阅读说明：本技术 一种电力高压电缆布线装置 (Power high-voltage cable wiring device ) 是由 陈强 刘康 孔琳琳 孔宁 储学法 苏纯宝 张贵洋 许帆 屈强 颜廷国 孙钊 张 于 2020-11-09 设计创作，主要内容包括：本发明公开一种电力高压电缆布线装置,包括矩形机架杆,矩形机架杆上滑动连接有若干个左、右间隔设置的电缆线放卷部件,电缆线放卷部件包括滑动连接在矩形机架杆前、后两侧的轴承安装座,轴承安装座之间转动连接有放卷轴,所述放卷轴上固定连接有若干个前、后间隔设置的放卷轮；放卷轮上开设有卷线槽,矩形机架杆的左、右两端均固定连接有导线栅板部件,导线栅板部件均包括上下间隔设置的两个导线栅板,导线栅板上均开设有若干个与卷线槽配合的导线口,导线栅板之间通过两个前后间隔设置的高度调节部件进行高度调节。采用上述装置部件设计有效提高了电缆的铺设安装效率。(The invention discloses a power high-voltage cable wiring device, which comprises a rectangular rack rod, wherein a plurality of cable unwinding parts which are arranged at intervals at the left and right are connected to the rectangular rack rod in a sliding manner; the wire winding groove is formed in the unwinding wheel, the wire grid plate parts are fixedly connected to the left end and the right end of the rectangular rack rod respectively, the wire grid plate parts comprise two wire grid plates which are arranged at the upper and lower intervals, a plurality of wire openings matched with the wire winding groove are formed in the wire grid plates, and height adjustment is performed between the wire grid plates through the height adjusting parts arranged at the two front and rear intervals. Adopt the design of above-mentioned device part to effectively improve the installation effectiveness of laying of cable.)

1. A power high-voltage cable wiring device is characterized by comprising a rectangular rack rod;

the rectangular rack rod is connected with a plurality of cable unwinding parts which are arranged at intervals at the left and the right in a sliding manner;

the cable unwinding part comprises bearing mounting seats which are connected to the front side and the rear side of the rectangular rack rod in a sliding mode, an unwinding shaft is rotatably connected between the bearing mounting seats, and a plurality of unwinding wheels which are arranged at intervals in the front and the rear of the unwinding shaft are fixedly connected to the unwinding shaft; the unwinding wheel is provided with a winding groove;

the bearing mounting seat is in threaded connection with a positioning bolt, and the rectangular rack rod is provided with a plurality of fastening threaded holes which are arranged at intervals left and right;

the left end and the right end of the rectangular rack rod are fixedly connected with a wire grid plate component;

the wire grid plate components comprise two wire grid plates which are arranged at intervals up and down, and a plurality of wire openings matched with the wire winding grooves are formed in the wire grid plates;

the wire grid plates are subjected to height adjustment through two height adjusting components arranged at intervals in the front and back directions;

the left side and the right side of the rectangular frame rod are fixedly connected with two wheel frame plates which are arranged at intervals in the front and back, and the outer side walls of the wheel frame plates are rotatably connected with rolling wheels.

2. The electric power high voltage cable routing device according to claim 1, wherein a cross bar is fixedly connected between inner side walls of the wheel frame plates, and a pulling member is fixedly connected to the cross bar;

the drawing part comprises a C-shaped rod fixedly connected to the cross rod, a connecting rod body is fixedly connected to the C-shaped rod, and a drawing ring body is fixedly connected to the connecting rod body.

3. The electric power high voltage cable routing device according to claim 2, wherein the height adjusting member includes a height adjusting screw fixedly coupled to the wire grid at a lower end portion;

the wire grid plate positioned at the upper end part is connected with the height adjusting screw rod in a sliding way;

the height adjusting screw is in threaded connection with two positioning nuts which are arranged at intervals up and down;

the positioning nuts are positioned and extruded at the top and the bottom of the wire grid plate.

4. The electrical high voltage cable routing device of claim 3, wherein the wire guide opening comprises a rectangular portion and an arc portion at a bottom of the rectangular portion.

5. The power high voltage cable routing device according to claim 4, further comprising a cable roll placement member fixedly connected between the tops of the height adjustment screws, the cable roll material being placed on the cable roll placement member by the cable roll placement member.

6. The electrical high-voltage cable routing device according to claim 5, wherein the coil placement members each include two base plates fixedly attached in spaced apart relation one to the other, a bottom portion of the base plates being fixedly attached between top portions of the height adjustment screws;

the left end and the right end of the base plate are both upwards fixedly connected with vertical plates, and two cross beam columns which are arranged at intervals are fixedly connected between the vertical plates;

and a plurality of material discharging rods arranged at left and right intervals are assembled between the beam columns.

7. The electrical high voltage cable routing device of claim 6, wherein the drop bar includes vertical portions spaced apart in a front-to-back direction;

a U-shaped part is arranged between the vertical parts;

the U-shaped part is provided with a placing gap, and the cable coil material is placed in the gap.

8. The electric power high voltage cable routing device of claim 7, wherein the vertical plates are mounted at the ends of the base plate by fastening bolts.

9. The electrical high-voltage cable routing device according to claim 8, wherein two adjusting nuts are screwed to the vertical portion, the adjusting nuts being spaced apart from each other up and down, and the discharge bar is adjusted by the adjusting nuts.

Technical Field

The invention relates to the field of high-voltage cable devices, in particular to a power high-voltage cable wiring device.

Background

The high voltage cable is a kind of power cable, which is used for transmitting power between 1kv and 1000kv, and is widely used for power transmission and distribution. The high-voltage cable comprises the following components from inside to outside: conductor, insulation, inner sheath, filler (armor), outer insulation. Of course, the armored high-voltage cable is mainly used for being buried in the ground, can resist the compression with high strength on the ground, and can prevent other external force from damaging.

With the development of electric power in China, high-voltage cables are gradually popularized and applied, so that the laying density and the laying range of the high-voltage cables are gradually increased.

In the process of laying the high-voltage cable, the coiled high-voltage cable is often required to be regularly unreeled, laid and installed.

However, the device disclosed in the prior art can only lay and install a single cable coil, which results in that the cable coil cannot meet the requirement of multi-line laying of the cable in the laying and installation process, specifically, in the cable erection process, a plurality of parallel cables are often laid and erected simultaneously, and obviously, the laying device disclosed in the prior art falls behind and cannot conveniently and effectively lay and erect the cable.

Disclosure of Invention

The invention aims to provide a power high-voltage cable wiring device.

The invention solves the technical problems through the following technical scheme:

a power high-voltage cable wiring device comprises a rectangular rack rod;

the rectangular rack rod is connected with a plurality of cable unwinding parts which are arranged at intervals at the left and the right in a sliding manner;

the cable unwinding part comprises bearing mounting seats which are connected to the front side and the rear side of the rectangular rack rod in a sliding mode, an unwinding shaft is rotatably connected between the bearing mounting seats, and a plurality of unwinding wheels which are arranged at intervals in the front and the rear of the unwinding shaft are fixedly connected to the unwinding shaft; the unwinding wheel is provided with a winding groove;

the bearing mounting seat is in threaded connection with a positioning bolt, and the rectangular rack rod is provided with a plurality of fastening threaded holes which are arranged at intervals left and right;

the left end and the right end of the rectangular rack rod are fixedly connected with a wire grid plate component;

the wire grid plate components comprise two wire grid plates which are arranged at intervals up and down, and a plurality of wire openings matched with the wire winding grooves are formed in the wire grid plates;

the wire grid plates are subjected to height adjustment through two height adjusting components arranged at intervals in the front and back directions;

the left side and the right side of the rectangular frame rod are fixedly connected with two wheel frame plates which are arranged at intervals in the front and back, and the outer side walls of the wheel frame plates are rotatably connected with rolling wheels.

Preferably, a cross bar is fixedly connected between the inner side walls of the wheel frame plates, and a traction part is fixedly connected to the cross bar;

the drawing part comprises a C-shaped rod fixedly connected to the cross rod, a connecting rod body is fixedly connected to the C-shaped rod, and a drawing ring body is fixedly connected to the connecting rod body.

Preferably, the height adjusting part comprises a height adjusting screw fixedly connected to the wire grid plate at the lower end part;

the wire grid plate positioned at the upper end part is connected with the height adjusting screw rod in a sliding way;

the height adjusting screw is in threaded connection with two positioning nuts which are arranged at intervals up and down;

the positioning nuts are positioned and extruded at the top and the bottom of the wire grid plate.

Preferably, the wire guide port comprises a rectangular portion and an arc portion located at the bottom of the rectangular portion.

Preferably, the power high voltage cable routing device further comprises a cable roll placing member fixedly connected between the tops of the height adjusting screws, and the cable roll material is placed on the cable roll placing member through the cable roll placing member.

Preferably, the cable roll placing parts respectively comprise two base plates which are fixedly connected and arranged at intervals in the front-back direction, and the bottoms of the base plates are fixedly connected between the tops of the height adjusting screws;

the left end and the right end of the base plate are both upwards fixedly connected with vertical plates, and two cross beam columns which are arranged at intervals are fixedly connected between the vertical plates;

and a plurality of material discharging rods arranged at left and right intervals are assembled between the beam columns.

Preferably, the emptying rod comprises vertical parts which are arranged at intervals in the front and back direction;

a U-shaped part is arranged between the vertical parts;

the U-shaped part is provided with a placing gap, and the cable coil material is placed in the gap.

Preferably, the vertical plates are mounted at the ends of the base plates by fastening bolts.

Preferably, the vertical part is in threaded connection with two adjusting nuts arranged at intervals up and down, and the discharging rod is adjusted through the adjusting nuts.

Compared with the prior art, the invention has the following advantages:

the invention discloses a power high-voltage cable wiring device, which is characterized in that a rectangular rack rod and a rectangular rack rod are designed, a plurality of cable unwinding parts which are arranged at intervals at the left and the right are connected on the rectangular rack rod in a sliding manner, each cable unwinding part comprises bearing mounting seats which are connected to the front and the rear sides of the rectangular rack rod in a sliding manner, an unwinding shaft is rotatably connected between the bearing mounting seats, and a plurality of unwinding wheels which are arranged at intervals at the front and the rear are fixedly connected on the unwinding shaft; the unwinding wheel is provided with a winding groove, a positioning bolt is in threaded connection with the bearing mounting seat, a plurality of fastening threaded holes arranged at left and right intervals are formed in the rectangular rack rod, the left and right ends of the rectangular rack rod are fixedly connected with wire grid plate parts, the wire grid plate parts comprise two wire grid plates arranged at upper and lower intervals, a plurality of wire openings matched with the winding groove and the wire grid plates are formed in the wire grid plates, two wheel frame plates arranged at front and back intervals are arranged between the wire grid plates and the wire opening matched with the winding groove, and two wheel frame plates are arranged at left and right sides of the rectangular rack rod and are fixedly connected with the left and right sides of the rectangular rack rod, rolling wheels are rotatably connected to the outer side walls of the wheel frame plates, and installation.

Adopt above-mentioned device part design not only can be fast effectual accomplish the cable and lay, and above-mentioned device part design realizes laying multichannel cable conductor simultaneously, has effectively improved the installation effectiveness of laying of cable.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a cable unwinding part according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of another view of the embodiment of FIG. 2;

FIG. 4 is a schematic structural view of a cable roll placement component in an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of an unwinding wheel according to an embodiment of the present invention;

FIG. 6 is a top view of the embodiment of the present invention in FIG. 2;

fig. 7 is a schematic structural diagram of another view angle in fig. 1 according to the embodiment of the present invention.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

Embodiment 1 electric power high voltage cable wiring device

As shown in fig. 1 to 7, a power high-voltage cable wiring device includes a rectangular rack bar 1; the rectangular rack rod 1 is connected with a plurality of cable unwinding parts 6 which are arranged at intervals on the left and right in a sliding manner;

the cable unwinding part 6 comprises bearing mounting seats 61 connected to the front and rear sides of the rectangular rack rod 1 in a sliding manner, unwinding shafts 63 are rotatably connected between the bearing mounting seats 61 (the bearing mounting seats 61 are provided with bearings, the unwinding shafts 63 are rotatably connected in the bearings), and a plurality of unwinding wheels 62 arranged at intervals in the front and rear directions are fixedly connected to the unwinding shafts 63; a winding slot 621 is formed in the unwinding wheel 62;

the bearing mounting seat 61 is in threaded connection with a positioning bolt 611, and the rectangular frame rod 1 is provided with a plurality of fastening threaded holes which are arranged at intervals left and right;

the left end and the right end of the rectangular rack rod 1 are fixedly connected with a wire grid plate component;

the wire grid plate components comprise two wire grid plates 2 which are arranged at intervals up and down, and a plurality of wire openings 21 matched with the wire winding grooves 621 are formed in the wire grid plates 2;

the height between the wire grid plates 2 is adjusted by two height adjusting components which are arranged at intervals front and back;

the left side and the right side of the rectangular frame rod 1 are fixedly connected with two wheel frame plates which are arranged at intervals in the front and at the back, and the outer side walls of the wheel frame plates are rotatably connected with rolling wheels 4.

A cross bar 41 is fixedly connected between the inner side walls of the wheel frame plates, and a traction part is fixedly connected to the cross bar 41;

the drawing part comprises a C-shaped rod 51 fixedly connected to the cross rod 41, a connecting rod body is fixedly connected to the C-shaped rod 51, and a drawing ring body 5 is fixedly connected to the connecting rod body.

The height adjusting component comprises a height adjusting screw rod 3 fixedly connected to the wire grid plate 2 at the lower end part;

the wire grid plate 2 positioned at the upper end part is connected with the height adjusting screw rod 3 in a sliding way;

the height adjusting screw 3 is in threaded connection with two positioning nuts 31 which are arranged at intervals up and down;

the positioning nuts 31 are positioned and pressed on the top and bottom of the wire grid 2.

The wire guide 21 includes a rectangular portion and an arc portion 211 located at the bottom of the rectangular portion.

The electric power high-voltage cable wiring device further comprises a cable roll placing component 7 fixedly connected between the tops of the height adjusting screw rods 3, and a cable roll material is placed on the cable roll placing component 7 through the cable roll placing component 7.

The cable roll placing parts 7 comprise two base plates 72 which are fixedly connected and arranged at intervals front and back, and the bottoms of the base plates 72 are fixedly connected between the tops of the height adjusting screw rods 3;

the left end and the right end of the base plate 72 are both upwards fixedly connected with vertical plates 71, and two cross beam columns 73 which are arranged at intervals are fixedly connected between the vertical plates 71;

a plurality of left and right discharging rods 74 are arranged between the beam columns 73 at intervals.

The discharge rod 74 includes vertical portions 741 disposed at intervals in the front and rear direction;

the vertical portions 741 have U-shaped portions 742 therebetween;

the U-shaped portion 742 has a placement void in which the cable roll material is placed.

The vertical plate 71 is mounted on the end of the base plate 72 by fastening bolts.

Two adjusting nuts a arranged at intervals up and down are connected to the vertical part 741 through threads, and the discharging rod 74 is adjusted through the adjusting nuts a.

EXAMPLE 2 method of laying and Using

As shown in fig. 1 to 7, the present embodiment discloses a method for laying and using a power high-voltage cable routing device based on the device structure disclosed in embodiment 1. Specifically, the power high-voltage cable routing device has the following specific structure:

a power high-voltage cable wiring device comprises a rectangular rack rod 1; the rectangular rack rod 1 is connected with a plurality of cable unwinding parts 6 which are arranged at intervals on the left and right in a sliding manner;

the cable unwinding part 6 comprises bearing mounting seats 61 connected to the front and rear sides of the rectangular rack rod 1 in a sliding manner, unwinding shafts 63 are rotatably connected between the bearing mounting seats 61 (the bearing mounting seats 61 are provided with bearings, the unwinding shafts 63 are rotatably connected in the bearings), and a plurality of unwinding wheels 62 arranged at intervals in the front and rear directions are fixedly connected to the unwinding shafts 63; a winding slot 621 is formed in the unwinding wheel 62;

the bearing mounting seat 61 is in threaded connection with a positioning bolt 611, and the rectangular frame rod 1 is provided with a plurality of fastening threaded holes which are arranged at intervals left and right;

the left end and the right end of the rectangular rack rod 1 are fixedly connected with a wire grid plate component;

the wire grid plate components comprise two wire grid plates 2 which are arranged at intervals up and down, and a plurality of wire openings 21 matched with the wire winding grooves 621 are formed in the wire grid plates 2;

the height between the wire grid plates 2 is adjusted by two height adjusting components which are arranged at intervals front and back;

the left side and the right side of the rectangular frame rod 1 are fixedly connected with two wheel frame plates which are arranged at intervals in the front and at the back, and the outer side walls of the wheel frame plates are rotatably connected with rolling wheels 4.

A cross bar 41 is fixedly connected between the inner side walls of the wheel frame plates, and a traction part is fixedly connected to the cross bar 41;

the drawing part comprises a C-shaped rod 51 fixedly connected to the cross rod 41, a connecting rod body is fixedly connected to the C-shaped rod 51, and a drawing ring body 5 is fixedly connected to the connecting rod body.

The height adjusting component comprises a height adjusting screw rod 3 fixedly connected to the wire grid plate 2 at the lower end part;

the wire grid plate 2 positioned at the upper end part is connected with the height adjusting screw rod 3 in a sliding way;

the height adjusting screw 3 is in threaded connection with two positioning nuts 31 which are arranged at intervals up and down;

the positioning nuts 31 are positioned and pressed on the top and bottom of the wire grid 2.

The wire guide 21 includes a rectangular portion and an arc portion 211 located at the bottom of the rectangular portion.

The electric power high-voltage cable wiring device further comprises a cable roll placing component 7 fixedly connected between the tops of the height adjusting screw rods 3, and a cable roll material is placed on the cable roll placing component 7 through the cable roll placing component 7.

The cable roll placing parts 7 comprise two base plates 72 which are fixedly connected and arranged at intervals front and back, and the bottoms of the base plates 72 are fixedly connected between the tops of the height adjusting screw rods 3;

the left end and the right end of the base plate 72 are both upwards fixedly connected with vertical plates 71, and two cross beam columns 73 which are arranged at intervals are fixedly connected between the vertical plates 71;

a plurality of left and right discharging rods 74 are arranged between the beam columns 73 at intervals.

The discharge rod 74 includes vertical portions 741 disposed at intervals in the front and rear direction;

the vertical portions 741 have U-shaped portions 742 therebetween;

the U-shaped portion 742 has a placement void in which the cable roll material is placed.

The vertical plate 71 is mounted on the end of the base plate 72 by fastening bolts.

Two adjusting nuts a arranged at intervals up and down are connected to the vertical part 741 through threads, and the discharging rod 74 is adjusted through the adjusting nuts a.

The coiled cable is wound around the winding groove 621, and the free end of the cable is laid through the wire guide 21 of the wire grid 2. In the laying process, the cable coil penetrates through the upper and lower layers of wire grid plates 2, so that the cable wrong connection of the wire grid plates 2 can be effectively avoided.

During the laying process, the coiled cable coil is placed on the discharge rod 74, in particular on the U-shaped portion 742 of the discharge rod 74, in such a way that the cable is discharged. And after the unwinding of the winding slot 621 is completed, replacing a new cable coil.

Adopt above-mentioned device part design not only can be fast effectual accomplish the cable and lay, and above-mentioned device part design realizes laying multichannel cable conductor simultaneously, has effectively improved the installation effectiveness of laying of cable.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.