CN115196445B

CN115196445B - Take-up equipment for electric power construction

Info

Publication number: CN115196445B
Application number: CN202211031654.1A
Authority: CN
Inventors: 曹希景; 常海玉
Original assignee: Guangdong Donghui Power Co ltd
Current assignee: Guangdong Donghui Power Co ltd
Priority date: 2022-08-26
Filing date: 2022-08-26
Publication date: 2024-04-05
Anticipated expiration: 2042-08-26
Also published as: CN115196445A

Abstract

The invention belongs to the technical field of power construction equipment, and particularly relates to wire winding equipment for power construction, which comprises a box body, wherein a first motor is arranged on one side of the box body, a rotating cylinder is arranged in the box body in a penetrating manner of the output end of the first motor, first rotating discs are arranged on two sides of the rotating cylinder, a detection block is arranged on the front side of the rotating cylinder, a plurality of through holes for detecting cables are formed in the detection block, sealing rings are arranged at two ends of the through holes, and a pressure stabilizing valve is arranged on the lower side of the through holes. According to the invention, the first semi-cylinder and the second semi-cylinder can be used for enabling the cable to be wound easily when the cable is wound, so that the winding efficiency is improved; the first semicircular disc, the second semicircular disc and the groove are matched to limit the cable, so that the cable is wound and the paying-off position is controlled; detecting whether the cable is damaged or not by matching the sealing ring with the pressure stabilizing valve; the T-shaped blocking block is matched with the circular plate to repair the damaged part outside the cable in time, so that the cable can be used later.

Description

Take-up equipment for electric power construction

Technical Field

The invention belongs to the technical field of power construction equipment, and particularly relates to wire winding equipment for power construction.

Background

The power cable is generally buried in soil or laid indoors, in a channel and a tunnel, has small insulation distance between wires, does not need a pole tower, occupies little space on the ground, has high reliability, is little influenced by climate conditions and surrounding environment, has stable transmission performance and high reliability, has more favorable conditions for developing to ultrahigh pressure and large capacity, such as low temperature, superconducting power cable and the like, has larger distributed capacitance, less maintenance workload and small possibility of electric shock. However, the existing power construction line winding equipment still cannot detect the cable, and when the power cable moves underground, the power cable is easy to rub to cause damage, and the damaged cable needs to be detected so as to prevent the power cable from being damaged too much, thereby causing power problems.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a wire winding device for power construction, which can be used for carrying out wire winding and unwinding detection on a cable so as to ensure the safe use of the cable.

The aim of the invention can be achieved by the following technical scheme: the utility model provides a take-up equipment for electric power construction, includes the box, box one side is equipped with first motor, the output of first motor pierces into and is equipped with the rotation section of thick bamboo in the box, rotation section of thick bamboo both sides all are equipped with first rolling disc, rotation section of thick bamboo front side is equipped with the detection piece, be equipped with a plurality of through-holes that are used for detecting the cable on the detection piece, the through-hole both ends all are equipped with the sealing washer, the through-hole downside is equipped with the steady voltage valve.

The sealing ring is used for sealing two ends of the cable placed in the through hole, then air is introduced through the pressure stabilizing valve, and whether the cable is damaged or not is detected through the air pressure change in the through hole;

preferably, a coating cavity is arranged above the through hole, a feed opening is connected between the coating cavity and the through hole, a T-shaped blocking block is arranged in the feed opening, an annular plate is arranged on the lower side of the upper portion of the T-shaped blocking block, a plurality of discharge holes are formed in the annular plate, a circular plate is arranged on the outer side of the periphery of the lower portion of the T-shaped blocking block, and a connecting channel is arranged on the outer side of the periphery of the circular plate. The T-shaped blocking block is used for detecting whether the cable enters the through hole or not; the annular plate is matched with the discharging hole and is used for enabling the cable to enter the through hole, so that paint in the paint cavity enters the discharging hole. The circular plate is matched with the connecting channel and used for cracking air from the outside of the cable to enable the paint to fall down for filling, so that the subsequent use of the cable is facilitated.

Preferably, the circular plate slides in the detection block, the outer diameter of the circular plate is larger than the inner diameter of the blanking opening, a connecting channel is arranged on the peripheral outer side of the circular plate, and the connecting channel is connected with the upper side of the circular plate and the lower side of the circular plate; the lower end of the T-shaped blocking block extends to the upper side inside the through hole, and a feed valve is arranged on the upper side of the paint cavity.

Preferably, the front side of the rotating cylinder is provided with a first semi-cylinder and a second semi-cylinder which can be attached to or separated from each other, two sides of the first semi-cylinder and the second semi-cylinder are provided with two second rotating discs, the first semi-cylinder and the second semi-cylinder are attached to or separated from each other in a sliding mode between the two second rotating discs, and two sides of the box body are provided with a plurality of wheels. The rotating cylinder is used for rapidly winding and paying off the cable; the first rotating column limits the cable on the rotating cylinder; the first semi-cylinder and the second semi-cylinder are used for enabling the cable to be wound easily when the cable is wound, so that winding efficiency is improved; the first semi-cylinder and the second semi-cylinder cooperate to control the paying-off speed and the position of the cable when paying off the cable, so that the cable is convenient for the use of staff.

Preferably, a second motor is arranged on one side of the box body, and the output end of the second motor is connected with a second rotating disc; the sliding blocks are arranged on two sides of the first semi-cylinder and two sides of the second semi-cylinder, the sliding blocks slide in the second rotating disc, and an electric control telescopic column is arranged between the sliding blocks and the second rotating disc. Wherein, through the automatically controlled flexible post of slider cooperation, make first semi-cylinder and the steady separation of second semi-cylinder to be convenient for carry out tensile detection and make the cable form the winding easily to the cable.

Preferably, a plurality of first semicircular discs are arranged at intervals on the circumferential outer side of the first semicircular cylinder, and a plurality of second semicircular discs are arranged at intervals on the circumferential outer side of the second semicircular cylinder. The first semicircular disc is matched with the second semicircular disc to limit the cable, so that the cable is wound and the paying-off position is controlled.

Preferably, the air tank is arranged below the first semi-cylinder, three cleaning assemblies are arranged on the circumferential array on the upper side of the air tank, each cleaning assembly comprises a plurality of movable blocks which are distributed at intervals, each movable block slides on the air tank, and a plurality of sponge blocks are arranged on the upper side of each movable block.

Preferably, a first annular piece is sleeved on the upper side of each movable block, a spring is arranged between the first annular piece and the air box, a second annular piece is sleeved on the lower side of each movable block, the first annular piece is located above the air box, and the second annular piece is located in the air box.

Preferably, each movable block is internally provided with an air outlet hole for cleaning the cable and the sponge block, and the air outlet holes are connected with the inside of the air box and the lower side of the sponge block.

The beneficial effects are that:

1. the first semi-cylinder and the second semi-cylinder are used for enabling the cable to be wound easily when the cable is wound, and winding efficiency is improved.

2. The first semicircular disc, the second semicircular disc and the grooves are matched to limit the cable, so that the cable is wound and the paying-off position is controlled.

3. Whether the cable is damaged or not is detected through the cooperation of the sealing ring and the pressure stabilizing valve.

4. The T-shaped blocking block is matched with the circular plate to repair the damaged part outside the cable in time, so that the cable can be used later.

Drawings

The invention is further explained below with reference to the drawings and examples:

FIG. 1 is a schematic view of an isometric structure of the present invention.

Fig. 2 is a schematic top view of the present invention.

FIG. 3 is a schematic cross-sectional view of the structure at A-A in FIG. 2.

Fig. 4 is a partially enlarged structural schematic diagram at C in fig. 3.

FIG. 5 is a schematic cross-sectional view of the structure at B-B in FIG. 3.

Fig. 6 is a partially enlarged structural schematic diagram at D in fig. 5.

In the figure, a box body 10, wheels 11, a rotary cylinder 12, a first rotary disk 13, a first semi-cylinder 14, a first semi-circular disk 15, a second semi-cylinder 16, a second semi-circular disk 17, a second rotary disk 18, a first motor 19, a second motor 20, a sliding block 21, an electric control telescopic column 22, a detection block 23, a feed valve 24, an air box 25, a cleaning assembly 26, a movable block 27, a sponge block 28, a first annular piece 29, a spring 30, a second annular piece 31, an air outlet hole 32, a paint cavity 33, a through hole 34, a sealing ring 35, a T-shaped blocking 36, an annular plate 37, a discharge hole 38, a discharge opening 39, a circular plate 40, a connecting channel 41 and a pressure stabilizing valve 42.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1-6, a line winding device for electric power construction comprises a box body 10, wherein a first motor 19 is arranged on one side of the box body 10, a rotating cylinder 12 is arranged in the box body 10 in a penetrating manner of the output end of the first motor 19, first rotating discs 13 are arranged on two sides of the rotating cylinder 12, a detection block 23 is arranged on the front side of the rotating cylinder 12, a plurality of through holes 34 for detecting cables are formed in the detection block 23, sealing rings 35 are arranged at two ends of the through holes 34, and a pressure stabilizing valve 42 is arranged on the lower side of the through holes 34.

Further, referring to fig. 1-6, a paint cavity 33 is arranged above the through hole 34, a feed opening 39 is connected between the paint cavity 33 and the through hole 34, a T-shaped block 36 is arranged in the feed opening 39, an annular plate 37 is arranged on the lower side of the upper portion of the T-shaped block 36, and a plurality of discharge holes 38 are formed in the annular plate 37.

Further, referring to fig. 1 to 6, a circular plate 40 is provided on the outer side of the lower portion of the t-shaped block 36 in the circumferential direction, the circular plate 40 slides in the detection block 23, the outer diameter of the circular plate 40 is larger than the inner diameter of the feed opening 39, a connection channel 41 is provided on the outer side of the circular plate 40 in the circumferential direction, and the connection channel 41 connects the upper side of the circular plate 40 with the lower side of the circular plate 40; the lower end of the T-shaped blocking piece 36 extends to the upper side inside the through hole 34, and the upper side of the paint cavity 33 is provided with the feed valve 24.

Further, referring to fig. 1-6, a first semi-cylinder 14 and a second semi-cylinder 16 capable of being attached to or separated from each other are disposed on the front side of the rotary drum 12, two second rotary discs 18 are disposed on two sides of the first semi-cylinder 14 and the second semi-cylinder 16, the first semi-cylinder 14 and the second semi-cylinder 16 are slidably attached to or separated from each other between the two second rotary discs 18, and a plurality of wheels 11 are disposed on two sides of the case 10.

Further, referring to fig. 1-6, two sides of the first semi-cylinder 14 and the second semi-cylinder 16 are respectively provided with a sliding block 21, the sliding blocks 21 slide in the second rotating disc 18, and an electric control telescopic column 22 is arranged between the sliding blocks 21 and the second rotating disc 18; a second motor 20 is arranged on one side of the box body 10, and the output end of the second motor 20 is connected with a second rotating disc 18.

The first half cylinder 14 is provided with a plurality of first half disks 15 at intervals on the circumferential outer side, and the second half cylinder 16 is provided with a plurality of second half disks 17 at intervals on the circumferential outer side.

Further, referring to fig. 1-6, an air tank 25 is disposed below the first semi-cylinder 14, three cleaning assemblies 26 are disposed on the upper side of the air tank 25 in a circumferential array, each cleaning assembly 26 includes a plurality of movable blocks 27 distributed at intervals, each movable block 27 slides on the air tank 25, and a plurality of sponge blocks 28 are disposed on the upper side of each movable block 27.

Further, referring to fig. 1-6, a first ring member 29 is sleeved on the upper side of each movable block 27, a spring 30 is arranged between the first ring member 29 and the air box 25, a second ring member 31 is sleeved on the lower side of each movable block 27, the first ring member 29 is located above the air box 25, and the second ring member 31 is located in the air box 25.

Further, referring to fig. 1-6, an air outlet hole 32 for cleaning the cable and the sponge block 28 is provided in each movable block 27, and the air outlet hole 32 connects the inside of the air box 25 with the lower side of the sponge block 28.

In the initial state, the first semi-cylinder 14 is attached to the second semi-cylinder 16, the electrically controlled telescopic column 22 is contracted, and the spring 30 is extended

Principle of operation

When the cable is wound, a worker spirally winds the cable on the circumferential outer sides of the first semi-cylinder 14 and the second semi-cylinder 16, the second motor 20 starts to rotate to drive the second rotating disc 18 to rotate, the second rotating disc 18 is matched with the electric control telescopic column 22 in a rotating mode, the electric control telescopic column 22 is electrified to extend out to push the sliding block 21 to move outwards, so that the first semi-cylinder 14 is separated from the second semi-cylinder 16, the cable is stretched by separating the first semi-cylinder 14 from the second semi-cylinder 16, and the telescopic elasticity of the cable is detected; the first semi-cylinder 14 is separated from the second semi-cylinder 16 to enable the outer side of the cable to be in contact with the sponge block 28, the outer side of the cable is cleaned through the sponge block 28, the first semi-cylinder 14 is continuously separated from the second semi-cylinder 16, the movable block 27 is moved downwards through extrusion of the sponge block 28, the movable block 27 moves downwards to extrude air in the air box 25 through the air outlet hole 32, impurities on the sponge block 28 are blown out firstly, moisture on the outer side of the cable is blown dry, and the cable is kept dry and clean. The second annular piece 31 prevents the movable block 27 from sliding out, and the first annular piece 29 is matched with the spring 30 to reset the movable block 27 so as to facilitate the subsequent cleaning.

Then, the cable passes through the through hole 34 in the detection block 23 and is connected to the rotary cylinder 12, the cable is matched with the inner seal of the through hole 34 by two sealing rings 35 at two ends in the through hole 34, the cable contacts with the lower part of the T-shaped blocking block 36 to jack up the T-shaped blocking block 36, the T-shaped blocking block 36 moves upwards to drive the annular plate 37 to move upwards, and the paint in the paint cavity 33 enters the blanking port 39 through the discharging hole 38; the lower side of the pressure stabilizing valve 42 is connected with an air pump, air is introduced into the through hole 34 through the pressure stabilizing valve 42, so that the air pressure in the through hole 34 is stabilized, the circular plate 40 is upwards extruded through the air pressure, the circular plate 40 upwards slides to the upper side of the connecting channel 41 to block the blanking opening 39, and the paint in the blanking opening 39 cannot fall; whether the cable is damaged or not is detected through the change of the air pressure in the through hole 34, when the cable is not damaged outside, the air pressure in the through hole 34 is stable, the circular plate 40 is kept on the upper side of the connecting channel 41, the circular plate 40 blocks the blanking opening 39, and the paint in the blanking opening 39 cannot fall; when the outside of the cable is damaged, air in the through hole 34 is introduced into the cable, so that the air pressure in the through hole 34 is reduced, the circular plate 40 moves downwards, the paint in the feed opening 39 falls onto the upper side of the circular plate 40, and then falls onto the cable through the connecting channel 41 to fill the damaged part of the cable; after the cable damage is filled, the pressure in the through hole 34 is stabilized through the pressure stabilizing valve 42, the circular plate 40 is upwards extruded and upwards slid to the upper side of the connecting channel 41 to block the blanking opening 39, and whether the cable is damaged or not is continuously detected, and the damaged part is timely filled.

When the cable is paid out, the first motor 19 and the second motor 20 are started, the first motor 19 drives the rotary cylinder 12 to rotate so as to transfer the cable on the rotary cylinder 12 to the first semi-cylinder 14 and the second semi-cylinder 16, the second motor 20 rotates so as to drive the second rotary disk 18 to rotate, the second rotary disk 18 rotates 8 is matched with the electric control telescopic column 22 to stretch out and push the sliding block 21 to move outwards in a rotating mode, so that the first semi-cylinder 14 and the second semi-cylinder 16 are separated, the cable is stretched by separating the first semi-cylinder 14 from the second semi-cylinder 16, the outer side of the cable is contacted with the sponge block 28, the outer side of the cable is cleaned through the sponge block 28, the movable block 27 moves downwards by continuing to separate the first semi-cylinder 14 from the second semi-cylinder 16, air in the air box 25 is extruded through the air outlet hole 32 by moving downwards through the movable block 27, impurities on the sponge block 28 are blown out, moisture on the outer side of the cable is blown dry, and the cable is kept dry and clean.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims

1. The utility model provides a take-up equipment for electric power construction, includes box (10), its characterized in that, box (10) one side is equipped with first motor (19), be equipped with in the box (10) of the output penetration of first motor (19) and rotate section of thick bamboo (12), it all is equipped with first rotating disc (13) to rotate section of thick bamboo (12) both sides, it is equipped with detection piece (23) to rotate section of thick bamboo (12) front side, be equipped with a plurality of through-holes (34) that are used for detecting the cable on detection piece (23), through-hole (34) both ends all are equipped with sealing washer (35), through-hole (34) downside is equipped with pressure stabilizing valve (42);

a coating cavity (33) is arranged above the through hole (34), a blanking opening (39) is connected between the coating cavity (33) and the through hole (34), a T-shaped blocking block (36) is arranged in the blanking opening (39), an annular plate (37) is arranged on the lower side of the upper part of the T-shaped blocking block (36), a plurality of discharging holes (38) are formed in the annular plate (37), a circular plate (40) is arranged on the outer side of the periphery of the lower part of the T-shaped blocking block (36), and a connecting channel (41) is arranged on the outer side of the periphery of the circular plate (40);

the circular plate (40) slides in the detection block (23), the outer diameter of the circular plate (40) is larger than the inner diameter of the blanking opening (39), and the connecting channel (41) is connected with the upper side of the circular plate (40) and the lower side of the circular plate (40); the lower end of the T-shaped blocking block (36) extends to the upper side inside the through hole (34), and a feed valve (24) is arranged on the upper side of the coating cavity (33);

the front side of the rotary cylinder (12) is provided with a first semi-cylinder (14) and a second semi-cylinder (16) which can be attached or separated, two sides of the first semi-cylinder (14) and the second semi-cylinder (16) are provided with two second rotary discs (18), the first semi-cylinder (14) and the second semi-cylinder (16) are slidably attached or separated between the two second rotary discs (18), and two sides of the box body (10) are provided with a plurality of wheels (11);

the utility model discloses a cleaning device for a gas tank, including first semicircle (14) below is equipped with gas tank (25), gas tank (25) upside circumference array is equipped with three clearance subassembly (26), clearance subassembly (26) are including a plurality of movable blocks (27) of interval distribution, every movable block (27) slide on gas tank (25), every movable block (27) upside is equipped with a plurality of sponge pieces (28).

2. The line winding apparatus for electric power construction according to claim 1, wherein: a second motor (20) is arranged on one side of the box body (10), and the output end of the second motor (20) is connected with a second rotating disc (18); the sliding blocks (21) are arranged on two sides of the first semi-cylinder (14) and two sides of the second semi-cylinder (16), the sliding blocks (21) slide in the second rotating disc (18), and an electric control telescopic column (22) is arranged between the sliding blocks (21) and the second rotating disc (18).

3. The line winding apparatus for electric power construction according to claim 1, wherein: a plurality of first semicircular discs (15) are arranged on the first semicircular column (14) at intervals on the outer side in the circumferential direction, and a plurality of second semicircular discs (17) are arranged on the second semicircular column (16) at intervals on the outer side in the circumferential direction.

4. The line winding apparatus for electric power construction according to claim 1, wherein: every movable block (27) upside cover is equipped with first ring (29), be equipped with spring (30) between first ring (29) and gas tank (25), every movable block (27) downside cover is equipped with second ring (31), first ring (29) are located gas tank (25) top, second ring (31) are located gas tank (25).

5. The line winding apparatus for electric power construction according to claim 1, wherein: an air outlet hole (32) for cleaning the cable and the sponge block (28) is arranged in each movable block (27), and the air outlet hole (32) is connected with the inside of the air box (25) and the lower side of the sponge block (28).