CN110479915B

CN110479915B - Automatic production equipment for automatic wire embedding of heating plate

Info

Publication number: CN110479915B
Application number: CN201910824536.8A
Authority: CN
Inventors: 杜亦兵; 吴利娟; 章丹; 吴利明; 韦朝辉
Original assignee: Shaoxing Yong Hao Precise Electric Heating Device Co ltd
Current assignee: Shaoxing Yong Hao Precise Electric Heating Device Co ltd
Priority date: 2019-09-02
Filing date: 2019-09-02
Publication date: 2020-07-24
Anticipated expiration: 2039-09-02
Also published as: CN110479915A

Abstract

The invention discloses automatic production equipment for automatically burying wires in a heating plate, which comprises a body, a heating plate and a wire pressing device, wherein the body comprises a shell, a base arranged at the lower part of the shell and capable of being in contact with the surface of the heating plate, and a holding part arranged on the shell; the guiding device is arranged on the body and used for preliminarily arranging and guiding the electric heating wires; the wire embedding device is arranged on the body and is used for automatically embedding the electric heating wires which are arranged and guided by the guiding device into the embedding groove on the heating plate; the body positioning device is used for controlling the body to move along the caulking groove all the time in the wire embedding operation process; and the turning device is used for controlling the body to rotate around the fulcrum by taking the arc central point as the fulcrum when the heating wire is required to be embedded into the arc caulking groove. The invention can realize automatic filament burying operation of the heating filament, has low working difficulty, can ensure that the depth state embedded on the heating plate is kept consistent, and has better quality of the heating plate.

Description

Automatic production equipment for automatic wire embedding of heating plate

Technical Field

The invention belongs to the technical field of automatic production of heating plates, and particularly relates to automatic production equipment for automatic wire embedding of a heating plate.

Background

The existing heating plate is usually made by embedding heating pipes or heating wires on a metal plate. The operation of inserting the heating wire into the insertion groove on the heating plate is a wire embedding operation. Because the diameter of heater strip is less, and is whole thinner, and intensity is also lower, so traditional buried silk operation is for adopting manual mode to utilize tools such as pole of supporting to the heater strip to the caulking groove in little, and this kind of operating mode not only work efficiency is low, and is difficult to keep complete even to the extrusion force degree of heater strip, appears the heater strip card easily and goes into the condition that the caulking groove degree of depth differs, influences the quality of hot plate.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the automatic production equipment for the automatic wire embedding of the heating plate, which has high working efficiency and ensures the good quality of the processed heating plate.

In order to achieve the purpose, the invention adopts the following technical scheme: a automated production equipment for automatic silk that buries of hot plate includes

The body comprises a shell, a base arranged at the lower part of the shell and capable of contacting with the surface of the heating plate, and a holding part arranged on the shell;

the guiding device is arranged on the body and used for preliminarily arranging and guiding the electric heating wires;

the wire embedding device is arranged on the body and is used for automatically embedding the electric heating wires which are arranged and guided by the guiding device into the embedding groove on the heating plate;

the body positioning device is used for controlling the body to move along the caulking groove all the time in the wire embedding operation process;

the turning device is used for controlling the body to rotate around the fulcrum by taking an arc-shaped central point as the fulcrum when the heating wire is required to be embedded into the arc-shaped caulking groove, and the embedded wire device automatically embeds the heating wire into the arc-shaped caulking groove in the rotating process of the body around the fulcrum.

The automatic wire embedding device can realize automatic wire embedding operation of the heating wire, and compared with manual wire embedding, the working efficiency is improved by times, so that the working time is greatly reduced; the wire embedding operation can be realized by pushing the body, so that the structure is simple, the operation is simple and convenient, and the working difficulty is low; because the automatic operation is adopted, the extrusion force of the heating wire on each position is kept consistent in the wire burying process, so that the depth state embedded on the heating plate is kept consistent, and the quality of the heating plate is better; in the moving process of the body, the positioning device always positions the position of the body, and the body is guaranteed to move along the distribution state of the caulking grooves all the time, so that the heating wires are guaranteed not to deviate when being embedded into the caulking grooves, and the processing quality is further improved; moreover, the turning device can meet the automatic wire embedding operation at the turning position, so that the automation performance is further improved, and the working efficiency is improved.

The shell comprises a left shell, a right shell and a plurality of connecting blocks for connecting the left shell and the right shell, and a space is arranged between the left shell and the right shell.

The guide device comprises a guide hole arranged on at least one connecting block, a rotating wheel arranged on at least one connecting block, a bracket used for connecting the rotating wheel and the connecting block, a guide notch arranged on the base and corresponding to the distance, and a through hole arranged on the base and communicated with the guide notch; under this kind of structure, guarantee that the heater strip can be located the top position of caulking groove all the time, further promote the quality of burying the silk, and the cooperation between a plurality of guiding holes still can effectively avoid the heater strip to appear piling up, winding phenomenon, the production of guaranteeing to bury the silk operation goes on.

The wire embedding device comprises a first rotary table and a second rotary table which are rotatably arranged in the interval, a plurality of wire embedding pieces which are formed between the first rotary table and the second rotary table and can move up and down, a wire embedding head arranged at the lower part of the wire embedding pieces, an elastic piece acting on the wire embedding pieces, a limiting convex part arranged on the side wall of the wire embedding pieces, guide grooves respectively arranged on the first rotary table and the second rotary table and used for inserting the limiting convex part, and a driving part used for driving the plurality of wire embedding pieces to move downwards in sequence in the process that the body moves on the heating plate; preferably, the rubber layers are bonded on the outer surfaces of the first rotating disc and the second rotating disc, so that the friction between the outer surfaces of the first rotating disc and the heating plate is increased, and the first rotating disc and the second rotating disc can rotate relative to the heating plate in the process that the body moves relative to the heating plate; the filament embedding head applies pressure to the heating filament by downward movement of the filament embedding piece, so that the heating filament is pressed into the caulking groove, the filament embedding head is small in structure and small in contact area with the heating filament, large pressure can be applied to the local part of the heating filament, the heating filament is guaranteed to be completely pressed into the caulking groove, and the filament embedding effect is good; the elastic piece can realize the quick reset of the thread embedding head after the pressure on the thread embedding head disappears, and the influence on the next thread embedding operation is avoided; the continuous downward moving of the wire embedding piece ensures the continuity of the wire embedding operation and the stability of the automatic wire embedding.

The heater comprises a heater body, a heater wire embedded piece, a driving part, a heating plate and a heating plate, wherein the heater wire embedded piece is arranged in the heater body, the driving part comprises a rotatable pressing roller piece arranged on the heater wire embedded piece, two L-type connecting arms connected with the pressing roller piece, two positioning arms capable of moving relative to the two L-type connecting arms respectively, a U-shaped support frame connected with the two positioning arms, a moving rod capable of moving up and down and penetrating through two ends of the U-shaped support frame, a first cavity arranged in the positioning arms and a second cavity arranged in the U-shaped support frame, the first cavity is communicated with the second cavity, the upper end of the moving rod is in sealing fit with the inner wall of the second cavity, a L-type connecting arm is in sealing fit with the inner wall of the first cavity, the lower end of the moving rod at least partially extends to the lower surface of the base, when the base is arranged on the heating plate, the moving rod moves upwards to extrude gas in the second cavity and the first cavity, the L-type connecting arm drives the pressing roller to move downwards to drive the heater wire embedded piece to move downwards, and the heater wire embedded piece can keep the embedded piece in a butted state as long as the moving rod is extruded, the heater wire is not easily inserted in the embedded groove, the heater wire embedded piece, the heater wire embedded groove, the heater wire embedded piece is not easy to be embedded in the embedded groove, and the heating plate, the heater wire.

The filament embedding heads are arranged in a trapezoidal structure, and the trapezoidal shapes of two adjacent filament embedding heads are arranged in a reverse direction; in the structure, 3 adjacent filament embedding heads are mutually restrained, specifically, when a first filament embedding head in the 3 adjacent filament embedding heads moves downwards to extrude the heating wire and then a second filament embedding head moves downwards, the side wall of the second filament embedding head also pushes against the side wall of the first filament embedding head to limit the trend of the first filament embedding head moving upwards, so that the first filament embedding head pressurizes the heating wire again, the heating wire is pressurized twice by the same filament embedding head, and the processing quality is improved; simultaneously the third buries the silk head and also can receive the conflict of the first lateral wall of second buries the silk head, and wet third buries the silk head and also has a trend of downstream at the second in-process that buries the silk head downstream to prestretch a segment distance with the heater strip, and then avoid the heater strip because the tension that stretches tight and the condition of being pressed apart or other troubles appear, reduce the fault rate in the course of working, promote machining effect and efficiency.

The left and right housings are respectively provided with a sliding chute, the side wall of the sliding chute is provided with two groups of limiting components which are distributed up and down, and each limiting component comprises two convex parts formed by inward extension of the left and right side walls of the sliding chute and a clamping groove arranged on the convex part; the movable rod is provided with two clamping hooks, each clamping hook is provided with a connecting end connected with the movable rod and a swinging end capable of swinging relative to the connecting end, and the swinging end is provided with a limiting part capable of being clamped into the clamping groove; a guide post is arranged on the side wall of the movable rod corresponding to the upper part of the clamping hook, and a through groove matched with the guide post is arranged on the sliding groove; under this kind of structure, when need not to use this equipment, the cooperation of spacing portion of accessible and draw-in groove is spacing with the carriage release lever in the position that the gag lever post bottom is higher than the base lower surface, guarantees that equipment can stably place when not using.

The body positioning device comprises two positioning pieces which are arranged in the guide notch and can be matched with the caulking groove on the heating plate and a clamping and positioning component which is arranged on the base and can be matched with the edge of the heating plate; the positioning piece comprises a top plate fixedly connected with the base, a sleeve arranged on the top plate, an inserted link telescopically penetrating in the sleeve, a spring arranged in the sleeve and connected with the inserted link, and a ball rotatably arranged at the lower part of the inserted link, wherein the lower part of the inserted link can be inserted into an embedded groove on the heating plate; through the cooperation of inserted bar and caulking groove, guarantee that the device removes along the caulking groove all the time, guarantee that the heater strip inlays to establish and can not appear squinting, promote the processingquality of hot plate.

The clamping and positioning component comprises two telescopic rods connected with the base, a joint connected with the two telescopic rods, a supporting plate connected to the joint in a turnover mode, an open slot arranged on the supporting plate, a plurality of first ratchets arranged on the inner wall of the open slot, a movable plate capable of moving up and down and arranged in the open slot, and second ratchets arranged on the side wall of the movable plate and matched with the first ratchets; the length of the second ratchet is 1/2 of the length of the movable plate, the front end and the rear end of the movable plate are respectively provided with a flange, and one side of the resisting plate close to the base is provided with a strip-shaped groove for embedding the flange; under the structure, the edge of the heating plate can be clamped by the matching of the abutting plate and the movable plate, and the telescopic rod can only stretch out and draw back in the length direction of the heating plate, so that the secondary limit of the moving position of the device can be realized, the situation that the inserted link is separated from the inserted link due to the over-shallow caulking groove is avoided, and the device can be ensured to move along the caulking groove all the time; the movable plate can move upwards relative to the open slot due to the matching of the first ratchet and the second ratchet, and the ratchet can limit the movable plate to move downwards after the movable plate moves in place, so that when the heating plate is clamped, the movable plate only needs to be moved upwards to a position completely abutting against the heating plate, the operation is simple and convenient, and after the movable plate completely abuts against the heating plate, the device can be ensured not to shake or skew relative to the heating plate, and the guiding accuracy is further improved; the second ratchet is only arranged at 1/2 of the movable plate, so that when the clamping of the heating plate needs to be released, the movable plate only needs to be pulled outwards, the operation is simple and convenient, and the working efficiency is high.

The turning device comprises a fixed seat fixedly connected to the lower part of the shell, a supporting rod capable of reciprocating relative to the fixed seat, a conical fulcrum formed at the lower part of the supporting rod, a telescopic piece acting on the supporting rod and a screw rod in threaded fit with the fixed seat, wherein the end part of the screw rod is abutted to the supporting rod; the lower surface of the conical fulcrum is flush with or slightly higher than the lower surface of the base; when meeting the turning, only need to incline to the centre of a circle department of turning slightly with hand controlling means for toper fulcrum embedding to centre of a circle department, later controlling means can realize the direction of turning to the device around circular rotation, guarantees that the device can realize the automatic embedding to the heater strip in the turning, and degree of automation is high.

The automatic wire embedding device can realize automatic wire embedding operation of the heating wire, and compared with manual wire embedding, the working efficiency is improved by times, so that the working time is greatly reduced; the wire embedding operation can be realized by pushing the body, so that the structure is simple, the operation is simple and convenient, and the working difficulty is low; and because the automatic operation is adopted, the extrusion force of the heating wire on each position is kept consistent in the wire embedding process, so that the depth state embedded on the heating plate is kept consistent, and the quality of the heating plate is better.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a partially enlarged view of fig. 2.

Fig. 4 is a front view of the present invention.

Fig. 5 is a cross-sectional view taken along line B-B of fig. 4.

Fig. 6 is a perspective cross-sectional view of the present invention.

Fig. 7 is a schematic structural view of the clamping and positioning member of the present invention.

Fig. 8 is a schematic structural view of the hook of the present invention.

Detailed Description

As shown in fig. 1-8, an automatic production apparatus for automatically burying filaments in a heating plate comprises a main body, a guiding device disposed on the main body, a filament burying device disposed on the main body, a main body positioning device and a turning device, wherein the main body comprises a housing 11, a base 12 disposed at the lower part of the housing and capable of contacting with the surface of the heating plate, and a holding part disposed on the housing, wherein the heating plate is a conventional heating plate embedded with a heating wire on the market, and the details are not repeated herein; the guiding device is used for preliminarily arranging and guiding the heating wires, and the wire embedding device is used for automatically embedding the heating wires arranged and guided by the guiding device into the embedding groove on the heating plate; the body positioning device is used for controlling the body to move along the caulking groove all the time in the wire embedding operation process; the turning device is used for controlling the body to rotate around the fulcrum by taking an arc-shaped central point as the fulcrum when the heating wire is required to be embedded into the arc-shaped caulking groove, and the wire embedding device automatically embeds the heating wire into the arc-shaped caulking groove in the rotating process of the body around the fulcrum.

Specifically, the whole housing 11 is made of metal, and includes a left housing 111, a right housing 112, and a plurality of connecting blocks 113 for connecting the left and right housings, wherein a space is provided between the left and right housings, the connecting blocks are fixedly connected with the left and right housings by welding, and the number of the connecting blocks is 3, and the connecting blocks are respectively arranged on the front side, the rear side and the upper side of the housing; the guiding device comprises a guiding hole 21, a rotating wheel 22, a bracket 23 for connecting the rotating wheel and the connecting block, a guiding gap 24 arranged on the base and corresponding to the distance, and a through hole 25 arranged on the base and communicated with the guiding gap; the guide holes are arranged on the connecting blocks corresponding to the upper side and the rear side of the shell, and the rotating wheels are arranged on the connecting blocks corresponding to the front side of the shell; the wire embedding device comprises a first rotating disc 31 and a second rotating disc 32 which are rotatably arranged in the interval, a plurality of wire embedding pieces 33 which are formed between the first rotating disc and the second rotating disc and can move up and down, a wire embedding head 34 arranged at the lower part of the wire embedding pieces, an elastic piece 35 acting on the wire embedding pieces, a limiting convex part 36 arranged on the side wall of the wire embedding pieces, a guide groove 37 respectively arranged on the first rotating disc and the second rotating disc and used for inserting the limiting convex part, and a driving part used for driving the plurality of wire embedding pieces 33 to move downwards in sequence in the process that the body moves on the heating plate; the wire embedding piece is a metal rod, the upper portion of the metal rod is fixedly connected with a metal plate in a welding mode, the wire embedding head is a metal block fixedly connected to the lower portion of the wire embedding piece in a welding mode, the elastic piece is a spring, the upper end of the elastic piece abuts against the metal plate, and the lower end of the elastic piece abuts against the rotary table.

Further, the driving part comprises a rotatable press roller 41, two L-shaped connecting arms 42 connected with the press roller, two positioning arms 43 capable of moving relative to the two L-shaped connecting arms respectively, a U-shaped support frame 44 connected with the two positioning arms, a moving rod 45 capable of moving up and down and penetrating through two ends of the U-shaped support frame, a first cavity arranged in the positioning arms and a second cavity arranged in the U-shaped support frame, wherein the first cavity is communicated with the second cavity, the upper end of the moving rod 45 is in sealing fit with the inner wall of the second cavity, the L-shaped connecting arm 42 is in sealing fit with the inner wall of the first cavity, the press roller is arranged at a position above the embedded wire 33, the lower end of the moving rod 45 extends to the lower surface of the base under a normal state, so that when the base 12 is arranged on the heating plate, the moving rod 45 is moved upwards to press gas in the second cavity and the first cavity, the L-shaped connecting arm 42 is driven to drive the embedded wire 33 to move downwards.

Preferably, the filament embedding heads 34 are arranged in a trapezoidal structure, and the trapezoidal shapes of two adjacent filament embedding heads 34 are arranged in opposite directions.

The left and right housings are respectively provided with a sliding chute 51, and the side wall of the sliding chute is provided with two groups of limiting components which are distributed up and down; specifically, the limiting component comprises two convex parts 52 and a clamping groove 53 arranged on the convex parts; the two convex parts 52 are respectively formed by extending inwards from the left side wall and the right side wall of the sliding chute, two hooks 451 are arranged on the movable rod 45, the hooks are preferably made of plastics, and are provided with a connecting end 4511 connected with the movable rod and a swinging end 4512 capable of swinging relative to the connecting end, and a limiting part 453 capable of being clamped into the clamping groove is arranged on the swinging end 4512; the side wall of the moving rod 45 is provided with a guide post 454 corresponding to the upper part of the hook, the sliding groove is provided with a through groove 455 matched with the guide post, and the guide post penetrates through the through groove and can move up and down relative to the through groove.

The body positioning device comprises two positioning pieces 6 which are arranged in the guide notches and can be matched with the caulking grooves on the heating plate, and a clamping and positioning part which is arranged on the base and can be matched with the edge of the heating plate; in this embodiment, the positioning element 6 includes a top plate 61 fixedly connected to the base, a sleeve 62 disposed on the top plate, an insertion rod 63 telescopically inserted into the sleeve, a spring 64 disposed in the sleeve and connected to the insertion rod, and a ball 65 rotatably disposed at a lower portion of the insertion rod, wherein a lower portion of the insertion rod 63 is insertable into the caulking groove of the heating plate, and the ball is rotatable relative to the caulking groove.

The clamping and positioning component comprises two telescopic rods 71 connected with the base, a joint 72 connected with the two telescopic rods, a butting plate 73 connected with the joint in a turnover mode, an open slot 74 arranged on the butting plate, a plurality of first ratchets 75 arranged on the inner wall of the open slot, a movable plate 76 arranged in the open slot and capable of moving up and down, and second ratchets 77 arranged on the side wall of the movable plate and matched with the first ratchets; the length of the second ratchet 77 is 1/2 of the length of the movable plate 76, the front and rear ends of the movable plate 76 are respectively provided with a rib 761, and one side of the abutting plate 73 close to the base is provided with a strip-shaped groove 731 for embedding the rib; the telescopic rod is composed of two or more rod bodies capable of moving relatively, the joint is a metal plate, the abutting plate is also a metal plate, and the joint and the abutting plate are connected through riveting, so that the abutting plate can be turned relative to the joint.

The turning device comprises a fixed seat 81 fixedly connected to the lower part of the shell, a metal supporting rod 82 capable of reciprocating relative to the fixed seat, a conical fulcrum 83 formed at the lower part of the supporting rod, a telescopic piece 84 acting on the supporting rod and a screw rod 85 in threaded fit with the fixed seat, wherein the end part of the screw rod 85 is abutted to the supporting rod 82; the extensible member is a spring, the conical fulcrum 83 and the supporting rod are integrally formed, and the lower surface of the conical fulcrum is flush with the lower surface of the base 12 or slightly higher than the lower surface of the base.

The holding part comprises a through hole arranged at the central part of the first shell and the second shell, a holding rod 92 arranged in the through hole in a penetrating way, and a holding wheel 93 sleeved on the holding rod; specifically, a plurality of rotation stopping convex parts 94 are uniformly arranged on the holding rod along the circumferential direction at intervals, and rotation stopping grooves for the rotation stopping convex parts to be inserted are formed in the inner wall of the through hole; the holding rod is also provided with a fan-shaped convex part 96, the holding wheel 93 is provided with a notch for the convex part to be embedded in, and the shape of the notch is the same as that of the convex part; preferably, be equipped with the kicking block 97 of two triangles on the both ends of holding the pole respectively, under the above-mentioned structure, the shell can be pulled down relatively to the holding the pole, and then establishes the back in the inlaying of accomplishing the heater strip, can take off the holding the pole by the shell, later consolidates the embedding of heater strip through the kicking block, perhaps carries out the secondary extrusion to some incomplete positions of embedding, promotes inlaying of heater strip and establishes the quality.

Claims

1. The utility model provides an automated production equipment that is used for automatic silk of burying of hot plate which characterized in that: comprises a body, a heating plate and a heating device, wherein the body comprises a shell (11), a base (12) which is arranged at the lower part of the shell and can be contacted with the surface of the heating plate, and a holding part which is arranged on the shell; the guiding device is arranged on the body and used for preliminarily arranging and guiding the electric heating wires; the wire embedding device is arranged on the body and is used for automatically embedding the electric heating wires which are arranged and guided by the guiding device into the embedding groove on the heating plate; the body positioning device is used for controlling the body to move along the caulking groove all the time in the wire embedding operation process; the turning device is used for controlling the body to rotate around a fulcrum by taking an arc-shaped central point as the fulcrum when the heating wire needs to be embedded into the arc-shaped caulking groove, and the wire embedding device automatically embeds the heating wire into the arc-shaped caulking groove in the process that the body rotates around the fulcrum;

the shell (11) comprises a left cover shell (111), a right cover shell (112) and a plurality of connecting blocks (113) for connecting the left cover shell and the right cover shell, and a space is formed between the left cover shell and the right cover shell;

the guide device comprises a guide hole (21) arranged on at least one connecting block, a rotating wheel (22) arranged on at least one connecting block, a support frame (23) used for connecting the rotating wheel and the connecting block, a guide notch (24) arranged on the base and corresponding to the distance, and a through hole (25) arranged on the base and communicated with the guide notch;

the wire embedding device comprises a first rotary table (31) and a second rotary table (32) which are rotatably arranged in the interval, a plurality of wire embedding pieces (33) which are formed between the first rotary table and the second rotary table and can move up and down, a wire embedding head (34) arranged at the lower part of the wire embedding pieces, an elastic piece (35) acting on the wire embedding pieces, a limiting convex part (36) arranged on the side wall of the wire embedding pieces, guide grooves (37) respectively arranged on the first rotary table and the second rotary table and used for inserting the limiting convex part, and a driving part used for driving the plurality of wire embedding pieces (33) to move downwards in sequence in the process that the body moves on the heating plate.

2. The automatic production equipment for the automatic wire embedding of the heating plate according to claim 1, wherein the driving part comprises a rotatable pressing roller (41) arranged on the wire embedding piece (33), two L-shaped connecting arms (42) connected with the pressing roller, two positioning arms (43) respectively capable of relatively moving with the two L-shaped connecting arms, a U-shaped support frame (44) connected with the two positioning arms, a moving rod (45) capable of moving up and down and penetrating through two ends of the U-shaped support frame, a first chamber arranged in the positioning arms, and a second chamber arranged in the U-shaped support frame, wherein the first chamber is communicated with the second chamber, the upper end of the moving rod (45) is in sealing fit with the inner wall of the second chamber, the L-shaped connecting arm (42) is in sealing fit with the inner wall of the first chamber, the lower end of the moving rod (45) at least partially extends to the lower surface of the base, when the base (12) is arranged on the heating plate, the moving rod (45) moves up and extrudes the gas in the second chamber and the first chamber, and drives the L-shaped connecting arm (42) to move down and drive the pressing roller to move the wire embedding piece (33.

3. The automatic production equipment for the automatic wire embedding of the heating plate according to claim 2, wherein: the thread embedding heads (34) are arranged in a trapezoidal structure, and the trapezoidal shapes of two adjacent thread embedding heads (34) are arranged in opposite directions.

4. The automatic production equipment for the automatic wire embedding of the heating plate according to claim 1, wherein: the left and right housings are respectively provided with a sliding chute (51), the side wall of the sliding chute is provided with two groups of limiting components which are distributed up and down, and each limiting component comprises two convex parts (52) formed by inward extension of the left and right side walls of the sliding chute and a clamping groove (53) arranged on the convex part; the movable rod (45) is provided with two clamping hooks (451) which are provided with a connecting end (4511) connected with the movable rod and a swinging end (4512) capable of swinging relative to the connecting end, and the swinging end (4512) is provided with a limiting part (453) capable of being clamped into the clamping groove; the side wall of the moving rod (45) is provided with a guide post (454) corresponding to the upper part of the clamping hook, and the sliding groove is provided with a through groove (455) matched with the guide post.

5. The automatic production equipment for the automatic wire embedding of the heating plate according to claim 1, wherein: the body positioning device comprises two positioning pieces (6) which are arranged in the guide notches and can be matched with the caulking grooves on the heating plate, and a clamping and positioning part which is arranged on the base and can be matched with the edge of the heating plate; the positioning piece (6) comprises a top plate (61) fixedly connected with the base, a sleeve (62) arranged on the top plate, an inserted bar (63) arranged in the sleeve in a telescopic penetrating mode, a spring (64) arranged in the sleeve and connected with the inserted bar, and a ball (65) arranged on the lower portion of the inserted bar in a rotating mode, wherein the lower portion of the inserted bar (63) can be inserted into an embedded groove in the heating plate.

6. The automatic production equipment for the automatic wire embedding of the heating plate according to claim 5, wherein: the clamping and positioning component comprises two telescopic rods (71) connected with the base, a joint (72) connected with the two telescopic rods, a supporting plate (73) connected to the joint in a turnover mode, an open slot (74) arranged on the supporting plate, a plurality of first ratchets (75) arranged on the inner wall of the open slot, a movable plate (76) arranged in the open slot and capable of moving up and down, and second ratchets (77) arranged on the side wall of the movable plate and matched with the first ratchets; the length of the second ratchet (77) is 1/2 of the length of the movable plate (76), the front end and the rear end of the movable plate (76) are respectively provided with a rib (761), and one side of the abutting plate (73) close to the base is provided with a strip-shaped groove (731) for embedding the rib.

7. The automatic production equipment for the automatic wire embedding of the heating plate according to claim 2, wherein: the turning device comprises a fixed seat (81) fixedly connected to the lower part of the shell, a supporting rod (82) capable of reciprocating relative to the fixed seat, a conical fulcrum (83) formed at the lower part of the supporting rod, a telescopic piece (84) acting on the supporting rod and a screw rod (85) in threaded fit with the fixed seat, wherein the end part of the screw rod (85) is abutted against the supporting rod (82); the lower surface of the conical fulcrum (83) is flush with or slightly higher than the lower surface of the base (12).