CN220896235U - Cable arrangement structure - Google Patents

Abstract

The utility model discloses a cable arrangement structure which comprises a first splice plate, a second splice plate, limiting binding pieces and first springs, wherein two groups of limiting binding pieces are symmetrically arranged at the top and the bottom of the surfaces of the first splice plate and the second splice plate, the number of the two groups of limiting binding pieces is four, the outer sides of the four limiting binding pieces are connected with the first springs, and the side parts of the two limiting binding pieces are respectively connected with limiting blocks through the first springs. According to the utility model, the elasticity of the two first springs is utilized to realize that the two limiting binding pieces have the force of always clamping and limiting, so that the two limiting binding pieces can play a role in clamping and limiting the cable, the cable can be reasonably planned by using the limiting binding pieces, the influence of the cable arrangement disorder on later use and maintenance work is avoided, and the limiting sliding block can assist in limiting the stable movement of the limiting sliding block along the limiting sliding groove.

Description

Cable arrangement structure

Technical Field

The utility model relates to the technical field of cable arrangement, in particular to a cable arrangement structure.

Background

Cables are a generic term for items such as optical cables and electric cables. The cable is mainly characterized in that pvc plastic particles are used for processing sheath insulation and copper wires with various specifications to be twisted into a cable, and the wire and the cable are formed by: the cable is manufactured by three processes of drawing, twisting and coating, the more complicated the model specification is, the higher the repeatability is, the more the cable has a plurality of uses, and the cable is mainly used for controlling multiple functions of installation, connecting equipment, power transmission and the like, and is an indispensable thing common in daily life. Because the cable is charged, special care is required for installation.

In the use of current LED concatenation screen, if but few spacing constraint structure then can lead to the cable to arrange the confusion when the cable is connected and is used, the winding is mixed and disorderly appears seriously, influences its use and later stage repair and examine work at last, and when current cable arrangement structure used, unable control can arrange the scope region, leads to the practicality to reduce, is inconvenient for use.

Secondly, the mountable mode of structure is comparatively single, leads to appearing connecting inadequately stably in later stage, influences follow-up use, and what need to develop urgently.

Disclosure of utility model

The present utility model is directed to a cable arrangement structure for solving the above-mentioned problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a cable arrangement structure, includes first splice plate, second splice plate, spacing constraint and first spring, the top and the bottom on first splice plate and second splice plate surface all symmetry are provided with two sets of spacing constraint, two sets of spacing constraint quantity is four, four the outside of spacing constraint all is connected with first spring, two the lateral part of spacing constraint is connected with the stopper respectively through first spring, the stopper respectively with first splice plate, the fixed surface of second splice plate is connected, the bottom of spacing constraint is connected with spacing slider, spacing slider and first splice plate, the spacing spout that corresponds the connection in the second splice plate surface are sliding connection.

Preferably, the side parts of the first splice plate and the second splice plate are both fixed with splice blocks, the inner parts of the splice blocks are symmetrically connected with built-in sliding cavities, the inner sides of the built-in sliding cavities are connected with second springs, the inner parts of the built-in sliding cavities are connected with built-in sliding blocks in a sliding manner, and the built-in sliding blocks are connected with the second springs.

Preferably, splice grooves are formed in the other sides of the first splice plate and the second splice plate, and splice clamping grooves are formed in the inner parts of the splice grooves and correspond to the clamping parts in position.

Preferably, the inside of first splice plate and second splice plate top and bottom all is connected with movable recess, the inside of movable recess has movable mounting panel through connecting the movable part swing joint.

Preferably, the surfaces of the back parts of the first splice plate and the second splice plate are connected with an adhesive layer.

Preferably, the side part of the built-in sliding block is fixed with clamping pieces, and the two clamping pieces are symmetrically arranged relative to two ends of the splicing block.

Preferably, two mounting fastening holes are connected in the end part of the movable mounting plate.

Preferably, the surface of the adhesive layer is connected with a protective adhesive layer in an adhesive manner.

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

(1) According to the cable arrangement structure, the two limiting binding pieces are enabled to have the force of always clamping and limiting binding by utilizing the elasticity of the two first springs, so that the two limiting binding pieces can play a role in limiting the cable clamping, the cable arrangement structure can be reasonably planned, the later use and maintenance work caused by the mess of cable arrangement are avoided, and the limiting sliding block can assist in limiting the stable movement of the cable along the limiting sliding groove in a sliding manner;

(2) According to the cable arrangement structure, the built-in sliding block can freely slide in the built-in sliding cavity by utilizing the elasticity of the second spring, when the first splice plate and the second splice plate are in a spliced state, the elasticity of the second spring and the sliding effect of the built-in sliding block in the built-in sliding cavity can enable the clamping piece to be automatically clamped in the splicing clamping groove range, the clamping effect is achieved, stability is effectively provided for splicing connectivity of the first splice plate and the second splice plate, and the first splice plate and the second splice plate can be detached by sliding the built-in sliding block along the built-in sliding cavity in the later period;

(3) This kind of cable arrangement structure is tearing away the protective glue layer with gluing the sticky layer, utilizes gluing the sticky of sticky layer to realize that first splice plate or second splice plate and equipment in bond can accomplish the fixed action, and also the free activity of accessible connection movable part rotates the outside of turning to first splice plate, second splice plate, and the cooperation of reuse installation fastener and installation fastening hole carries out supplementary fixedly, improves first splice plate, second splice plate installation stability, then two kinds of mounting means can improve convenient to use nature.

Drawings

FIG. 1 is a schematic diagram showing a front view of a splice state of a first splice plate and a second splice plate according to the present utility model;

FIG. 2 is a schematic view of a partial front view of a split state of a first splice plate and a second splice plate according to the present utility model;

FIG. 3 is a schematic top view of the first splice plate and the second splice plate of the present utility model respectively connected with the splice block, the fastener, the splice groove and the limiting binding member;

FIG. 4 is a schematic top view of the first splice plate and the second splice plate of the present utility model respectively connected to the adhesive layer, the protective adhesive layer and the movable mounting plate;

Fig. 5 is a schematic diagram showing the front view structure of the connection between the first splice plate and the second splice plate of the present utility model and the movable mounting plate.

In the figure: 1. a first splice plate; 2. a second splice plate; 3. splicing blocks; 301. a sliding cavity is arranged in the inner part; 4. a clamping piece; 5. a splice groove; 501. a splicing clamping groove; 6. a limit binding member; 601. a limit sliding block; 7. a first spring; 8. a limiting block; 9. limiting sliding grooves; 10. a second spring; 11. a sliding block is arranged in the inner part; 12. a movable groove; 13. connecting a movable piece; 14. a movable mounting plate; 15. installing a fastening hole; 16. an adhesive layer; 17. and a protective adhesive layer.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. 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.

Referring to fig. 1-5, an embodiment of the present utility model is provided: the cable arrangement structure comprises a first splice plate 1, a second splice plate 2, limiting binding pieces 6 and a first spring 7, wherein two groups of limiting binding pieces 6 are symmetrically arranged at the top and the bottom of the surfaces of the first splice plate 1 and the second splice plate 2, the number of the two groups of limiting binding pieces 6 is four, so that the two limiting binding pieces 6 can play a role in clamping and binding limiting for a cable, and the cable can be reasonably planned by using the limiting binding pieces;

The outer sides of the four limiting binding pieces 6 are connected with first springs 7, and the two limiting binding pieces 6 have the force of always clamping and limiting binding by utilizing the elasticity of the two first springs 7;

The lateral parts of the two limiting constraint pieces 6 are respectively connected with limiting blocks 8 through first springs 7, the limiting blocks 8 are respectively connected with the surface fixing of the first splice plates 1 and the second splice plates 2, the bottoms of the limiting constraint pieces 6 are connected with limiting sliding blocks 601, and the limiting sliding blocks 601 are in sliding connection with limiting sliding grooves 9 correspondingly connected in the surfaces of the first splice plates 1 and the second splice plates 2, so that the limiting sliding blocks 601 can assist in limiting stable movement of the limiting sliding blocks along the sliding movement of the limiting sliding grooves 9.

The side parts of the first splice plate 1 and the second splice plate 2 are fixed with splice blocks 3, the inner parts of the splice blocks 3 are symmetrically connected with built-in sliding cavities 301, the inner sides of the built-in sliding cavities 301 are connected with second springs 10, the inner parts of the built-in sliding cavities 301 are connected with built-in sliding blocks 11 in a sliding manner, the built-in sliding blocks 11 are connected with the second springs 10, the built-in sliding blocks 11 can freely slide and move in the built-in sliding cavities 301 by using the elasticity of the second springs 10, and when the first splice plate 1 and the second splice plate 2 are in a spliced state, the elasticity of the second springs 10 and the built-in sliding blocks 11 can enable the clamping pieces 4 to automatically clamp in the range of the splicing clamping grooves 501 under the action of clamping.

Splice grooves 5 are formed in the other sides of the first splice plate 1 and the second splice plate 2, and splice clamping grooves 501 are formed in the inner portions of the splice grooves 5 and correspond to the clamping pieces 4 in position.

The inside at the top and the bottom of the first splice plate 1 and the second splice plate 2 is connected with a movable groove 12, the inside of the movable groove 12 is movably connected with a movable mounting plate 14 through a connecting movable piece 13, the movable mounting plate 14 is rotated to the outside of the first splice plate 1 and the second splice plate 2 through free movable rotation of the connecting movable piece 13, the auxiliary fixation is carried out by utilizing the cooperation of a mounting fastener and a mounting fastening hole 15, and the mounting stability of the first splice plate 1 and the second splice plate 2 is improved.

The surfaces of the back parts of the first splice plate 1 and the second splice plate 2 are connected with an adhesive layer 16.

The side part of the built-in sliding block 11 is fixed with a clamping piece 4, and the two clamping pieces 4 are symmetrically arranged relative to the two ends of the splicing block 3.

Two mounting fastening holes 15 are connected in the end of the movable mounting plate 14.

The surface bonding of gluing layer 16 is connected with protective glue layer 17, tears protective glue layer 17 and gluing layer 16, utilizes gluing of gluing layer 16 to realize that first splice plate 1 or second splice plate 2 bond with in the equipment can accomplish the fixed action.

When the embodiment of the application is used, the following steps are adopted: when the first splice plate 1 and the second splice plate 2 are in a spliced state, the elasticity of the second spring 10 and the built-in sliding block 11 can enable the clamping piece 4 to be automatically clamped in the range of the splicing clamping groove 501 under the action of sliding in the built-in sliding cavity 301, so that the clamping effect is achieved, the stability is effectively provided for the splicing connectivity of the first splice plate 1 and the second splice plate 2, the protective adhesive layer 17 and the adhesive layer 16 are torn away, the adhesive layer 16 is utilized to achieve the bonding effect of the first splice plate 1 or the second splice plate 2 and the equipment, the fixing effect can be achieved through the bonding of the adhesive layer 16, the movable mounting plate 14 can be rotated to the outside of the first splice plate 1 and the second splice plate 2 through the free movable rotation of the connecting movable piece 13, the auxiliary fixing is carried out through the cooperation of the mounting fastener and the mounting fastening hole 15, the elastic effect of the two limiting binding pieces 6 can be achieved, the two limiting binding pieces 6 can be used for clamping and limiting the cable can be used for playing the role of clamping and limiting the cable, and the reasonable planning and reasonable utilization of the cable.

Claims (8)

1. The utility model provides a cable arrangement structure, its characterized in that, including first splice plate (1), second splice plate (2), spacing constraint spare (6) and first spring (7), the top and the bottom on first splice plate (1) and second splice plate (2) surface all symmetry are provided with two sets of spacing constraint spare (6), two sets of spacing constraint spare (6) quantity is four, four the outside of spacing constraint spare (6) all is connected with first spring (7), two the lateral part of spacing constraint spare (6) is connected with stopper (8) respectively through first spring (7), stopper (8) respectively with the fixed surface of first splice plate (1), second splice plate (2) be connected, the bottom of spacing constraint spare (6) is connected with spacing slider (601), spacing slider (601) are sliding connection with spacing spout (9) that correspond to be connected in first splice plate (1), the second splice plate (2) surface.

2. A cable arrangement according to claim 1, wherein: the side of first splice plate (1) and second splice plate (2) all are fixed with splice piece (3), the inside symmetry of splice piece (3) is connected with built-in sliding chamber (301), the inboard of built-in sliding chamber (301) is connected with second spring (10), the inside sliding connection of built-in sliding chamber (301) has built-in sliding block (11), built-in sliding block (11) are connected with second spring (10).

3. A cable arrangement according to claim 2, wherein: splice groove (5) are connected in the opposite side of first splice plate (1) and second splice plate (2), the inside of splice groove (5) just is connected with splice card solid groove (501) with the position correspondence of fastener (4).

4. A cable arrangement according to claim 3, wherein: the inside of first splice plate (1) and second splice plate (2) top and bottom all is connected with movable recess (12), the inside of movable recess (12) is through connecting moving part (13) swing joint has movable mounting panel (14).

5. A cable arrangement according to claim 4, wherein: the surfaces of the backs of the first splice plate (1) and the second splice plate (2) are connected with an adhesive layer (16).

6. A cable arrangement according to claim 2, wherein: the side parts of the built-in sliding blocks (11) are fixedly provided with clamping pieces (4), and the two clamping pieces (4) are symmetrically arranged relative to the two ends of the splicing block (3).

7. A cable arrangement according to claim 4, wherein: two mounting fastening holes (15) are connected in the end part of the movable mounting plate (14).

8. A cable arrangement according to claim 5, wherein: the surface of the adhesive layer (16) is connected with a protective adhesive layer (17) in an adhesive mode.