CN212750614U - Automatic winding machine for inductance coil - Google Patents

Abstract

The utility model relates to an inductance coils automatic coil winding machine, including the carousel subassembly, the carousel subassembly includes the carousel, it sets up the clamping subassembly that is used for the clamping material to be annular array on the carousel, clamping subassembly one side just is provided with on the workstation with the first push sleeve subassembly of clamping subassembly matched with, the support frame seat top of workstation one side is provided with the pay-off subassembly that is used for the material propelling movement, clamping subassembly one side sets up area output assembly, sticky tape output assembly below sets up guide assembly, guide assembly below just is provided with on the workstation with clamping subassembly matched with second push sleeve subassembly, second push sleeve subassembly below is provided with and is used for carrying out the supplementary winding subassembly of rolling with clamping subassembly cooperation with sticky tape material strip. The utility model discloses satisfy big inductance coils material realization automation of feeding and the operation of clamping in batches, can realize quick adhesive tape winding operation, can reduce enterprise's staff's intensity of labour and labor efficiency.

Description

Automatic winding machine for inductance coil

Technical Field

The invention relates to the technical field of inductance coil processing, in particular to an automatic winding machine for an inductance coil.

Background

An inductor is a device that operates using the principle of electromagnetic induction. When current flows through one wire, a certain electromagnetic field is generated around the wire, and the wire of the electromagnetic field can generate an induction effect on the wire in the range of the electromagnetic field, so that the effect on the wire generating the electromagnetic field is called self-induction, namely, the changing current generated by the wire generates a changing magnetic field which further influences the current in the wire; the effect on other conductors in this electromagnetic field range is called "mutual inductance". The electrical characteristics of the inductance coil are opposite to those of the capacitor, namely low frequency passing and high frequency blocking, when high-frequency signals pass through the inductance coil, the high-frequency signals encounter great resistance and are difficult to pass; the resistance presented when the low-frequency signal passes through the inductance coil is smaller, namely the low-frequency signal can pass through the inductance coil easily, the resistance of the inductance coil to direct current is almost zero, and the resistance, the capacitance and the inductance can present certain resistance to the flow of the electric signal in the circuit, the resistance is called as impedance, and the impedance presented by the inductance coil to the current signal utilizes the self-inductance of the coil. An inductor is sometimes referred to as simply an "inductor" or "coil" and is referred to by the letter "L", and when an inductor is wound, the number of turns of the wound coil is generally referred to as the "number of turns" of the coil.

The copper foil wound inductance coil is generally used in the situation of large current, and this is done to overcome the skin effect, when there is alternating current or alternating electromagnetic field in the conductor, the current distribution inside the conductor is not uniform, the current is concentrated on the "skin" part of the conductor, that is, the current is concentrated on the thin layer on the outer surface of the conductor, the closer to the surface of the conductor, the higher the current density is, the smaller the current is actually inside the conductor, as a result, the resistance of the conductor is increased, and the power loss thereof is also increased, which is called the skin effect.

At present, in the actual processing process of an inductance coil, a cut raw material needs to be wound and taped, the conventional method usually realizes the operation by manpower, and because a plurality of flaky materials need to be stacked together, the following technical difficulties often exist in the actual production process: 1. a plurality of sheets are required to be subjected to a shipping and conveying operation, which operation is currently carried out without suitable devices on the market; 2. the method has the advantages that a plurality of stacked sheet materials need to be effectively clamped, the manual tape wrapping operation mode has huge defects, the clamping is difficult to stabilize, the clamping is difficult, the clamping efficiency is low, and the manual operation has huge quality risks of uneven winding and unstable processing quality; 3. the multi-station loading, transporting and transporting of the sheet materials has some technical difficulties which are difficult to implement, such as how to realize the connection of all working procedures and how to realize the problems of stable conveying and uniform winding of automatic feeding, automatic pushing and subsequent winding of the inductance adhesive tape; therefore, the department independently develops a set of equipment for solving the problem, and for better applying patent protection to the equipment, the department applies patent protection to the clamping device, the loading and transporting device and the integral winding part of the sheet materials respectively.

Disclosure of Invention

The invention aims to solve the problems, and provides an automatic inductance coil winding machine which is reasonable in structure and scientific in design, meets the requirements of automatic feeding and clamping of mass inductance coil materials, can realize quick adhesive tape wrapping winding operation, can reduce the labor intensity of enterprise workers, improves the labor efficiency, is very quick in feeding operation and conveying operation, is uniform in adhesive tape strip winding, is stable and reliable, and improves the economic benefits of enterprises.

In order to realize the purpose, the invention adopts the technical scheme that: the utility model provides an inductance coils automatic coil winding machine, including the carousel subassembly, the carousel subassembly is including the carousel that can make rotary motion, it sets up the clamp material subassembly that is used for the clamping material to be annular array on the carousel, clamp material subassembly one side just is provided with on the workstation with clamp material subassembly matched with first push away cover subassembly, the support frame seat top of workstation one side is provided with the pay-off subassembly that is used for the material propelling movement, clamp material subassembly one side is provided with the sticky tape output subassembly that is used for carrying the sticky tape material strip, sticky tape output subassembly below is provided with the guide subassembly that is used for guiding the sticky tape material strip, guide subassembly below just is provided with on the workstation with clamp material subassembly matched with second push away cover subassembly, second push away cover subassembly below is provided with and is used for cooperating with clamp material subassembly and carries out the supplementary winding subassembly of rolling sticky tape material strip.

As a further optimization of the invention, the turntable is connected with a central shaft through a fixed bolt, the central shaft downwards passes through the workbench and is connected with the output shaft end of a central motor, and the central motor is arranged in the machine shell.

As a further optimization of the invention, the clamping assembly comprises a fixed seat arranged on the upper surface of the outer edge of the rotary table, a supporting rod body horizontally penetrates through the inside of the fixed seat, one end, away from the rotary table, of the supporting rod body is connected with the clamping block through a connecting block, a movable sleeve is sleeved outside the clamping block in a matching mode, an annular limiting boss is arranged on the outer wall of one end, extending out of the movable sleeve, of the clamping block, and a spring is arranged on one side of the movable sleeve and on the supporting rod body.

As a further optimization of the invention, the clamping block is made of elastic metal in a welding mode, a rectangular cavity for containing materials is arranged in the clamping block, the outer wall of the clamping block is in an inclined structure shape and is matched with the inner wall of the movable sleeve, a driven belt pulley is arranged at one end, close to the rotary table, of the supporting rod body, the driven belt pulley is in transmission connection with a driving belt pulley at the output shaft end of a coiling motor through a belt, and the coiling motor is arranged on the lower surface of the rotary table.

As a further optimization of the invention, a material transfer block in the feeding assembly is arranged at one side of the clamping block in equal height, the material transfer block is arranged on the sliding seat through a fastening bolt, a rectangular cavity for containing materials is arranged in the material transfer block, the rectangular cavity is matched with a discharging block at the output shaft end of a discharging cylinder, the discharging cylinder is arranged on the front end surface of the bearing support, and the bearing support is arranged on the front end of the bearing plate on the support seat through a connecting bolt.

As a further optimization of the invention, the lower end of the sliding seat is movably arranged on the material slide rail through a sliding block, the side end of the sliding block is connected with the telescopic shaft end of the conveying cylinder, the conveying cylinder and the material slide rail are arranged on the upper surface of the rotating table in an annular array, the lower surface of the rotating table is connected with the output shaft end of the feeding motor through a rotating shaft, and the feeding motor is arranged in the protective shell.

As a further optimization of the invention, a first pushing clamp body is arranged above the movable sleeve, the first pushing clamp body is in a U-shaped block structure and is matched with the outer wall of the movable sleeve, the first pushing clamp body is connected with the output shaft end of a first lifting cylinder on the front end surface of a first sliding table, the first sliding table is movably arranged on a first guide pillar of a first transverse guide rail seat through a first sliding sleeve, the side end of the first sliding table is connected with the telescopic shaft end of a first pushing sleeve cylinder, and the first transverse guide rail seat is arranged on a first vertical support plate of the workbench through a connecting seat.

As a further optimization of the invention, the adhesive tape output assembly comprises a bracket plate body arranged on the workbench, the upper end of the bracket plate body is not provided with a fixed support body for supporting the adhesive tape roll, the outer edge of the adhesive tape roll is wound with adhesive tape strips, the fixed support body is of a Y-shaped structure, adjusting blocks are arranged in adjusting grooves of the fixed support body, the adhesive tape strips downwards penetrate between guide wheels in the guide assembly, the guide wheels are symmetrically arranged on mounting bosses on the outer wall of the bracket plate body, and the adhesive tape strips downwards extend to the position of a rotating head of the auxiliary winding assembly.

As a further optimization of the invention, a second pushing sleeve assembly is arranged on one side of the bracket plate body, which is far away from the clamping assembly, and comprises a second vertical supporting plate arranged on the workbench, a second transverse guide rail seat is arranged at one end of the second vertical supporting plate, a second sliding table is movably arranged on the second transverse guide rail seat through a second guide pillar and a second sliding sleeve, the second sliding table is connected with a telescopic shaft end of a second pushing sleeve cylinder, a telescopic shaft end of a second lifting cylinder arranged at the front end of the second sliding table is connected with a second pushing clamp body, and the second pushing clamp body is in a U-shaped block-shaped structure and is matched with the outer wall of the movable sleeve.

As a further optimization of the invention, a fixed mounting seat in the auxiliary winding assembly is arranged at the lower end of the second vertical supporting plate at intervals, a vertical guide rod is arranged in the fixed mounting seat and matched with a vertical slide block at the side part of the lifting movable table, an auxiliary winding motor is arranged on the lifting movable table, the output shaft end of the auxiliary winding motor is connected with a rotating head, the outer surface of the rotating head is covered with a flexible pad, and the lower surface of the lifting movable table is connected with the telescopic shaft end of a lifting cylinder.

The invention has the beneficial effects that: the automatic winding machine for the inductance coil is reasonable in structure and scientific in design, meets the requirement of realizing automatic feeding and clamping operation of mass inductance coil materials, can realize quick adhesive tape wrapping winding operation, can reduce the labor intensity of enterprise workers, improves the labor efficiency, is very quick in feeding operation and conveying operation, is uniform in adhesive tape strip winding, is stable and reliable, and improves the economic benefit of enterprises.

1. The feeding device is provided with a feeding assembly, a feeding motor is driven, the rotating table drives the material transferring block to rotate, the material transferring block bearing materials is rotated to the position of the material clamping block, the air cylinder is sequentially driven and discharged, the sliding seat drives the material transferring block to be conveyed to the position close to the material clamping block, the material discharging block extends out of the position of the material transferring block, and the materials in the material transferring block are pushed into the material clamping block, so that the feeding operation is realized.

2. The material clamping device is provided with a first sleeve pushing assembly and a material clamping assembly, a first lifting cylinder and a first sleeve pushing cylinder are sequentially driven, a first pushing clamp body descends to the position of a movable sleeve, the end part of a boss of the movable sleeve is horizontally pushed, a material clamping block extends out of the movable sleeve, and materials enter a rectangular cavity in the material clamping block, so that the material clamping operation is completed.

3. The auxiliary winding assembly is arranged to drive the lifting cylinder, the lifting movable table drives the rotating head to ascend, and the adhesive tape material strip flexibly touches and presses the material clamped by the clamping block, so that the adhesive tape material strip is pressed by external force in the whole winding process to be uniformly and compactly wound on the material piece.

Drawings

FIG. 1 is a schematic top view of the present invention.

Fig. 2 is a schematic sectional view at a-a in fig. 1.

Fig. 3 is a schematic structural diagram of the positions of the material clamping assembly and the first sleeve pushing assembly in the invention.

FIG. 4 is a schematic view of the position of the clamping assembly according to the present invention.

FIG. 5 is a schematic structural view of the feeding assembly and the clamping assembly in the present invention.

Fig. 6 is a schematic structural view of the tape dispensing assembly and the auxiliary winding assembly in the present invention.

The text labels in the figures are represented as: 1. a turntable assembly; 2. a material clamping component; 3. a feeding assembly; 4. a first sleeve pushing assembly; 5. a support base; 6. a work table; 7. a tape output assembly; 8. a guide assembly; 9. a second sleeve pushing assembly; 10. an auxiliary winding assembly; 101. a turntable; 102. fixing the bolt; 103. a central shaft; 104. a bearing; 105. a coupling; 106. a central motor; 107. a housing; 201. a limiting boss; 202. a material clamping block; 203. a movable sleeve; 204. connecting blocks; 205. a support rod body; 206. a spring; 207. a fixed seat; 208. a driven pulley; 209. a belt; 210. a drive pulley; 211. a coil motor; 301. a material transfer block; 302. fastening a bolt; 303. a sliding seat; 304. unloading the material block; 305. a slider; 306. a rotating table; 307. a carrier plate; 308. a connecting bolt; 309. a bearing support; 310. a discharge cylinder; 311. a rotating shaft; 312. a feeding motor; 313. a protective housing; 314. a conveying cylinder; 315. a material slide rail; 401. a first vertical support plate; 402. a connecting seat; 403. a first transverse guide rail seat; 404. a first guide post; 405. a first sliding sleeve; 406. a first sliding table; 407. a first lifting cylinder; 408. a first push clamp body; 409. a first sleeve pushing cylinder; 701. a bracket plate body; 702. fixing the bracket body; 703. adjusting the groove; 704. an adjusting block; 705. a tape roll; 706. adhesive tape material strips; 801. mounting a boss; 802. a guide wheel; 901. a second pushing clamp body; 902. a second lifting cylinder; 903. a second sliding table; 904. a second sliding sleeve; 905. a second guide post; 906. a second vertical support plate; 907. a second transverse guide rail seat; 908. a second sleeve pushing cylinder; 1001. fixing the mounting seat; 1002. a vertical guide bar; 1003. auxiliary winding motor; 1004. a vertical slide block; 1005. a lifting movable table; 1006. a connecting bracket; 1007. a lifting cylinder; 1008. a flexible pad; 1009. and rotating the head.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

As shown in fig. 1 to 6, the specific structure of the present invention is: including carousel subassembly 1, carousel subassembly 1 is including the carousel 101 that can make rotary motion, it sets up the double-layered material subassembly 2 that is used for the clamping material to be annular array on the carousel 101, double-layered material subassembly 2 one side just is provided with on workstation 6 and presss from both sides the first push away cover subassembly 4 of material subassembly 2 matched with, the support base 5 top of workstation 6 one side is provided with the pay-off subassembly 3 that is used for the material propelling movement, it is provided with the sticky tape output assembly 7 that is used for carrying sticky tape material strip 706 to press from both sides material subassembly 2 one side, sticky tape output assembly 7 below is provided with the guide assembly 8 that is used for guiding sticky tape material strip 706, guide assembly 8 below just is provided with on workstation 6 and presss from both sides material subassembly 2 matched with second push away cover subassembly 9, second push away cover subassembly 9 below is provided with and is used for cooperating with pressing from both sides material subassembly 2 and carries out the supplementary winding assembly.

Preferably, in order to realize that the turntable 101 performs a rotating motion to drive the material clamping assembly 2 and the material to rotate between the stations, the turntable 101 is connected with a central shaft 103 through a fixing bolt 102, the central shaft 103 downwardly penetrates through the worktable 6 and is connected with an output shaft end of a central motor 106, the central motor 106 is installed in a housing 107 to drive the central motor 106, and the turntable 101 performs a rotating motion.

Preferably, in order to be favorable to realizing that clamping subassembly 2 carries out the clamping operation to the material, clamping subassembly 2 is including setting up in the fixing base 207 of carousel 101 outer fringe upper surface, the inside level of fixing base 207 runs through and sets up the support rod body 205, the one end that the carousel 101 was kept away from to the support rod body 205 is passed through connecting block 204 and is connected clamp piece 202, movable sleeve 203 is established to the outside matching cover of clamp piece 202, it is provided with spacing boss 201 of annular to press from both sides on the one end outer wall that material piece 202 stretches out movable sleeve 203, movable sleeve 203 one side just is provided with spring 206 on the support rod body 205.

Preferably, be rotary motion in order to be favorable to realizing the material, thereby it is even to realize the material with sticky tape material strip 706 winding parcel, it adopts elastic metal welding to make and the inside rectangle cavity that is used for holding the material to press from both sides material piece 202, it is the slope structure form and with movable sleeve 203 inner wall phase-match to press from both sides material piece 202 outer wall, the one end that the support rod body 205 is close to carousel 101 is provided with driven pulley 208, driven pulley 208 passes through belt 209 and is connected with the drive pulley 210 transmission of coil stock motor 211 output shaft end, coil stock motor 211 installs and sets up in carousel 101 lower surface, drive coil stock motor 211, it is rotary motion rather than inside material to press from both sides material piece 202, thereby it is even to realize wrapping up sticky tape material strip 706.

Preferably, in order to facilitate the implementation of loading and transferring operations on the sheet-shaped material, a material transferring block 301 in the feeding assembly 3 is arranged at one side of the clamping block 202 at the same height, the material transferring block 301 is mounted on a sliding seat 303 through a fastening bolt 302, a rectangular cavity for accommodating the material is arranged in the material transferring block 301, the rectangular cavity is matched with a discharging block 304 at the output shaft end of a discharging cylinder 310, the discharging cylinder 310 is arranged on the front end surface of a bearing support 309, the bearing support 309 is arranged at the front end of a bearing plate 307 on a support seat 5 through a connecting bolt 308, a feeding motor 312 is driven, the rotating platform 306 drives the material transferring block 301 to rotate, so that the material transferring block 301 bearing the material rotates to the position of the clamping block 202, the sliding seat drives 314 and the discharging cylinder 310 in sequence, the sliding seat drives the material transferring block 301 to be conveyed to the position close to the clamping block 202, and the discharging, the material in the material transfer block 301 is pushed into the material clamping block 202, so that the loading operation is realized.

Preferably, in order to facilitate the material loading operation, the lower end of the sliding seat 303 is movably arranged on the material sliding rail 315 through the sliding block 305, the side end of the sliding block 305 is connected with the telescopic shaft end of the conveying cylinder 314, the conveying cylinder 314 and the material sliding rail 315 are arranged on the upper surface of the rotating platform 306 in an annular array, the lower surface of the rotating platform 306 is connected with the output shaft end of the feeding motor 312 through the rotating shaft 311, and the feeding motor 312 is arranged in the protective shell 313.

Preferably, in order to facilitate the material clamping operation, a first pushing clamp 408 is disposed above the movable sleeve 203, the first pushing clamp 408 is in a U-shaped block structure and is matched with the outer wall of the movable sleeve 203, the first pushing clamp 408 is connected to an output shaft end of a first lifting cylinder 407 on the front end surface of a first sliding table 406, the first sliding table 406 is movably disposed on a first guide post 404 of a first transverse guide rail seat 403 through a first sliding sleeve 405, a side end of the first sliding table 406 is connected to a telescopic shaft end of a first sleeve pushing cylinder 409, the first transverse guide rail seat 403 is mounted on a first vertical support plate 401 of the workbench 6 through a connecting seat 402, the first lifting cylinder 407 and the first sleeve pushing cylinder 409 are sequentially driven, the first pushing clamp 408 descends to the position of the movable sleeve 203 and horizontally pushes a boss end of the movable sleeve 203, so that the clamp block 202 extends out of the movable sleeve 203, and the material enters a rectangular cavity in the clamp block 202, thereby completing the material clamping operation.

Preferably, in order to facilitate the stable conveying operation of the adhesive tape strip 706, the adhesive tape output assembly 7 includes a bracket plate 701 disposed on the workbench 6, the upper end of the bracket plate 701 is not provided with a fixed support body 702 for supporting the adhesive tape roll 705, the adhesive tape strip 706 is wound around the outer edge of the adhesive tape roll 705, the fixed support body 702 is of a Y-shaped structure and is provided with an adjusting block 704 in an adjusting groove 703, the adhesive tape strip 706 downwardly passes between the guide wheels 802 in the guide assembly 8, the guide wheels 802 are symmetrically disposed on the mounting bosses 801 on the outer wall of the bracket plate 701, and the adhesive tape strip 706 downwardly extends to the position of the rotating head 1009 of the auxiliary winding assembly 10.

Preferably, in order to facilitate the winding operation of the material wound adhesive tape strip 706, a second sleeve pushing assembly 9 is arranged on one side of the bracket plate body 701, which is far away from the material clamping assembly 2, the second sleeve pushing assembly 9 comprises a second vertical support plate 906 arranged on the workbench 6, a second transverse guide rail seat 907 is arranged at one end of the second vertical support plate 906, a second sliding table 903 is movably arranged on the second transverse guide rail seat 907 through a second guide pillar 905 and a second sliding sleeve 904, the second sliding table 903 is connected with a telescopic shaft end of the second sleeve pushing cylinder 908, a telescopic shaft end of a second lifting cylinder 902 arranged at the front end of the second sliding table 903 is connected with a second pushing clamp 901, and the second pushing clamp 901 is in a U-shaped block structure and is matched with the outer wall of the movable sleeve 203.

Preferably, in order to facilitate the implementation of the winding operation of the material winding adhesive tape strip 706 and prevent the adhesive tape strip 706 from deviating during the winding process, the lower end of the second vertical support plate 906 is provided with a fixed mounting seat 1001 in the auxiliary winding assembly 10 at a distance, a vertical guide rod 1002 is arranged in the fixed mounting seat 1001, the vertical guide rod 1002 is matched with a vertical slider 1004 at the side of the lifting movable table 1005, the lifting movable table 1005 is provided with an auxiliary winding motor 1003, the output shaft end of the auxiliary winding motor 1003 is connected with the rotating head 1009, the outer surface of the rotating head 1009 is covered with a flexible pad 1008, the lower surface of the lifting movable table 1005 is connected with the telescopic shaft end of a lifting cylinder 1007, the lifting cylinder 1007 is driven, the lifting movable table 1005 drives the rotating head 1009 to ascend, and the adhesive tape strip 706 flexibly touches and, thereby ensuring that the adhesive tape strip 706 is pressed by external force in the whole winding process to be uniformly and compactly wound on the material sheet.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes may be made without departing from the principle of the present invention, and the technical features described above may be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.

Claims (10)

1. An automatic inductance coil winding machine is characterized by comprising a turntable assembly (1), wherein the turntable assembly (1) comprises a turntable (101) capable of rotating, clamping assemblies (2) used for clamping materials are arranged on the turntable (101) in an annular array, a first push sleeve assembly (4) matched with the clamping assemblies (2) is arranged on one side of each clamping assembly (2) and on a workbench (6), a feeding assembly (3) used for pushing the materials is arranged above a support base (5) on one side of the workbench (6), an adhesive tape output assembly (7) used for conveying adhesive tape strips (706) is arranged on one side of each clamping assembly (2), a guide assembly (8) used for guiding the adhesive tape strips (706) is arranged below each adhesive tape output assembly (7), a second push sleeve assembly (9) matched with the clamping assemblies (2) is arranged below each guide assembly (8) and on the workbench (6), an auxiliary winding assembly (10) used for being matched with the material clamping assembly (2) to wind the adhesive tape material strip (706) is arranged below the second pushing sleeve assembly (9).

2. An induction coil automatic winding machine according to claim 1, characterized in that the turntable (101) is connected to the central shaft (103) by means of a fixing bolt (102), the central shaft (103) passes downwards through the working table (6) and is connected to the output shaft end of the central motor (106), and the central motor (106) is arranged in the housing (107).

3. The automatic winding machine for the inductance coils according to claim 1, wherein the material clamping assembly (2) comprises a fixed seat (207) arranged on the upper surface of the outer edge of the turntable (101), a supporting rod body (205) horizontally penetrates through the inside of the fixed seat (207), one end, far away from the turntable (101), of the supporting rod body (205) is connected with a material clamping block (202) through a connecting block (204), a movable sleeve (203) is sleeved on the outer portion of the material clamping block (202) in a matching manner, an annular limiting boss (201) is arranged on the outer wall of one end, extending out of the movable sleeve (203), of the material clamping block (202), and a spring (206) is arranged on one side of the movable sleeve (203) and on the supporting rod body.

4. The automatic winding machine for the inductance coils as claimed in claim 3, wherein the material clamping block (202) is made of elastic metal by welding and is internally provided with a rectangular cavity for containing materials, the outer wall of the material clamping block (202) is in an inclined structure and is matched with the inner wall of the movable sleeve (203), one end of the support rod body (205) close to the turntable (101) is provided with a driven pulley (208), the driven pulley (208) is in transmission connection with a driving pulley (210) at the output shaft end of the material winding motor (211) through a belt (209), and the material winding motor (211) is installed and arranged on the lower surface of the turntable (101).

5. The automatic winding machine for the inductance coils as claimed in claim 4, wherein the material transfer block (301) in the feeding assembly (3) is arranged on one side of the material clamping block (202) in the same height, the material transfer block (301) is mounted on the sliding seat (303) through a fastening bolt (302), a rectangular cavity for containing materials is arranged in the material transfer block (301), the rectangular cavity is matched with a material discharging block (304) at the output shaft end of the material discharging cylinder (310), the material discharging cylinder (310) is arranged on the front end face of the bearing support (309), and the bearing support (309) is arranged on the front end of a bearing plate (307) on the support seat (5) through a connecting bolt (308).

6. The automatic winding machine of the inductance coil as claimed in claim 5, wherein the lower end of the sliding seat (303) is movably arranged on a material sliding rail (315) through a sliding block (305), the side end of the sliding block (305) is connected with the telescopic shaft end of a conveying cylinder (314), the conveying cylinder (314) and the material sliding rail (315) are arranged on the upper surface of a rotating table (306) in an annular array mode, the lower surface of the rotating table (306) is connected with the output shaft end of a feeding motor (312) through a rotating shaft (311), and the feeding motor (312) is arranged in a protective shell (313).

7. The automatic inductance coil winding machine according to claim 3, wherein a first pushing clamp (408) is arranged above the movable sleeve (203), the first pushing clamp (408) is of a U-shaped block structure and matched with the outer wall of the movable sleeve (203), the first pushing clamp (408) is connected to an output shaft end of a first lifting cylinder (407) on the front end face of the first sliding table (406), the first sliding table (406) is movably arranged on a first guide pillar (404) of the first transverse guide rail seat (403) through a first sliding sleeve (405), a side end of the first sliding table (406) is connected to an expansion shaft end of the first pushing sleeve cylinder (409), and the first transverse guide rail seat (403) is mounted on a first vertical support plate (401) of the working table (6) through a connecting seat (402).

8. The automatic winding machine of the inductance coil according to claim 1, wherein the adhesive tape output assembly (7) comprises a bracket plate body (701) arranged on the workbench (6), the upper end of the bracket plate body (701) is not provided with a fixed support body (702) for supporting an adhesive tape roll (705), the outer edge of the adhesive tape roll (705) is wound with an adhesive tape strip (706), the fixed support body (702) is of a Y-shaped structure, adjusting grooves (703) of the fixed support body are internally provided with adjusting blocks (704), the adhesive tape strip (706) downwards passes through guiding wheels (802) in the guiding assembly (8), the guiding wheels (802) are symmetrically arranged on an installation boss (801) on the outer wall of the bracket plate body (701), and the adhesive tape strip (706) downwards extends to a position of a rotating head (1009) of the auxiliary winding assembly (10).

9. The automatic winding machine for the inductance coils according to claim 8, characterized in that a second sleeve pushing assembly (9) is arranged on one side of the bracket plate body (701) far away from the clamping assembly (2), the second sleeve pushing assembly (9) comprises a second vertical support plate (906) arranged on the workbench (6), one end of the second vertical support plate (906) is provided with a second transverse guide rail seat (907), a second sliding table (903) is movably arranged on the second transverse guide rail seat (907) through a second guide pillar (905) and a second sliding sleeve (904), the second sliding table (903) is connected with a telescopic shaft end of the second sleeve pushing cylinder (908), a telescopic shaft end of a second lifting cylinder (902) arranged at the front end of the second sliding table (903) is connected with the second pushing clamp body (901), and the second pushing clamp body (901) is in a U-shaped block-shaped structure and is matched with the outer wall of the movable sleeve (203).

10. The automatic inductance coil winding machine according to claim 9, wherein a fixed mounting seat (1001) in the auxiliary winding assembly (10) is arranged at the lower end of the second vertical support plate (906) at a distance, a vertical guide rod (1002) is arranged in the fixed mounting seat (1001), the vertical guide rod (1002) is matched with a vertical slider (1004) at the side of the lifting movable table (1005), an auxiliary winding motor (1003) is mounted on the lifting movable table (1005), the output shaft end of the auxiliary winding motor (1003) is connected with the rotating head (1009), a flexible pad (1008) is covered on the outer surface of the rotating head (1009), and the lower surface of the lifting movable table (1005) is connected with the telescopic shaft end of the lifting cylinder (1007).

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