CN219394298U - Computer winding displacement carding unit - Google Patents

Abstract

The utility model belongs to the technical field of computer auxiliary devices, and discloses a computer flat cable carding device, which comprises a flitch, wherein at least one chute with one open end is arranged on the flitch; a traverse assembly having a slider slidable within the chute; the limiting assembly is provided with a first limiting part arranged in the sliding groove and a second limiting part arranged on the sliding part, the second limiting part is detachably connected with the first limiting part, limiting grooves are formed in two sides of the sliding groove, and limiting parts are arranged on two sides of the sliding part and are in sliding fit with the limiting grooves. The utility model can effectively comb the connecting wires by arranging the wire arranging component consisting of the wire combing block and the wire winding piece, so that the wires on the desktop are orderly arranged, different connecting wires can be prevented from being wound together, subsequent splitting is facilitated, and in addition, the number of the wire arranging component can be freely increased or decreased according to the number of the connecting wires, so that the wire arranging device is flexible.

Description

Computer winding displacement carding unit

Technical Field

The utility model belongs to the technical field of computer auxiliary devices, and particularly relates to a computer flat cable carding device.

Background

The computer is a modern electronic computing machine, along with development of science and technology and internet, the computer is more or less used in various industries, and along with popularization of the computer, more and more computers enter common families, and the complete computer generally comprises a display, a host key, a keyboard and the like, and all parts need to be connected when the computer is installed.

In the process of installing a computer, a display, a host, a keyboard, a loudspeaker box and the like are required to be connected through connecting wires when being connected, each connecting wire is generally longer in the process of installing and connecting, no structure is arranged for arranging and carding the connecting wires when the computer is installed, so that the wiring on a tabletop is arranged to be disordered, the attractiveness is influenced, and secondly, different connecting wires are easy to wind together and inconvenient to distinguish in the follow-up process, so that the computer wiring carding device is provided.

Disclosure of Invention

The utility model aims to provide a computer flat cable carding device, which solves the problems that wires on a desktop are disordered and different connecting wires are easy to wind together when the prior computer is installed in the background technology, and the follow-up disassembly is inconvenient.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a computer flat cable carding apparatus comprising:

the flitch is provided with a chute with at least one open end;

a traverse assembly having a slider slidable within the chute;

the limiting assembly is provided with a first limiting part arranged in the sliding groove and a second limiting part arranged on the sliding part, and the second limiting part is detachably connected with the first limiting part.

Preferably, both sides of the sliding groove are provided with limiting grooves, both sides of the sliding piece are provided with limiting parts, and the limiting parts are in sliding fit with the limiting grooves.

Preferably, the first limiting part comprises a plurality of positioning grooves which are equidistantly arranged at the bottom of the sliding groove, the second limiting part comprises a positioning block which is fixed at the bottom end of the sliding part, the sum of the thicknesses of the positioning block and the limiting part does not exceed the height of the limiting groove, and the positioning block can be clamped into any positioning groove.

Preferably, the flat cable assembly comprises a comb line block, a threading hole is formed in the comb line block, and the top end of the threading hole is opened to form a notch.

Preferably, the comb line block is provided with a movable baffle plate capable of shielding the notch, and the movable baffle plate can rotate around the central shaft of the threading hole.

Preferably, the first groove and the second groove are respectively formed in two sides of the opening, and the free end of the movable baffle is detachably inserted into the second groove, and the mounting end of the movable baffle is slidably mounted in the first groove.

Preferably, a spring with one end connected with the movable baffle is arranged in the first groove.

Preferably, the movable baffle is connected with a bump, and the distance between the bump and the free end of the movable baffle is smaller than the distance between the bump and the mounting end of the movable baffle.

Preferably, the winding assembly further comprises a winding part, and the winding part comprises a first circular plate, a connecting column and a second circular plate which are coaxially and sequentially connected.

Preferably, the first circular plate is eccentrically provided with a through groove, the second circular plate is eccentrically provided with an embedded groove, the through groove is internally provided with a blocking rod in a penetrating way, and the bottom end of the blocking rod can be embedded into the embedded groove.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The utility model can effectively comb the connecting wires by arranging the wire arranging component consisting of the wire combing block and the wire winding piece, so that the wires on the desktop are orderly arranged, different connecting wires can be prevented from being wound together, subsequent splitting is facilitated, and in addition, the number of the wire arranging component can be freely increased or decreased according to the number of the connecting wires, so that the wire arranging device is flexible.

(2) According to the utility model, the first limiting piece and the second limiting piece which are detachably connected are arranged, so that the sliding piece can be prevented from moving randomly in the sliding groove, and the flat cable assembly is prevented from sliding out of the flitch.

(3) The utility model is provided with the limiting part and the limiting groove, the limiting part is blocked by the flitch at the upper part of the limiting groove, so that the sliding part can only move along the length direction of the sliding groove, the sliding part can not be pulled up to be separated from the sliding groove 7, and the occurrence of skew dumping of the sliding part can be reduced.

(4) According to the utility model, the opening is arranged to facilitate threading on the comb line block, and the movable baffle is arranged to freely open and close the opening, so that the connecting wires penetrating through the comb line block are blocked.

(5) According to the utility model, the blocking rod, the through groove and the like are arranged, after the connecting wires are wound outside the connecting column, the blocking rod can pass through the through groove, the bottom end of the blocking rod is embedded into the caulking groove, and the wound connecting wires can be blocked from the periphery, so that the connecting wires are prevented from being released and separated from the winding part.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a top view of the present utility model;

FIG. 4 is a side view of the flitch of the present utility model;

FIG. 5 is a cross-sectional view of a combed yarn block of the present utility model;

FIG. 6 is a side view of a slider of the present utility model;

FIG. 7 is a schematic view of a winding member according to the present utility model;

FIG. 8 is a top view of a second embodiment of the first stop member of the present utility model;

FIG. 9 is a schematic view of the slide and chute engagement of the present utility model;

in the figure: 1. pasting a board; 2. a comb line block; 3. a winding member; 301. a first circular plate; 302. a connecting column; 303. a second circular plate; 4. a threading hole; 5. a movable baffle; 6. a notch; 7. a chute; 8. a slider; 81. a limit part; 9. a positioning groove; 10. a limit groove; 11. a first groove; 12. a spring; 13. a second groove; 14. a bump; 15. a bar; 16. penetrating a groove; 17. a caulking groove; 18. and (5) positioning blocks.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

FIG. 1 is a perspective view of the present utility model, as shown in the drawings, the flat cable carding device mainly comprises: a flitch 1 and at least one flat cable assembly.

Specifically, the flitch 1 is placed on a placing table surface for placing a computer display, and when the flitch 1 is placed, the flitch 1 can be directly placed on the table surface; the bottom surface of the flitch 1 can also be fixed with the table top by using double faced adhesive tape, so that the occurrence of the displacement of the flitch 1 after the placement can be reduced.

The number of the wire arrangement components corresponds to the number of connecting wires to be subjected to wire arrangement carding during computer installation, and each connecting wire corresponds to one wire arrangement component.

As shown in fig. 1 and 3, the flitch 1 is provided with a chute 7 with at least one open end;

as shown in fig. 1-2, the winding displacement assembly has a slider 8 that is slidable within the chute 7;

from the above, the sliding piece 8 can slide along the sliding groove 7, and the sliding piece 8 can slide down from the open end of the sliding groove 7 or be installed, so that the corresponding number of the flat cable components can be arranged on the flitch 1 according to the number of the connecting wires during computer installation.

In a preferred embodiment of the present utility model, as shown in fig. 4 and 6, the two sides of the chute 7 are respectively provided with a limiting groove 10, two sides of the sliding piece 8 are respectively provided with a limiting part 81, the limiting parts 81 are slidably matched with the limiting grooves 10, the limiting grooves 10 are recessed in the side walls of the chute 7, and after the limiting parts 81 are positioned in the limiting grooves 10, the limiting parts 81 are blocked by the flitch 1 at the upper part of the limiting grooves 10, so that the sliding piece 8 can only move along the length direction of the chute 7, the sliding piece 8 cannot be pulled up and separated from the chute 7, and the occurrence of skew dumping of the sliding piece 8 can be reduced.

In addition, the flat cable carding device further comprises a limiting component, the limiting component is provided with a first limiting piece arranged in the sliding groove 7 and a second limiting piece arranged on the sliding piece 8, and the second limiting piece is detachably connected with the first limiting piece.

Specifically, after the sliding piece 8 is moved and placed to the required position in the sliding groove 7, the first limiting piece and the second limiting piece are matched, so that the sliding piece 8 can be prevented from moving randomly in the sliding groove 7, and the flat cable assembly is prevented from sliding out of the flitch 1.

In a specific embodiment, as shown in fig. 3, 6 and 9, the first limiting member includes a plurality of positioning slots 9 equidistantly arranged at the bottom of the chute 7, the second limiting member includes a positioning block 18 fixed at the bottom end of the sliding member 8, the sum of the thicknesses of the positioning block 18 and the limiting portion 81 does not exceed the height of the limiting slot 10, and the positioning block 18 can be engaged into any positioning slot 9, and the height of the limiting slot 10 can be set so that the positioning block 18 is completely separated from the positioning slot 9 when the sliding member 8 is lifted.

Thus, after the slider 8 moves to a desired position in the chute 7, the positioning block 18 can be fitted into the positioning groove 9, and at this time, the positioning block 18 is restricted by the positioning groove 9, so that the positioning block 18 can be prevented from moving at will.

When the sliding piece 8 needs to be moved, the sliding piece 8 can be lifted up first, so that the positioning block 18 is separated from the positioning groove 9, and then the sliding piece 8 can move along the sliding groove 7.

In another embodiment, as shown in fig. 8, the second limiting member is a magnetic block fixed to the bottom end of the sliding member 8, and the first limiting member is an iron bar (or a magnetic strip, and the magnetic strip is opposite to the magnetic block) fixed to the bottom of the sliding slot 7, as shown in a in fig. 8.

Specifically, after the sliding member 8 moves to a desired position in the chute 7, the magnetic block is attracted to the iron bar by magnetic attraction, thereby serving to define the position of the sliding member 8.

Example two

As shown in fig. 1, the flat cable carding device of the present embodiment mainly includes: a flitch 1 and at least one flat cable assembly. Wherein, the flitch 1 is provided with a chute 7 with at least one open end, and the flat cable assembly is provided with a sliding piece 8 capable of sliding in the chute 7.

As shown in fig. 1-2, the flat cable assembly comprises a comb cable block 2, a sliding piece 8 is fixed at the bottom end of the comb cable block 2, a threading hole 4 is formed in the comb cable block 2, the top end of the threading hole 4 is opened to form a notch 6, wherein the threading hole 4 is used for connecting wires to pass through to play a carding role, and when a connector at the end part of the connecting wires is too large to pass through the threading hole 4, a wire body of the connecting wires can enter the threading hole 4 through the notch 6.

At this time, only movable comb line blocks 2 are arranged on the flitch 1, and one, two or more comb line blocks 2 can be arranged.

In a preferred embodiment of the present utility model, as shown in fig. 1 to 3 and 5, a movable baffle 5 capable of shielding the notch 6 is provided on the comb line block 2, and the movable baffle 5 can rotate around the central axis of the threading hole 4.

A first groove 11 and a second groove 13 are respectively arranged on two sides of the notch 6, the free end of the movable baffle 5 is detachably inserted into the second groove 13, and the mounting end of the movable baffle 5 is slidably mounted in the first groove 11.

From the above, pass the oversized connecting wire of tip on comb line piece 2, can move movable baffle 5 towards first recess 11, make movable baffle 5 mostly imbed in first recess 11, opening 6 is opened this moment, the line body of connecting wire can get into through wire hole 4 via opening 6, then move movable baffle 5 towards second recess 13 again, make the free end embedding second recess 13 of movable baffle 5, can block opening 6, the connecting wire just can not move upward and break away from through wire hole 4.

Preferably, as shown in fig. 5, a spring 12 with one end connected to the movable baffle 5 is disposed in the first groove 11, in a natural state, the spring 12 makes the mounting end of the movable baffle 5 be located in the first groove 11, and the movable baffle 5 is located in a state of blocking the opening 6, when the movable baffle 5 moves into the first groove 11 to open the opening 6, the spring 12 is located in a compressed state at this time, and the generated elastic force is favorable for being restored to a state of blocking the opening 6 later.

Preferably, as shown in fig. 1-2 and 5, the movable baffle 5 is connected with a bump 14, and the distance between the bump 14 and the free end of the movable baffle 5 is smaller than the distance between the bump 14 and the mounting end of the movable baffle 5, and the movable baffle 5 is moved by using the bump 14 protruding outwards, so as to facilitate the application of force by the hand of a user.

Example III

As shown in fig. 1, the flat cable carding device of the present embodiment mainly includes: a flitch 1 and at least one flat cable assembly. Wherein, the flitch 1 is provided with a chute 7 with at least one open end, and the flat cable assembly is provided with a sliding piece 8 capable of sliding in the chute 7.

As shown in fig. 1-2, the flat cable assembly includes a winding member 3, a sliding member 8 is fixed at the bottom end of the winding member 3, and only the movable winding member 3 is mounted on the board 1, and one, two or more winding members 3 may be provided.

In a specific implementation manner of this embodiment, as shown in fig. 7, the winding member 3 includes a first circular plate 301, a connection post 302 and a second circular plate 303 which are coaxially connected in sequence, and when winding, a longer connection wire is wound on the connection post 302, and the connection wire is limited to be separated from the connection post 302 by the first circular plate 301 and the second circular plate 303.

In a preferred implementation manner of this embodiment, as shown in fig. 1-2 and fig. 7, the first circular plate 301 is eccentrically provided with a through slot 16, the second circular plate 303 is eccentrically provided with an embedded slot 17, the through slot 16 is internally provided with a blocking rod 15, and the bottom end of the blocking rod 15 can be embedded into the embedded slot 17.

From the above, after the connecting wire is wound on the outside of the connecting post 302, the user can pass the blocking rod 15 through the through groove 16, and the bottom end of the blocking rod 15 is embedded into the caulking groove 17, so that the wound connecting wire can be blocked from the periphery, and the connecting wire is prevented from being released from the winding part 3.

Example IV

The present embodiment is based on the second and third embodiments, and a winding assembly is provided, in which the comb block 2 of the flitch 1 and the winding member 3 are combined, and particularly when the winding assembly is used for carding the connecting wires, the longer connecting wires can be wound on the winding member 3, so that the free ends of the connecting wires pass through the comb block 2, and the required lengths are reserved to complete the connection between computer components.

The number of comb blocks 2 and winding members 3 on each flat cable assembly of the flitch 1 can be described as follows: at least one wire combing block 2 is arranged, and one wire winding piece 3 is preferably arranged (when one wire winding piece 3 cannot meet the wire winding requirement, two or more wire winding pieces 3 can be arranged for each wire arranging component).

Preferably, two comb wire blocks 2 and one winding member 3 are generally arranged, and the two comb wire blocks 2 are symmetrically arranged at two sides of the winding member 3, as shown in fig. 1 and 3, at this time, three corresponding sliding members 8 and three corresponding sliding grooves 7 are arranged, and by limiting the connecting wires wound on the winding member 3 from two ends, the arrangement is preferentially applicable to the connecting wires with the two ends needing to be pulled out and plugged in.

In addition, a comb block 2 and a winding element 3 can be provided, wherein two corresponding sliding elements 8 and sliding grooves 7 are provided, and the arrangement is preferentially applicable to connecting wires with one end to be plugged by limiting the connecting wires wound on the winding element 3 from one end.

When two comb line blocks 2 (or more than two) and two winding parts 3 (or more than two) are arranged, the corresponding sliding parts 8 and sliding grooves 7 are arranged according to the actual implementation, and the arrangement sequence of the comb line blocks 2 and the winding parts 3 can be realized only by arranging and carding the connecting wires.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A computer flat cable carding apparatus, comprising:

the flitch (1) is provided with a chute (7) with at least one open end;

a traverse assembly having a slider (8) slidable within the chute (7);

the limiting assembly is provided with a first limiting part arranged in the sliding groove (7) and a second limiting part arranged on the sliding part (8), and the second limiting part is detachably connected with the first limiting part.

2. A computer flat cable carding unit according to claim 1, wherein: both sides of spout (7) all are equipped with spacing groove (10), both sides of slider (8) all are equipped with spacing portion (81), and spacing portion (81) sliding fit is in spacing groove (10).

3. A computer flat cable carding unit according to claim 2, wherein: the first limiting piece comprises a plurality of positioning grooves (9) formed in the bottom of the sliding groove (7) at equal intervals, the second limiting piece comprises a positioning block (18) fixed at the bottom end of the sliding piece (8), the sum of the thicknesses of the positioning block (18) and the limiting part (81) does not exceed the height of the limiting groove (10), and the positioning block (18) can be clamped into any positioning groove (9).

4. A computer flat cable carding unit according to claim 1, wherein: the wire arrangement assembly comprises a wire combing block (2), a threading hole (4) is formed in the wire combing block (2), and the top end of the threading hole (4) is opened to form a notch (6).

5. A computer flat cable carding unit according to claim 4, wherein: the comb line block (2) is provided with a movable baffle (5) capable of shielding the notch (6), and the movable baffle (5) can rotate around the central shaft of the threading hole (4).

6. A computer flat cable carding unit according to claim 5, wherein: the two sides of the notch (6) are respectively provided with a first groove (11) and a second groove (13), and the free end of the movable baffle (5) is detachably inserted into the second groove (13) and the mounting end of the movable baffle (5) is slidably mounted in the first groove (11).

7. A computer flat cable carding unit according to claim 6, wherein: a spring (12) with one end connected with the movable baffle (5) is arranged in the first groove (11).

8. A computer flat cable carding unit according to claim 5, wherein: the movable baffle (5) is connected with a lug (14), and the distance between the lug (14) and the free end of the movable baffle (5) is smaller than the distance between the lug (14) and the mounting end of the movable baffle (5).

9. A computer flat cable carding unit according to claim 1, wherein: the winding assembly further comprises a winding part (3), and the winding part (3) comprises a first circular plate (301), a connecting column (302) and a second circular plate (303) which are coaxially and sequentially connected.

10. A computer flat cable carding unit according to claim 9, wherein: a through groove (16) is eccentrically arranged on the first circular plate (301), a caulking groove (17) is eccentrically arranged on the second circular plate (303), the rail (15) is arranged in the through groove (16) in a penetrating way, and the bottom end of the rail (15) can be embedded into the caulking groove (17).