CN111776888B - Cable storage device for winding cable - Google Patents

Abstract

The invention discloses a cable storage device for winding a cable, which comprises a seat body, a rotating seat, a driving piece and a winding unit, wherein the rotating seat is arranged on the seat body; the rotating seat can rotate relative to the seat body and can translate in the axial direction of the relative rotating shaft of the rotating seat and the seat body; the rotary seat is provided with a plurality of comb-tooth parts which are arranged in a circumferential array and extend towards the seat body, and the end parts of the comb-tooth parts are contacted with the seat body in an initial state; the driving piece is in driving connection with the rotating seat, and when the driving piece is stressed to move towards the direction close to the seat body, the rotating seat moves horizontally towards the direction far away from the seat body; the winding unit can rotate along with the rotating seat, and the cable can be wound on the periphery of the winding unit. According to the circuit accommodating device, the rotating seat, the driving piece and the winding unit are arranged, the comb tooth parts formed on the rotating seat can limit cables wound on the winding unit, gaps among the comb tooth parts can allow the cables to extend out of the accommodating device, when the cables need to be wound or released, the rotating seat is lifted up and rotated only by pressing the driving piece, and the operation is convenient.

Description

Cable storage device for winding cable

Technical Field

The invention relates to the technical field of accommodating devices, in particular to a cable accommodating device for winding cables.

Background

The cable is used frequently in daily life, and big transmission of electricity cable, little power consumption equipment such as earphone all use the cable, and in cable production and use, the device structure that accomodates the cable is single, is difficult to carry out convenient accomodating to the cable.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the prior art, the invention provides the line storage device which is convenient for storing cables.

The technical scheme is as follows: in order to achieve the above purpose, the cable accommodating device for winding a cable of the invention comprises a seat body, a rotating seat, a driving piece and a winding unit;

the rotating seat can rotate relative to the seat body and can translate in the axial direction of the relative rotating shaft of the rotating seat and the seat body; the rotary seat is provided with a plurality of comb-tooth parts which are circumferentially arranged in an array and extend towards the seat body, and in an initial state, the end parts of the comb-tooth parts are in contact with the seat body;

the driving piece is in driving connection with the rotating seat, and when the driving piece is stressed to move towards the direction close to the seat body, the rotating seat translates towards the direction far away from the seat body;

the winding unit can rotate along with the rotating seat, and the cable can be wound on the periphery of the winding unit.

Furthermore, a gear is rotatably mounted on the seat body, a first rack portion is formed on the driving piece, and the gear is meshed with the first rack portion;

the gear is meshed with the second rack part; the rotating seat is fixed relative to the driven piece in the axial direction of the rotating seat and can rotate relative to the driven piece;

the first rack portion and the second rack portion are disposed on both sides of the gear.

Further, the driving piece is provided with a first spring, and the first spring enables the driving piece to have a tendency of moving in a direction away from the base body.

Further, the retaining device is included, and the retaining device enables the driving piece to be retained at a point close to one side of the seat body.

Furthermore, the seat body is provided with a first notch which extends from the edge of the seat body to the relative rotation center of the seat body and the rotating seat; the winding unit is provided with a second notch extending from the edge to the center along the axial direction of the winding unit.

Furthermore, a limiting block is slidably mounted on the seat body, the sliding direction of the limiting block is perpendicular to the first notch, and the limiting block is provided with a tip end portion extending into the first notch; and a second spring is arranged between the limiting block and the seat body.

Has the advantages that: according to the circuit accommodating device, the rotating seat, the driving piece and the winding unit are arranged, the comb tooth parts formed on the rotating seat can limit cables wound on the winding unit, gaps among the comb tooth parts can allow the cables to extend out of the accommodating device, when the cables need to be wound or released, the rotating seat is lifted up and rotated only by pressing the driving piece, and the operation is convenient.

Drawings

Fig. 1 is a first view structural diagram of a cable storage device for winding a cable;

FIG. 2 is a cross-sectional view of a cable storage device for winding a cable;

fig. 3 is a second view structural view of the cable storage device for winding a cable;

FIG. 4 is a cross-sectional view A-A of FIG. 2;

fig. 5 is a structural view of an assembly portion.

In the figure: 1-a seat body; 1-1-a first notch; 2-a rotating seat; 2-1-comb section; 2-2-circular hole; 2-3-ring groove; 3-a driving member; 3-1-a first rack portion; 3-2-a second extension; 4-a winding unit; 4-1-a second notch; 5-a gear; 6-a follower; 6-1-second rack bar portion; 6-2-a first extension; 7-a first spring; 8-a holding device; 8-1-an elastic sheet; 8-2-a holder; 8-21-hook portion; 8-22-pressing part; 9-a limiting block; 10-a stand; 10-1-extension; 11-a second spring; 12-a roller; 13-sliding guide key.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The cable accommodating device for winding a cable (hereinafter referred to as "accommodating device") as shown in fig. 1-3 comprises a seat body 1, a rotating seat 2, a driving member 3 and a winding unit 4; the rotating base 2 can rotate relative to the base body 1 and can translate in the axial direction of the relative rotating shafts of the rotating base and the base body; the rotating seat 2 is provided with a plurality of comb teeth 2-1 which are circumferentially arranged in an array and extend towards the seat body 1, and in an initial state, the end parts of the comb teeth 2-1 are in contact with the seat body 1; the driving part 3 is in driving connection with the rotating seat 2, and when the driving part 3 is forced to move towards the direction close to the seat body 1, the rotating seat 2 translates towards the direction far away from the seat body 1; the winding unit 4 can rotate along with the rotating base 2 and cannot slide relative to the rotating base 2, namely, the winding unit 4 is fixed in the axial direction of the winding unit, in the embodiment, a guide sliding key 13 is arranged between the winding unit 4 and the rotating base 2, and a cable can be wound on the periphery of the guide sliding key.

In actual use, the cable is wound on the winding unit 4, the winding unit 4 is a round roller with ring grooves for accommodating the cable, and the comb-tooth parts 2-1 on the rotating seat 2 can limit the cable wound on the winding unit 4 in the accommodating device, so that the cable is prevented from being scattered and overflowing out of the accommodating device due to the rebounding effect of the cable. When a user needs to wind or release the cable, pressing force can be applied to the driving piece 3, so that the rotating seat 2 moves in the direction away from the seat body 1, a gap for winding or releasing the cable is exposed between the end part of the comb tooth part 2-1 and the seat body 1, and the winding or releasing operation of the cable can be completed by rotating the driving piece 3. In addition, the end part of the cable can penetrate out of the gap between the two adjacent comb tooth parts 2-1, when the rotary seat 2 is rotated by a user to enable the length of the cable part outside the containing device to meet the use requirement, the cable part at the inner and outer junction of the containing device can be embedded into the gap between the adjacent comb tooth parts 2-1 to fix the length of the cable part outside the containing device in practical use, and therefore the containing device can be used for containing equipment cables and containing redundant cables into the containing device, and the situation that the excessive cable part is placed in a mess due to the fact that the equipment cables are too long is avoided.

Preferably, the structure for achieving the opposite movement of both the driving member 3 and the rotary seat 2 is as follows: a gear 5 is rotatably mounted on the seat body 1, a first rack portion 3-1 is formed on the driving piece 3, and the gear 5 is meshed with the first rack portion 3-1; the containing device further comprises a driven part 6, wherein a second rack part 61 is formed on the driven part 6, the gear 5 is meshed with the second rack part 6-1, and the rotating base 2 is fixed relative to the driven part 6 in the axial direction of the rotating base 2 and can rotate relative to the driven part 6; the first rack portion 31 and the second rack portion 6-1 are disposed on both sides of the gear 5. By adopting the structure, the driving piece 3 is pressed to lift the rotary seat 2, the pressing operation conforms to the intuition of user interaction, and the operation experience can be improved.

Preferably, the base body 1 is fixed with an upright 10, as shown in fig. 5, the upright 10 has two extending portions 10-1 extending in parallel, and the extending direction is the axial direction of the rotating base 2; a gap is reserved between the two extension parts 10-1, and the gear 5 is installed between the two extension parts 10-1 and can rotate relative to the whole upright part 10; two sides of a gap between the two extending parts 10-1 form two parallel guide chutes, in this embodiment, the two guide chutes are both V-shaped, and the driving part 3 and the driven part 6 are respectively arranged in the two guide chutes and are respectively connected with the two guide chutes in a sliding manner; in the axial direction of perpendicular to roating seat 2, the holistic outline of assembly that driving piece 3, follower 6 and two extension 10-1 four constitute is circular (as shown in fig. 4 and 5), roating seat 2 middle part is formed with circular port 2-2, circular port 2-2 cover is established around the assembly, and is formed with annular 2-3 on the pore wall of circular port 2-2, and the maximum external diameter of annular 2-3 is greater than the aperture of circular port 2-2, rotatory installation has the gyro wheel 12 that stretches into in annular 2-3 on follower 6, and gyro wheel 12 has not only played the effect of the axis motion of restriction roating seat 2, has still played the effect that makes roating seat 2 can be in the same direction as smooth rotation. By adopting the structure, the driving action of the driving part 3 and the driven part 6 plays a driving role for the rotating seat 2, the assembly body formed by the driving part 3, the driven part 6 and the two extending parts 10-1 forms a rotating shaft of the rotating seat 2, and meanwhile, the circular hole 2-2 in the rotating seat 2 forms a constraint action for the assembly stability of the assembly body. The structure design is compact and ingenious, the relative driving structure of the driving piece 3 and the rotating seat 2 is designed in a small space, the space is effectively saved, and the problem that the whole mechanical structure of the traditional design mode occupies space is solved.

In order to make the driving member 3 automatically reset after being released, the driving member also comprises a first spring 7, and the first spring 7 makes the driving member 3 have a tendency to move in a direction away from the seat body 1. Specifically, the middle part of the assembly body formed by the driving member 3, the driven member 6 and the two extending parts 10-1 is a hollow structure, the gear 5 is installed in the hollow part, the first spring 7 is also arranged in the hollow part, the driven member 6 is provided with a first extending part 6-2 extending into the hollow part, the driving member 3 is provided with a second extending part 3-2, and the first spring 7 is arranged between the first extending part 6-2 and the second extending part 3-2. With this arrangement, the first spring 7 does not need to occupy space outside the assembly.

Furthermore, it is preferable that the storage device further includes a holding device 8, the driving member 3 is pressed to move from a position far from the seat body 1 to a position near one side of the seat body 1, and the holding device 8 enables the driving member 3 to be held at a position near one side of the seat body 1. In this way, the driver 3 does not need to be pressed all the time when the cable is wound or the cable is released. The retaining device 8 comprises an elastic sheet 8-1 and a retaining member 8-2, the retaining member 8-2 is provided with a hook body portion 8-21 and a pressing portion 8-22, when the driving member 3 moves to a point position close to one side of the seat body 1, the second extending portion 3-2 is hooked by the hook body portion 8-21, so that the driving member 3 is kept fixed, and when the driving member 3 needs to be released, the pressing portion 8-22 is pressed to enable the retaining member 8-2 to lean backwards, so that the driving member 3 can be released.

Preferably, the seat body 1 is provided with a first notch 1-1 extending from the edge thereof to the relative rotation center of the seat body and the rotary seat 2; the winding unit 4 is formed with a second notch 4-1 extending from an edge thereof to a center along an axial direction thereof. Therefore, when the cable is wound, the first notch 1-1 and the second notch 4-1 are aligned, one end of the cable can be embedded into the central position of the winding unit 4 along the first notch 1-1 and the second notch 4-1 and is led out of the accommodating device, so that the cable can be partially accommodated in the accommodating device, and two ends of the cable are respectively connected with equipment and a power supply. In order to keep one end of the cable at the central position of the winding unit 4 without sliding outwards along the first notch 1-1, a stop block 9 is slidably mounted on the seat body 1, the sliding direction of the stop block 9 is perpendicular to the first notch 1-1, and the stop block 9 is provided with a tip end 9-1 extending into the first notch 1-1; a second spring 11 is arranged between the limiting block 9 and the seat body 1, so that when the cable slides along the first notch 1-1, the limiting block 9 can be extruded to enter the innermost side of the first notch 1-1 and be kept at the position.

According to the circuit accommodating device, the rotating seat, the driving piece and the winding unit are arranged, the comb tooth parts formed on the rotating seat can limit cables wound on the winding unit, gaps among the comb tooth parts can allow the cables to extend out of the accommodating device, when the cables need to be wound or released, the rotating seat is lifted up and rotated only by pressing the driving piece, and the operation is convenient.

The above description is only of the preferred embodiments of the present invention, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the invention and these are intended to be within the scope of the invention.

Claims (5)

1. A cable storage device for winding cables is characterized by comprising a base body, a rotating seat, a driving piece and a winding unit;

the rotating seat can rotate relative to the seat body and can translate in the axial direction of the relative rotating shaft of the rotating seat and the seat body; the rotary seat is provided with a plurality of comb-tooth parts which are circumferentially arranged in an array and extend towards the seat body, and in an initial state, the end parts of the comb-tooth parts are in contact with the seat body;

the driving piece is in driving connection with the rotating seat, and when the driving piece is stressed to move towards the direction close to the seat body, the rotating seat translates towards the direction far away from the seat body;

the winding unit can rotate along with the rotating seat, and a cable can be wound on the periphery of the winding unit;

a gear is rotatably arranged on the seat body, a first rack part is formed on the driving piece, and the gear is meshed with the first rack part;

the gear is meshed with the second rack part; the rotating seat is fixed relative to the driven piece in the axial direction of the rotating seat and can rotate relative to the driven piece;

the first rack portion and the second rack portion are disposed on both sides of the gear.

2. The cable storage device of claim 1, further comprising a first spring that biases the drive member in a direction away from the seat.

3. The cable storage device of claim 1, further comprising a retaining device that allows the drive member to be retained at a point on one side of the housing.

4. The cable accommodating device for rolling cables as claimed in claim 1, wherein the base body is formed with a first notch extending from an edge thereof to a relative rotation center thereof with respect to the rotary base; the winding unit is provided with a second notch extending from the edge to the center along the axial direction of the winding unit.

5. The cable accommodating device for rolling cables as claimed in claim 4, wherein a stopper is slidably mounted on the base, a sliding direction of the stopper is perpendicular to the first notch, and the stopper has a tip portion extending into the first notch; and a second spring is arranged between the limiting block and the seat body.

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