CN217867368U - Device for manufacturing induction heating wire - Google Patents

Abstract

A device for manufacturing an induction heating wire comprises a rope winding mechanism, a wire winding mechanism and a wire heating mechanism, wherein the wire winding mechanism is used for winding an insulating tape; in addition, because the rotation of the turntable on the winding mechanism and the rotation of the rotating shaft of the winding mechanism are both constant, the insulating tape can be wound in the process of uniform movement of the wire, and the insulating tape wound on the wire is very uniform, so that the use quality of the induction heating wire is ensured.

Description

Device for manufacturing induction heating wire

Technical Field

The utility model belongs to the technical field of the induction heating wire preparation technique and specifically relates to a device is used in induction heating wire preparation.

Background

As is known, an induction heating coil is a heating coil which can generate an induction heating magnetic field when being energized, so as to heat an object in the magnetic field, and is generally used for heating metals; in addition, since the induction heating coil is formed by winding an induction heating wire, and the material of the wire is copper, in order to prevent interference between the wires, an insulating tape is generally wound on the surface of the induction heating wire;

the conventional method is that an induction heating wire is wound into a coil pattern, and then an insulating tape is wound on the coil, and the coil pattern is special, so that only manual winding can be performed in the mode, but the insulating tape cannot be uniformly wound in the manual winding, even the winding leakage condition occurs, so that in the induction heating wire, the thicker part of the insulating tape is more seriously heated, and the loss of the induction heating wire is increased due to the winding leakage part; in addition, the small space between the wires in the coil also causes that a worker needs to repeatedly pull the insulating tape when the insulating tape is manually wound, thereby causing the large workload of the worker;

therefore, in summary, there is a need in the market for a device that can ensure that the insulating tape on the induction heating wire is uniformly wound and reduce the workload of workers.

Disclosure of Invention

In order to overcome the deficiencies in the background art, the utility model discloses a device is used in response heating wire preparation.

In order to achieve the purpose, the utility model adopts the following technical proposal:

an induction heating wire manufacturing device comprises a pay-off mechanism for clamping a wire coil, a rope winding mechanism for winding an insulating tape on the surface of a wire, and a winding mechanism for winding the wire wound with the insulating tape into a coil; the rope winding mechanism comprises a shell, a wire running pipe, a rotary disc and a rope winding motor, wherein the wire running pipe for a wire to pass through is arranged in the shell, two ends of the wire running pipe respectively extend out of the head end and the tail end of the shell correspondingly, a driven wheel and a wire coil are sleeved at the head end of the wire running pipe, the driven wheel is fixedly connected with one side disc surface of the wire coil correspondingly, and an upright post for placing an insulating tape roll and a counterweight box symmetrical to the upright post are arranged on the other side disc surface of the wire coil; the side of the shell is provided with a rope winding motor, and the driving end of the rope winding motor is provided with a driving wheel in transmission connection with a driven wheel.

Preferably, the wire coil is in a track shape, and the upright post and the counterweight box are respectively positioned at two ends of the wire coil.

Preferably, the upper portion and the lower part of casing tail end face all are equipped with a guide block, and two guide blocks symmetry set up, and the opposite face of two guide blocks is equipped with many guide rollers respectively.

Preferably, the pay-off mechanism comprises a chassis, a stabilizing frame, a rotary column and a wire coil support; a stabilizing frame is fixedly arranged on the disc surface on one side of the chassis, and an extension rod for placing a balancing weight is arranged on the side surface of the stabilizing frame; the center of the chassis is provided with a mounting hole, a rotary column is arranged in the mounting hole in a matching way, the tail end of the rotary column is positioned on the side of the stabilizing frame of the chassis, the diameter of the tail end of the rotary column is larger than the aperture of the mounting hole, the head end surface of the rotary column is provided with a plurality of placing grooves, and the placing grooves are uniformly arranged in a radial manner by taking the center of the head end surface of the rotary column as the center of a circle; a plurality of screw holes are uniformly formed in the bottom of the placing groove and are formed along the length direction of the placing groove;

the drum props to establish to a plurality ofly, and a plurality of drums prop and are connected with a plurality of standing groove one-to-one, and the drum props and comprises connecting rod and arc internal stay, and the tail end of connecting rod is located the standing groove, and the connecting rod passes through the bolt and is connected with corresponding the screw, and the head end of connecting rod corresponds with the concave cambered surface of arc internal stay and is connected, and the convex cambered surface of arc internal stay corresponds with the hole face of drum and contradicts.

Preferably, a plurality of installation bosss are established to the opposite side quotation edge ring on chassis, and this side is equipped with the back lid, and the tip that a side capping and the arc internal stay of back lid correspond contradicts, and this side capping is equipped with a plurality of plug bushes, and a plurality of plug bushes correspond the one-to-one cooperation with a plurality of installation bosss and peg graft.

Preferably, the cover surface of the other side of the rear cover is provided with an auxiliary stabilizing frame, and the bottom of the auxiliary stabilizing frame is provided with a guide sleeve correspondingly matched with the extension rod.

Preferably, the mounting boss is arc-shaped, and the inner arc surface of the mounting boss correspondingly faces to the circle center of the chassis.

Preferably, the winding mechanism comprises a tail plate, a base, a rotating shaft, a supporting column, a moving seat, a wire clamping block, a bottom table and a pressing bolt; the plate surface of one side of the tail plate is correspondingly connected with the top surface of the base through a support column, the plate surface of the tail plate is correspondingly vertical to the top surface of the base, and a rotating shaft is arranged in the center of the tail plate; the head end of the rotating shaft is correspondingly connected with a rotating motor in a driving mode, the rotating motor is installed on the moving seat, the bottom of the moving seat is correspondingly connected with the top surface of the base in a sliding mode, the top surface of the base is provided with a telescopic push rod used for driving the moving seat to slide, and the sliding direction of the moving seat is the same as the axial direction of the rotating shaft; the tail end of the rotating shaft is correspondingly connected with the inner cylinder wall of the winding drum through a plurality of support rods, and the outer cylinder wall of the winding drum is provided with a through hole for a wire end to pass through; the internal face of reel is equipped with the card line piece, and the card line piece is the U-shaped structure, and the notch of card line piece is corresponding with the through-hole, is equipped with base frame and clamp bolt in the card line piece, and clamp bolt can correspond with the mesa of base frame and contradict.

Preferably, the winding drum is in a circular truncated cone shape, and one end of the winding drum close to the tail plate is a large-diameter end.

Preferably, the face of tailboard is equipped with and corresponds endocentric guide board with the reel, and the guide board is located the reel top, and is used for the wire to pass between guide board and the reel.

Due to the adoption of the technical scheme, the utility model discloses following beneficial effect has:

the utility model discloses a device for manufacturing induction heating wire, which straightens the wire of a wire coil on a paying-off mechanism through a rope winding mechanism, then winds an insulating tape, and winds the wire again through the winding mechanism after the winding is finished, so that the insulating tape is automatically wound on the induction heating wire, and the labor capacity of workers is greatly reduced;

in addition, because the rotation of the upper rotary disc of the winding mechanism and the rotation of the rotary shaft of the winding mechanism are both constant speed, the winding of the insulating tape can be completed in the process of uniform speed movement of the wire, the insulating tape wound on the wire is very uniform, and the use quality of the induction heating wire is ensured.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a pay-off mechanism;

FIG. 3 is a schematic structural view of the rear cover;

FIG. 4 is a schematic view of the roping arrangement;

FIG. 5 is a schematic structural diagram of a guide block;

fig. 6 is a schematic structural view of the winding mechanism.

In the figure: 1. a pay-off mechanism; 101. a chassis; 102. a stabilizing frame; 103. an extension pole; 104. turning the column; 1041. a placement groove; 1042. a screw hole; 105. wire coil bracing; 1051. a connecting rod; 1052. an arc inner support; 1053. a bolt; 106. mounting a boss; 107. a rear cover; 108. a plug bush; 109. a secondary stabilizing frame; 110. a guide sleeve; 2. a rope winding mechanism; 201. a housing; 202. a wiring pipe; 203. a turntable; 204. a column; 205. a weight box; 206. a rope winding motor; 207. a driving wheel; 208. a guide block; 209. a guide roller; 210. a baffle plate; 211. a belt; 3. a winding mechanism; 301. a tail plate; 302. a support pillar; 303. a base; 304. a rotating shaft; 305. a rotating electric machine; 306. a movable seat; 307. a telescopic push rod; 30. a support bar; 309. a reel; 3091. a through hole; 310. a wire clamping block; 311. a base table; 3111. a groove; 312. a hold-down bolt; 313. a guide plate.

Detailed Description

In the following description, the technical solutions of the present invention will be described with reference to the drawings in the embodiments of the present invention, it should be understood that, if there are the indicated directions or positional relationships, such as the terms "upper", "lower", "front", "rear", "left", "right", etc., it only corresponds to the drawings of the present invention, and in order to facilitate the description of the present invention, it is not necessary to indicate or imply that the indicated device or element must have a specific direction:

the device for manufacturing the induction heating conductor described with reference to fig. 1-6 comprises a paying-off mechanism 1 for clamping a conductor disc, a rope winding mechanism 2 for winding an insulating tape on the surface of a conductor, and a winding mechanism 3 for winding the conductor wound with the insulating tape into a disc;

the rope winding mechanism 2 comprises a shell 201, a wire routing pipe 202, a rotary disc 203 and a rope winding motor 206, wherein the wire routing pipe 202 used for a wire to pass through is arranged in the shell 201, two ends of the wire routing pipe 202 correspondingly extend out of the head end and the tail end of the shell 201 respectively, the wire enters the wire routing pipe 202 from a wire unwinding mechanism behind the rope winding mechanism and then enters a winding mechanism in front of the rope winding mechanism after penetrating out of the head end of the wire routing pipe 202, the wire passes through the wire routing pipe 202 at a constant speed under the driving of the winding mechanism, a driven wheel and the rotary disc 203 are sleeved at the head end of the wire routing pipe 202, the driven wheel corresponds to and is fixedly connected with one side disc surface of the rotary disc 203, the driven wheel can drive the rotary disc 203 to rotate together when rotating, the rotary disc 203 rotates by taking the wire routing pipe 202 as a circle center, a stand column 204 used for placing an insulating tape roll is arranged on the other side disc surface of the rotary disc 203, and a counterweight box 205 symmetrical to the stand column 204, the rotation of the rotary disc 203 can drive the insulating tape roll and the counterweight box 205 to move, the insulating tape roll and the counterweight box 205 are fixed on the wire by taking the wire routing pipe 202 as a center, one end of the insulating tape, then the wire, the insulating tape roll can be wound on the insulating tape while the rotating disc 203, and the insulating tape can be wound on the insulating tape can be wound by the rotating disc 203;

in addition, the end of the column head of the upright column 204 is provided with a baffle 210, the insulating tape roll can be prevented from being separated from the upright column 204 through the baffle 210, the baffle 210 and the upright column 204 are in threaded connection, when the insulating tape roll needs to be mounted and dismounted, the baffle 210 can be dismounted, the turntable 203 is in a runway shape according to needs, the upright column 204 and the counterweight box 205 are respectively positioned at the two ends of the turntable 203, and the turntable 203 in the shape is small in size, so that the turntable 203 can be driven to rotate more easily; the side surface of the shell 201 is provided with a rope winding motor 206, the driving end of the rope winding motor 206 is provided with a driving wheel 207 in transmission connection with a driven wheel, the driving wheel 207 is driven to rotate by the rope winding motor 206, and then the driven wheel and the rotary table 203 are driven to rotate by taking the wire distribution pipe 202 as a circle center, so that the upright column 204 on the rotary table 203 performs circular motion by taking the wire distribution pipe 202 as a center, in addition, the driving wheel 207 is in transmission connection with the driven wheel through a belt 211, the transmission mode is simple in structure, and the whole use cost of the rope winding mechanism can be reduced; according to the requirement, the upper part and the lower part of the tail end face of the shell 201 are respectively provided with a guide block 208, the two guide blocks 208 are symmetrically arranged, the opposite surfaces of the two guide blocks 208 are respectively provided with a plurality of guide rollers 209, and the guide rollers 209 on the two guide blocks 208 can clamp the wires, so that the wires can accurately enter the wire running pipe 202, and the insulating tapes can be uniformly wound;

the paying-off mechanism 1 comprises a chassis 101, a stabilizing frame 102, a rotary column 104 and a wire coil support 105; a stabilizing frame 102 is fixedly arranged on the disc surface on one side of the chassis 101, the chassis 101 can be erected through the stabilizing frame 102, the chassis 101 is at a proper working height, an extension rod 103 for placing a balancing weight is arranged on the side surface of the stabilizing frame 102, the balancing weight is arranged on the extension rod 103, the stability of the stabilizing frame 102 can be improved, and therefore a wire coil clamped on the chassis 101 can also stably act; the center of the chassis 101 is provided with a mounting hole, a rotary column 104 is arranged in the mounting hole in a matching manner, the rotary column 104 can rotate in the mounting hole, the tail end of the rotary column 104 is positioned on the side of the stabilizing frame 102, the diameter of the tail end of the rotary column 104 is larger than the diameter of the mounting hole, the rotary column 104 can be limited through the tail end to prevent the rotary column 104 from being separated from the mounting hole, the head end surface of the rotary column 104 is provided with a plurality of placing grooves 1041, the placing grooves 1041 are uniformly arranged in a radial manner by taking the center of the head end surface of the rotary column 104 as a circle center, the placing grooves 1041 are open grooves, namely, the notches of the placing grooves 1041 are correspondingly communicated with the column body surface of the rotary column 104; a plurality of screw holes 1042 are uniformly arranged at the bottom of the placing groove 1041, and the screw holes 1042 are arranged along the length direction of the placing groove 1041;

the number of the wire coil supports 105 is multiple, the wire coil supports 105 are correspondingly connected with the placement grooves 1041 one by one, particularly, the number of the placement grooves 1041 and the number of the wire coil supports 105 are three, the position of the wire coil on the wire coil releasing mechanism can be fixed by the multiple wire coil supports 105 abutting against the inner holes of the wire coil, and the wires can not swing randomly in the wire releasing process, so that the wires can be kept stable when being fed towards the wire drawing mechanism, the breaking loss of the wires is reduced, the wire coil supports 105 are composed of connecting rods 1051 and arc inner supports 1052, the tail ends of the connecting rods 1051 are positioned in the placement grooves 1041, and the connecting rods 1051 are connected with the corresponding screw holes 1042 through bolts 1053, when the connecting rods 1051 of the wire coil braces 105 are correspondingly connected with the screw holes 1042 close to the centers of the head end surfaces of the rotary columns 104 in the respective placing grooves 1041 through the bolts 1053, the circular diameter formed by the arc inner braces 1052 of the wire coil braces 105 is smaller than the diameter of the inner holes of the wire coils, at this time, the wire coils can be easily prevented from being placed on the wire coil braces 105, then the positions of the connecting rods 1051 on each wire coil brace 105 are sequentially adjusted, namely, the corresponding bolts 1053 are unscrewed, the connecting rods 1051 are moved to proper positions outside the rotary columns 104, and then the bolts 1053 are tightened, so that the positions of the wire coils can be fixed, but the rotation of the wire coils is not influenced, the head ends of the connecting rods 1051 are correspondingly connected with the concave arc surfaces of the arc inner braces 1052, and the convex arc surfaces of the arc inner braces 1052 are correspondingly abutted against the inner holes of the wire coils;

in addition, a plurality of mounting bosses 106 are annularly arranged on the edge of the other side of the chassis 101, a rear cover 107 is arranged on the side face, one side cover face of the rear cover 107 is correspondingly abutted against the end of the arc-shaped inner support 1052, a plurality of plug sleeves 108 are arranged on the side cover face, the plug sleeves 108 are correspondingly matched and plugged with the mounting bosses 106 one by one, and the rear cover 107 and the chassis 101 can be fixedly connected through the matching between the plug sleeves 108 and the mounting bosses 106;

the winding mechanism 3 comprises a tail plate 301, a base 303, a rotating shaft 304, a supporting column 302, a moving seat 306, a wire clamping block 310, a bottom table 311 and a pressing bolt 312; the plate surface of one side of the tail plate 301 is correspondingly connected with the top surface of the base 303 through the supporting column 302, the plate surface of the tail plate 301 is correspondingly vertical to the top surface of the base 303, namely, the tail plate 301 is in a vertical state, and the center of the tail plate 301 is provided with a rotating shaft 304; the head end of the rotating shaft 304 is correspondingly connected with the rotating motor 305 in a driving mode, the rotating motor 305 is installed on the moving seat 306, the rotating motor 305 can drive the rotating shaft 304 to rotate, the bottom of the moving seat 306 is correspondingly connected with the top surface of the base 303 in a sliding mode, the top surface of the base 303 is provided with a telescopic push rod 307 for driving the moving seat 306 to slide, the sliding direction of the moving seat 306 is the same as the axial direction of the rotating shaft 304, the moving seat 306 is driven to move along the axial direction of the rotating shaft 304 through extension and contraction of the telescopic push rod 307, meanwhile, the rotating motor 305 and the rotating shaft 304 are driven to move, in addition, when the rotating motor 305 drives the winding drum 309 to rotate, and meanwhile, the telescopic push rod 307 drives the rotating shaft 304 to move in the direction far away from the tail plate 301, automatic winding of the conducting wire can be achieved;

the tail end of the rotating shaft 304 is correspondingly connected with the inner cylinder wall of the winding drum 309 through a plurality of support rods 30, the outer wall surface of the winding drum 309 is used for bearing a lead, particularly, the winding drum 309 is in a circular table shape, one end, close to the tail plate 301, of the winding drum 309 is a large-diameter end, when the lead is wound, the small-diameter end of the winding drum 309 can be convenient for taking out a lead roll, and the outer cylinder wall of the winding drum 309 is provided with a through hole 3091 for a lead end to pass through; the inner wall surface of the winding drum 309 is provided with a wire clamping block 310, the wire clamping block 310 is of a U-shaped structure, a notch of the wire clamping block 310 corresponds to the through hole 3091, a bottom table 311 and a compression bolt 312 are arranged in the wire clamping block 310, the compression bolt 312 can be correspondingly abutted to a table top of the bottom table 311, a wire end of a lead enters the winding drum 309 from the through hole 3091, then the wire end is tightly pressed on the bottom table 311 through the compression bolt 312 to complete the position fixing of the wire end of the lead, then the winding drum 309 is driven to rotate by the rotary motor 305, meanwhile, the telescopic push rod 307 drives the rotating shaft 304 to move in the direction away from the tail plate 301 to realize the automatic winding of the lead, manpower and material resources can be effectively saved, the rotary motor 305 and the telescopic push rod 307 can be matched to drive the winding drum 309 to rotate and move at a constant speed, so that an insulating tape can be uniformly wound on the lead is ensured, in addition, after the lead is wound, the winding of the insulating tape is completed, the rotary motor 305 stops rotating, cutting pliers are stretched into the wire clamping block 310 to cut the wire end 3111 of the wound, and the lead can be taken out as required, the groove 3111 of the compression bolt 312 is arranged corresponding to the groove of the compression table top of the lead, and the groove 312 is further to improve the effect of the fixing of the lead, and the groove of the lead is improved; in addition, the face of tailboard 301 is equipped with and corresponds endocentric guide plate 313 with reel 309, and guide plate 313 is located reel 309 top, and is used for the wire to pass between guide plate 313 and the reel 309, can let the wire buckle more easily at the rolling in-process through guide plate 313 to the wire coil that can make the rolling become a roll is the cylinder, and then makes things convenient for the preparation coiling of follow-up induction heating wire, and is special, guide plate 313's length is 1/4 circle, and the left and right both ends of reel 309 promptly can not be covered by guide plate 313, thereby the wire coil that the convenient rolling was accomplished is taken out.

The details of the present invention not described in detail are prior art, and it will be apparent to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof; the present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a device is used in preparation of induction heating wire which characterized by: the device comprises a pay-off mechanism (1) for clamping a wire coil, a rope winding mechanism (2) for winding an insulating tape on the surface of a wire, and a winding mechanism (3) for winding the wire wound with the insulating tape into a coil;

the rope winding mechanism (2) comprises a shell (201), a routing pipe (202), a rotary disc (203) and a rope winding motor (206), wherein the routing pipe (202) used for a wire to pass through is arranged in the shell (201), two ends of the routing pipe (202) respectively and correspondingly extend out of the head end and the tail end of the shell (201), a driven wheel and the rotary disc (203) are sleeved at the head end of the routing pipe (202), the driven wheel is fixedly connected with the disc surface on one side of the rotary disc (203) correspondingly, an upright post (204) used for placing an insulating tape roll and a counterweight box (205) which is symmetrical to the upright post (204) in position are arranged on the disc surface on the other side of the rotary disc (203); the side of the shell (201) is provided with a rope winding motor (206), and the driving end of the rope winding motor (206) is provided with a driving wheel (207) in transmission connection with a driven wheel.

2. The induction heating wire fabrication apparatus of claim 1, wherein: the turntable (203) is in a runway shape, and the upright column (204) and the counterweight box (205) are respectively positioned at two ends of the turntable (203).

3. The induction heating wire-making apparatus as set forth in claim 1, wherein: casing (201) tail end face's upper portion and lower part all are equipped with a guide block (208), and two guide block (208) symmetry set up, and the opposite face of two guide block (208) is equipped with many guide rollers (209) respectively.

4. The induction heating wire-making apparatus as set forth in claim 1, wherein: the paying-off mechanism (1) comprises a chassis (101), a stabilizing frame (102), a rotary column (104) and a wire coil support (105); a stabilizing frame (102) is fixedly arranged on one side plate surface of the chassis (101), and an extension rod (103) for placing a balancing weight is arranged on the side surface of the stabilizing frame (102); the center of the chassis (101) is provided with a mounting hole, a rotary column (104) is arranged in the mounting hole in a matching manner, the tail end of the rotary column (104) is positioned on the side of a stabilizing frame (102) of the chassis (101), the diameter of the tail end of the rotary column (104) is larger than the aperture of the mounting hole, the head end face of the rotary column (104) is provided with a plurality of placing grooves (1041), and the plurality of placing grooves (1041) are uniformly arranged in a radial manner by taking the center of the head end face of the rotary column (104) as the center of a circle; a plurality of screw holes (1042) are uniformly formed in the bottom of the placing groove (1041), and the screw holes (1042) are formed in the length direction of the placing groove (1041);

the wire coil support (105) are arranged in a plurality of manners, the wire coil support (105) are connected with the placing grooves (1041) in a one-to-one correspondence manner, the wire coil support (105) is composed of a connecting rod (1051) and an arc-shaped inner support (1052), the tail end of the connecting rod (1051) is located in the placing groove (1041), the connecting rod (1051) is connected with a corresponding screw hole (1042) through a bolt (1053), the head end of the connecting rod (1051) is correspondingly connected with the concave arc surface of the arc-shaped inner support (1052), and the convex arc surface of the arc-shaped inner support (1052) corresponds to the inner hole surface of the wire coil to be abutted.

5. The induction heating wire-making apparatus as set forth in claim 4, wherein: a plurality of installation boss (106) are established to the opposite side quotation edge ring of chassis (101), and this side is equipped with back lid (107), and the tip that props (1052) in a side capping and the arc of back lid (107) corresponds contradicts, and this side capping is equipped with a plurality of plug bushes (108), and a plurality of plug bushes (108) correspond the cooperation one by one with a plurality of installation boss (106) and peg graft.

6. The induction heating wire-making apparatus as set forth in claim 5, wherein: and a secondary stabilizing frame (109) is arranged on the other side cover surface of the rear cover (107), and a guide sleeve (110) correspondingly matched with the extension rod (103) is arranged at the bottom of the secondary stabilizing frame (109).

7. The induction heating wire-making apparatus as set forth in claim 5, wherein: the mounting boss (106) is arc-shaped, and the inner arc surface of the mounting boss (106) correspondingly faces to the circle center of the chassis (101).

8. The induction heating wire-making apparatus as set forth in claim 1, wherein: the winding mechanism (3) comprises a tail plate (301), a base (303), a rotating shaft (304), a supporting column (302), a moving seat (306), a wire clamping block (310), a bottom table (311) and a pressing bolt (312); the plate surface on one side of the tail plate (301) is correspondingly connected with the top surface of the base (303) through the supporting column (302), the plate surface of the tail plate (301) is correspondingly vertical to the top surface of the base (303), and a rotating shaft (304) is arranged in the center of the tail plate (301); the head end of the rotating shaft (304) is correspondingly connected with a rotating motor (305) in a driving mode, the rotating motor (305) is installed on a moving seat (306), the bottom of the moving seat (306) is correspondingly connected with the top surface of a base (303) in a sliding mode, the top surface of the base (303) is provided with a telescopic push rod (307) used for driving the moving seat (306) to slide, and the sliding direction of the moving seat (306) is the same as the axial direction of the rotating shaft (304); the tail end of the rotating shaft (304) is correspondingly connected with the inner cylinder wall of the winding drum (309) through a plurality of support rods (30), and the outer cylinder wall of the winding drum (309) is provided with a through hole (3091) for a wire head of a wire to pass through; the inner wall face of reel (309) is equipped with card line piece (310), and card line piece (310) are the U-shaped structure, and the notch of card line piece (310) corresponds with through-hole (3091), are equipped with sill (311) and housing bolt (312) in card line piece (310), and housing bolt (312) can correspond with the mesa of sill (311) and contradict.

9. The induction heating wire-making apparatus as set forth in claim 8, wherein: the winding drum (309) is in a circular truncated cone shape, and one end, close to the tail plate (301), of the winding drum (309) is a large-diameter end.

10. An induction heating wire fabrication apparatus as recited in claim 8, further comprising: the face of tailboard (301) is equipped with and corresponds endocentric guide plate (313) with reel (309), and guide plate (313) are located reel (309) top, and are used for the wire to pass between guide plate (313) and reel (309).

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