CN109167303B

CN109167303B - Cable laying wire rod finishing device

Info

Publication number: CN109167303B
Application number: CN201811298266.3A
Authority: CN
Inventors: 赵丽芳; 赵建网; 腾伟民; 赵逸凡
Original assignee: Wenzhou Power Supply Co of State Grid Zhejiang Electric Power Co Ltd; Wenzhou Electric Power Design Co Ltd
Current assignee: Wenzhou Power Supply Co of State Grid Zhejiang Electric Power Co Ltd; Wenzhou Electric Power Design Co Ltd
Priority date: 2018-11-01
Filing date: 2018-11-01
Publication date: 2024-02-27
Anticipated expiration: 2038-11-01
Also published as: CN109167303A

Abstract

The invention discloses a cable laying wire finishing device. The invention has the advantages that: the splice can splice into the mounting panel of various sizes, is applicable to each environment to the splice of adjacent two-layer staggers each other, and stability is higher when the concatenation is accomplished, passes first through-hole and the second through-hole of the splice of exchanging with the rope and is fixed to the wall, further improves stability. The cable is installed according to the installation habit in penetrating the recess in proper order to make the mark on the concatenation piece that the recess corresponds, seek the cable more quick when making the maintenance, improve maintenance efficiency. When the splice block is damaged, the cable is disassembled firstly, then the splice block is moved, a new splice block is reinstalled to the original position after the splice block is disassembled, the moved splice block is reset, only one splice block is needed to be replaced after the splice block is damaged, the method is more economical and environment-friendly, and only part of splice blocks need to be moved during reinstallation, so that the method is simple and efficient.

Description

Cable laying wire rod finishing device

Technical Field

The invention relates to the field of cable arrangement, in particular to a cable laying wire arrangement device.

Background

When equipment cables are more, the cables are installed in disorder, the problems that the circuit laying of links such as cable grooves, shafts and bridges is unreasonable, the cross, the confusion and the layering laying distance are not satisfactory exist, meanwhile, the installed cable safety building is not satisfactory because of the professional level difference of constructors, the cables are usually bundled together by binding wires after the installation is completed, however, the corresponding cables are required to be found out in the debugging and maintenance equipment process, the binding wires are required to be cut, and then the cables are bound up, so that the method is time-consuming and labor-consuming, and causes much inconvenience to the debugging and maintenance equipment.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a cable laying wire rod finishing device which is used for orderly arranging cables and is convenient to install and maintain

In order to achieve the above purpose, the present invention provides the following technical solutions: a cable laying wire finishing device, comprising: the splicing block comprises a plurality of splicing blocks, wherein grooves for installing cables are formed in the splicing blocks, a first trapezoidal clamping block is arranged on one side face of each splicing block, a first trapezoidal clamping groove for embedding the first trapezoidal clamping block on the adjacent splicing block is formed in the other opposite side face of each splicing block, the upper bottom face of each first trapezoidal clamping block is close to the side face of each splicing block, a second trapezoidal clamping groove is formed in the bottom face of each splicing block, a second trapezoidal clamping block is arranged on the top face of each splicing block, a second trapezoidal clamping block for embedding the second trapezoidal clamping block of each splicing block on the lower side is arranged in each second trapezoidal clamping groove, and a first through hole and a second through hole for fixing are formed in each splicing block.

As a further improvement of the invention, a fixing device for fixing the cable is arranged in the groove.

As a further improvement of the invention, the fixing device comprises a rotating seat, a fixing frame and six fixing sheets, wherein the fixing sheets are arranged between the rotating seat and the fixing frame, a hexagonal rotating groove is formed in the rotating seat, a through hole for a cable to pass through is formed in the rotating seat, the fixing frame comprises a fixing ring and six guide rods, the fixing ring and the rotating seat are coaxially and rotatably connected, the fixing ring is fixedly connected to the wall of a groove, the six guide rods are circumferentially distributed in the fixing ring, one ends of the six guide rods are fixedly connected to the inner wall of the fixing ring, the other ends of the six guide rods are mutually connected to form a third through hole, the third through holes are coaxial with the through holes and have the same radius, guide grooves are formed in the guide rods, guide blocks are arranged on the upper end faces of the fixing sheets, driven blocks are arranged on the lower end faces of the fixing sheets and are embedded in the rotating grooves, and the driven blocks are embedded in the guide grooves in one-to-one correspondence.

As a further improvement of the invention, the rotary seat is coaxially provided with an annular positioning block, the fixed ring is coaxially provided with an annular positioning groove, and the annular positioning block is rotatably arranged in the annular positioning groove.

As a further improvement of the invention, a plurality of hemispherical grooves are formed on the groove walls at two sides of the annular positioning groove, balls are arranged in the hemispherical grooves, rolling grooves are formed on two side surfaces of the annular positioning block, and the balls are embedded into the rolling grooves and are abutted against the groove bottoms of the rolling grooves.

As a further improvement of the invention, a rotary rod is eccentrically arranged on one side of the rotary seat, which is away from the annular positioning block.

As a further development of the invention, the rotary lever is rotatably arranged on the rotary seat.

As a further improvement of the invention, the groove wall of the groove is provided with a mounting groove for mounting the fixing ring, the groove wall of the mounting groove is hinged with a limiting block, the groove bottom of the mounting groove is provided with a hinge hole, the limiting block is provided with a rotating rod which is embedded into the hinge hole and can slide and rotate in the hinge hole, the limiting block is provided with a fixing rod, the groove bottom of the mounting groove is provided with a fixing hole, and the fixing rod can be embedded into the fixing hole.

The invention has the beneficial effects that the splicing blocks can be spliced into mounting plates with various sizes, the mounting plates are suitable for various environments, the splicing blocks of two adjacent layers are mutually staggered, the stability is higher when the splicing is completed, and the rope penetrates through the first through hole and the second through hole of the alternating-current splicing block to be fixed on the wall, so that the stability is further improved. The cable is installed according to the installation habit in penetrating the recess in proper order to make the mark on the concatenation piece that the recess corresponds, seek the cable more quick when making the maintenance, improve maintenance efficiency. When the splice block is damaged, the cable is disassembled firstly, then the splice block is moved, a new splice block is reinstalled to the original position after the splice block is disassembled, the moved splice block is reset, only one splice block is needed to be replaced after the splice block is damaged, the method is more economical and environment-friendly, and only part of splice blocks need to be moved during reinstallation, so that the method is simple and efficient.

Drawings

FIG. 1 is a schematic view of the overall structure of a splice block;

FIG. 2 is a side view of a splice block;

FIG. 3 is a top view of the splice block;

FIG. 4 is a schematic view of the structure of the fixing device when closed;

FIG. 5 is a schematic view of the structure of the fixing device when opened;

fig. 6 is a schematic structural view of a cut-off section of the rotating base and the fixed ring.

Marking: 1. splicing blocks; 10. a groove; 111. the first trapezoid clamping block; 110. a first trapezoidal clamping groove; 121. the second trapezoid clamping block; 120. a second trapezoidal clamping groove; 101. a first through hole; 102. a second through hole; 2. a fixing device; 21. a rotating seat; 22. a fixed frame; 23. a fixing piece; 210. a rotary groove; 211. a through hole; 221. a fixing ring; 222. a guide rod; 24. a third through hole; 2220. a guide groove; 231. a guide block; 232. a driven block; 212. an annular positioning block; 2211. an annular positioning groove; 3. a hemispherical groove; 31. a ball; 2121. a rolling groove; 4. a rotating rod; 50. a mounting groove; 51. a limiting block; 500. a hinge hole; 501. a fixing hole; 510. a rotating lever; 511. and a fixing rod.

Detailed Description

The invention will be further described in detail with reference to examples of embodiments shown in the drawings.

Referring to fig. 1 to 6, a cable laying wire finishing device of the present embodiment includes: the novel cable splicing device comprises a plurality of splicing blocks 1, wherein grooves 10 for installing cables are formed in the splicing blocks 1, a first trapezoidal clamping block 111 is arranged on one side face of each splicing block 1, a first trapezoidal clamping groove 110 for embedding the first trapezoidal clamping block 111 on the adjacent splicing block 1 is formed in the other opposite side face, the upper bottom face of each first trapezoidal clamping block 111 is close to the side face of each splicing block 1, a second trapezoidal clamping groove 120 is formed in the bottom face of each splicing block 1, a second trapezoidal clamping block 121 is arranged on the top face of each splicing block 1, the second trapezoidal clamping groove 120 is used for embedding the second trapezoidal clamping block 121 of each splicing block 1 on the lower side, and a first through hole 101 and a second through hole 102 for fixing are formed in each splicing block 1.

Through the above technical scheme, corresponding splice block 1 is spliced according to the installation requirement, from the top down when the horizontal splice block 1 is spliced, first trapezoidal clamping block 111 of the corresponding splice block is embedded into first trapezoidal clamping groove 110 of adjacent splice block 1, and adjust to same horizontal height, the second trapezoidal clamping block 121 of two splice blocks 1 is on same straight line at this moment, second trapezoidal clamping groove 120 is on same straight line, a plurality of splice blocks 1 can be spliced according to the requirement on the length direction in the same way, later install splice block 1 above this row of splice block 1, during installation, second trapezoidal clamping groove 120 of upper splice block 1 aligns the second trapezoidal clamping block 121 of this row of splice block 1 and inserts, make second trapezoidal clamping block 121 imbed in second trapezoidal clamping groove 120, simultaneously, a plurality of splice blocks 1 can also be spliced in the top according to the requirement, be applicable to each environment, and adjacent two-layer splice blocks 1 stagger each other, stability is higher when the splice is accomplished, after the splice is accomplished, penetrate cable into recess 10, and accomplish the installation, and after the rope is accomplished with the second splice block 1, further install through hole 102, further improve the stability, after the rope is passed through the splice block 1, and the through hole is accomplished. The cable penetrates into the grooves 10 in sequence according to the installation habit when being installed, and marks are made on the splicing blocks 1 corresponding to the grooves 10, so that the cable searching is faster during maintenance, and the maintenance efficiency is improved. And when the splicing block 1 is damaged, the cable is disassembled firstly, then the splicing block 1 is moved, a new splicing block 1 is reinstalled to the original position after the splicing block 1 is disassembled, the moved splicing block 1 is reset, only one splicing block 1 is required to be replaced after the splicing block 1 is damaged, the novel splicing block is more economical and environment-friendly, and meanwhile, only part of the splicing block 1 is required to be moved during reinstallation, so that the novel splicing block is simple and efficient. The method avoids the situation that the corresponding cable needs to be cut off when the cable is needed to be found out in the process of debugging and maintaining equipment, and then the cable is bound up, so that time and labor are wasted, and a lot of inconvenience is caused to the debugging and maintaining equipment.

As a modified embodiment, a fixing device for fixing the cable is arranged in the groove 10.

Through the technical scheme, when the cable is installed in the groove 10, the cable is fixed in the groove 10 by the fixing device, so that the stability is higher after the cable is installed, and the cable is not easy to pull.

As an improved specific embodiment, the fixing device comprises a rotating seat 21, a fixing frame 22 and six fixing plates 23, the fixing plates 23 are all arranged between the rotating seat 21 and the fixing frame 22, a hexagonal rotating groove 210 is formed in the rotating seat 21, a through hole 211 for a cable to pass through is formed in the rotating seat 21, the fixing frame 22 comprises a fixing ring 221 and six guide rods 222, the fixing ring 221 and the rotating seat 21 are coaxially and rotatably connected, the fixing ring 221 is fixedly connected to the wall of the groove 10, six guide rods 222 are circumferentially distributed in the fixing ring 221, one ends of the six guide rods 222 are fixedly connected to the inner wall of the fixing ring 221, the other ends of the six guide rods 222 are mutually connected to form a third through hole 24, the third through hole 24 is coaxial with the through hole 211 and have equal radiuses, guide grooves 2220 are formed in the guide rods 222, guide blocks 231 are respectively arranged on the upper end faces of the fixing plates 23, driven blocks 232 are respectively arranged on the lower end faces of the fixing plates 23 and are respectively embedded in the rotating grooves 210, and the guide blocks 231 are correspondingly embedded in the guide grooves 2220.

Through the above technical scheme, when installing a cable, the rotary seat 21 is rotated firstly, the rotary seat 21 rotates to drive the hexagonal rotary groove 210 to rotate, the rotary groove 210 rotates to drive the driven block 232 in the rotary groove 210 to slide, the fixing piece 23 is driven to rotate outwards, the through hole 211 is opened, the cable passes through the through hole 211 and the third through hole 24 to be connected, then the rotary seat 21 is rotated reversely, at this moment, the rotary seat 210 rotates to drive the driven block 232 to slide, the fixing piece 23 is driven to rotate inwards to slide, the side surface of the fixing piece 23 is in contact with the side wall of the cable in the rotating and sliding process, the cable is fixed, the guide rod 222 slides in the guide groove 2220 in the moving process of the fixing piece 23, the auxiliary locating piece rotates to slide, and the guide rod 222 is distributed on the fixing ring 221 in a circumferential shape, the third through hole 24 and the through hole 211 guide the cable jointly, so that the cable is easy, convenient and efficient to install from two sides.

As a modified embodiment, the rotating base 21 is coaxially provided with an annular positioning block 212, the fixed ring 221 is coaxially provided with an annular positioning groove 2211, and the annular positioning block 212 is rotatably disposed in the annular positioning groove 2211.

Through the above technical scheme, the annular positioning block 212 is embedded into the annular positioning groove 2211, when the rotating seat 21 is rotated, the annular positioning block 212 rotates in the annular positioning groove 2211, and the annular positioning block 212 and the annular positioning groove 2211 are rotationally connected with the rotating seat 21 and the fixed ring 221, so that the installation and the disassembly are convenient.

As a modified specific embodiment, the groove walls on two sides of the annular positioning groove 2211 are provided with a plurality of hemispherical grooves 3, the hemispherical grooves 3 are provided with balls 31, two sides of the annular positioning block 212 are provided with rolling grooves 2121, and the balls 31 are embedded into the rolling grooves 2121 and are abutted against the groove bottoms of the rolling grooves 2121.

Through the above technical scheme, when rotating the rotary seat 21, the ball 31 rolls in the rolling groove 2121, the friction force when rotating the rotary disk is reduced, the rotating process is easier and more convenient, the abrasion between the annular positioning block 212 and the annular positioning groove 2211 is reduced, the service lives of the annular positioning block 212 and the annular positioning groove 2211 are prolonged, the service lives of the rotary seat 21 and the fixed ring 221 are prolonged, the hemispherical grooves 3 are formed in the groove walls on two sides of the positioning groove, the ball 31 is arranged, and the two sides of the annular positioning block 212 are rubbed with the ball 31, so that the rotary seat is more stable and reliable in use.

As a modified embodiment, the rotary rod 4 is eccentrically arranged on the side of the rotary seat 21 facing away from the annular positioning block 212.

Through above-mentioned technical scheme, when rotatory roating seat 21, handheld rotary rod 4 is rotatory to drive roating seat 21 and is rotated, makes the process of rotating roating seat 21 more convenient light, improves the efficiency of fixed cable.

As a modified embodiment, the rotary rod 4 is rotatably arranged on the rotary seat 21.

Through above-mentioned technical scheme, when rotatory roating seat 21, handheld rotary rod 4 is rotatory to drive roating seat 21 and is rotated, and roating seat 21 rotates the in-process, and rotary rod 4 rotates, makes the rotatory process smoother, when avoiding rotatory rotary rod 4, frictional condition between rotary rod 4 and the finger further improves the efficiency of fixed cable.

As a specific embodiment of improvement, the groove wall of the groove 10 is provided with a mounting groove 50 for mounting the fixing ring 221, the groove wall of the mounting groove 50 is hinged with a limiting block 51, the groove bottom of the mounting groove 50 is provided with a hinge hole 500, the limiting block 51 is provided with a rotating rod 510, the rotating rod 510 is embedded into the hinge hole 500 and can slide and rotate in the hinge hole 500, the limiting block 51 is provided with a fixing rod 511, the groove bottom of the mounting groove 50 is provided with a fixing hole 501, and the fixing rod 511 can be embedded into the fixing hole 501.

Through the above technical scheme, when installing fixing device, will rotate stopper 51 earlier, open mounting groove 50, afterwards aim at fixed ring 221 and place in mounting groove 50, afterwards rotate stopper 51, rotate to stopper 51 and rotary seat 21 and contradict, dead lever 511 aims at fixed orifices 501 this moment, promote the gag lever post, make dead lever 511 imbeds in fixed orifices 501, fixed ring 221 and the cell wall of mounting groove 50 are inconsistent this moment, rotary seat 21 and stopper 51 offset and touch, fix it in mounting groove 50, and fixed back dead lever 511 imbeds in fixed orifices 501, joint strength is high, improve fixing device's stability.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims

1. The utility model provides a cable laying wire rod finishing device which characterized in that: comprises the following steps: the novel cable splicing device comprises a plurality of splicing blocks (1), wherein grooves (10) for installing cables are formed in the splicing blocks (1), a first trapezoidal clamping block (111) is arranged on one side surface of each splicing block (1), a first trapezoidal clamping groove (110) for embedding the first trapezoidal clamping block (111) on the adjacent splicing block (1) is formed in the other opposite side surface, the upper bottom surface of each first trapezoidal clamping block (111) is close to the side surface of each splicing block (1), a second trapezoidal clamping groove (120) is formed in the bottom surface of each splicing block (1), a second trapezoidal clamping block (121) is arranged on the top surface of each splicing block (1), the second trapezoidal clamping blocks (121) of each second trapezoidal clamping groove (120) are embedded in the corresponding second trapezoidal clamping block (121) of each lower splicing block (1), and a first through hole (101) and a second through hole (102) for fixing are formed in each splicing block (1);

a fixing device for fixing the cable is arranged in the groove (10);

the fixing device comprises a rotating seat (21), a fixing frame (22) and six fixing plates (23), wherein the fixing plates (23) are arranged between the rotating seat (21) and the fixing frame (22), a hexagonal rotating groove (210) is formed in the rotating seat (21), a through hole (211) for a cable to pass through is formed in the rotating seat (21), the fixing frame (22) comprises a fixing ring (221) and six guide rods (222), the fixing ring (221) and the rotating seat (21) are coaxially and rotatably connected, the fixing ring (221) is fixedly connected to the groove wall of the groove (10), the six guide rods (222) are circumferentially distributed in the fixing ring (221), one ends of the six guide rods (222) are fixedly connected to the inner wall of the fixing ring (221), the other ends of the guide rods (222) are mutually connected to form a third through hole (24), the third through hole (24) is coaxial with the through hole (211) and equal in radius, guide grooves (0) are formed in the guide rods (222), the upper end faces (23) are provided with guide blocks (231) respectively embedded in the fixing plates (23), the guide blocks (231) are embedded in the guide grooves (2220) in a one-to-one correspondence;

an annular positioning block (212) is coaxially arranged on the rotating seat (21), an annular positioning groove (2211) is coaxially formed in the fixed ring (221), and the annular positioning block (212) is rotatably arranged in the annular positioning groove (2211);

a plurality of hemispherical grooves (3) are formed in groove walls on two sides of the annular positioning groove (2211), balls (31) are arranged in the hemispherical grooves (3), rolling grooves (2121) are formed in two side faces of the annular positioning block (212), and the balls (31) are embedded into the rolling grooves (2121) and are abutted against groove bottoms of the rolling grooves (2121);

the mounting groove (50) for mounting the fixing ring (221) is formed in the groove wall of the groove (10), the limiting block (51) is hinged to the groove wall of the mounting groove (50), the hinge hole (500) is formed in the groove bottom of the mounting groove (50), the rotating rod (510) is arranged on the limiting block (51), the rotating rod (510) is embedded into the hinge hole (500) and can slide and rotate in the hinge hole (500), the limiting block (51) is provided with the fixing rod (511), the fixing hole (501) is formed in the groove bottom of the mounting groove (50), and the fixing rod (511) can be embedded into the fixing hole (501).