CN223462112U - A fully automatic cutting and beveling equipment for electromagnetic flat wire - Google Patents

Abstract

The utility model relates to a fully automatic electromagnetic flat wire beveling device, wherein the cutting mechanism includes a cutting adjustment assembly, a cutting drive assembly, and a cutting support, and the cutting support is provided with a pressure plate assembly, a limit plate assembly, and an angle adjustment assembly. The cutting support includes a limit support plate and a clamping mounting plate, and the pressure plate assembly is mounted on the clamping mounting plate. The lower end of the pressure plate assembly is provided with a liftable pressure plate, the limit plate assembly is mounted on the limit support plate, the front end of the limit plate assembly is provided with a horizontally movable limit plate, and the angle adjustment assembly is located below the limit support plate. The angle adjustment assembly is provided with an adjustable lower support plate. The electromagnetic flat wire is inserted into the gap between the pressure plate, the clamping mounting plate, the limit support plate, and the limit plate, and a top block is provided on one side of the lower support plate to abut against the lower side of the end of the electromagnetic flat wire. The utility model can securely fix the electromagnetic flat wire and adjust its angle, making it more flexible to use and having a more compact structure.

Description

Full-automatic groove cutting equipment for electromagnetic flat wire

Technical Field

The utility model relates to the technical field of transformer production, in particular to full-automatic groove cutting equipment for electromagnetic flat wires.

Background

The copper aluminum electromagnetic flat wire slope mouth lap welding is an important link of the production of the high-voltage winding of the transformer, the electromagnetic flat wire and the electromagnetic flat wire can be tightly connected in the mode, the end part of the electromagnetic flat wire is usually required to be polished into a bevel groove before welding so as to increase the contact area between the welding flux and the electromagnetic flat wire, a manual polishing mode is usually adopted in the prior art, that is, tools such as files and the like are manually used for polishing the end part of the electromagnetic flat wire, and according to the technological requirements, the length of the bevel face is required to be 3 times of the thickness of the electromagnetic flat wire, so that the conventional manual polishing mode is time-consuming and labor-consuming in operation, the condition that the specification of the bevel face of the electromagnetic flat wire does not meet the requirements or the specification of the same size of the bevel face of the electromagnetic flat wire is easy to be caused, and metal particles generated during polishing are also easy to be attached to the surface of a winding or an insulating material, so that the product quality hidden danger is caused.

Along with the technical development, some devices for cutting grooves of a coil wire of a transformer also appear in the prior art, for example, patent CN218730404U discloses a device for cutting a slope opening of a coil wire of a transformer, but the device uses a straightening component to clamp and straighten the coil wire from two ends, then a cutting machine in an inclined state cuts the wire to finish the processing of a slope surface, and the device adjusts the cutting angle of the cutting machine through an adjusting component, wherein the adjusting component comprises a cylinder, a rack, an incomplete gear and other structures, the whole structure of the device is not compact enough, the straightened wires at two sides of the straightening component occupy a certain installation space, and the device adjusts the cutting machine with a certain volume to change the cutting angle, so that the installation space occupied by the whole device is further increased.

CN215657573U also discloses a device for cutting a wire of a transformer coil into a slope, but the device uses a cutter to reciprocate up and down once to complete one-time cutting, and when the cutter completes one-time cutting, the pull rod is required to slide reversely along the pull groove to enable the tooth block to be separated from the tooth slot, and then the rectangular guide rod is upwards slid along the through hole by using the elastic potential energy of the second spring, so that the cutter is separated from the cut end of the cut wire, the structure and the operation of the device are relatively complicated, and the cutting angle of the cutter is adjusted according to the cutting angle requirement.

CN212168838U discloses another device for cutting a slope opening of a transformer coil wire, the device moves a movable slide block and fixes the wire by adjusting a movable slide block bolt, but the lower surface of the movable slide block and the structure angles such as a bevel opening of the device are fixed, the device cannot flexibly adjust the angle according to actual needs, if the angle is required to be adjusted, the device can only detach and replace the structure, and meanwhile, the device completes the processing of the bevel opening by sawing the fixed wire back and forth through an operator using an electric hacksaw at a horizontal notch, and the operation is also more laborious.

Disclosure of utility model

The utility model aims to provide full-automatic groove cutting equipment for an electromagnetic flat wire, which is characterized in that a pressing plate assembly, a limiting plate assembly and an angle adjusting assembly which are arranged on a cutting support are matched and fixed to the electromagnetic flat wire to be processed, so that the structure is more compact, and meanwhile, the angle adjusting assembly can adjust the inclination angle of the end part of the electromagnetic flat wire according to actual needs, so that the equipment is more flexible to use.

The aim of the utility model is realized by the following technical scheme:

The utility model provides a full-automatic groove equipment that cuts of electromagnetism flat wire, includes cutting mechanism, and cutting mechanism includes cutting adjustment subassembly, cutting drive assembly and cutting support, cutting drive assembly passes through cutting adjustment subassembly drive removes, and cutting drive assembly front end is equipped with cutting tool, and cutting support locates cutting drive assembly takes one side of cutting tool, and be equipped with clamp plate subassembly, limiting plate subassembly and angle adjustment subassembly on the cutting support, cutting support includes spacing backup pad and is the mounting panel that compresses tightly of L type, just compress tightly the mounting panel and locate limiting support plate one end, clamp plate subassembly install in compress tightly on the mounting panel, and the clamp plate subassembly lower extreme is equipped with liftable clamp plate, and limiting plate subassembly is located in the limiting support plate, but limiting plate subassembly front end is equipped with horizontal migration's limiting plate, angle adjustment subassembly is located limiting support plate downside, but angle adjustment subassembly is equipped with angle regulation's lower support plate, the electromagnetism flat wire that waits to process inserts in the space between clamp plate, the limiting support plate and the limiting plate to be equipped with ejector block and electromagnetism flat wire side.

The cutting adjusting assembly comprises a cutting adjusting support, a cutting adjusting motor and a cutting adjusting screw rod, wherein the cutting adjusting motor is arranged on the cutting adjusting support, the cutting adjusting screw rod is driven to rotate by the cutting adjusting motor, a cutting mounting seat is arranged on the lower side of the cutting driving assembly, two sides of the cutting mounting seat are in sliding connection with the cutting adjusting support, and a cutting adjusting screw nut is arranged on the lower side of the cutting mounting seat and sleeved on the cutting adjusting screw rod.

The cutting adjusting support comprises a motor mounting plate and side plates, wherein the motor mounting plate is obliquely arranged in the middle, the side plates are arranged on the two sides of the motor mounting plate, sliding rails are arranged at the upper ends of the side plates, and sliding blocks are arranged on the lower sides of the cutting mounting seats and are matched with the corresponding sliding rails respectively.

The cutting drive assembly comprises a cutting drive motor, the cutting drive motor is mounted on the cutting mounting seat, and the cutting tool is arranged on an output shaft of the cutting drive motor.

The pressing plate assembly comprises a pressing knob, a knob shaft of the pressing knob is in threaded connection with a horizontal plate of the pressing mounting plate, and the pressing plate is arranged inside the pressing mounting plate and fixedly connected with the lower end of the knob shaft of the pressing knob.

The limiting plate assembly comprises a fixing seat, a driving screw and a driving screw, wherein the fixing seat is arranged on the limiting support plate, the driving screw is arranged in the fixing seat, the driving screw penetrates through the driving screw and then is connected with the limiting plate, and the rear end of the driving screw is connected with a driving and rotating adjusting device.

The angle adjusting assembly comprises a hinge seat and an adjusting cam, wherein the lower supporting plate is rotatably installed on the hinge seat through bearing support, a wheel shaft of the adjusting cam is installed on the lower supporting plate through threads, and the adjusting cam abuts against the lower side of the limiting supporting plate.

The cutting support comprises a bottom plate arranged at the lower end, the hinge seat is arranged on the bottom plate, a vertical plate is arranged between the bottom plate and the limiting support plate, and a guide opening for the lower support plate to pass through is arranged on the vertical plate.

Cutting mechanism locates on a removal box, and remove box upper end one side and be equipped with the hopper that is used for welded, be equipped with electromagnetic flat wire clamping device in the hopper, remove inside being equipped with electrical power generating system of box and the dust collecting system and the sweeps collecting system that link to each other through the pipeline, and the metal particle that produce in the cutting mechanism and the hopper all pass through dust collecting system sucks away, remove the box lower extreme and be equipped with the removal gyro wheel, remove the box upper end and be equipped with the guard shield, and the guard shield upside is equipped with the guard shield perspective apron, cutting mechanism locates in the guard shield.

The utility model has the advantages and positive effects that:

1. According to the utility model, the electromagnetic flat wire to be processed is fixed through the cooperation of the pressing plate assembly, the limiting plate assembly and the angle adjusting assembly which are arranged on the cutting support, wherein the special shape of the rectangular section of the electromagnetic flat wire is considered, the limiting plate in the limiting plate assembly is utilized to be matched with the vertical plate part of the pressing mounting plate on the cutting support to limit the horizontal displacement of the electromagnetic flat wire, and the pressing plate in the pressing plate assembly is utilized to be matched with the limiting support plate on the cutting support to limit the vertical displacement of the electromagnetic flat wire, so that the electromagnetic flat wire can be firmly fixed.

2. The utility model is more compact in structure by the pressing plate component, the limiting plate component and the angle adjusting component which are arranged on the cutting support and are matched and fixed with the electromagnetic flat wire to be processed, and the utility model can integrate the structures of the cutting mechanism, the dust collection system, the hopper for welding and the like on a movable box body uniformly, so that the welding operation can be directly carried out after the processing of the slope opening is finished, and the position of the movable box body can be flexibly moved according to actual needs.

Drawings

Figure 1 is a schematic diagram of the overall structure of the present utility model,

Figure 2 is a schematic view of the cutting mechanism of figure 1,

Figure 3 is an enlarged view at a in figure 1,

Figure 4 is an enlarged view at B in figure 2,

Fig. 5 is a schematic overall appearance of the present utility model.

Wherein 1 is a cutting adjusting assembly, 101 is a cutting adjusting motor, 102 is a cutting adjusting screw, 103 is a cutting adjusting support, 1031 is a motor mounting plate, 1032 is a side plate, 1033 is a sliding rail, 2 is a cutting driving assembly, 201 is a cutting driving motor, 202 is a cutting mounting seat, 203 is a linkage guide shaft, 204 is a cutting tool, 3 is a pressing plate assembly, 301 is a pressing plate, 302 is a pressing knob, 4 is a limiting plate assembly, 401 is a fixed seat, 402 is a driving screw, 403 is a limiting plate, 5 is an angle adjusting assembly, 501 is a lower support plate, 502 is a bearing, 503 is an adjusting cam, 6 is an electromagnetic flat wire, 7 is a cutting mechanism, 8 is a cutting support, 801 is a limiting support plate, 802 is a vertical plate, 803 is a guide opening, 803 is a guide side plate, 8031 is a first guide slot, 8032 is a second guide slot, 804 is a pressing mounting plate, 805 is a bottom plate, 9 is a shield perspective cover plate, 10 is a dust collection system, 11 is a waste collection system, 12 is a moving box, 1201 is a moving roller, 13 is a power system, 15 is a shield, 15 is a hopper, 16 is an electromagnetic flat wire clamping device.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

As shown in fig. 1-5, the utility model comprises a cutting mechanism 7, the cutting mechanism 7 comprises a cutting adjusting component 1, a cutting driving component 2 and a cutting support 8, wherein as shown in fig. 3, the front end of the cutting driving component 2 is provided with a cutting tool 204, the cutting driving component 2 is driven to move by the cutting adjusting component 1 to adjust the position of the cutting tool 204, the cutting support 8 is arranged on one side of the cutting driving component 2 with the cutting tool 204, and as shown in fig. 2-4, the cutting support 8 is provided with a pressing plate component 3, a limiting plate component 4 and an angle adjusting component 5, wherein the cutting support 8 comprises a limiting supporting plate 801 and an L-shaped pressing mounting plate 804, the pressing mounting plate 804 is arranged on one end of the limiting supporting plate 801 close to the cutting driving component 2, the pressing plate component 3 is arranged on the pressing mounting plate 804, and the lower end of the pressing plate component 3 is provided with a pressing plate 301 capable of being adjusted in a lifting manner, the limiting plate component 4 is arranged on the limiting support plate 801, the front end of the limiting plate component 4 is provided with a limiting plate 403 capable of being adjusted in a horizontal movement manner, the angle adjusting component 5 is arranged on the lower side of the limiting support plate 801, and the angle adjusting component 5 is provided with a lower support plate 501 capable of adjusting an angle, as shown in figures 3-4, when the electromagnetic flat wire processing machine is in operation, an electromagnetic flat wire 6 to be processed is inserted into a gap among the pressing plate 301, the pressing mounting plate 804, the limiting support plate 801 and the limiting plate 403, then the electromagnetic flat wire 6 is pressed by the pressing plate 301 to limit the displacement in the height direction, the limiting plate 403 is matched with the pressing mounting plate 804 to limit the displacement in the horizontal direction, one side of the limiting support plate 801 close to a processing station is provided with a notch, the lower support plate 501 is provided with a jacking block at one side close to the processing station, which passes through the notch and then is propped against the lower side of the end part of the electromagnetic flat wire 6, so that the height of the jacking block jacking the end part of the electromagnetic flat wire 6 can be adjusted by adjusting the angle of the lower support plate 501, namely the cutting and polishing angle of the end part of the electromagnetic flat wire 6 is changed. The pressing plate 301, the limiting plate 403, the limiting support plate 801 and the vertical plate of the pressing installation plate 804 may have structures such as protruding blocks for positioning the electromagnetic flat wire 6 to be processed according to requirements, so that moving interference and other situations of each plate can be avoided.

As shown in fig. 2-4, in this embodiment, the cutting adjustment assembly 1 includes a cutting adjustment support 103, a cutting adjustment motor 101 and a cutting adjustment screw 102, wherein the cutting adjustment motor 101 is disposed on the cutting adjustment support 103, the cutting adjustment screw 102 is driven to rotate by the cutting adjustment motor 101, a cutting installation seat 202 is disposed on the lower side of the cutting driving assembly 2, two sides of the cutting installation seat 202 are slidably connected with the cutting adjustment support 103, and a cutting adjustment screw nut is disposed on the lower side of the cutting installation seat 202 and sleeved on the cutting adjustment screw 102. When the utility model works, the cutting adjusting motor 101 drives the cutting adjusting screw rod 102 to rotate, and then drives the cutting adjusting screw nut to drive the cutting mounting seat 202 to move to an adjusting position.

As shown in fig. 2, in this embodiment, the cutting adjustment support 103 includes a motor mounting plate 1031 disposed obliquely in the middle and side plates 1032 on two sides, the cutting adjustment motor 101 is disposed on the motor mounting plate 1031, sliding rails 1033 are disposed at the upper ends of the side plates 1032, and sliding blocks disposed on the lower side of the cutting mounting seat 202 are respectively matched with the corresponding sliding rails 1033.

As shown in fig. 2, in this embodiment, the cutting driving assembly 2 further includes a cutting driving motor 201, the cutting driving motor 201 is mounted on the cutting mounting base 202, the cutting tool 204 is disposed on an output shaft of the cutting driving motor 201, in this embodiment, the cutting tool 204 is a milling cutter, and the cutting driving motor 201 drives the milling cutter to rotate to finish the processing of the slope surface of the electromagnetic flat wire, which is known in the art.

As shown in fig. 2 to 3, in this embodiment, a guiding side plate 803 is disposed on a side of the cutting support 8 near the cutting driving assembly 2, a first guiding slot 8031 and a second guiding slot 8032 are disposed on the guiding side plate 803, and a linkage guiding shaft 203 is disposed on the cutting mounting seat 202.

As shown in fig. 2 to 4, in this embodiment, the pressing plate assembly 3 includes a pressing knob 302, and a knob shaft of the pressing knob 302 is in threaded connection with a horizontal plate portion of the L-shaped pressing mounting plate 804, and the pressing plate 301 is disposed inside the pressing mounting plate 804 and fixedly connected with a lower end of the knob shaft of the pressing knob 302, and the pressing plate 301 can be driven to rise and fall by screwing the pressing knob 302.

As shown in fig. 2-4, in this embodiment, the limiting plate assembly 4 includes a fixing seat 401, a driving screw 402 and a driving screw, where the fixing seat 401 is disposed on the limiting support plate 801, the driving screw is disposed in the fixing seat 401, the driving screw 402 passes through the driving screw and then is connected with the limiting plate 403, the rear end of the driving screw 402 is connected with an adjusting device, the adjusting device drives the driving screw 402 to rotate, and then drives the limiting plate 403 to move back and forth, and the adjusting device can select devices such as a hand wheel (manual adjustment) or a micro motor (automatic adjustment) as required.

As shown in fig. 2-4, in this embodiment, the angle adjusting assembly 5 includes a hinge seat and an adjusting cam 503, where the lower support plate 501 is supported and installed on the hinge seat (omitted in fig. 3 and 4) by a bearing 503 to implement rotation, an axle thread of the adjusting cam 503 is installed on the lower support plate 501, and the adjusting cam 503 abuts against the lower side of the limiting support plate 801, and the adjusting cam 503 is screwed to drive the adjusting cam 503 to rotate and change a position abutting against the lower side of the limiting support plate 801, so as to change an angle of the lower support plate 501, and the position of the lower support plate 501 can be locked after adjustment due to the threaded connection between the axle of the adjusting cam 503 and the lower support plate 501.

As shown in fig. 4, in this embodiment, the cutting support 8 further includes a bottom plate 805 disposed at a lower end, and the hinge seat is disposed on the bottom plate 805, a vertical plate 802 is disposed between the bottom plate 805 and the limiting support plate 801 to enhance the supporting strength, and a guiding opening 8021 is disposed on the vertical plate 802 for the lower support plate 501 to pass through to limit the swinging displacement of the lower support plate 501.

As shown in fig. 1, the cutting mechanism 7 is disposed on a moving box 12, a hopper 15 is disposed on one side of the upper end of the moving box 12, and an electromagnetic flat wire clamping device 16 is disposed in the hopper 15, when the present utility model finishes machining the slope opening at the end of the electromagnetic flat wire 6, an operator can directly move the electromagnetic flat wire 6 into the hopper 15 and start welding operation after clamping and fixing the electromagnetic flat wire by the electromagnetic flat wire clamping device 16, in this embodiment, the electromagnetic flat wire clamping device 16 may adopt the same structure as the limiting plate assembly 4 to achieve clamping and fixing of the electromagnetic flat wire 6.

In this embodiment, as shown in fig. 1, a dust collection system 10 and a waste collection system 11 connected by a pipeline are further disposed in the moving box 12, the dust collection system 10 is provided with two dust collection pipelines, a dust collection port of one dust collection pipeline is disposed below a processing station located at one side of the cutting support 8, so that metal particles generated when the cutting driving assembly 2 drives the cutting tool 204 to process can be directly sucked away, a dust collection port of the other dust collection pipeline is disposed below the hopper 15, metal particles generated during welding fall into the hopper 15 for temporary storage, then are sucked away by the dust collection system 10 and are discharged into the waste collection system 11, in addition, a power supply system 13 for supplying power to each device of the utility model can be integrated in the moving box 12, and a moving roller 1201 is disposed at the lower end of the moving box 12 for convenient movement. The dust collection system 10, the debris collection system 11, and the power supply system 13 are all well known in the art and commercially available products.

As shown in fig. 1 and 5, in this embodiment, a shield 14 is disposed at the upper end of the moving box 12, a shield perspective cover plate 9 is disposed on the upper side of the shield 14, and the cutting mechanism 7 is disposed in the shield 14, so that an operator can observe the processing condition of the electromagnetic flat wire 6 in real time through the shield perspective cover plate 9, in addition, an opening is disposed on one side of the shield 14, which is close to the hopper 15, so that the operator can put the electromagnetic flat wire 6 into the cutting mechanism 7 for fixing, or take the processed electromagnetic flat wire 6 out of the cutting mechanism 7 and put the processed electromagnetic flat wire 6 into the hopper 15 for fixing and welding.

The working principle of the utility model is as follows:

The processing of the utility model comprises the following steps:

2-4, inserting an electromagnetic flat wire 6 to be processed into a gap surrounded by the pressing plate 301, the limiting plate 403, the limiting support plate 801 and the pressing mounting plate 804, wherein the pressing plate 301, the limiting plate 403, the limiting support plate 801 and the pressing mounting plate 804 can be provided with structures such as protruding blocks and the like according to requirements for positioning the electromagnetic flat wire 6 to be processed, so that the conditions of moving interference and the like of each plate can be avoided;

Step two, adjusting the position of the limiting plate 403 so that the limiting plate 403 and the vertical plate part of the compression mounting plate 804 cooperate to limit the horizontal displacement of the electromagnetic flat wire 6;

Step three, adjusting the height of the pressing plate 301 to enable the pressing plate 301 and the limit supporting plate 801 to cooperate to limit the vertical displacement of the electromagnetic flat wire 6;

Step four, adjusting the angle of the lower support plate 501 to change the height of a top block of the lower support plate 501, which is close to one side of a processing station, so as to change the inclination angle of the end part to be processed of the electromagnetic flat wire 6;

Step five, the cutting adjusting assembly 1 is started and drives the cutting driving assembly 2 to move so as to drive the cutting tool 204 to enter a processing station;

And step six, the cutting driving assembly 2 starts to drive the cutting tool 204 to rotate so as to finish the processing of the slope opening of the end part of the electromagnetic flat wire 6.

In addition, as shown in fig. 1, the metal particles generated in the processing process can be sucked away by the dust collection system 10, meanwhile, an operator can observe the processing condition in real time through the shield perspective cover plate 9, after the processing is completed, the operator can directly take out the electromagnetic flat wire 6 from the cutting mechanism 7, put the electromagnetic flat wire 6 into the hopper 15, clamp and fix the electromagnetic flat wire by the electromagnetic flat wire clamping device 16, and then perform welding operation.

Claims (9)

1. The full-automatic cutting groove equipment for the electromagnetic flat wire is characterized by comprising a cutting mechanism (7), wherein the cutting mechanism (7) comprises a cutting adjusting component (1), a cutting driving component (2) and a cutting support (8), the cutting driving component (2) is driven to move through the cutting adjusting component (1), a cutting cutter (204) is arranged at the front end of the cutting driving component (2), the cutting support (8) is arranged on one side of the cutting driving component (2) with the cutting cutter (204), a pressing plate component (3), a limiting plate component (4) and an angle adjusting component (5) are arranged on the cutting support (8), the cutting support (8) comprises a limiting support plate (801) and an L-shaped pressing mounting plate (804), the pressing mounting plate (804) is arranged at one end of the limiting support plate (801), the pressing plate component (3) is arranged on the pressing mounting plate (804), a liftable pressing plate (301) is arranged at the lower end of the pressing plate component (3), a limiting plate component (4) is arranged on the limiting support plate (801), the front end of the pressing plate component (403) is provided with a limiting plate (403) capable of moving horizontally, the limiting plate (403) is arranged on the lower side of the limiting plate (403), and angle adjusting part (5) are equipped with adjustable angle's lower bolster (501), and electromagnetic flat wire (6) of waiting to process insert clamp plate (301), compress tightly mounting panel (804), spacing backup pad (801) and spacing board (403) between the space to lower bolster (501) one side is equipped with kicking block and offsets with electromagnetic flat wire (6) tip downside.

2. The full-automatic chamfering equipment for the electromagnetic flat wire according to claim 1, wherein the cutting adjusting assembly (1) comprises a cutting adjusting support (103), a cutting adjusting motor (101) and a cutting adjusting screw rod (102), wherein the cutting adjusting motor (101) is arranged on the cutting adjusting support (103), the cutting adjusting screw rod (102) is driven to rotate through the cutting adjusting motor (101), a cutting mounting seat (202) is arranged on the lower side of the cutting driving assembly (2), two sides of the cutting mounting seat (202) are in sliding connection with the cutting adjusting support (103), and a cutting adjusting screw nut is arranged on the lower side of the cutting mounting seat (202) and sleeved on the cutting adjusting screw rod (102).

3. The full-automatic groove cutting equipment for the electromagnetic flat wire according to claim 2, wherein the cutting adjustment support (103) comprises a motor mounting plate (1031) and side plates (1032) arranged in a middle inclined mode, the cutting adjustment motor (101) is arranged on the motor mounting plate (1031), sliding rails (1033) are arranged at the upper ends of the side plates (1032), and sliding blocks are arranged on the lower side of the cutting installation seat (202) and are matched with the corresponding sliding rails (1033) respectively.

4. The full-automatic chamfering equipment for electromagnetic flat wire as set forth in claim 2, wherein the cutting drive assembly (2) includes a cutting drive motor (201), and the cutting drive motor (201) is mounted on the cutting mount (202), and the cutting tool (204) is provided on an output shaft of the cutting drive motor (201).

5. The full-automatic groove cutting equipment for electromagnetic flat wires according to claim 1, wherein the pressing plate assembly (3) comprises a pressing knob (302), a knob shaft of the pressing knob (302) is in threaded connection with a horizontal plate portion of the pressing mounting plate (804), and the pressing plate (301) is arranged inside the pressing mounting plate (804) and fixedly connected with the lower end of the knob shaft of the pressing knob (302).

6. The full-automatic groove cutting equipment for the electromagnetic flat wire according to claim 1, wherein the limiting plate assembly (4) comprises a fixed seat (401), a driving screw (402) and a driving screw, wherein the fixed seat (401) is arranged on the limiting support plate (801), the driving screw is arranged in the fixed seat (401), the driving screw (402) penetrates through the driving screw and then is connected with the limiting plate (403), and the rear end of the driving screw (402) is connected with an adjusting device for driving rotation.

7. The full-automatic chamfering equipment for electromagnetic flat wire according to claim 1, wherein the angle adjusting assembly (5) comprises a hinge seat and an adjusting cam (503), wherein the lower supporting plate (501) is rotatably supported on the hinge seat through a bearing (503), an axle of the adjusting cam (503) is threadedly mounted on the lower supporting plate (501), and the adjusting cam (503) abuts against the lower side of the limiting supporting plate (801).

8. The full-automatic groove cutting equipment for electromagnetic flat wires according to claim 7, wherein the cutting support (8) comprises a bottom plate (805) arranged at the lower end, the hinge seat is arranged on the bottom plate (805), a vertical plate (802) is arranged between the bottom plate (805) and the limiting support plate (801), and a guide opening (8021) for the lower support plate (501) to pass through is arranged on the vertical plate (802).

9. The full-automatic groove cutting equipment for the electromagnetic flat wire according to claim 1, wherein the cutting mechanism (7) is arranged on a movable box body (12), a hopper (15) for welding is arranged on one side of the upper end of the movable box body (12), an electromagnetic flat wire clamping device (16) is arranged in the hopper (15), a power supply system (13) and a dust collection system (10) and a waste collection system (11) which are connected through pipelines are arranged in the movable box body (12), metal particles generated in the cutting mechanism (7) and in the hopper (15) are sucked away through the dust collection system (10), a movable roller (1201) is arranged at the lower end of the movable box body (12), a shield (14) is arranged at the upper end of the movable box body (12), a shield perspective cover plate (9) is arranged on the upper side of the shield (14), and the cutting mechanism (7) is arranged in the shield (14).