LU505012B1 - Cable trench drainage device for power systems - Google Patents

Abstract

Disclosed is a cable trench drainage device for power systems, and the device includes specifically: a bottom box, and the bottom box has a stationary base; a storage box is fixedly connected to a water pump internally; a processing mechanism, used for removing sludge impurities in sewage of a cable trench; the processing mechanism includes an electric telescopic rod; an outer part of the electric telescopic rod is connected with a square shovel in a clamping mode; a draining mechanism, used for pumping the sewage in the cable trench; and the draining mechanism includes an electric push rod. According to the cable trench drainage device for power systems, an objective of improving use efficiency of a device is realized.

Description

CABLE TRENCH DRAINAGE DEVICE FOR POWER SYSTEMS

TECHNICAL FIELD

The present invention relates to the technical field of drainage, and specifically to a cable trench drainage device for power systems.

BACKGROUND TECHNOLOGY

A cable trench, in rectangular, circular and arched pipeline structures, is an underground pipeline for laying and replacing power or telecommunication cable facilities, and also an enclosure structure for laying cable facilities. Underground cable trenches, cable tunnels, direct burial cable and cable through pipes are commonly used in canble trenches of domestic transmission projects, where the cable tunnel and direct burial cable are widely used. Cable tunnels, above-ground cable trenches and underground cable trenches are commonly used in cable trenches of substation projects. Cable tunnels are used for power cables, and above-ground and underground cable trenches are used for control cables. Cable through pipes are partially used sometimes. In recent years, finished aboveground cable trenches have been used in substations. One of the finished aboveground cable trenches is an inorganic concrete trunking with an inorganic concrete cover plate having different patterns, the other is a shaped steel structure trunking with a galvanized steel cover plate.

Due to long-term accumulation, sludge impurities are easy to exist in the existing cable trench drainage device for power systems, when draining an interior of the cable trench, sludge impurities are easy to block pumping pipes, and when treating wastewater and sludge impurities in the cable trench, impurities are easy to be thrown onto a cable shell on an inner wall of the cable trench.

SUMMARY OF THE INVENTION

In order to solve the above technical problems, the present invention provides a cable trench drainage device for power systems, specifically including: a bottom box, where the bottom box has a stationary base; an upper surface of the bottom box is fixedly connected to a storage box; an internal of the storage box is fixedly connected to a control mechanism; and an internal of the storage box is fixedly connected to a water pump; a processing mechanism, used for removing sludge impurities in sewage of a cable trench; the processing mechanism includes an electric telescopic rod; a bottom of the electric telescopic rod is fixedly connected to an annular plate; an internal of the annular plate is fixedly connected to an electric telescopic column; an outer part of the electric telescopic column is clamped with a square shovel; and the electric telescopic rod is fixedly connected to a bottom of the contrbH/505012 mechanism; and a draining mechanism, used for pumping the sewage in the cable trench; and the draining mechanism includes an electric push rod; an outer part of the electric push rod is fixedly connected to a ring plate; an internal of the ring plate is fixedly connected to a pumping pipe; and the electric push rod is fixedly connected to an outer part of the storage box.

Preferably, an internal of the storage box is clamped with a round plate; an internal of the round plate is fixedly connected to a drain pipe; a bottom of the bottom box is fixedly connected to a baffle plate; and a bottom of the bottom box is fixedly connected to a universal wheel.

Preferably, the control mechanism includes a slideway; an internal of the slideway is fixedly connected to a second telescopic push rod; an outer part of the second electric push rod is fixedly connected to a sliding block; and the slideway is provided at an internal of the storage box.

Preferably, the sliding block is connected to an internal of the slideway in a sliding way; an outer part of the sliding block is fixedly connected to an adjusting column; a bottom of the adjusting column is fixedly connected to a reinforcement rod; and a bottom of the reinforcement rod is fixedly connected to a fixed disc.

Preferably, a bottom of the fixed disc is fixedly connected to a second electric telescopic column; a bottom of the second electric telescopic column is fixedly connected to a fixed plate; a bottom of the fixed plate is fixedly connected to a fixed cylinder; and the fixed cylinder is fixedly connected to a top of the electric telescopic rod.

Preferably, a bottom of the fixed disc is fixedly connected to a clamping column; an internal of the fixed plate is provided with a clamping round hole; the clamping round hole is clamped with the clamping column; an outer part of the fixed plate is fixedly connected to a third electric push rod; an outer part of the third electric push rod is fixedly connected to a moving plate; and an outer part of the moving plate is fixedly connected to a brush head.

Preferably, an internal of the square shovel is fixedly connected to an adhesive strip; an internal of the square shovel is provided with a plurality of circulation ports; an outer part of the annular plate is fixedly connected to a transverse plate; an outer part of the transverse plate is fixedly connected to a clamping corner plate; and an outer part of the transverse is fixedly connected to an inclined plate.

Preferably, an outer part of the ring plate is fixedly connected to a connecting plate; an outer part of the connecting plate is fixedly connected to a clamping ring; and an internal of the clamping ring is fixedly connected to a rubber strip.

Preferably, an outer part of the bottom box is fixedly connected to a fourth electric push rod, an outer part of the fourth electric push rod is fixedly connected to a second ring plate; and the second ring plate is connected to the pumping pipe in a sliding mode. LU505012

Preferably, a bottom of the second ring plate is fixedly connected to a motor box; an internal of the motor box is fixedly connected to a motor; an output end of the motor is fixedly connected to a rotational shaft; a bottom of the rotational shaft is fixedly connected to a second round plate; an outer part of the second round plate is fixedly connected to a base plate; and an internal of the base plate is provided with an annular groove for clamping and fixing a bottom of the pumping pipe, so as to protect the pumping pipe in moving the device.

The present invention further provides a cable trench drainage device for power systems, and has the following beneficial effects: 1. According to the cable trench drainage device for power systems, a control mechanism is arranged, so that a shell of a cable can be scarped when impurities are thrown onto the cable shell on an inner wall of the cable trench, caused by processing wastewater and sludge impurities inside the cable trench. A height of the processing mechanism is easy to be controlled, so that objectives of controlling the height of the processing mechanism and scraping off the cable shell on the inner wall of the cable trench are realized. 2. According to the cable trench drainage device for power systems, a processing mechanism is arranged, and sludge impurities are easy to exist in the cable trench due to long-term accumulation. When draining the internal of the cable trench, sludge impurities are easy to block pumping pipes. Therefore, sludge and impurities are removed and collected on the left and right sides of the device, which is convenient for subsequent unified treatment, so that the objective of scraping and collecting sludge and impurities in the cable trench is realized. 3. According to the cable trench drainage device for power systems, a draining mechanism is arranged, so that the pumping pipe is clamped and connected to the annular groove before pumping, so as to prevent the pumping pipe from being contaminated with large particle impurities when landing. During pumping, a fixed length of the pumping pipe is controlled, so as to control a position of a bottom of the pumping pipe, and to carry out more accurate pumping work, so that the objective of conveniently arranging the pumping pipe and pumping out the wastewater in the cable trench is realized. 4. According to the cable trench drainage device for power systems, the control mechanism and processing mechanism are arranged, so that driven by the control mechanism, processing mechanisms on the left and right sides move to the middle together, so as to eradicate and collect sludge impurities at a bottom of the cable trench. In the process of treating the bottom, an upper control mechanism scrapes and cleans the cable shell, so that the objective of cleaning the internal of the cable trench and cleaning the cable shell at the same time is realized.

DESCRIPTION OF ATTACHED DRAWINGS

FIG. 1 is an overall structure diagram of a cable trench drainage device for power systenk$/505012 according to the present invention;

FIG. 2 is a bottom structure diagram of a cable trench drainage device for power systems according to the present invention;

FIG. 3 is a structural diagram of a control mechanism according to the present invention;

FIG. 4 is a partial enlarged structure of a portion A in FIG. 3 according to the present invention;

FIG. 5 is a structural diagram of a processing mechanism according to the present invention;

FIG. 6 is a partial enlarged structure of a portion B in FIG. 5 according to the present invention;

FIG. 7 is a structural diagram of a draining mechanism according to the present invention; and

FIG. 8 is a partial enlarged structure of a portion C in FIG. 7 according to the present invention.

Numbers in FIG.s indicate: 1. bottom box; 2. storage box; 3. control mechanism; 301. slideway; 302. second electric push rod; 303. sliding block; 304. adjusting column; 305. fixed disc; 306. second electric telescopic column; 307. fixed plate; 308. fixed cylinder; 309. clamping column; 310. clamping round hole; 311. third electric push rod; 312. moving plate; 4. processing mechanism; 401. electric telescopic rod; 402. annular plate; 403. electric telescopic column; 404. square shovel; 405. adhesive strip; 406. transverse plate; 407. clamping corner plate; 408. inclined plate; 5. draining mechanism; 501. electric push rod; 502. ring plate; 503. connecting plate; 504. clamping ring; 505. pumping pipe; 506. fourth electric push rod; 507. second ring plate; 508. motor box; 509. rotational shaft; 510. second round plate; 511. base plate; 6. round plate; 7. baftle plate; and 8. universal wheel.

SPECIFIC EMBODIMENTS

The present invention is further described in detail with reference to the accompanying drawings and specific embodiments below. The examples of the present invention are given for the purpose of exemplary and descriptive and are not exhaustive or limited to a disclosed form.

Many modifications and changes are obvious to those of ordinary skill in the art. Examples selected and described in order to better illustrate the principles and practical applications of the present invention, and to enable those of ordinary skill in the art to understand that the present invention, so so to design various examples with various modifications suitable for a particular use.

As shown in FIG. 1 to 8, the present invention provides a technical solution, specifically including: LU505012 a bottom box 1, where the bottom box 1 has a stationary base; an upper surface of the bottom box is fixedly connected to a storage box 2; an internal of the storage box 2 is fixedly connected to a control mechanism 3; and an internal of the storage box 2 is fixedly connected to 5 a water pump; a processing mechanism 4, used for removing sludge impurities in sewage of a cable trench; the processing mechanism 4 comprises an electric telescopic rod 401; a bottom of the electric telescopic rod 401 is fixedly connected to an annular plate 402; an internal of the annular plate 402 is fixedly connected to an electric telescopic column; an outer part of the electric telescopic column 403 is clamped with a square shovel; and the electric telescopic rod 401 is fixedly connected to a bottom of the control mechanism 3; and a draining mechanism 5, used for pumping the sewage in the cable trench; and the draining mechanism 5 includes an electric push rod 501; an outer part of the electric push rod 501 is fixedly connected to a ring plate 502; an internal of the ring plate 502 is fixedly connected to a pumping pipe 505; and the electric push rod 501 is fixedly connected to an outer part of the storage box 2.

An internal of the storage box 2 is clamped with a round plate 6; an internal of the round plate 6 is fixedly connected to a drain pipe; a bottom of the bottom box 1 is fixedly connected to a baffle plate 7; a bottom of the bottom box 1 is fixedly connected to a universal wheel 8; and an internal of the storage box 2 is fixedly connected to a sludge tank. It has the advantage of convenient treatment of sludge in cable trench before pumping water. Before using the device, firstly, the device is pushed to an outside of the cable trench, the control mechanism 3 and processing mechanism 4 are activated, so as to pre-process an inside of the cable trench, and take out soil impurities at a bottom. Then direction of the device is turned, and the draining mechanism 5 is activated, then the water pump is activated, so as to pump out wastewater in the cable trench; and the wastewater gradually enters the storage box 2. After the wastewater being transported to a designated place, a drainage tube is clamped and connected to an outside of the drain pipe, and the drain pipe is activated, so as to discharge the wastewater.

The control mechanism 3 includes a slideway 301; an internal of the slideway 301 is fixedly connected to a second telescopic push rod 302; an outer part of the second electric push rod 302 is fixedly connected to a sliding block 303; and the slideway 301 is provided at an internal of the storage box 2.

The sliding block 303 is connected to an internal of the slideway 301 in a sliding way; an outer part of the sliding block 303 is fixedly connected to an adjusting column 304; a bottom of the adjusting column 304 is fixedly connected to a reinforcement rod; and a bottom of the reinforcement rod is fixedly connected to a fixed disc 305. LUS05012

A bottom of the fixed disc 305 is fixedly connected to a second electric telescopic column 306; a bottom of the second electric telescopic column 306 is fixedly connected to a fixed plate 307; a bottom of the fixed plate 307 is fixedly connected to a fixed cylinder 308; and the fixed cylinder 308 is fixedly connected to a top of the electric telescopic rod 401.

A bottom of the fixed disc 305 is fixedly connected to a clamping column 309; an internal of the fixed plate 307 is provided with a clamping round hole 310; the clamping round hole 310 is clamped with the clamping column 309; an outer part of the fixed plate 307 is fixedly connected to a third electric push rod 311; an outer part of the third electric push rod 311 is fixedly connected to a moving plate 312; and an outer part of the moving plate 312 is fixedly connected to a brush head. It has the advantages of convenient control of a height of the processing mechanism and scraping of a cable shell on an inner wall of the cable trench.

Depending on a distance between the device and the cable trench, a length of the adjusting column 304 is manually adjusted, so that the processing mechanism 4 is directly above the cable trench. The second electric telescopic column 306 is activated, the second electric telescopic column 306 drives the fixed plate 307 to move downward. The third electric push rod 311 is activated, the third electric push rod 311 drives the moving plate 312 to move outward until the brush head is contact with the cable shell fixed on the inner wall of the cable trench.

The second electric push rod 302 is activated, the second electric push rod 302 drives the sliding block 303 to move outward inside the slideway 301, so as to drive the adjusting column 304 and the fixed plate 305 at a bottom to move outward. The fixed plate 305 drives the second electric telescopic column 306 and the fixed plate 307 at a bottom to move outward, and the third electric push rod 311 and the moving plate 312 outside the fixed plate 307 move along with the fixed plate 307. At this time, the brush head outside the moving plate 312 starts to rub against the cable shell to scrape off the outer side of the cable shell.

After the operation, the second electric telescopic column 306 is deactivated, and the second electric telescopic column 306 gradually returns to its original position. At this time, the clamping column 309 is clamped and connected to the clamping round hole 310, so as to shorten the height of the device and drive the processing mechanism 4 to move upward.

An internal of the square shovel 404 is fixedly connected to an adhesive strip 405; an internal of the square shovel 404 is provided with a plurality of circulation ports; an outer part of the annular plate 402 is fixedly connected to a transverse plate 406; an outer part of the transverse plate 406 is fixedly connected to a clamping corner plate 407; and an outer part of the transverse 406 is fixedly connected to an inclined plate 408. It has the advantage of being convenient for scraping and collecting sludge and impurities in the cable trench. After activating the second electric telescopic column 306, the second electric telescopic column 306 drives th&/505012 fixed plate 307 and the fixed cylinder 308 at a bottom to move downward. The electric telescopic rod 401 is activated, the electric telescopic rod 401 drives the annular plate 402 at a bottom to move downward, so as to drive the transverse plate 406 outside the annular plate 402 to move downward until the clamping corner plate 407 is clamped and connected to an outside of the square shovel 404. After activating the control mechanism 3, the control mechanism 3 starts to drive the fixed cylinder 308 to move outward. At this time, the transverse plate 406 and the inclined plate 408 outside the fixed cylinder 308 start to follow the movement, and the inclined plate 408 starts to scrape off the sludge impurities in the cable trench at the bottom and push the sludge impurities forward.

The electric telescopic column 403 on the other side of the inclined plate 408 is activated.

At this time, the square shovel 404 at the bottom slowly falls to a bottom of the cable trench, and the electric telescopic rod 401 is deactivated, so that the annular plate 402 is driven by the electric telescopic rod 401 to rise and return to its original position. Under the operation of the inclined plate 408 and the square shovel 404 on the other side, sludge is shoveled into the square shovel 404, and waste water flows down through the circulation port. Then the same operation is performed on the other side. After the operation, the square shovel 404 is removed manually, and internal sludge is transferred into the sludge cylinder in the storage box 2.

An outer part of the ring plate 502 is fixedly connected to a connecting plate 503; an outer part of the connecting plate 503 is fixedly connected to a clamping ring 504; and an internal of the clamping ring 504 is fixedly connected to a rubber strip.

An outer part of the bottom box 1 is fixedly connected to a fourth electric push rod 506; an outer part of the fourth electric push rod 506 is fixedly connected to a second ring plate 507; and the second ring plate 507 is connected to the pumping pipe 505 in a sliding mode.

A bottom of the second ring plate 507 is fixedly connected to a motor box 508; an internal of the motor box 508 is fixedly connected to a motor; an output end of the motor is fixedly connected to a rotational shaft 509; a bottom of the rotational shaft 509 is fixedly connected to a second round plate 510; an outer part of the second round plate 510 is fixedly connected to a base plate 511; and an internal of the base plate 511 is provided with an annular groove. It has the advantage of convenient placement of the pumping pipe and pumping out the waste water in the cable trench. Before using the device, the pumping pipe 505 is placed inside the annular groove. The motor in the motor box 508 is activated, and the motor drives the rotational shaft 509 to rotate, so as to drive the second round plate 510 at a bottom of the rotational shaft 509 to rotate, and the second round plate 510 drives base plate 511 outside to rotate. At this time, the pumping pipe 505 can be manually moved outward. According to the position of the cable trench,

a route of the electric push rod 501 is adjusted, and the electric push rod 501 is activated, thd/505012 electric push rod 501 drives the ring plate 502 to move outward, the ring plate 502 drives the external connecting plate 503 and the clamping ring 504 to move outward, the rubber strip inside the clamping ring 504 drives the pumping pipe 505 to move forward; and then the fourth electric push rod 506 is activated, the fourth electric push rod 506 drives the second ring plate 507 to move outward until a bottom of the pumping pipe 505 is in the cable trench; and the water pump is activated, so as to pumping water.

An operation principle: before using the device, first the device is pushed to the outside of the cable trench, the control mechanism 3 and the processing mechanism 4 are activated, so as to pre-process the inside of the cable trench, and take out soil impurities at the bottom. Depending on the distance between the device and the cable trench, the length of the adjusting column 304 is manually adjusted, so that the processing mechanism 4 is directly above the cable trench. The second electric telescopic column 306 is activated, the second electric telescopic column 306 drives the fixed plate 307 to move downward. The third electric push rod 311 is activated, the third electric push rod 311 drives the moving plate 312 to move outward until the brush head is contact with the cable shell fixed on the inner wall of the cable trench.

The second electric push rod 302 is activated, the second electric push rod 302 drives the sliding block 303 to move outward inside the slideway 301, so as to drive the adjusting column 304 and the fixed plate 305 at the bottom to move outward. The fixed plate 305 drives the second electric telescopic column 306 and the fixed plate 307 at the bottom to move outward, and the third electric push rod 311 and the moving plate 312 outside the fixed plate 307 move along with the fixed plate 307. At this time, the brush head outside the moving plate 312 starts to rub against the cable shell to scrape off the outer side of the cable shell.

After activating the second electric telescopic column 306, the second electric telescopic column 306 drives the fixed plate 307 and the fixed cylinder 308 at the bottom to move downward. The electric telescopic rod 401 is activated, the electric telescopic rod 401 drives the annular plate 402 at the bottom to move downward, so as to drive the transverse plate 406 outside the annular plate 402 to move downward until the clamping corner plate 407 is clamped and connected to the outside of the square shovel 404. After activating the control mechanism 3, the control mechanism 3 starts to drive the fixed cylinder 308 to move outward. At this time, the transverse plate 406 and the inclined plate 408 outside the fixed cylinder 308 start to follow the movement, and the inclined plate 408 starts to scrape off the sludge impurities in the cable trench at the bottom and push the sludge impurities forward.

The electric telescopic column 403 on the other side of the inclined plate 408 is activated.

At this time, the square shovel 404 at the bottom slowly falls to the bottom of the cable trench,

and the electric telescopic rod 401 is deactivated, so that the annular plate 402 is driven by thé/505012 electric telescopic rod 401 to rise and return to its original position. Under the operation of the inclined plate 408 and the square shovel 404 on the other side, sludge is shoveled into the square shovel 404, and waste water flows down through the circulation port. Then the same operation is performed on the other side. After the operation, the second electric telescopic column 306 is deactivated, and the second electric telescopic column 306 gradually returns to its original position. At this time, the clamping column 309 is clamped and connected to the clamping round hole 310, so as to shorten the height of the device and drive the processing mechanism 4 to move upward. The square shovel 404 is removed manually, and an internal sludge is transferred into the sludge cylinder in the storage box 2.

Then the direction of the device is turned, and the draining mechanism 5 is activated.

Before using the device, the pumping pipe 505 is placed inside the annular groove. The motor in the motor box 508 is activated, and the motor drives the rotational shaft 509 to rotate, so as to drive the second round plate 510 at the bottom of the rotational shaft 509 to rotate, and the second round plate 510 drives base plate 511 outside to rotate. At this time, the pumping pipe 505 can be manually moved outward. According to the position of the cable trench, the route of the electric push rod 501 is adjusted, and the electric push rod 501 is activated, the electric push rod 501 drives the ring plate 502 to move outward, the ring plate 502 drives the external connecting plate 503 and the clamping ring 504 to move outward, the rubber strip inside the clamping ring 504 drives the pumping pipe 505 to move forward; and then the fourth electric push rod 506 is activated, the fourth electric push rod 506 drives the second ring plate 507 to move outward until the bottom of the pumping pipe 505 is in the cable trench. Then the water pump is activated, so as to pumping water, and the wastewater gradually enters the storage box 2.

After the wastewater being transported to a designated place, the drain pipe is clamped and connected to the outside of the drain pipe, and the drain pipe is activated, so as to discharge the wastewater.

Obviously, the examples described above are only some rather than all examples of the present invention. Based on the examples of the present disclosure, all other examples obtained by those ordinary skilled in the art without creative efforts will fall within the scope of protection of the present invention. Unless other clearly specified and limited, a structure, device and operation method without specific description and explanation in the present invention are performed according to conventional means of the art.

Claims (10)

CLAIMS LU505012

1. À cable trench drainage device for power systems, specifically comprising: a bottom box (1), wherein the bottom box (1) has a stationary base; an upper surface of the bottom box 1s fixedly connected to a storage box (2); an internal of the storage box (2) 1s fixedly connected to a control mechanism (3); and an internal of the storage box (2) 1s fixedly connected to a water pump); a processing mechanism (4), used for removing sludge impurities in sewage of a cable trench; the processing mechanism (4) comprises an electric telescopic rod (401); a bottom of the electric telescopic rod (401) is fixedly connected to an annular plate (402); an internal of the annular plate (402) is fixedly connected to an electric telescopic column; an outer part of the electric telescopic column (403) is clamped with a square shovel (404); and the electric telescopic rod (401) is fixedly connected to a bottom of the control mechanism (3); and a draining mechanism (5), used for pumping the sewage in the cable trench; and the draining mechanism (5) comprises an electric push rod (501); an outer part of the electric push rod (501) is fixedly connected to a ring plate (502); an internal of the ring plate (502) is fixedly connected to a pumping pipe (505); and the electric push rod (501) is fixedly connected to an outer part of the storage box (2).

2. The cable trench drainage device for power systems according to claim 1, wherein an internal of the storage box (2) is clamped with a round plate (6); an internal of the round plate (6) is fixedly connected to a drain pipe; a bottom of the bottom box (1) is fixedly connected to a baffle plate (7); and a bottom of the bottom box (1) is fixedly connected to a universal wheel (8).

3. The cable trench drainage device for power systems according to claim 1, wherein the control mechanism (3) comprises a slideway (301); an internal of the slideway (301) is fixedly connected to a second telescopic push rod (302); an outer part of the second electric push rod (302) is fixedly connected to a sliding block (303); and the slideway (301) is provided at an internal of the storage box (2).

4. The cable trench drainage device for power systems according to claim 3, wherein the sliding block (303) is connected to an internal of the slideway (301) in a sliding way; an outer part of the sliding block (303) is fixedly connected to an adjusting column (304); a bottom of the adjusting column (304) is fixedly connected to a reinforcement rod; and a bottom of the reinforcement rod is fixedly connected to a fixed disc (305).

5. The cable trench drainage device for power systems according to claim 4, wherein a bottom of the fixed disc (305) is fixedly connected to a second electric telescopic column (306); a bottom of the second electric telescopic column (306) is fixedly connected to a fixed plate

(307); a bottom of the fixed plate (307) is fixedly connected to a fixed cylinder (308); and thé/505012 fixed cylinder (308) is fixedly connected to a top of the electric telescopic rod (401).

6. The cable trench drainage device for power systems according to claim 5, wherein a bottom of the fixed disc (305) is fixedly connected to a clamping column (309); an internal of the fixed plate (307) is provided with a clamping round hole (310); the clamping round hole (310) is clamped with the clamping column (309); an outer part of the fixed plate (307) is fixedly connected to a third electric push rod (311); an outer part of the third electric push rod (311) is fixedly connected to a moving plate (312); and an outer part of the moving plate (312) is fixedly connected to a brush head.

7. The cable trench drainage device for power systems according to claim 1, wherein an internal of the square shovel (404) is fixedly connected to an adhesive strip (405); an internal of the square shovel (404) is provided with a plurality of circulation ports; an outer part of the annular plate (402) is fixedly connected to a transverse plate (406); an outer part of the transverse plate (406) is fixedly connected to a clamping corner plate (407); and an outer part of the transverse (406) is fixedly connected to an inclined plate (408).

8. The cable trench drainage device for power systems according to claim 1, wherein an outer part of the ring plate (502) is fixedly connected to a connecting plate (503); an outer part of the connecting plate (503) is fixedly connected to a clamping ring (504); and an internal of the clamping ring (504) is fixedly connected to a rubber strip.

9. The cable trench drainage device for power systems according to claim 1, wherein an outer part of the bottom box (1) is fixedly connected to a fourth electric push rod (506); an outer part of the fourth electric push rod (506) is fixedly connected to a second ring plate (507); and the second ring plate (507) is connected to the pumping pipe (505) in a sliding mode.

10. The cable trench drainage device for power systems according to claim 9, wherein a bottom of the second ring plate (507) is fixedly connected to a motor box (508); an internal of the motor box (508) is fixedly connected to a motor; an output end of the motor is fixedly connected to a rotational shaft (509); a bottom of the rotational shaft (509) is fixedly connected to a second round plate (510); an outer part of the second round plate (510) is fixedly connected to a base plate (511); and an internal of the base plate (511) is provided with an annular groove.