 away from the threaded rod 83. One side of the clamping block 84 is abutted against the cutting table 4, when the threaded pipe 82 rotates, the clamping block 84 limits the threaded rod 83, then the fixing nails 12 on the clamping block 84 are abutted against the storage plate with the magnetic materials, and friction force is increased by using the fixing nails 12, so that the magnetic materials can be more stably placed on the cutting table 4.

Working principle: when the multi-wire cutting machine is required to be used, the driving component 53 is utilized to rotate to drive the gear 52, the gear 52 is driven to drive the movable rack 51, the movable rack 51 drives the cutting table 4, the cutting table 4 stretches out of the workbench 1 under the limit of the limiting component 54, then a storage plate with magnetic materials is directly placed on the cutting table 4, or is directly placed on the cutting table 4, the threaded pipe 82 is rotated, the threaded pipe 82 rotates to enable the threaded rod 83 to move on the threaded pipe 82, the threaded rod 83 drives the clamping block 84 to abut against the side edge of the storage plate, the storage plate with the magnetic materials is limited, then the gear 52 is driven to reversely rotate, the gear 52 is driven to drive the cutting table 4 to move to perform cutting in situ by utilizing the movable rack 51, after the cutting is completed, the storage plate with the magnetic materials placed on the cutting table 4 and the cut magnetic materials are removed by utilizing the driving gear 52 and the movable rack 51.

Claims (8)

1. The utility model provides a conveniently put magnetic material multi-wire saw of magnetic material, includes workstation (1), its characterized in that: be fixed with support frame (2) on workstation (1), install tangent line roller (6) on support frame (2), install cutting line (7) on tangent line roller (6), install cutting cover (3) on support frame (2), be provided with cutting table (4) on workstation (1), be provided with moving mechanism (5) between workstation (1) and cutting table (4), be provided with fixture (8) on cutting table (4), oil groove (9) have been seted up on workstation (1).

2. The magnetic material multi-wire cutting machine convenient for placing magnetic materials according to claim 1, wherein: the movable mechanism (5) comprises a movable rack (51), the movable rack (51) is located in a through groove formed between a cutting table (4) and a workbench (1), the movable rack (51) is fixedly connected with the cutting table (4), one side of the movable rack (51) is provided with a driving gear (52), the driving gear (52) is meshed with the movable rack (51), the driving gear (52) is located in the through groove, the driving gear (52) is rotationally connected with the workbench (1), one side of the driving gear (52) is provided with a driving component (53), and a limiting component (54) is arranged between the cutting table (4) and the workbench (1).

3. The magnetic material multi-wire cutting machine convenient for placing magnetic materials according to claim 2, wherein: the height of the driving gear (52) is consistent with the height of a through groove arranged between the cutting table (4) and the workbench (1).

4. The magnetic material multi-wire cutting machine convenient for placing magnetic materials according to claim 2, wherein: the limiting assembly (54) comprises two limiting blocks (541) symmetrically fixed on two sides of the cutting table (4), the limiting blocks (541) are L-shaped, and limiting grooves (542) corresponding to the limiting blocks (541) are formed in the workbench (1).

5. The magnetic material multi-wire cutting machine convenient for placing magnetic materials according to claim 2, wherein: the utility model discloses a cutting machine, including cutting board (4), drive assembly (53) is including setting up transmission shaft (531) on cutting board (4), the both ends of transmission shaft (531) rotate and are connected with supporting shoe (533), supporting shoe (533) are located and link up the inslot, and with workstation (1) fixed connection, one end that transmission shaft (531) is close to drive gear (52) is fixed with worm (532), one end fixedly connected with worm wheel (534) that drives gear (52), worm (532) meshes with worm wheel (534), support frame (2) are run through to one end of transmission shaft (531), be fixed with driving motor on support frame (2), driving motor's output and transmission shaft (531) fixed connection.

6. The magnetic material multi-wire cutting machine convenient for placing magnetic materials according to claim 2, wherein: two symmetrical supporting plates (11) are arranged between the cutting table (4) and the workbench (1), the supporting plates (11) are fixed on the cutting table (4), a plurality of supporting rollers (10) are rotatably connected with the supporting plates (11), and the supporting rollers (10) are in contact with the workbench (1).

7. The magnetic material multi-wire cutting machine convenient for placing magnetic materials according to claim 1, wherein: the clamping mechanism (8) comprises four fixing blocks (81) which are rectangular and distributed and fixed on the cutting table (4), a threaded pipe (82) is rotationally connected to the fixing blocks (81), a threaded rod (83) is connected to the threaded pipe (82) in a threaded mode, and a clamping block (84) is fixed to one end, far away from the threaded pipe (82), of the threaded rod (83).

8. The magnetic material multi-wire cutting machine convenient for placing magnetic materials according to claim 7, wherein: the clamping block (84) is rectangular, one side of the clamping block (84) is abutted against the cutting table (4), and one side of the clamping block (84) far away from the threaded rod (83) is fixed with a plurality of fixing nails (12).