CN213402252U

CN213402252U - Cable laying device for power engineering

Info

Publication number: CN213402252U
Application number: CN202021646975.9U
Authority: CN
Inventors: 邬强; 其他发明人请求不公开姓名
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-10
Filing date: 2020-08-10
Publication date: 2021-06-08
Anticipated expiration: 2030-08-10

Abstract

The utility model discloses a cable laying device for power engineering, including first diaphragm and pillar, the upper surface rigid coupling of first diaphragm has a plurality of pillars, fixing device is installed to the top of pillar. This cable laying device for power engineering, through the second diaphragm, the notch plate, the running roller, the cable conductor, the first riser, mutually support between first baffle and the spring isotructure, can make first baffle carry on spacingly through the recess of notch plate to it, elasticity performance through the spring simultaneously supports the notch plate tightly, through the second baffle, the third baffle, L shape toothed disc, mutually support between tooth board and the electric putter isotructure, can drive tooth board through electric push rod and remove, tooth board drives L shape toothed disc and rotates, L shape toothed disc drives the third baffle and removes, make the third baffle exert pressure to the cable conductor, thereby the winding is knoed when preventing the cable conductor from removing.

Description

Cable laying device for power engineering

Technical Field

The utility model relates to an electric power engineering technical field specifically is a cable laying device for electric power engineering.

Background

The electric power engineering, namely the engineering related to the production, transmission and distribution of electric energy, also includes the engineering of applying electricity as power and energy in various fields in a broad sense, and can understand the transmission and transformation industry expansion engineering at the same time, in the electric power engineering, the cable needs to be laid before the electric power transmission, so a laying device needs to be used for assisting to prevent the cable from disorder, for example, the cable laying traction equipment with the patent number of CN 208241199U, the cable laying traction equipment of the utility model not only can effectively realize the cable laying, but also can reduce the labor cost, improve the cable laying efficiency, reduce the hidden damage danger existing when the cable is laid, although the auxiliary cable laying can be realized in the prior art, the roller wheel wound with the cable can not be disassembled, so the application range is too low, and simultaneously the knotting phenomenon is easy to occur when the cable moves in the prior art, thereby affecting the construction efficiency.

Disclosure of Invention

An object of the utility model is to provide a cable laying device for power engineering to solve and to provide among the above-mentioned background art, though can realize auxiliary cable among the prior art and lay, can't dismantle the running roller of twining the cable, consequently application scope crosses problem low excessively.

In order to achieve the above object, the utility model provides a following technical scheme: a cable laying device for power engineering comprises a first transverse plate and a plurality of supporting columns, wherein the upper surface of the first transverse plate is fixedly connected with the plurality of supporting columns, and fixing devices are arranged above the supporting columns;

the fixing device comprises a second transverse plate, a concave plate, a roller, a cable, a first vertical plate, a first baffle and a spring;

the lower surface of second diaphragm links to each other with the pillar is fixed, the notch part of second diaphragm installs the concave plate, the outer wall of concave plate and the notch part inner wall clearance fit of second diaphragm, the notch part of concave plate rotates and is connected with the running roller, the outer wall winding of running roller is connected with the cable conductor, first baffle is all installed to the left and right sides notch part of concave plate, the outer wall of first baffle and the notch part inner wall clearance fit of concave plate, first riser is installed to the middle outer wall of first baffle, the through-hole department inner wall of first riser and the outer wall clearance fit of first baffle, the right side the top notch part inner wall and the cable conductor outer wall clearance fit of first riser, the spring is installed to the outside outer wall of first baffle, the both sides of spring are fixed with first riser and first baffle respectively and are continuous.

Preferably, the first vertical plate and the second transverse plate are vertically arranged, so that the first baffle plate can move in a horizontal direction.

Preferably, the length dimension of the concave plate is smaller than the width dimension of the second transverse plate, so that the concave plate can be limited.

Preferably, a moving device is arranged above the right side of the second transverse plate;

the moving device comprises a second vertical plate, a second baffle, a third baffle, an L-shaped gear plate, an L-shaped plate, a first connecting rod, a second connecting rod, a tooth plate and an electric push rod;

the lower surface of the second vertical plate is fixedly connected with the second transverse plate, the inner wall of the through hole at the lower part of the second vertical plate is in clearance fit with the outer wall of the cable, the left side of the second vertical plate is provided with a second baffle and a third baffle, the lower surface of the second baffle is fixedly connected with the second transverse plate, the inner side outer walls of the second baffle and the third baffle are in clearance fit with the outer wall of the cable, the upper part of the right side of the third baffle is rotatably connected with an L-shaped gear plate through a rotating shaft, the right side of the front end surface of the L-shaped gear plate is rotatably connected with an L-shaped plate through a rotating shaft, the right side of the L-shaped plate is fixedly connected with the second vertical plate, the upper part of the front end surface of the L-shaped plate is rotatably connected with a first connecting rod through a rotating shaft, the left side of the first connecting rod is rotatably connected with a, the meshing of the below of L shape toothed bar is connected with the tooth dental lamina, the outer wall of tooth dental lamina and the upper through-hole department inner wall clearance fit of second riser, the lower surface left side rigid coupling of tooth dental lamina has electric putter, electric putter's right side and second riser are fixed continuous, and the design can play limiting displacement to L shape tooth dental lamina through the L shaped plate like this.

Preferably, second baffle and second riser are parallel arrangement, can improve the tight effect of supporting to the cable conductor like this.

Preferably, a rotating device is installed on the upper surface of the first transverse plate;

the rotating device comprises a third vertical plate, a first bevel gear rod, a rotary table, a second bevel gear rod and a cam;

control the upper and lower both sides of third riser are fixed continuous with second diaphragm and first diaphragm respectively, the inside of third riser rotates through the bearing and is connected with first helical gear pole, the inboard rigid coupling of first helical gear pole has the carousel, the outside top meshing of first helical gear pole is connected with second helical gear pole, second helical gear pole rotates through bearing and second diaphragm and links to each other, the upper surface rigid coupling of second helical gear pole has the cam, the outer wall of cam is laminated mutually with the outer wall of first baffle, and the design can move through first baffle of cam drive like this.

Preferably, the meshing ratio of the first bevel gear rod to the second bevel gear rod is 1: 1, so that the second bevel gear rod can rotate more stably.

Preferably, the middle point of the rotating disc and the middle point of the first helical gear rod are on the same horizontal line, so that the first helical gear rod can be better driven to rotate.

Compared with the prior art, the beneficial effects of the utility model are that: this cable laying device for power engineering through mutually supporting between second diaphragm, concave plate, running roller, cable conductor, riser, first baffle and the spring isotructure, can make first baffle carry on spacingly through the recess of concave plate to it, supports the concave plate tightly through the elasticity performance of spring simultaneously.

Through mutually supporting between structures such as third riser, first helical gear pole, carousel, second helical gear pole and the cam, can drive first helical gear pole through the runner and rotate, first helical gear pole rotates in order to drive the cam through the second helical gear pole, drives first baffle through the cam and removes to the result of use of this device has been improved.

Through mutually supporting between second baffle, third baffle, L shape toothed plate, tooth dental lamina and the electric putter isotructure, can drive the tooth dental lamina through electric putter and remove, the tooth dental lamina drives L shape toothed plate and rotates, and L shape toothed plate drives the third baffle and removes, makes the third baffle exert pressure to the cable conductor to the winding is knoed when preventing that the cable conductor from removing.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of the L-shaped gear plate, the tooth plate and the electric push rod in FIG. 1;

FIG. 3 is a schematic view of the first baffle, the spring and the cam of FIG. 1;

fig. 4 is a schematic structural view of the rotary table, the first bevel gear rod and the second bevel gear rod in fig. 1.

In the figure: 1. the device comprises a first transverse plate, 2, a support column, 3, a fixing device, 301, a second transverse plate, 302, a concave plate, 303, a roller, 304, a cable wire, 305, a first vertical plate, 306, a first baffle plate, 307, a spring, 4, a moving device, 401, a second vertical plate, 402, a second baffle plate, 403, a third baffle plate, 404, an L-shaped toothed plate, 405, an L-shaped plate, 406, a first connecting rod, 407, a second connecting rod, 408, a toothed plate, 409, an electric push rod, 5, a rotating device, 501, a third vertical plate, 502, a first bevel gear rod, 503, a rotary disc, 504, a second bevel gear rod, 505 and a cam.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a cable laying device for power engineering comprises a first transverse plate 1 and a support column 2, wherein 4 support columns 2 are fixedly connected to the upper surface of the first transverse plate 1, a fixing device 3 is mounted above the support column 2, the fixing device 3 comprises a second transverse plate 301, a concave plate 302, a roller 303, a cable 304, a first vertical plate 305, a first baffle 306 and a spring 307, the lower surface of the second transverse plate 301 is fixedly connected with the support column 2, a groove is formed in the upper portion of the second transverse plate 301, the concave plate 302 is mounted at the groove of the second transverse plate 301, the outer wall of the concave plate 302 is in clearance fit with the inner wall of the groove of the second transverse plate 301, the second transverse plate 301 can limit the concave plate 302 through the groove, 2 grooves are formed in the left side and the right side of the concave plate 302, the roller 303 is rotatably connected at the groove of the concave plate 302, the cable 304 is wound and connected to the outer wall of the roller 303, the first baffle 306 is mounted at the grooves in, the outer wall of first baffle 306 and the recess department inner wall clearance fit of concave plate 302, first baffle 306 can support it tightly through the recess of concave plate 302, first riser 305 is installed to the middle outer wall of first baffle 306, the inside below processing of first riser 305 has the through-hole, the recess is processed to the first riser 305 top on right side, the through-hole department inner wall of first riser 305 and the outer wall clearance fit of first baffle 306, the top recess department inner wall of right side first riser 305 and the outer wall clearance fit of cable line 304, spring 307 is installed to the outside outer wall of first baffle 306, the both sides of spring 307 are fixed continuous with first riser 305 and first baffle 306 respectively, spring 307 is in compression state when first baffle 306 moves to the inboard, first riser 305 is the vertical setting with second diaphragm 301, the length size of concave plate 302 is less than the width size of second diaphragm 301.

A moving device 4 is arranged above the right side of the second transverse plate 301, the moving device 4 comprises a second vertical plate 401, a second baffle plate 402, a third baffle plate 403, an L-shaped gear plate 404, an L-shaped plate 405, a first connecting rod 406, a second connecting rod 407, a tooth plate 408 and an electric push rod 409, the lower surface of the second vertical plate 401 is fixedly connected with the second

transverse plate

301, 2 through holes are processed above the inside of the second vertical plate 401, the inner wall of the through hole below the second vertical plate 401 is in clearance fit with the outer wall of the cable 304, the left side of the second vertical plate 401 is provided with the second baffle plate 402 and the third baffle plate 403, the lower surface of the second baffle plate 402 is fixedly connected with the second transverse plate 301, the inner side outer walls of the second baffle plate 402 and the third baffle plate 403 are in clearance fit with the outer wall of the cable 304, the cable 304 can be extruded through the second baffle plate 402 and the third baffle plate 403, the L-shaped gear plate 404 is rotatably connected above the right side of the, the right side of the front end face of the L-shaped gear plate 404 is rotatably connected with an L-shaped plate 405 through a rotating shaft, the L-shaped plate 405 can limit the L-shaped gear plate 404, the right side of the L-shaped plate 405 is fixedly connected with a second vertical plate 401, the upper part of the front end face of the L-shaped plate 405 is rotatably connected with a first connecting rod 406 through a rotating shaft, the left side of the first connecting rod 406 is rotatably connected with a second connecting rod 407 through a rotating shaft, the left side of the third baffle 403 can be limited through the first connecting rod 406 and the second connecting rod 407, the left side of the second connecting rod 407 is rotatably connected with the third baffle 403 through a rotating shaft, a tooth plate 408 is engaged and connected with the lower part of the L-shaped gear plate 404, the tooth plate 408 can drive the L-shaped gear plate 404 to rotate, the outer wall of the tooth plate 408 is in clearance fit with the inner wall of the through hole above the second vertical plate 401, the tooth plate 408 can move at the through hole of, the model of electric putter 409 is XTL, and electric putter 409's right side and second riser 401 are fixed continuous, and second baffle 402 is parallel arrangement with second riser 401.

The upper surface of the first horizontal plate 1 is provided with a rotating device 5, the rotating device 5 comprises a third vertical plate 501, a first bevel gear rod 502, a rotary plate 503, a second bevel gear rod 504 and a cam 505, the upper and lower sides of the left and right third vertical plates 501 are respectively fixedly connected with the second horizontal plate 301 and the first horizontal plate 1, the interior of the third vertical plate 501 is rotatably connected with the first bevel gear rod 502 through a bearing, the first bevel gear rod 502 can rotate at the third vertical plate 501 through a shaft, the inner side of the first bevel gear rod 502 is fixedly connected with the rotary plate 503, the first bevel gear rod 502 can be driven to rotate through the rotary plate 503, the upper part of the outer side of the first bevel gear rod 502 is connected with the second bevel gear rod 504 in a meshing manner, the first bevel gear rod 504 can drive the second bevel gear rod 502 to rotate, the second bevel gear rod 504 is rotatably connected with the second horizontal plate 301 through a bearing, the upper surface of the second bevel gear rod 504 is fixedly connected with the cam 505, the outer wall of the cam 505 is attached to the outer wall of the first baffle 306, the cam 505 can drive the first baffle 306 to move, and the meshing ratio of the first bevel gear rod 502 to the second bevel gear rod 504 is 1: 1, the middle point of the rotating disc 503 is on the same horizontal line with the middle point of the first bevel gear rod 502.

When an operator needs to use the cable laying device for the electric power engineering, firstly, the operator moves the concave plate 302 with the roller 303 and the cable 304 wound thereon to the groove of the second horizontal plate 301, rotates the handle 503, drives the first bevel gear rod 502 to rotate through the handle 503, so that the first bevel gear rod 502 drives the second bevel gear rod 504 to rotate, the second bevel gear rod 504 drives the cam 505 to rotate, when the bulge of the cam 505 contacts with the first baffle 306, the cam 505 drives the first baffle 306 to move, so that the inner side of the first baffle 306 enters the groove of the concave plate 302, meanwhile, the first baffle 306 extrudes the spring 307 through the first vertical plate 305, the concave plate 302 is tightly pressed through the first baffle 306 through the elasticity of the spring 307, so that the purpose of convenient installation is achieved, an external power supply of the electric push rod is switched on, and the electric push rod 409 is started, the electric push rod 409 drives the tooth plate 408 to move, so that the tooth plate 408 drives the L-shaped gear plate 404 to rotate, the L-shaped gear plate 404 drives the third baffle 403 to move, the third baffle 403 exerts pressure on the cable 304 through the second baffle 402, and the purpose of preventing the cable 304 from being wound and knotted when moving is achieved.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

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

Claims

1. The utility model provides a cable laying device for power engineering, includes first diaphragm (1) and pillar (2), the upper surface rigid coupling of first diaphragm (1) has a plurality of pillars (2), its characterized in that: a fixing device (3) is arranged above the strut (2);

the fixing device (3) comprises a second transverse plate (301), a concave plate (302), a roller (303), a cable (304), a first vertical plate (305), a first baffle (306) and a spring (307);

the lower surface of second diaphragm (301) is fixed continuous with pillar (2), concave plate (302) is installed to the groove of second diaphragm (301), the outer wall of concave plate (302) and the groove inner wall clearance fit of second diaphragm (301), the groove of concave plate (302) rotates and is connected with running roller (303), the outer wall winding of running roller (303) is connected with cable conductor (304), first baffle (306) are all installed to the left and right sides groove of concave plate (302), the outer wall of first baffle (306) and the groove inner wall clearance fit of concave plate (302), first riser (305) is installed to the middle outer wall of first baffle (306), the through-hole inner wall of first riser (305) and the outer wall clearance fit of first baffle (306), the right side the top groove inner wall of first riser (305) and cable conductor (304) outer wall clearance fit, the outer side outer wall of the first baffle (306) is provided with a spring (307), and two sides of the spring (307) are fixedly connected with the first vertical plate (305) and the first baffle (306) respectively.

2. A cabling arrangement for power engineering according to claim 1, characterized in that: the first vertical plate (305) and the second horizontal plate (301) are vertically arranged.

3. A cabling arrangement for power engineering according to claim 1, characterized in that: the length dimension of the concave plate (302) is smaller than the width dimension of the second transverse plate (301).

4. A cabling arrangement for power engineering according to claim 1, characterized in that: a moving device (4) is arranged above the right side of the second transverse plate (301);

the moving device (4) comprises a second vertical plate (401), a second baffle plate (402), a third baffle plate (403), an L-shaped gear plate (404), an L-shaped plate (405), a first connecting rod (406), a second connecting rod (407), a tooth plate (408) and an electric push rod (409);

the lower surface of the second vertical plate (401) is fixedly connected with the second transverse plate (301), the inner wall of the through hole at the lower part of the second vertical plate (401) is in clearance fit with the outer wall of the cable (304), the left side of the second vertical plate (401) is provided with a second baffle plate (402) and a third baffle plate (403), the lower surface of the second baffle plate (402) is fixedly connected with the second transverse plate (301), the inner side outer walls of the second baffle plate (402) and the third baffle plate (403) are in clearance fit with the outer wall of the cable (304), the upper part of the right side of the third baffle plate (403) is rotatably connected with an L-shaped gear plate (404) through a rotating shaft, the right side of the front end surface of the L-shaped gear plate (404) is rotatably connected with an L-shaped plate (405) through a rotating shaft, the right side of the L-shaped plate (405) is fixedly connected with the second vertical plate (401), the upper part of the front end surface of the L, the left side of first connecting rod (406) is rotated through the pivot and is connected with second connecting rod (407), the left side of second connecting rod (407) is rotated through pivot and third baffle (403) and is linked to each other, the below meshing of L shape gear board (404) is connected with tooth dental lamina (408), the outer wall of tooth dental lamina (408) and the top through-hole department inner wall clearance fit of second riser (401), the lower surface left side rigid coupling of tooth dental lamina (408) has electric putter (409), the right side and the second riser (401) of electric putter (409) are fixed continuous.

5. A cabling arrangement for power engineering according to claim 4, wherein: the second baffle (402) and the second vertical plate (401) are arranged in parallel.

6. A cabling arrangement for power engineering according to claim 1, characterized in that: the upper surface of the first transverse plate (1) is provided with a rotating device (5);

the rotating device (5) comprises a third vertical plate (501), a first bevel gear rod (502), a rotary disc (503), a second bevel gear rod (504) and a cam (505);

control the upper and lower both sides of third riser (501) are fixed continuous with second diaphragm (301) and first diaphragm (1) respectively, the inside of third riser (501) is rotated through the bearing and is connected with first bevel gear pole (502), the inboard rigid coupling of first bevel gear pole (502) has carousel (503), the outside top meshing of first bevel gear pole (502) is connected with second bevel gear pole (504), second bevel gear pole (504) rotate with second diaphragm (301) through the bearing and link to each other, the upper surface rigid coupling of second bevel gear pole (504) has cam (505), the outer wall of cam (505) is laminated with the outer wall of first baffle (306) mutually.

7. A cabling arrangement for power engineering according to claim 6, wherein: the meshing ratio of the first bevel gear rod (502) to the second bevel gear rod (504) is 1: 1.

8. a cabling arrangement for power engineering according to claim 6, wherein: the middle point of the rotating disc (503) and the middle point of the first bevel gear rod (502) are on the same horizontal line.