CN115108407B

CN115108407B - Self-locking type electric wire winder

Info

Publication number: CN115108407B
Application number: CN202211050730.3A
Authority: CN
Inventors: 孙亚林; 王金友
Original assignee: Jiangsu Huawei Photoelectric Technology Co ltd
Current assignee: Jiangsu Huawei Photoelectric Technology Co ltd
Priority date: 2022-08-31
Filing date: 2022-08-31
Publication date: 2022-11-25
Anticipated expiration: 2042-08-31
Also published as: CN115108407A

Abstract

The invention relates to the field of wire storage, in particular to a self-locking type electric wire winder, which comprises a cylinder, a plurality of wire locking buckles and a pushing mechanism, wherein the cylinder is hollow, each wire locking buckle comprises an installation part, a clamping part and a locking part, the installation part is arranged on the side wall of the cylinder in a vertically sliding manner, the clamping part is telescopic, and the outer end part of the clamping part can extend out of the cylinder from a sliding rail; all the wire locking buckles are connected in close row in sequence initially. When the wire locking device is used, a wire to be stored is spirally wound on the cylinder for a plurality of circles, the pushing mechanism pushes the wire locking buckle to move upwards, and the wire locking buckle is separated one by one and clamped with the coils of the wire one by one in the process of moving upwards, so that the wire is prevented from being loosened and positioned, and the storage effect is improved; simultaneously, the winding density is not influenced when the wire is wound, the wire locking buckle is fixed when meeting the coil, the operation is convenient, and the practicability is high.

Description

Self-locking type electric wire winder

Technical Field

The invention relates to the field of wire storage, in particular to a self-locking wire winder.

Background

A winder is a device for storing a strip, ribbon or filamentary material, typically by winding the wire on a spool to support or hold the wire for storage and handling. With the rapid development of social economy, electrical appliance and intellectualization are mostly realized in industrial production and resident life, so that a plurality of wires and cables are arranged in workshops, offices and residences, the wires of some machines, household appliances and the like are long, so that the sites are messy, the redundant wires are wound together, the heat collection phenomenon of the wound wires can be caused if the heat can not be dissipated timely, and meanwhile, once some wires are damaged or overheated, a magnetic field can be generated around the wires, and other wires around the wires are influenced.

The problem of wire overlength is often solved through using the spooler to connect among the prior art, chinese patent document for example application No. 201520025061.3 just discloses a spooler, and this spooler includes a base and a cover body, and the body outside of base is located to the cover body cover and can rotate for the body, stretches into and twines at the periphery wall of body with the electric wire from the body is inside during the use, pulls out from the cover body at last to solve the problem of electric wire arrangement storage, but in this scheme, the electric wire winding is easy loose on the cylinder and runs the position, and the effect of accomodating is limited.

Disclosure of Invention

According to the defects of the prior art, the invention provides a self-locking type electric wire winder, which aims to solve the problems that when an electric wire is wound and stored in the conventional winder, the electric wire is easy to loosen and run, and the storage effect is poor.

The self-locking type electric wire winder adopts the following technical scheme: the method comprises the following steps:

the inner part of the column body is hollow and vertically extends, a sliding rail communicated with the inner part of the column body is arranged on the side wall of the column body, and the electric wire is spirally wound on the outer peripheral wall of the column body;

the installation part can be arranged on the side wall of the column body in a vertically sliding mode and comprises an upper base body and a lower base body, the clamping part is arranged on the lower base body in a telescopic mode, and the outer end part of the clamping part can extend out of the column body from the sliding rail; in the two adjacent initial wire locking buckles, the clamping part of the upper wire locking buckle and the lower base body of the mounting part are positioned in the upper base body of the mounting part of the lower wire locking buckle, so that all the wire locking buckles are sequentially connected in a dense arrangement; in the process that all the wire locking buckles move upwards, the clamping part of the wire locking buckle at the lowest part is firstly clamped with the lowest ring of the electric wire, and then the rest wire locking buckles are sequentially separated from bottom to top in the moving process and are clamped with the coils of the electric wire one by one; the locking part is used for locking the corresponding wire locking buckle and the cylinder after being clamped with the electric wire;

and the pushing mechanism is positioned in the column body and used for pushing the wire locking buckle to move upwards.

Optionally, the clamping portion includes a main clamping component and an auxiliary clamping component;

the main clamping component comprises a clamping block, and a clamping line slot which is arc-shaped and has an upward opening is formed in the clamping block; the inner end of the clamping block is provided with a sliding rod which can be inserted into the lower base body of the mounting part in a sliding manner along the radial direction, the sliding rod is sleeved with a first spring, the outer end of the first spring is connected with the clamping block, the inner end of the first spring is connected with the lower base body of the mounting part, and the clamping block is enabled to extend out of the cylinder by the initial first spring;

the auxiliary clamping assembly comprises a clamping ring and a second spring, the clamping ring is arc-shaped and can be arranged on the clamping block in an arc-shaped sliding mode around the circle center of the clamping line groove, the outer end of the clamping ring can extend out of the clamping block, the outer end of the second spring is connected with the clamping block, the inner end of the second spring is connected with the inner end of the clamping ring, and the clamping ring retracts into the clamping block through the initial second spring.

Optionally, the locking part comprises a positioning support and a third spring, an articulated shaft is arranged in the fixture block in a slidable manner along the radial direction, two positioning supports are arranged, one end of each positioning support is articulated with the articulated shaft, and the other ends of the two positioning supports respectively extend out of two side walls of the fixture block in a sliding manner and are connected with a limiting column on the side wall of the fixture block in a sliding manner; the outer end of the third spring is connected with the inner end of the retaining ring, and the inner end of the third spring is connected with the hinge shaft.

Optionally, the pushing mechanism comprises a pushing spring and a top plate connected to the upper end of the pushing spring, the lower end of the pushing spring is connected to the inner bottom surface of the cylinder, the top plate can abut against a sliding rod extending into the cylinder, a pluggable staple bolt is arranged on the side wall of the cylinder, and the inner end of the initial staple bolt blocks the top plate to move upwards.

Optionally, an installation chute is arranged inside the upper base body of the installation portion, a guide inclined plane is arranged on the upper portion of the outer end of the installation chute, the guide inclined plane inclines inwards, the upper surface of the outer end of the fixture block is an arc-shaped curved surface which is arched outwards, and when the clamping portion of the previous one of the two adjacent wire locking buckles is located inside the upper base body of the next installation portion, the corresponding arc-shaped curved surface is abutted to the guide inclined plane.

Optionally, a sliding hole and a reserved ring groove are formed in the lower base body of the mounting portion, the sliding hole is through from inside to outside, the sliding rod is arranged in the sliding hole in a sliding mode, the reserved ring groove and the sliding hole are coaxially arranged and located on the periphery of the sliding hole, the reserved ring groove penetrates through the outer end face of the lower base body, and the first spring is arranged in the reserved ring groove.

Optionally, be provided with the arc mounting groove that runs through card wire casing surface on the fixture block, the cross-section of arc mounting groove is T shape and its narrow groove mouth meets with the card wire casing, and the buckle slidable sets up in the wide notch of arc mounting groove, and the lateral wall at the narrow notch of arc mounting groove is connected to the outer end of second spring, and when contracting to the limit in the buckle, the high slope setting in the outer low of second spring.

Optionally, the periphery wall of cylinder is provided with first spacing ring and second spacing ring from top to bottom at interval, and it is regional to inject the wire winding between first spacing ring and the second spacing ring, all is provided with the card line mouth on first spacing ring and the second spacing ring.

The invention has the beneficial effects that: the self-locking type electric wire winder is provided with the cylinder, the plurality of wire locking buckles and the pushing mechanism, when the self-locking type electric wire winder is used, an electric wire is spirally wound on the cylinder for a plurality of circles, the pushing mechanism pushes the wire locking buckles to move, the clamping part of the lowest wire locking buckle is firstly clamped with the lowest circle of the electric wire in the moving process of the wire locking buckles, and then the rest wire locking buckles are sequentially separated from bottom to top and are clamped with coils of the electric wire one by one in the moving process, so that the electric wire is prevented from being loosened and positioned, and the accommodating effect is improved; meanwhile, when the electric wire is wound, the electric wire winding device is not influenced by the winding density of the electric wire, can be wound randomly, and is convenient to operate and high in practicability when the wire locking buckle meets the coil to fix the wire locking buckle.

Drawings

In order to illustrate embodiments of the invention or prior art solutions more clearly, the drawings that are needed in the description of the embodiments or prior art will be briefly described below, it being apparent that the drawings in the following description are only some embodiments of the invention and that other drawings may be derived from those without inventive effort by a person skilled in the art, it being understood that the drawings are not necessarily drawn to scale.

Fig. 1 is a schematic view of an overall structure of a self-locking type electric wire winder of the present invention;

FIG. 2 is another schematic view of the self-locking type electric wire winder of the present invention;

FIG. 3 is a schematic view of the connection of two adjacent wire-locking buckles (the hidden mounting portion of the wire-locking buckle located above) in the present invention;

FIG. 4 is a schematic structural view of a mounting portion of the wire-locking buckle of the present invention;

FIG. 5 is a schematic structural view of a locking wire buckle of the present invention;

FIG. 6 is a cutaway perspective view of a self-locking type electric wire winder of the present invention;

FIG. 7 is an enlarged view taken at A in FIG. 6;

FIG. 8 is an enlarged view of FIG. 6 at B;

fig. 9 is an enlarged view of fig. 6 at C.

In the figure: 100. an electric wire; 200. a cylinder; 210. a slide rail; 220. a staple bolt; 230. a wire clamping port; 250. a top plate; 260. pushing a spring; 270. a first limit ring; 280. a second stop collar; 300. locking the wire; 310. an installation part; 311. installing a chute; 312. a slide hole; 313. reserving a ring groove; 314. a guide ramp; 318. an upper substrate; 319. a lower substrate; 320. a clamping part; 321. an arc-shaped curved surface; 322. a slide bar; 323. a first spring; 324. reserving a groove; 325. a wire clamping groove; 329. a clamping block; 330. a retaining ring; 331. a second spring; 340. positioning and supporting; 341. a third spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1 to 9, the self-locking wire winder of the present invention includes a cylinder 200, a plurality of wire locking buckles 300, and a pushing mechanism.

The cylinder 200 is hollow and vertically extended, the side wall of the cylinder 200 is provided with a slide rail 210 communicating the inside thereof, and the electric wire 100 is spirally wound on the outer circumferential wall of the cylinder 200.

Each wire locking buckle 300 comprises a mounting portion 310, a clamping portion 320 and a locking portion, the mounting portion 310 can be arranged on the side wall of the cylinder 200 in a vertically sliding mode and comprises an upper base body 318 and a lower base body 319, the clamping portion 320 is telescopically arranged on the lower base body 319, and the outer end portion of the clamping portion can extend out of the cylinder 200 from the sliding rail 210.

In two adjacent original wire lockers 300, the clamping part 320 of the upper wire locker 300 and the lower base 319 of the mounting part 310 are positioned inside the upper base 318 of the mounting part 310 of the lower wire locker 300, so that all the wire lockers 300 are sequentially connected in a close-packed manner; in the process that all the wire-locking buckles 300 move upwards, the clamping part 320 of the wire-locking buckle 300 at the lowest part is firstly clamped with the lowest ring of the electric wire 100, and then the rest wire-locking buckles 300 are sequentially separated from bottom to top in the moving process and are clamped with the coils of the electric wire 100 one by one; the locking portion is used to lock the corresponding wire locking clasp 300 with the cylinder 200 after the wire 100 is clamped with the wire locking clasp 300, so that the wire locking clasp 300 can be separated from each other. The pushing mechanism is located inside the cylinder 200 and used for pushing the wire locking buckle 300 to move upwards.

It should be noted that the column 200 is not limited to vertical use, and the illustration of the column 200 extending vertically is merely for convenience of description. Spirally winding a plurality of turns of the electric wire 100 to be stored on the cylinder 200, and then fixing the electric wire 100 one by using the wire locking buckle 300 so as to prevent the electric wire 100 from loosening and running, thereby improving the storage effect; meanwhile, when the wire 100 is wound, the invention is not influenced by the winding density of the wire 100, and can be wound at will, when the wire locking buckle 300 meets a coil, the wire locking buckle is fixed, the operation is convenient, and the practicability is strong.

In a further embodiment, as shown in fig. 3 and 5, the clamping portion 320 includes a main clamping component and an auxiliary clamping component.

The main clamping assembly comprises a clamping block 329, and a clamping line groove 325 which is arc-shaped and has an upward opening is formed in the clamping block 329; a sliding rod 322 is arranged at the inner end of the fixture block 329, the sliding rod 322 is inserted into the lower base 319 of the mounting part 310 in a sliding manner along the radial direction, a first spring 323 is sleeved on the sliding rod 322, the outer end of the first spring 323 is connected with the fixture block 329, and the inner end of the first spring 323 is connected with the lower base 319 of the mounting part 310; the initial first spring 323 urges the catch 329 outwardly from the cylinder 200.

The auxiliary clamping assembly comprises a retaining ring 330 and a second spring 331, the retaining ring 330 is arc-shaped and can be arranged on the clamping block 329 in an arc-shaped sliding mode around the circle center of the clamping groove 325, the outer end of the retaining ring 330 can extend out of the clamping block 329, the outer end of the second spring 331 is connected with the clamping block 329, the inner end of the second spring 331 is connected with the inner end of the retaining ring 330, and the second spring 331 enables the retaining ring 330 to retract into the clamping block 329 initially. Through the cooperation of the block 329 and the snap ring 330, during the upward movement of the wire locking buckle 300, the block 329 firstly captures the coil of the wire 100, and then the snap ring 330 extends to buckle the coil, thereby finally locking the position of the coil.

In a further embodiment, to facilitate the installation of the main clamping assembly, as shown in fig. 4, a sliding hole 312 and a preformed groove 313 are provided inside the lower base 319 of the installation portion 310, the sliding hole 312 penetrates through the inside and the outside, the sliding rod 322 is slidably disposed inside the sliding hole 312, the preformed groove 313 is disposed coaxially with the sliding hole 312 and located on the periphery of the sliding hole 312, the preformed groove 313 penetrates through the outer end surface of the lower base 319, and the first spring 323 is disposed inside the preformed groove 313.

In order to facilitate the installation of the auxiliary clamping assembly, an arc-shaped installation groove penetrating through the surface of the clamping groove 325 is formed in the clamping block 329, the section of the arc-shaped installation groove is T-shaped, a narrow groove opening of the arc-shaped installation groove is connected with the clamping groove 325, the retaining ring 330 is slidably arranged in a wide groove opening of the arc-shaped installation groove, the outer end of the second spring 331 is connected to the side wall of the narrow groove opening of the arc-shaped installation groove, when the retaining ring 330 retracts to the limit, the second spring 331 is obliquely arranged in a low-outer mode and in a high-inner mode, so that the retaining ring 330 is reliably retracted, when the second spring 331 is extruded by the electric wire 100, and when the inner end moves outwards, the second spring 331 can drive the retaining ring 330 to rapidly extend as long as the second spring 331 crosses the horizontal position.

In a further embodiment, as shown in fig. 9, the locking portion includes two positioning supports 340 and a third spring 341, an articulation shaft is disposed in the inside of the fixture block 329 in a radially slidable manner, two positioning supports 340 are disposed, one end of each of the two positioning supports 340 is articulated with the articulation shaft, and the other end of each of the two positioning supports 340 respectively extends out of two side walls of the fixture block 329 in a slidable manner and is connected with a limiting post (not shown) on a side wall of the fixture block 329; the third spring 341 has an outer end connected to the inner end of the retaining ring 330 and an inner end connected to the hinge shaft. Specifically, the two side walls of the fixture block 329 are provided with reserved grooves 324 for the positioning support 340 to extend out, the positioning support 340 is provided with a long circular hole, a limiting column on the side wall of the fixture block 329 is inserted into the long circular hole and is in sliding fit with the long circular hole, one end of the positioning support 340 extending out of the fixture block 329 is provided with a top head, and the end surface of the top head is an arc surface so as to clamp the two side walls of the slide rail 210 on the column 200.

In a further embodiment, as shown in fig. 3, 4 and 5, in order to facilitate reliable connection of adjacent wire-locking clasps 300, a mounting sliding slot 311 is provided inside an upper base 318 of the mounting portion 310, a guiding inclined plane 314 is provided on an upper portion of an outer end of the mounting sliding slot 311, the guiding inclined plane 314 is inclined inward, an upper surface of an outer end of the latch 329 is an outwardly arched curved surface 321, and when the latch 320 of a previous one of the adjacent two wire-locking clasps 300 is located inside the upper base 318 of the next mounting portion 310, the corresponding curved surface 321 interferes with the guiding inclined plane 314. Under the action of no external force, the guiding inclined surface 314 locks the corresponding block 329 in the mounting chute 311, and after the lower wire locking buckle 300 is fixed, under the pushing action of the external force, the guiding wire surface pushes the block 329 inwards, so that the block 329 can be separated from the corresponding mounting chute 311 and move upwards.

In a further embodiment, the pushing mechanism includes a pushing spring 260 and a top plate 250 connected to the upper end of the pushing spring 260, the lower end of the pushing spring 260 is connected to the inner bottom surface of the column 200, when the clamping portion 320 of the upper latch 300 is located in the upper base 318 of the mounting portion 310 of the lower latch 300 in two adjacent latch 300, the inner end of the sliding rod 322 of the upper latch 300 extends to the inner space of the column 200, the top plate 250 can abut against the sliding rod 322 extending to the inside of the column 200, the side wall of the column 200 is provided with a pluggable staple 220, and the inner end of the initial staple 220 obstructs the top plate 250 from moving upwards.

In a further embodiment, as shown in fig. 1 and 2, a first limit ring 270 and a second limit ring 280 are arranged on the outer circumferential wall of the cylinder 200 at intervals up and down, a winding area is defined between the first limit ring 270 and the second limit ring 280, both the first limit ring 270 and the second limit ring 280 are provided with wire clamping openings 230, and both ends of the electric wire 100 to be wound are clamped in the wire clamping openings 230 so as to fix both ends of the electric wire 100. The clamp 220 may be disposed on the second retainer ring 280 to ensure that the lowest wire-locking buckle 300 is initially located below the lowest coil.

The following is a detailed description of the principles and operation of the present invention in connection with the above embodiments.

The initial pushing mechanism is in a locked state, so that all the wire locking buckles 300 are closely arranged and connected and are positioned at the lowest part.

When the electric wire winding device is used, an electric wire 100 which needs to be stored by an electric appliance or equipment is spirally wound between the winding sections defined by the first limiting ring 270 and the second limiting ring 280, and two ends of the electric wire 100 are respectively fixed in the wire clamping openings 230, if the electric wire 100 is long, the electric wire can be wound relatively densely, and if the electric wire 100 is short, the electric wire can be wound relatively sparsely.

The clamp 220 is pulled outward, so that the clamp 220 releases the restriction of the top plate 250, and the top plate 250 moves upward under the action of the pushing spring 260 and pushes all the wire-locking buckles 300 to move upward. Because all the wire-locking buckles 300 are buckled with each other, only the clamping portion 320 of the wire-locking buckle 300 at the lowest end is in an extending state, when the wire-locking buckle 300 at the lowest end moves upwards until the clamping block 329 of the wire-locking buckle 300 at the lowest end contacts with the wire 100 at the lowest end, the wire 100 at the lowest end is blocked and moved and blocked (in practical use, the wire 100 wound around the column 200 can be slightly fixed by hands or other auxiliary devices, so that the wire 100 is prevented from running during the wire clamping process, and the clamping of the wire 100 is facilitated), meanwhile, the inner end of the second spring 331 moves outwards under the extrusion of the wire 100, so as to drive the clamping ring 330 to extend, and the clamping ring 330 grips the wire 100 after extending, so as to lock the wire 100. When the retaining ring 330 extends out, the hinge shaft of the positioning support 340 is pulled by the third spring 341 to move outwards, and the outer ends of the two positioning supports 340 are gradually opened in the process of moving the inner ends outwards and are tightly pressed against the two side walls of the slide rail 210, so that the position of the wire locking buckle 300 at the lowest end is fixed, and further, the position of the circle of wires 100 at the lowest end is fixed. After the position of the lowermost wire locking buckle 300 is fixed, under the pushing of the top plate 250, the second wire locking buckle 300 at the lower end is separated from the lowermost wire locking buckle 300, the clamping portion 320 of the second wire locking buckle extends out under the action of the first spring 323, and then all the remaining wire locking buckles continue to move upwards until the second wire locking buckle 300 at the lower end contacts with the second coil of wire 100 at the lower end and locks the wire 100, and the second wire locking buckle 300 at the lower end is fixed, so that all the wire locking buckles 300 are separated from top to bottom in sequence in the upward movement process and lock the wire 100 one by one, thereby avoiding the loose displacement of the wire 100 and improving the storage effect of the wire 100. If the wire 100 needs to be paid out for a certain length, the upper end wire locking buckle 300 can be pushed back manually.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a from locking-type electric wire spooler which characterized in that: the method comprises the following steps:

the pushing mechanism is positioned in the column body and used for pushing the wire locking buckle to move upwards; and is

The clamping part comprises a main clamping component and an auxiliary clamping component; the main clamping component comprises a clamping block, and a clamping line slot which is arc-shaped and has an upward opening is formed in the clamping block; the inner end of the clamping block is provided with a sliding rod which can be inserted into the lower base body of the mounting part in a sliding manner along the radial direction, the sliding rod is sleeved with a first spring, the outer end of the first spring is connected with the clamping block, the inner end of the first spring is connected with the lower base body of the mounting part, and the clamping block is enabled to extend out of the cylinder by the initial first spring; the auxiliary clamping assembly comprises a clamping ring and a second spring, the clamping ring is arc-shaped and can be arranged on the clamping block in an arc-shaped sliding mode around the circle center of the clamping line groove, the outer end of the clamping ring can extend out of the clamping block, the outer end of the second spring is connected with the clamping block, the inner end of the second spring is connected with the inner end of the clamping ring, and the clamping ring retracts into the clamping block through the initial second spring.

2. The self-locking wire winder as claimed in claim 1, wherein: the locking part comprises positioning supports and a third spring, a hinge shaft is arranged in the clamping block in a sliding manner along the radial direction, two positioning supports are arranged, one ends of the two positioning supports are hinged with the hinge shaft, and the other ends of the two positioning supports respectively extend out of two side walls of the clamping block in a sliding manner and are connected with limiting columns on the side walls of the clamping block in a sliding manner; the outer end of the third spring is connected with the inner end of the retaining ring, and the inner end of the third spring is connected with the hinge shaft.

3. The self-locking wire winder as claimed in claim 1, wherein: the pushing mechanism comprises a pushing spring and a top plate connected to the upper end of the pushing spring, the lower end of the pushing spring is connected with the inner bottom surface of the cylinder, the top plate can be abutted against a sliding rod extending to the inside of the cylinder, a pluggable clamp nail is arranged on the side wall of the cylinder, and the inner end of the initial clamp nail blocks the top plate to move upwards.

4. The self-locking wire winder as claimed in claim 1, wherein: the inside installation spout that is provided with of last base member of installation department, the outer end upper portion of installation spout is provided with the guide inclined plane, and the guide inclined plane leanin, the outer end upper surface of fixture block are the arc curved surface of outside hunch-up, and when the joint portion of last one was located the last base member of the installation department of next in two adjacent locking wire buckles was inside, corresponding arc curved surface was contradicted with the guide inclined plane.

5. The self-locking wire winder as claimed in claim 1, wherein: the lower base member of installation department is inside to be provided with slide opening and reserve annular, and the slide opening link up inside and outside, and the slide bar slides and sets up in the slide opening, reserves the annular and sets up with the slide opening is coaxial and be located the periphery of slide opening, reserves the annular and runs through the outer terminal surface of lower base member, and first spring sets up in reserving the annular.

6. The self-locking wire winder of claim 1, wherein: the clamping block is provided with an arc-shaped mounting groove which penetrates through the surface of the wire clamping groove, the cross section of the arc-shaped mounting groove is in a T shape, a narrow groove opening of the arc-shaped mounting groove is connected with the wire clamping groove, the retaining ring is slidably arranged in a wide groove opening of the arc-shaped mounting groove, the outer end of the second spring is connected to the side wall of the narrow groove opening of the arc-shaped mounting groove, and when the retaining ring is retracted to the limit, the second spring is arranged in a low-outer inclined mode.

7. The self-locking wire winder as claimed in claim 1, wherein: the periphery wall of cylinder is provided with first spacing ring and second spacing ring from top to bottom at the interval, and it is regional to inject the wire winding between first spacing ring and the second spacing ring, all is provided with the card line mouth on first spacing ring and the second spacing ring.