CN114496552B

CN114496552B - Inductance thread end protection device

Info

Publication number: CN114496552B
Application number: CN202210129750.3A
Authority: CN
Inventors: 许大伟; 李兵
Original assignee: Anhui Longci New Energy Technology Co ltd
Current assignee: Anhui Longci New Energy Technology Co ltd
Priority date: 2022-02-11
Filing date: 2022-02-11
Publication date: 2023-09-12
Anticipated expiration: 2042-02-11
Also published as: CN114496552A

Abstract

The application discloses an inductance thread end protection device, which comprises: a base on which a winding assembly for winding the coil is rotatably installed; the adhesive tape assembly is arranged at the end part of the positioning thread end on the winding assembly and is arranged on the winding assembly through the assembly frame; the transmission assembly is arranged at the joint of the adhesive tape assembly and the assembly frame and is used for driving the adhesive tape assembly to rotate along the central axis of the positioning wire head; the coil is positioned through the winding component, the winding component rotates to realize the winding process of the coil, the adhesive tape component and the positioning wire head synchronously rotate along with the rotation of the winding component, and meanwhile, the transmission component drives the adhesive tape component to rotate by taking the central shaft of the positioning wire head as an axis, so that the adhesive tape in the adhesive tape component can be wound at the end part of the positioning wire head, the winding process of the coil is realized, the positioning wire head is encapsulated, the protection of the enamelled wire head is realized, and the problem that the enamelled wire head is scratched in the winding process of the coil is avoided.

Description

Inductance thread end protection device

Technical Field

The application relates to the technical field of inductance coils, in particular to an inductance wire head protection device.

Background

An inductor coil is a device that operates using the principle of electromagnetic induction. When a current flows through a wire, a certain electromagnetic field is generated around the wire, and the wire itself of the electromagnetic field can induce a wire within the range of the electromagnetic field. The effect on the wire itself generating the electromagnetic field is called "self-inductance", i.e. the changing current generated by the wire itself generates a changing magnetic field, which in turn further affects the current in the wire; the effect on other wires in this electromagnetic field range is called "mutual inductance".

At present, when the inductance coil is wound, the device shown in fig. 1 is adopted, the winding rod is sleeved on the round rod, the electric telescopic rod drives the round rod to move towards the second extrusion plate, the first extrusion plate and the second extrusion plate clamp the winding rod, one end of the coil is positioned on the winding rod, and then the rotating shaft rotates to drive the round rod to rotate so as to realize winding of the coil, but when the coil is wound in the mode, the enameled wire head of the coil lacks a protection device, the enameled wire head cannot be encapsulated, and the enameled wire head is very easy to scratch.

Disclosure of Invention

The application aims to provide an inductance wire head protection device, which solves the following technical problems:

when the coil is wound, the enameled wire head lacks a protective device, the wire head cannot be encapsulated, and the enameled wire head is extremely easy to scratch.

The aim of the application can be achieved by the following technical scheme:

an inductive stub protection device comprising:

a base on which a winding assembly for winding the coil is rotatably installed;

the adhesive tape assembly is arranged at the end part of the positioning wire head on the winding assembly, an adhesive tape for encapsulating the positioning wire head is movably arranged in the adhesive tape assembly, and the adhesive tape assembly is arranged on the winding assembly through the assembly frame; and

the transmission assembly is arranged at the joint of the adhesive tape assembly and the assembly frame and is used for driving the adhesive tape assembly to rotate along the central axis of the positioning wire head.

As a further scheme of the application: the tape assembly includes:

the adhesive tape is movably arranged in the adhesive tape box, and the movable end of the adhesive tape extends out of the adhesive tape box through an outlet on the adhesive tape box; and

the first guide plate and the second guide plate are respectively fixed on two sides of the outlet, and a sliding cavity used for penetrating through the movable end of the adhesive tape is formed between the first guide plate and the second guide plate.

As a further scheme of the application: the end part of the first guide plate, which is far away from the glue box, is provided with an arc-shaped plate, and the arc-shaped plate is provided with a limiting piece for limiting the adhesive tape.

As a further scheme of the application: the second guide plate is provided with a cutting opening for cutting the adhesive tape, and the cutting opening is in sliding fit with the guard plate.

As a further scheme of the application: the guard also includes a cutting assembly comprising:

the connecting rod is arranged on the first guide plate and driven by the linear driving source; and the cutting knife is rotatably arranged at the end part of the connecting rod, facing the cutting opening, and is driven by the first driving source.

As a further scheme of the application: the transmission assembly includes:

the rotating ring is rotatably connected with a positioning shaft fixed on the assembly frame at the central position, the positioning shaft penetrates through the rotating ring to be arranged, the rotating ring is driven to rotate by a second driving source, and the rotating ring and the end part of the positioning thread head are coaxially arranged; and

one end of the first movable rod is rotatably arranged on the swivel, and the other end of the first movable rod is fixedly connected with the rubber box.

As a further scheme of the application: the first movable rod is of a telescopic structure, a sliding block is fixed at the end part, connected with the rubber box, of the first movable rod, a vortex type sliding rail is fixed at the end part, close to the rubber box, of the positioning shaft, the sliding rail is wound on the outer side of the swivel, and the sliding block is in sliding clamping with the sliding rail.

As a further scheme of the application: the guard also includes a hold-down assembly, the hold-down assembly including:

one end of the second movable rod is rotatably arranged on the swivel, and the other end of the second movable rod is fixedly provided with a pressing plate; and

and the two ends of the elastic piece are respectively connected with the second movable rod and the swivel so as to enable the pressing plate to be clung to the end part of the positioning thread.

As a further scheme of the application: and a protective piece is arranged on the contact surface of the pressing plate and the end part of the positioning wire head.

The application has the beneficial effects that:

(1) According to the application, the coil is positioned by the winding assembly, the tape assembly and the positioning wire head synchronously rotate along with the rotation of the winding assembly in the process of winding the coil by the rotation of the winding assembly, and meanwhile, the transmission assembly drives the tape assembly to rotate by taking the central shaft of the positioning wire head as an axis, so that the tape in the tape assembly can be wound at the end part of the positioning wire head, the winding of the coil is realized, the encapsulation of the positioning wire head is realized, the protection of the enamelled wire head is further realized, and the problem that the enamelled wire head is scratched in the winding process of the coil is avoided;

(2) According to the application, the automatic cutting of the adhesive tape after the encapsulation is finished is realized by adopting the cutting assembly, so that the automation degree of the device is improved;

(3) According to the application, the adhesive tape wound at the end part of the positioning wire head is compacted by the compacting component, so that the tightness of the encapsulation is effectively improved, and the problem that the adhesive tape is easy to separate is avoided.

Drawings

The application is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of a prior art structure;

FIG. 2 is a schematic diagram of the overall structure of the present application;

FIG. 3 is a schematic view of the construction of the tape assembly of the present application;

FIG. 4 is a schematic view of the construction of the shield of the present application;

FIG. 5 is a schematic view of the structure of the cutting assembly of the present application;

fig. 6 is a schematic view of the structure of the pressing assembly of the present application.

In the figure: 1. a base; 2. a winding assembly; 3. an adhesive tape assembly; 301. a glue box; 302. an outlet; 303. a first guide plate; 304. a second guide plate; 305. an arc-shaped plate; 306. cutting a port; 307. a chute; 308. a guard board; 4. a transmission assembly; 401. a swivel; 402. positioning a shaft; 403. a first movable lever; 404. a slide block; 405. a slide rail; 5. a cutting assembly; 501. a connecting rod; 502. a cutting knife; 6. a compression assembly; 601. a second movable rod; 602. an elastic member; 603. a pressing plate; 604. a guard; 7. and assembling the frame.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 2-4, the present application is an inductance wire head protection device, comprising:

a base 1 on which a winding assembly 2 for winding a coil is rotatably installed;

the adhesive tape assembly 3 is arranged at the end part of the positioning wire head on the winding assembly 2, an adhesive tape for encapsulating the positioning wire head is movably arranged in the adhesive tape assembly 3, and the adhesive tape assembly 3 is arranged on the winding assembly 2 through the assembly frame 7; and

the transmission assembly 4 is arranged at the joint of the adhesive tape assembly 3 and the assembly frame 7 and is used for driving the adhesive tape assembly 3 to rotate along the central axis of the positioning wire head.

The winding assembly 2 is a prior art, and the application is not improved, so that specific mechanical structures and circuit structures thereof are not required to be disclosed, and the integrity of the application is not affected.

In one case of the present embodiment, the positioning wire end of the coil is positioned on the winding assembly 2, and the winding assembly 2 can wind the coil on the winding assembly 2 when the winding assembly 2 is driven to rotate by a rotation driving source, which may be a motor assembly, a gear assembly or a pulley assembly driven by a motor, so long as the winding assembly 2 can be rotated, and the present embodiment is not particularly limited herein.

When the coil winding process is actually applied, the adhesive tape assembly 3 and the positioning wire head synchronously rotate along with the rotation of the winding assembly 2, and the transmission assembly 4 drives the adhesive tape assembly 3 to rotate by taking the central shaft of the positioning wire head as an axis, so that the adhesive tape in the adhesive tape assembly 3 can be wound at the end part of the positioning wire head, the coil winding is realized, the positioning wire head is encapsulated, the protection of the enamelled wire head is further realized, and the problem that the enamelled wire head is scratched in the coil winding process is avoided.

As shown in fig. 2 to 4, the tape assembly 3, as a preferred embodiment of the present application, includes:

the adhesive tape is movably arranged in the adhesive tape box 301, and the movable end of the adhesive tape extends out of the adhesive tape box 301 through an outlet 302 on the adhesive tape box 301; and

the first guide plate 303 and the second guide plate 304 are respectively fixed at two sides of the outlet 302, and a sliding cavity for passing through the movable end of the adhesive tape is formed between the first guide plate 303 and the second guide plate 304.

In one case of this embodiment, the end of the first guide plate 303 away from the glue box 301 is wedge-shaped, and the extending direction of the wedge-shape is towards the positioning thread end.

Of course, in addition to the above-mentioned structure, the adhesive tape assembly 3 may be a positioning column having a guiding plate, and the adhesive tape may be positioned, which is not limited herein.

In practical application, one side plate of the adhesive tape box 301 is connected with the box body in a snap-in manner, and a positioning column is arranged on the side plate, after the side plate is disassembled, the adhesive tape is placed in the box body of the adhesive tape box 301, so that the positioning column is inserted into the central gap of the adhesive tape, the movable end of the adhesive tape passes through the outlet 302 and enters the sliding cavity, and then the side plate is clamped with the box body, so that the adhesive tape can be installed and positioned.

As shown in fig. 3-4, as a preferred embodiment of the present application, an arc-shaped plate 305 is disposed at the end of the first guide plate 303 away from the glue box 301, and a limiting member for limiting the adhesive tape is disposed on the arc-shaped plate 305.

In one case of this embodiment, the limiting member may be a positioning ring through which the adhesive tape passes, or may be an L-shaped positioning block disposed opposite to each other, where the L-shaped positioning block is disposed at two side edge portions of the adhesive tape to limit the adhesive tape, and the limiting member is not limited herein.

As shown in fig. 3 to 4, as a preferred embodiment of the present application, the second guide plate 304 is provided with a cutting opening 306 for cutting the adhesive tape, and the cutting opening 306 is slidably engaged with the guard plate 308.

In one case of this embodiment, the guard plate 308 is slidably engaged with the sliding grooves 307 disposed on both sides of the cutting opening 306, and the guard plate 308 is U-shaped.

In practical application, the protecting plate 308 is slidably mounted at the cutting opening 306 in the coil winding process, so that the adhesive tape passing through the cutting opening 306 can be protected, dust is prevented from falling onto the adhesive tape to affect the encapsulation of the end part of the positioning wire, and the practicability of the device is improved.

As shown in fig. 2 to 5, as a preferred embodiment of the present application, the guard further includes a cutting assembly 5, and the cutting assembly 5 includes:

a connecting rod 501 mounted on the first guide plate 303 and driven by a linear driving source; and

the cutter 502 is rotatably mounted to an end of the connecting rod 501 facing the cutting port 306, and is driven by a first driving source.

The connecting rod 501 may be configured as a telescopic structure as shown in fig. 5, and the telescopic structure is formed by nesting multiple stages of pipes, and may be a rack-and-pinion structure or an electric telescopic structure in practical application, which is not limited herein.

In one case of the present embodiment, the linear driving source may be a hydraulic cylinder, an air cylinder, or other mechanisms capable of implementing linear motion, which is not specifically limited herein; the first driving source may be a motor assembly, or may be a gear assembly or a belt pulley assembly driven by a motor, so long as the cutter 502 can be rotated.

In addition to the above structure, the cutting assembly 5 may also directly drive the blade by using a hydraulic cylinder to cut the adhesive tape.

In the embodiment, when in practical application, in an initial state, the distance between the cutting knife 502 and the adhesive tape is the largest, after the encapsulation is finished, the first driving source drives the cutting knife 502 to rotate, the linear driving source drives the connecting rod 501 to enable the cutting knife 502 to move towards the adhesive tape and cut the adhesive tape, so that automatic cutting of the adhesive tape after the encapsulation is finished is realized, and the practicability of the device is improved.

As shown in fig. 2 to 6, as a preferred embodiment of the present application, the transmission assembly 4 includes:

the swivel 401, the central position of which is rotatably connected with a positioning shaft 402 fixed on the assembly frame 7, and the positioning shaft 402 runs through the swivel 401, the swivel 401 is driven to rotate by a second driving source, and the swivel 401 and the end part of the positioning thread are coaxially arranged; and

one end of the first movable rod 403 is rotatably mounted on the swivel 401, and the other end is fixedly connected with the glue box 301.

In one case of the present embodiment, the second driving source may be a motor assembly, or may be a gear assembly or a pulley assembly driven by a motor, so long as the swivel 401 can be rotated, which is not particularly limited herein.

Of course, besides the above structure, the transmission assembly 4 may also use a hydraulic cylinder to drive one end of the movable rod to move, so that the end of the movable rod turns over, and the adhesive tape is wound on the end of the positioning thread, which is not limited herein.

In practical application, the movable end of the adhesive tape in the sliding cavity is stuck to the end of the positioning wire head, then the winding assembly 2 rotates and drives the transmission assembly 4 to rotate synchronously, and meanwhile, the second driving source drives the swivel 401 to rotate with the central shaft of the positioning shaft 402 as an axis, so that the connecting end of the first movable rod 403 and the adhesive tape box 301 rotate along the end of the positioning wire head, and then the adhesive tape rotates around the end of the positioning wire head and encapsulates the end of the positioning wire head.

As shown in fig. 6, as a preferred embodiment of the present application, the first movable rod 403 has a telescopic structure, a slider 404 is fixed at the end of the first movable rod 403 connected to the glue box 301, a vortex-type slide rail 405 is fixed at the end of the positioning shaft 402 near the glue box 301, the slide rail 405 is wound around the outer side of the swivel 401, and the slider 404 is slidably engaged with the slide rail 405.

The rotation direction of the swivel 401 is the same as the extending direction of the sliding rail 405.

In one case of the embodiment, the telescopic structure is a structure formed by nesting multiple stages of pipes, and a structure of a rack and pinion and an electric telescopic rod can be adopted in practical application, which is not limited herein.

In practical application, in the initial state, the slider 404 is located at the lowest end of the sliding rail 405, the swivel 401 rotates to drive the slider 404 to rotate, and the sliding rail 405 is fixedly arranged on the positioning shaft 402 due to the sliding engagement of the slider 404 and the vortex-type sliding rail 405, so that when the swivel 401 rotates, the slider 404 moves along the sliding rail 405, and meanwhile, the first movable rod 403 deforms, so that the adhesive box 301 can linearly move in the axial direction of the positioning wire head while rotating around the end of the positioning wire head, the situation that the adhesive tape is excessively thick at the position due to winding of the adhesive tape at the end of the positioning wire head can be avoided, and the encapsulation efficiency is improved.

As shown in fig. 6, as a preferred embodiment of the present application, the protection device further includes a pressing assembly 6, and the pressing assembly 6 includes:

a second movable rod 601, one end of which is rotatably mounted on the swivel 401, and the other end of which is fixedly provided with a pressing plate 603; and

and the two ends of the elastic piece 602 are respectively connected with the second movable rod 601 and the swivel 401 so as to enable the pressing plate 603 to be tightly attached to the end part of the positioning thread.

In one case of this embodiment, the elastic member 602 may be a spring as shown in fig. 6, or may be replaced by another elastic member, such as a silica gel column, a spring plate, etc., which is not limited in this embodiment.

Besides the above structure, the pressing component 6 may also be a movable rod limited by magnetic force, so long as the adhesive tape on the positioning wire head can be pressed, which is not limited herein.

In practical application, as the adhesive tape is wound on the end part of the positioning wire head, the pressing plate 603 can press the adhesive tape tightly attached to the positioning wire head, the elastic force of the elastic piece 602 enables the pressing plate 603 to be tightly attached to the end part of the positioning wire head, the diameter of the end part of the positioning wire head gradually becomes larger along with the progress of encapsulation, the end part of the pressing plate 603 provided with the pressing plate 603 is gradually far away from the swivel 401, the elastic piece 602 deforms, and meanwhile the elastic force enables the pressing plate 603 to be tightly attached to the end part of the positioning wire head, so that encapsulation is more fastened.

As shown in fig. 6, as a preferred embodiment of the present application, a guard 604 is provided on the contact surface between the pressing plate 603 and the end of the positioning wire.

The guard 604 is made of a resilient material, such as sponge, rubber, etc., which is not illustrated herein; in practical application, the protecting piece 604 can effectively reduce the abrasion of the pressing plate 603 and the positioning thread end, and prolong the service life of the device.

The working principle of the application is as follows: according to the inductance thread end protection device provided by the embodiment of the application, the positioning thread end of the coil is positioned through the winding component 2, the adhesive tape component 3 and the positioning thread end synchronously rotate along with the rotation of the winding component 2 in the process of winding the coil by the rotation of the winding component 2, and meanwhile, the transmission component 4 drives the adhesive tape component 3 to rotate by taking the central axis of the positioning thread end as an axis, so that the adhesive tape in the adhesive tape component 3 can be wound at the end part of the positioning thread end, the winding of the coil is realized, the encapsulation of the positioning thread end is realized, the protection of the enamelled thread end is further realized, and the problem that the enamelled thread end is scratched in the winding process of the coil is avoided.

The foregoing describes one embodiment of the present application in detail, but the description is only a preferred embodiment of the present application and should not be construed as limiting the scope of the application. All equivalent changes and modifications within the scope of the present application are intended to be covered by the present application.

Claims

1. An inductive stub protection device, comprising:

a base (1) on which a winding assembly (2) for winding a coil is rotatably mounted;

the adhesive tape assembly (3) is arranged at the end part of the positioning wire end on the winding assembly (2), an adhesive tape for encapsulating the positioning wire end is movably arranged in the adhesive tape assembly (3), and the adhesive tape assembly (3) is arranged on the winding assembly (2) through the assembly frame (7); and

the transmission assembly (4) is arranged at the joint of the adhesive tape assembly (3) and the assembly frame (7) and is used for driving the adhesive tape assembly (3) to rotate along the central axis of the positioning wire head;

the tape assembly (3) comprises:

the adhesive tape is movably arranged in the adhesive tape box (301), and the movable end of the adhesive tape extends out of the adhesive tape box (301) through an outlet (302) on the adhesive tape box (301); and

the first guide plate (303) and the second guide plate (304) are respectively fixed on two sides of the outlet (302), and a sliding cavity for penetrating through the movable end of the adhesive tape is formed between the first guide plate (303) and the second guide plate (304);

the transmission assembly (4) comprises:

the rotating ring (401) is rotatably connected with a positioning shaft (402) fixed on the assembly frame (7) at the central position, the positioning shaft (402) penetrates through the rotating ring (401), the rotating ring (401) is driven to rotate by a second driving source, and the rotating ring (401) and the end part of the positioning thread are coaxially arranged; and

one end of the first movable rod (403) is rotatably arranged on the swivel (401), and the other end of the first movable rod is fixedly connected with the rubber box (301);

the first movable rod (403) is of a telescopic structure, a sliding block (404) is fixed at the end part, connected with the glue box (301), of the first movable rod (403), a vortex type sliding rail (405) is fixed at the end part, close to the glue box (301), of the positioning shaft (402), the sliding rail (405) is wound on the outer side of the swivel (401), and the sliding block (404) is in sliding clamping with the sliding rail (405).

2. The inductance wire head protection device according to claim 1, wherein an arc-shaped plate (305) is arranged at an end of the first guide plate (303) far away from the glue box (301), and a limiting piece for limiting the adhesive tape is arranged on the arc-shaped plate (305).

3. The inductive stub protection device of claim 1, wherein the second guide plate (304) is provided with a cutting opening (306) for cutting the adhesive tape, and the cutting opening (306) is in sliding fit with the guard plate (308).

4. The inductive stub protection device of claim 1, further comprising a cutting assembly (5), the cutting assembly (5) comprising:

a connecting rod (501) mounted on the first guide plate (303) and driven by a linear driving source; and

the cutter (502) is rotatably mounted on the end of the connecting rod (501) facing the cutting opening (306) and is driven by a first driving source.

5. The inductive stub protection device of claim 1, further comprising a hold-down assembly (6), the hold-down assembly (6) comprising:

a second movable rod (601), one end of which is rotatably mounted on the swivel (401), and the other end of which is fixedly provided with a pressing plate (603); and

and the two ends of the elastic piece (602) are respectively connected with the second movable rod (601) and the swivel (401) so as to enable the pressing plate (603) to be tightly attached to the end part of the positioning thread.

6. The inductive stub protection device of claim 5, wherein a protection (604) is provided on the contact surface of the platen (603) with the positioning stub end.