CN117548596A - Inductance line tail excision equipment - Google Patents

Abstract

The invention relates to the technical field of inductance production, in particular to an inductance wire tail cutting device. The invention provides an inductance wire tail cutting device which can cut out inductance leads after straightening and improve cutting accuracy. An inductance wire tail cutting device comprises a box body and a placing seat fixedly connected to the box body, and an electric sliding rail is arranged on the outer side of the box body. According to the invention, the inductor is sleeved on the hollow cylinder, the inductor lead is moved into the groove of the movable plate, then the movable frame is driven by the starting cylinder to move backwards, the turntable drives the press roller to move inwards to contact with the inductor lead through the arc-shaped hole, then the press roller moves backwards to straighten the inductor lead, and the cutter is used for cutting the straightened inductor lead, so that the cutting accuracy is improved.

Description

Inductance line tail excision equipment

Technical Field

The invention relates to the technical field of inductance production, in particular to an inductance wire tail cutting device.

Background

In the production process of the inductor, copper wires are required to be wound on specified parts to form the inductor, and two or four leads are formed on the wound copper wires, so that the tail of each lead is required to be cut off in order to enable the length of each lead of the inductor to reach the required length.

The Chinese patent with publication number of CN219484047U discloses a magnetic ring inductor lead wire trimming tool, which comprises a fixed base, wherein a lifting device is erected at one end of the fixed base, an actuating shaft of the lifting device is vertically downwards arranged, and an upper cutting knife is arranged at the tail end of the actuating shaft; a sliding rail is arranged on the fixed base in parallel, one end of the sliding rail extends to the lower part of the lifting device, and a lower cutting knife corresponding to the upper cutting knife is fixed at the end part of the sliding rail; the sliding is provided with a slider on the slide rail, installs the arc base at the top of slider, and the arc base sets up along unable adjustment base's length direction, and above-mentioned patent is although can excision the line tail of inductance lead wire, but can not carry out excision after straightening out the inductance lead wire, and crooked lead wire leads to the lead wire length inconsistent after excision easily, influences excision accuracy.

The invention aims to solve the problems in the above patent, and therefore provides an inductance wire tail cutting device capable of cutting out inductance leads after straightening and improving cutting accuracy.

Disclosure of Invention

In order to overcome the defects that although the tail of the inductance lead can be cut, the inductance lead cannot be cut after being straightened, the length of the bent lead is inconsistent after cutting, and the accuracy of cutting is affected, the invention provides inductance lead cutting equipment capable of cutting the inductance lead after being straightened and improving the accuracy of cutting.

The invention is realized by the following technical approaches:

the utility model provides an inductance wire tail excision equipment, including box and the seat of placing of rigid coupling on the box, place seat top rigid coupling and have the hollow cylinder, the electronic slide rail of mobile machine is installed to the box outside, sliding connection has the excision machine on the electronic slide rail of mobile machine, the excision machine comprises movable frame, lead screw and cutter, wherein the movable frame rigid coupling is on the moving part of electronic slide rail, cutter sliding connection is inboard in the movable frame, lead screw rotary type cross-under is between the both sides around the movable frame, lead screw and cutter lower part threaded connection, the position rigid coupling that the box outside is close to the electronic slide rail of mobile machine has the fixed frame, fixed frame upper portion sliding connection has the fly leaf, there is vertical groove still on the fly leaf, the rigid coupling has the cylinder in the middle of the fixed frame top, still include the compression roller, buffer spring, the carousel, drive assembly and be used for supporting spacing bearing assembly to the inductance lead wire, the compression roller rotates to be connected in the vertical inslot of fly leaf, the buffer spring is connected with between the inboard of compression roller, the rotation of the even interval in the fly leaf, the carousel is last symmetry open with the arc hole with compression roller bottom sliding connection, drive assembly is used for controlling the carousel, can drive the lead wire drive the inside and move to the inductance assembly through the arc through the rotation, and lead wire drive the direct motion to lead wire and lead wire to move.

Further stated, the driving component transmission component comprises a gear fixedly connected to the circle center of the turntable, the movable frame is fixedly connected to the end part of the telescopic rod of the air cylinder, u-shaped racks meshed with the gear are symmetrically and fixedly connected to the bottom of the movable frame to drive the gear to rotate, a limiting rod in sliding connection with the u-shaped racks is fixedly connected to the position of the movable plate, close to the gear, of the u-shaped racks, and the diameter of the middle part of the limiting rod is smaller than that of two sides, so that the movable stroke of the u-shaped racks is limited and limited.

Further stated, the bearing assembly comprises guide rods fixedly connected to one side of the movable plate at uniform intervals, the guide rods correspond to grooves of the movable plate, bearing plates for supporting and limiting the inductance leads are sleeved on the guide rods in a sliding mode, inner ends of the corresponding bearing plates are in contact with each other, and a reset spring is connected between the inner sides of the bearing plates and the end parts of the corresponding guide rods.

Further stated, the inner end of the bearing plate is an inclined plane, and the inclined plane of the bearing plate is an inclined structure with high outside and low inside and is used for sliding the inductance lead wire.

Further, the induction cooker comprises a clamping assembly arranged between the placement seat and the hollow cylinder, the clamping assembly comprises guide rods symmetrically fixedly connected to the upper parts of the inner sides of the hollow cylinders on the left side and the right side of the placement seat, clamping plates are symmetrically sleeved on the guide rods in a sliding mode, the clamping plates penetrate through the hollow cylinders to place the placement seat so as to clamp and fix the induction cooker, an air cushion is fixedly connected to the outer side face of each clamping plate, and a triggering assembly is arranged between the placement seat and the movable frame 4 cutting machine so as to drive the clamping plates to move.

Further stated, the trigger assembly comprises a movable rod which is symmetrically and slidably connected to the top of the placement seat, the movable rod is located inside the hollow cylinder, the upper portion of the movable rod is symmetrically and rotatably connected with a connecting rod, the outer end of the connecting rod is rotatably connected with the inner side surface of the clamping plate, the connecting rod drives the clamping plate to radially move when being lifted and rotated along with the movable rod, a connecting spring is connected between the movable rod and the inner side of the placement seat of the box body, and a trigger frame for driving the movable rod to move upwards is fixedly connected on the outer rear side surface of the movable frame of the cutting machine.

Further stated, the lower part of the front side of the movable rod is rotatably connected with a convex rod, one side of the right side of the trigger frame, which is close to the movable rod, is an inclined plane, and the inclined plane of the trigger frame is contacted with the convex rod of the movable rod.

Further, the air charging assembly comprises an air charging assembly, the air charging assembly comprises an annular cylinder body symmetrically fixedly connected to the inner side of a hollow cylinder of the placement seat, the annular cylinder body is located below the clamping plate, an exhaust pipe is symmetrically communicated to the annular cylinder body, the tail end of the exhaust pipe is fixedly connected and communicated with the air cushion so as to exhaust air into the air cushion, the air cushion is expanded and is clamped in contact with the inner wall of the inductor, a piston plate is slidably connected to the inner side of the annular cylinder body, a sliding rod is symmetrically and slidably connected to the bottom of the annular cylinder body, the sliding rod penetrates through the top of the box body in a sliding mode, and the end part of the sliding rod is fixedly connected with the movable rod.

Further described, the inductor also comprises positioning rods fixedly connected to the placing seat at uniform intervals so as to position and guide the leads of the inductor.

Further, the inductor also comprises a rubber sleeve fixedly sleeved on the press roller so as to improve the friction force with the inductor lead.

The invention has the remarkable advantages that:

1. the inductor is sleeved on the hollow cylinder, the inductor leads are moved into the groove of the movable plate, then the movable frame is driven by the starting cylinder to move backwards, the turntable drives the press roller to move inwards to be in contact with the inductor leads through the arc-shaped holes, then the press roller moves backwards to straighten the inductor leads, and the cutter cuts the straightened inductor leads, so that the cutting accuracy is improved.

2. Under the effect of splint and air cushion, every time the cutter begins to remove, splint and air cushion can press from both sides the inductance tightly fixedly, then the cutter excision to the inductance lead wire again, can prevent that the excision in-process inductance from appearing rotating the phenomenon and influencing the excision of lead wire on placing the seat to improve the effect of inductance lead wire excision.

3. Under the effect of annular cylinder and piston board, every time the cutter begins to remove, the piston board can push the air in the annular cylinder into the air cushion for air cushion inflation and inductance inner wall in close contact, there is the gap to influence clamping effect between can preventing air cushion and the inductance, thereby improves the clamping effect to the inductance.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a cutter and a screw rod according to the present invention.

Fig. 3 is a schematic perspective view of the cylinder and the movable plate according to the present invention.

Fig. 4 is a schematic perspective view of a press roller and a movable frame according to the present invention.

Fig. 5 is an enlarged schematic view of the structure of fig. 4 at a.

Fig. 6 is a schematic perspective view of a bearing plate according to the present invention.

Fig. 7 is a schematic perspective view of a clamping assembly according to the present invention.

Fig. 8 is a schematic perspective view of a movable frame and a trigger frame according to the present invention.

Fig. 9 is a schematic perspective view of an inflatable module according to the present invention.

Fig. 10 is a schematic perspective view of a positioning rod and a rubber sleeve according to the present invention.

Wherein: 1-box body, 2-placing seat, 21-hollow cylinder, 3-electric slide rail, 4-movable frame, 41-lead screw, 42-cutter, 5-fixed frame, 6-cylinder, 7-movable plate, 8-press roll, 9-buffer spring, 10-turntable, 11-arc hole, 12-movable frame, 121-u-shaped rack, 122-limit rod, 123-gear, 13-guide rod, 131-bearing plate, 132-reset spring, 14-guide rod, 141-clamping plate, 142-air cushion, 143-movable rod, 144-connecting rod, 145-connecting spring, 146-trigger frame, 15-annular cylinder, 151-exhaust pipe, 152-slide bar, 153-piston plate, 16-positioning rod, 17-rubber sleeve.

Detailed Description

It should be noted that in the various embodiments described, identical components are provided with identical reference numerals or identical component names, wherein the disclosure contained throughout the description can be transferred in a meaning to identical components having identical reference numerals or identical component names. The position specification, upper, lower, lateral, etc. selected in the description are also referred to directly in the description and the figures shown and are transferred in the sense of a new position when the position is changed.

Examples: the utility model provides an inductance line tail excision equipment, as shown in fig. 1-6, including box 1 and rigid coupling in the placing seat 2 of the outer top front side of box 1, place seat 2 top centre and right side all rigid coupling have hollow cylinder 21, install electronic slide rail 3 in the middle of the outer top of box 1, sliding connection has the excision machine on the electronic slide rail 3, the excision machine comprises movable frame 4, lead screw 41 and cutter 42, wherein movable frame 4 rigid coupling is on the moving part of electronic slide rail 3, cutter 42 sliding connection is inboard in movable frame 4, lead screw 41 rotation formula cross connection is between the front and back both sides of movable frame 4, lead screw 41 and cutter 42 lower part threaded connection, the outer top right side rigid coupling of box 1 has fixed frame 5, fixed frame 5 upper portion sliding connection has fly leaf 7, it has two sets of vertical slots to open on the fly leaf 7, every group vertical slot's quantity is two, the rigid coupling has cylinder 6 in the middle of fixed frame 5 top, still including compression roller 8, buffer spring 9, carousel 10, drive assembly and be used for carrying out the bearing assembly that supports spacing to inductance, compression roller 8 rotation is connected in the moving part of fly leaf 8, and cutter 42 sliding connection is inboard in the inside of moving part 4, lead screw 10 is located the arc-shaped hole of each side 10 with the inside of roll 8, and the radial pad 10 is located down in the radial pad 10, and the radial pad 10 is connected with the radial pad 11, and the radial pad 10 is located down in the radial pad 11, the radial pad 11 is connected with the radial pad 11, the radial pad is located down the radial pad 11, the radial pad is the radial pad, and the radial pad is the radial pad.

Referring to fig. 5 and 6, the transmission assembly includes a movable frame 12, a u-shaped rack 121, a limiting rod 122 and a gear 123, wherein the gear 123 is fixedly connected to the center of the top of the four turntables 10, the movable frame 12 is fixedly connected to the end of the telescopic rod of the cylinder 6, the u-shaped rack 121 is symmetrically and fixedly connected to the bottom of the movable frame 12, the u-shaped rack 121 is meshed with the gear 123, when the u-shaped rack 121 moves, the u-shaped rack 121 can drive the gear 123 to rotate, the position of the movable plate 7 close to the gear 123 is fixedly connected with the limiting rod 122, the diameter of the middle part of the limiting rod 122 is smaller than the diameter of two sides, the middle part of the limiting rod 122 is slidably connected with the u-shaped rack 121, and when the u-shaped rack 121 moves to contact with the maximum stroke inside the limiting rod 122, the limiting rod 122 can limit the u-shaped rack 121.

Referring to fig. 6, the bearing assembly includes guide rods 13, a bearing plate 131 and a return spring 132, four groups of guide rods 13 are fixedly connected to the rear side of the movable plate 7 at uniform intervals, the number of each group of guide rods 13 is four, the four groups of guide rods 13 respectively correspond to four grooves of the movable plate 7, the bearing plate 131 is slidably sleeved on each guide rod 13, when the inductance leads are in contact with the bearing plate 131, the bearing plate 131 can support and limit the inductance leads, the inner ends of the corresponding bearing plates 131 are in contact with each other, the inner ends of the bearing plates 131 are inclined planes, the inclined planes of the bearing plates 131 are inclined structures with high outside and low inside, and the return spring 132 is connected between the inner sides of the bearing plates 131 and the outer ends of the corresponding guide rods 13.

Firstly, two inductors are sleeved on a placing seat 2, the inductors are sleeved on a hollow cylinder 21, the inductor leads are placed in a groove of a movable plate 7, the inductor leads are contacted with a bearing plate 131, as the inner end of the bearing plate 131 is an inclined plane, the upper bearing plate 131 is driven to move outwards by the two leads below the inductors, an upper return spring 132 is compressed, the upper return spring 132 continues to move downwards, the upper bearing plate 131 moves inwards to reset the upper return spring, the upper bearing plate 131 and the lower bearing plate 131 support and limit the inductor leads, the telescopic rod of a cylinder 6 is restarted to shorten and drive a movable frame 12 to move backwards, the movable frame 12 moves backwards to drive a u-shaped rack 121 to move backwards, the u-shaped rack 121 slides on a limiting rod 122, and the u-shaped rack 121 moves backwards to drive a gear 123 to rotate, the rotation of the gear 123 drives the turntable 10 to rotate, the turntable 10 drives the press roller 8 to move inwards to contact with the inductance lead through the arc-shaped hole 11, the buffer spring 9 is compressed, when the u-shaped rack 121 moves backwards to the maximum stroke inside the limiting rod 122, the u-shaped rack 121 stops driving the gear 123 to rotate, the turntable 10 stops driving the press roller 8 to move inwards through the arc-shaped hole 11, as the u-shaped rack 121 continues to move backwards, the u-shaped rack 121 drives the movable plate 7 to move backwards through the limiting rod 122, the movable plate 7 moves backwards to drive the press roller 8 to move backwards, the press roller 8 moves backwards to drive the bearing plate 131 to move backwards until the inductance lead is supported and limited, the press roller 8 moves backwards to straighten the inductance lead, after the inductance lead is straightened out, the cylinder 6 is closed, the movable plate 7 stops driving the press roller 8 to move backwards, the screw 41 is twisted to drive the cutter 42 to move forwards and backwards until the lead needs to be cut, then, the electric sliding rail 3 is started to drive the movable frame 4 to move rightwards, the movable frame 4 moves rightwards to drive the cutter 42 to move rightwards, the cutter 42 moves rightwards to contact with the straightened inductance leads, the cutter 42 cuts off the straightened inductance leads, the inductance leads reach the required length, after the two inductance leads are cut off, the electric sliding rail 3 is started to drive the movable frame 4 to move leftwards to reset, the cutter 42 is also driven to move leftwards to reset, the telescopic rod of the air cylinder 6 is started to extend to drive the movable frame 12 to move forwards, the movable frame 12 moves forwards to drive the u-shaped rack 121 to move forwards, the u-shaped rack 121 moves forwards to drive the gear 123 to rotate reversely to reset, the turntable 10 is driven to move outwards to reset through the arc-shaped hole 11, the buffer spring 9 also stretches to reset, the lead waste is loosened by the reset of the press roll 8, the lead waste drops to be separated from contact with the supporting plate 131, and when the u-shaped rack 121 moves forwards to the maximum stroke in the limiting rod 122, the limiting rod 122 drives the movable plate 7 to move forwards to reset, the press roll 8 to move forwards to reset, and the air cylinder 6 is closed. Therefore, the inductance lead wire can be straightened and then cut, and the cutting accuracy is improved.

Referring to fig. 7 and 8, the device further comprises a clamping assembly installed between the placement seat 2 and the hollow cylinder 21, the clamping assembly comprises a guide rod 14, clamping plates 141, an air cushion 142 and a triggering assembly, the upper parts of the inner sides of the hollow cylinders 21 on the left side and the right side are fixedly connected with the guide rod 14, the clamping plates 141 are symmetrically sleeved on the guide rods 14 on the left side and the right side in a sliding mode, the clamping plates 141 penetrate through the hollow cylinders 21 in a sliding mode, when the clamping plates 141 move outwards to be in contact with the inner sides of the inductors, the clamping plates 141 can clamp and fix the inductors, the air cushion 142 is fixedly connected to the outer sides of the clamping plates 141 on the front side and the rear side, the triggering assembly is arranged between the placement seat 2 and the movable frame 4, and when the triggering assembly operates, the triggering assembly can drive the clamping plates 141 to move outwards; the trigger assembly comprises a movable rod 143, a connecting rod 144, a connecting spring 145 and a trigger frame 146, wherein the top of the placement seat 2 is symmetrically and slidably connected with the movable rod 143 in a penetrating manner, the movable rods 143 on the left side and the right side are respectively positioned on the inner sides of the hollow cylinders 21 on the left side and the right side, the upper parts of the movable rods 143 on the left side and the right side are all rotationally connected with the connecting rod 144 in a front-back manner, the outer ends of the connecting rods 144 on the front side and the back side are respectively rotationally connected with the upper parts of the inner sides of the clamping plates 141 on the front side and the back side, the driving of the clamping plates 141 to move outwards can be realized, the connecting spring 145 is connected between the lower parts of the movable rods 143 on the left side and the right side and the inner top of the box 1, the lower parts of the front sides of the movable rods 143 are rotationally connected with convex rods, the outer front sides of the movable frames 4 are fixedly connected with the trigger frame 146, the right side of the trigger frame 146 is an inclined surface, and the inclined surface of the trigger frame 146 is contacted with the convex rods of the movable rods 143, when the trigger frame 146 moves rightwards and contacts with the movable rods 143, the trigger frame 146 can realize that the movable rods 143 are driven to move upwards.

Referring to fig. 9, the air charging assembly further includes an annular cylinder 15, an exhaust pipe 151, sliding rods 152 and a piston plate 153, wherein the annular cylinder 15 is fixedly connected to the lower portions of the inner sides of the left and right hollow cylinders 21, the annular cylinder 15 is located below the clamping plates 141, the top portions of the left and right annular cylinders 15 are symmetrically communicated with the exhaust pipe 151, the tail ends of the four exhaust pipes 151 are fixedly connected and communicated with the bottoms of the four air cushions 142 respectively, the exhaust pipe 151 can discharge air into the air cushions 142, so that the air cushions 142 expand and contact with the inner walls of the inductors to be clamped, the piston plate 153 is slidably connected to the inner sides of the annular cylinder 15, the sliding rods 152 are symmetrically connected to the bottoms of the left and right annular cylinders 15 in a penetrating manner, and the sliding rods 152 slidably penetrate through the top portion of the box 1, and the bottom ends of the sliding rods 152 are fixedly connected with the lower portions of the movable rods 143.

When the movable frame 4 drives the cutter 42 to move rightwards, the movable frame 4 also drives the trigger frame 146 to move rightwards, the trigger frame 146 moves rightwards to enable the inclined surface to be in contact with the convex rod of the movable rod 143, the trigger frame 146 drives the movable rod 143 to move upwards, the connecting spring 145 is compressed, the movable rod 143 moves upwards to drive the inner end of the connecting rod 144 to move upwards due to the effect of the convex rod, the inner end of the connecting rod 144 moves upwards to enable the outer end to swing outwards, the outer end of the connecting rod 144 swings outwards to drive the clamping plate 141 to move outwards, the clamping plate 141 moves outwards to drive the air cushion 142 to move outwards, the air cushion 142 moves outwards to be in contact with the inner wall of the inductor, the clamping plate 141 clamps the inductor through the air cushion 142, at the moment, the horizontal surface of the trigger frame 146 is also in contact with the convex rod of the movable rod 143, the trigger frame 146 stops driving the movable rod 143 to move upwards, and the clamping plate 141 stops driving the air cushion 142 to move outwards, and then the cutter 42 cuts off the inductor. When the movable frame 4 moves leftwards to reset, the movable frame 4 moves leftwards to drive the trigger frame 146 to move leftwards to reset, the trigger frame 146 resets to stop limiting the movable rod 143, and the movable rod 143 moves downwards to reset through the connecting rod 144 to drive the clamping plate 141 to move inwards to reset, and the clamping plate 141 moves inwards to reset to drive the air cushion 142 to move inwards to reset, so that the inductor is loosened. Thus, the inductor can be prevented from rotating on the hollow cylinder 21 in the cutting process to affect the cutting of the lead, so that the effect of cutting the inductor lead is improved.

When the movable rod 143 moves upwards, the movable rod 143 moves upwards to drive the sliding rod 152 to move upwards, the sliding rod 152 moves upwards to drive the piston plate 153 to move upwards, the piston plate 153 moves upwards to push air in the annular cylinder 15 into the exhaust pipe 151, the air in the exhaust pipe 151 is discharged into the air cushion 142, along with the discharge of the air, the air cushion 142 is continuously expanded to be in close contact with the inductor, the clamping plate 141 clamps and fixes the inductor through the expanded air cushion 142, and when the movable rod 143 stops moving upwards, the movable rod 143 stops driving the piston plate 153 to move upwards through the sliding rod 152, and the air stops continuously discharging into the air cushion 142. When the movable rod 143 moves downwards to reset, the movable rod 143 drives the piston plate 153 to move downwards to reset through the sliding rod 152, the piston plate 153 resets and pumps the air in the air cushion 142 back into the annular cylinder 15 through the exhaust pipe 151, and the air cushion 142 continuously contracts and resets along with the air being pumped away. In this way, the gap between the air cushion 142 and the inductor can be prevented from influencing the clamping effect, so that the clamping effect on the inductor is improved.

Referring to fig. 10, the inductor positioning device further comprises positioning rods 16, four groups of positioning rods 16 are fixedly connected to the rear side of the top of the placement seat 2 at uniform intervals, the number of each group of positioning rods 16 is two, and when the inductor is placed on the placement seat 2, the positioning rods 16 can position and guide the lead wires of the inductor.

Referring to fig. 10, the induction coil induction device further comprises a rubber sleeve 17, wherein the outer sides of the eight press rolls 8 are fixedly sleeved with the rubber sleeve 17 along the circumferential direction, and when the rubber sleeve 17 is in contact with the induction leads, the rubber sleeve 17 can improve the friction force with the induction leads.

When the inductor is sleeved on the hollow cylinder 21, the lead wires of the inductor are in contact with the positioning rod 16, and the positioning rod 16 positions and guides the lead wires of the inductor. Thus, the inductance leads can be accurately placed in the grooves of the movable plate 7.

When the press roller 8 moves inwards, the press roller 8 drives the rubber sleeve 17 to move inwards, the rubber sleeve 17 is in contact with the inductance lead, and then when the press roller 8 moves backwards, the press roller 8 straightens the inductance lead through the rubber sleeve 17, and friction force between the press roller 8 and the inductance lead can be increased due to the action of the rubber sleeve 17. When the press roller 8 moves forwards for resetting, the press roller 8 drives the rubber sleeve 17 to move forwards for resetting. Therefore, the press roller 8 can be more tightly contacted with the inductance leads to straighten, and the straightening effect is improved.

Finally, it is necessary to state that: the foregoing is provided to assist in understanding the technical solutions of the present invention, and is not to be construed as limiting the scope of protection of the present invention; insubstantial modifications and variations from the above teachings are within the scope of the invention as claimed.

Claims (10)

1. The utility model provides an inductance wire tail excision equipment, including box (1) and rigid coupling place seat (2) on box (1), place seat (2) top rigid coupling has hollow cylinder (21), electronic slide rail (3) are installed in box (1) outside, sliding connection has the excision machine on electronic slide rail (3), the excision machine comprises movable frame (4), lead screw (41) and cutter (42), wherein movable frame (4) rigid coupling is on the moving part of electronic slide rail (3), cutter (42) sliding connection is inboard in movable frame (4), lead screw (41) rotary type cross-under is between the front and back both sides of movable frame (4), lead screw (41) and cutter (42) lower part threaded connection, the position rigid coupling that is close to electronic slide rail (3) in box (1) outside has fixed frame (5), fixed frame (5) upper portion sliding connection has fly leaf (7), still have vertical groove on fly leaf (7), the intermediate fixedly connected with cylinder (6) in the top of fixed frame (5), characterized by still including compression roller (8), buffer spring (9), inductance element and support (10) are used for carrying out the rotation spacing in the compression roller (8) of supporting the vertical groove (8), the novel inductor is characterized in that buffer springs (9) are symmetrically connected between the inner side of the pressing roller (8) and the inner side of the movable plate (7), a turntable (10) is rotationally connected at equal intervals in the inner side of the movable plate (7), arc-shaped holes (11) which are in sliding connection with the bottom end of the pressing roller (8) are symmetrically formed in the turntable (10), the transmission assembly is used for controlling the turntable (10) to rotate, the turntable (10) can push the pressing roller (8) to move inwards to be in contact with leads of the inductor through the arc-shaped holes (11), and then the transmission assembly continuously operates to drive the pressing roller (8) to move so that the pressing roller (8) straightens the leads of the inductor.

2. The inductance wire tail cutting equipment according to claim 1, wherein the transmission assembly comprises a gear (123) fixedly connected to the center of the turntable (10), the movable frame (12) is fixedly connected to the end of the telescopic rod of the cylinder (6), u-shaped racks (121) meshed with the gear (123) are symmetrically fixedly connected to the bottom of the movable frame (12) so as to drive the gear (123) to rotate, a limiting rod (122) in sliding connection with the u-shaped racks (121) is fixedly connected to the position, close to the gear (123), of the movable plate (7), and the diameter of the middle part of the limiting rod (122) is smaller than the diameters of two sides so as to limit the movable stroke of the u-shaped racks (121).

3. An inductor tail cutting apparatus according to claim 2, characterized in that the supporting member comprises guide rods (13) fixedly connected to one side of the movable plate (7) at uniform intervals, the guide rods (13) correspond to the grooves of the movable plate (7), supporting plates (131) for supporting and limiting the inductor leads are slidably sleeved on the guide rods (13), inner ends of the corresponding supporting plates (131) are in contact with each other, and a return spring (132) is connected between the inner sides of the supporting plates (131) and the ends of the corresponding guide rods (13).

4. An inductor tail cutting apparatus according to claim 3, wherein the inner end of the supporting plate (131) is inclined, and the inclined surface of the supporting plate (131) is an inclined structure with high outside and low inside for sliding the inductor lead.

5. The inductance wire tail cutting device according to claim 4, further comprising a clamping assembly installed between the placement base (2) and the hollow cylinder (21), wherein the clamping assembly comprises a guide rod (14) fixedly connected to the upper portions of the inner sides of the hollow cylinders (21) on the left side and the right side, clamping plates (141) are symmetrically sleeved on the guide rod (14) in a sliding mode, the clamping plates (141) penetrate through the hollow cylinders (21) in a sliding mode to clamp and fix the inductance, air cushions (142) are fixedly connected to the outer side faces of the clamping plates (141), and a triggering assembly is arranged between the placement base (2) and the movable frame 4 to drive the clamping plates (141) to move.

6. The inductance wire tail cutting equipment according to claim 5, wherein the trigger assembly comprises a movable rod (143) symmetrically and slidingly connected to the top of the placement seat (2), the movable rod (143) is located inside the hollow cylinder (21), a connecting rod (144) is symmetrically and rotationally connected to the upper portion of the movable rod (143), the outer end of the connecting rod (144) is rotationally connected with the inner side surface of the clamping plate (141), the connecting rod (144) drives the clamping plate (141) to move along the radial direction when being lifted and rotated along with the movable rod (143), a connecting spring (145) is connected between the movable rod (143) and the inner side of the placement seat (2), and a trigger frame (146) for driving the movable rod (143) to move upwards is fixedly connected to the outer rear side surface of the movable frame (4).

7. An inductance wire tail cutting apparatus according to claim 6, wherein the lower portion of the front side of the movable rod (143) is rotatably connected with a protruding rod, the side of the trigger frame (146) near the movable rod (143) is a slope, and the slope of the trigger frame (146) is in contact with the protruding rod of the movable rod (143).

8. The inductance wire tail cutting equipment according to claim 7, further comprising an inflation assembly, wherein the inflation assembly comprises an annular cylinder body (15) symmetrically fixedly connected to the inner side of the hollow cylinder (21), the annular cylinder body (15) is located below the clamping plate (141), an exhaust pipe (151) is symmetrically communicated to the annular cylinder body (15), the tail end of the exhaust pipe (151) is fixedly connected and communicated with the air cushion (142) so as to exhaust air into the air cushion (142), the air cushion (142) is expanded to be in contact with the inner wall of the inductance to be clamped, a piston plate (153) is slidably connected to the inner side of the annular cylinder body (15), a sliding rod (152) is symmetrically slidably connected to the bottom of the annular cylinder body (15), the sliding rod (152) slidably penetrates through the top of the box body (1), and the end part of the sliding rod (152) is fixedly connected with the movable rod (143).

9. An inductor tail cutting apparatus according to claim 1, further comprising positioning bars (16) fixedly attached to the placement base (2) at regular intervals for positioning and guiding the leads of the inductor.

10. An inductor tail cutting apparatus according to claim 1, further comprising a rubber sleeve (17) fixedly fitted over the press roller (8) to increase friction with the inductor wire.