CN114976954A

CN114976954A - Intelligent detection equipment based on multi-power-supply multi-connection framework of power distribution network

Info

Publication number: CN114976954A
Application number: CN202210773581.7A
Authority: CN
Inventors: 梁瑞尤; 陈智广; 钟悦; 陈剑浩; 何炳先; 刘家鸿
Original assignee: Wuzhou Power Supply Bureau of Guangxi Power Grid Co Ltd
Current assignee: Wuzhou Power Supply Bureau of Guangxi Power Grid Co Ltd
Priority date: 2022-07-01
Filing date: 2022-07-01
Publication date: 2022-08-30

Abstract

The invention relates to the field of power distribution, in particular to intelligent detection equipment based on a multi-power-supply multi-connection framework of a power distribution network. The technical problem is as follows: the temperature and the humidity in the power distribution cabinet are extremely easy to be too high, and if the monitoring and the adjustment are not timely carried out, the normal use of the power distribution cabinet is extremely easy to be influenced. The technical scheme is as follows: an intelligent detection device based on a power distribution network multi-power-supply multi-connection architecture comprises a cabinet body, a cabinet door and the like; two cabinet doors are arranged at the front part of the cabinet body. The invention realizes the monitoring of the air environment in the cabinet body, the cooling of the cabinet body, the discharge of wet gas in the cabinet body and the removal of dust accumulated in the cabinet body, greatly improves the cooling and dehumidifying efficiency, simultaneously scrapes off the mixture of the wet gas and the dust, avoids rainwater from entering the cabinet body, and then detects the interior of the cabinet body and gives an alarm to remind when the cabinet body is short-circuited and spontaneously combusted in the power utilization process, thereby realizing the power utilization safety and ensuring the normal operation of power distribution work.

Description

Intelligent detection equipment based on multi-power-supply multi-connection framework of power distribution network

Technical Field

The invention relates to the field of power distribution, in particular to intelligent detection equipment based on a multi-power-supply multi-connection framework of a power distribution network.

Background

The power distribution is a link directly connected with a user in a power system and distributing power to the user, and the power distribution system consists of a power distribution substation, a high-voltage distribution line, a distribution transformer, a low-voltage distribution line and corresponding control protection equipment;

among the prior art, the switch board is in the use, its inside temperature and humidity are very easily changed by external weather variation, and then very easily make temperature and humidity in the switch board too high, if untimely monitoring and adjustment, very easily influence the normal use of switch board, and the incident appears easily, and simultaneously, because the switch board is after long-time use, its inside very easily deposition, and difficult clearance, and further promotion incident's incidence, and seriously influence the periodic overhaul of switch board, and current switch board is cooling down, when dehumidifying, efficiency is slower, be unfavorable for the normal clear of distribution work.

Disclosure of Invention

In order to overcome the defects that the temperature and the humidity in the power distribution cabinet are extremely high, and the normal use of the power distribution cabinet is extremely influenced if the temperature and the humidity are not monitored and adjusted in time, the invention provides intelligent detection equipment based on a multi-power-supply multi-connection framework of a power distribution network.

The technical scheme is as follows: an intelligent detection device based on a multi-power-supply multi-connection framework of a power distribution network comprises a cabinet body, a cabinet door, a guard plate, a smoke alarm, a temperature and humidity detector, an induction lamp and an electric control piece; two cabinet doors are arranged at the front part of the cabinet body; a protective plate for shielding rainwater is fixedly connected to the upper surface of the cabinet body; a smoke alarm is arranged at the upper part of the inner wall of the cabinet body; two temperature and humidity detectors are mounted on the upper portion of the inner wall of the cabinet body and behind the smoke alarm; two induction lamps for lighting are arranged at the upper part of the inner wall of the cabinet body; two electric control parts are arranged on the inner wall of the cabinet body; the device also comprises a conical cylinder, a first fixing frame, an electric actuator, a top plate, a top block and a double-circulation assembly; a conical barrel for collecting rainwater is fixedly connected to the middle part of the guard plate; the upper part of the inner wall of the cabinet body is fixedly connected with a first fixing frame; the first fixing frame is fixedly connected with an electric actuator; the telescopic part of the electric actuator is fixedly connected with a top block; the upper surface of the top block is fixedly connected with a top plate; the top plate is fixedly connected with the conical cylinder; the cabinet body is connected with a double-circulation component; the double-circulation assembly is connected with the first fixing frame and the top block.

As an improvement of the scheme, the outer surface of the guard plate is provided with a plurality of grooves for guiding rainwater.

As the improvement of above-mentioned scheme, a cone-shaped section of thick bamboo sets up to the rubber material for collect the rainwater, and when a cone-shaped section of thick bamboo up moved the evagination, pour the rainwater of collecting.

As an improvement of the scheme, the double-circulation assembly comprises a connecting frame, a screw rod, a fixing plate, a sleeve, a first impeller, a connecting shaft, a first transmission wheel, a second impeller and a discharge unit; the upper part of the cabinet body is connected with a connecting frame in a sliding way; the connecting frame is fixedly connected with the top block; the rear part of the connecting frame is fixedly connected with a screw rod; a fixing plate is fixedly connected to the rear part of the first fixing frame; the fixed plate is rotatably connected with a sleeve; the sleeve is screwed with the screw rod; the lower part of the sleeve is fixedly connected with a first impeller; the front part of the fixed plate is rotatably connected with a connecting shaft; the lower part of the sleeve is fixedly connected with a first driving wheel; the lower part of the connecting shaft is fixedly connected with a second driving wheel; the second transmission wheel is in transmission connection with the first transmission wheel through a belt; the lower part of the connecting shaft is fixedly connected with a second impeller; the lower part of the cabinet body is connected with a discharge unit.

As an improvement of the scheme, the discharge unit comprises a fan, a guide cylinder, a first fixed block, a fixed rod, a connecting plate, an elastic piece and a first scraper; a fan is arranged at the lower part of the cabinet body; a guide cylinder is fixedly connected to the lower surface fixing part of the fan; two first fixed blocks are fixedly connected inside the guide cylinder; the upper surfaces of the two first fixed blocks are fixedly connected with a fixed rod; a connecting plate is fixedly connected between the two fixing rods; the outer sides of the two fixing rods are respectively sleeved with an elastic part, one end of each elastic part is fixedly connected to the connecting plate, and the other end of each elastic part is fixedly connected to the first fixing block; the connecting plate is fixedly connected with a first scraper.

As the improvement of the scheme, the inner side of the guide shell is provided with a plurality of grooves for guiding rainwater and dust, and the upper part of the guide shell is arranged to be in an inverted cone shape.

As the improvement of the scheme, the first scraper blade is made of rubber and is in an inverted cone shape and used for scraping rainwater and dust adhered to the guide shell.

As an improvement of the scheme, the improved cabinet also comprises a dehumidification unit, and the cabinet body is connected with the dehumidification unit; the dehumidification unit comprises a bearing pulley, an elastic rope, a second fixed block, a connecting rod, a baffle, a torsion spring, a first ventilating plate, a second fixed frame, a guide plate and a water removal assembly; two bearing pulleys are arranged on the top block; a plurality of bearing pulleys are respectively arranged at the left part and the right part of the outer wall of the cabinet body, and an elastic rope is wound on the bearing pulleys at the same side; two second fixing blocks are fixedly connected to the left part and the right part of the cabinet body respectively; a connecting rod is rotatably connected between the two second fixing blocks at the same side; the middle parts of the two connecting rods are fixedly connected with a baffle; the two baffles are fixedly connected with a bearing pulley respectively; the outer sides of two ends of the two connecting rods are respectively sleeved with a torsion spring, one end of each torsion spring is fixedly connected to the second fixing block, and the other end of each second fixing block is fixedly connected to the baffle; two first ventilating boards are fixedly connected to the middle part of the cabinet body; two second fixing frames are fixedly connected to the middle of the cabinet body and are positioned below the two first ventilating plates; a plurality of guide plates are fixedly connected to the two second fixing frames at equal intervals; the baffle is connected with a water removal assembly; the water removal component is connected with the second fixing frame.

As the improvement of above-mentioned scheme, the cabinet body sets up to the arc near one side of baffle for make the baffle overturn, and avoid the rainwater to get into the cabinet internally.

As an improvement of the scheme, the dewatering component comprises a top rod, a telescopic rod, a sliding rod, a second scraper blade, a second ventilating plate and a sponge block; the lower parts of the two baffles are fixedly connected with a mandril; the bottom parts of the inner walls of the two second fixing frames are fixedly connected with a telescopic rod; the telescopic parts of the two telescopic rods are fixedly connected with a sliding rod; the two sliding rods are respectively connected with a second fixing frame in a sliding manner; three second scraping plates are fixedly connected to the two sliding rods at equal intervals; the inner walls of the two second fixing frames are fixedly connected with a second ventilating plate; and the back sides of the two second ventilation plates are fixedly connected with a sponge block.

The invention has the following advantages: the invention realizes the monitoring of the air environment in the cabinet body, when the temperature is monitored to be overhigh, the outer wall of the cabinet body is cooled, thereby the temperature in the cabinet body is reduced, when the humidity in the cabinet body is monitored to be overhigh, the wet gas in the cabinet body is discharged, the dust accumulated in the cabinet body is removed, the cooling and dehumidifying efficiency is greatly improved, simultaneously the mixture of the wet gas and the dust is scraped, the rainwater is prevented from entering the cabinet body, then, when the cabinet body has short circuit and spontaneous combustion occurs in the power utilization process, the interior of the cabinet body is detected, and the alarm is given out to remind, thereby the power utilization safety is realized, and the normal operation of power distribution is ensured.

Drawings

Fig. 1 shows a schematic three-dimensional structure of an intelligent detection device based on a power distribution network multi-power-supply multi-contact architecture according to the present invention;

fig. 2 shows a schematic view of a local three-dimensional structure of an intelligent detection device based on a multi-power-supply multi-contact architecture of a power distribution network;

fig. 3 shows a first partial sectional view of the smart detection device based on a multi-power-supply multi-connection architecture of a power distribution network according to the present invention;

fig. 4 shows a second partial cross-sectional view of the smart detection device based on the multi-power multi-connection architecture of the power distribution network according to the present invention;

fig. 5 shows a third partial cross-sectional view of the intelligent detection device based on the multi-power multi-contact architecture of the power distribution network of the present invention;

fig. 6 shows a schematic three-dimensional structure of a dual-cycle component of the intelligent detection device based on a multi-power-supply multi-contact architecture of a power distribution network according to the present invention;

fig. 7 shows a schematic partial three-dimensional structure of a dual-cycle component of an intelligent detection device based on a multi-power multi-contact architecture of a power distribution network;

fig. 8 shows a schematic three-dimensional structure of an intelligent detection device discharge unit based on a power distribution network multi-power-supply multi-contact architecture according to the present invention;

fig. 9 shows a partial sectional view of an exhaust unit of the intelligent detection device based on a multi-power multi-contact architecture of a power distribution network according to the present invention;

FIG. 10 is a schematic diagram showing a three-dimensional structure of a dehumidification unit of an intelligent detection device based on a multi-power-supply multi-contact architecture of a power distribution network according to the present invention;

FIG. 11 shows a first partial cross-sectional view of a dehumidification unit of a smart detection device based on a multi-power multi-connection architecture of a power distribution network according to the present invention;

FIG. 12 shows a second partial cross-sectional view of a dehumidification unit of a smart detection device based on a multi-power multi-connection architecture of a power distribution network according to the present invention;

FIG. 13 shows a third partial cross-sectional view of a dehumidification unit of the intelligent detection device based on a multi-power multi-connection architecture of a power distribution network according to the present invention;

FIG. 14 shows a fourth partial cross-sectional view of a dehumidification unit of the intelligent detection device based on a multi-power multi-connection architecture of a power distribution network according to the present invention;

fig. 15 shows a fifth partial cross-sectional view of the dehumidification unit of the intelligent detection device based on the multi-power-supply multi-connection architecture of the power distribution network.

Number designation in the figures: 1-cabinet body, 2-cabinet door, 3-protective plate, 4-smoke alarm, 5-temperature and humidity detector, 6-induction lamp, 7-electric control, 201-conical barrel, 202-first fixed frame, 203-electric actuator, 204-top plate, 205-top block, 301-connecting frame, 302-screw rod, 303-fixed plate, 304-sleeve, 305-first impeller, 306-connecting shaft, 307-first driving wheel, 308-second driving wheel, 309-second impeller, 310-fan, 311-guide barrel, 312-first fixed block, 313-fixed rod, 314-connecting plate, 315-elastic element, 316-first scraper, 401-bearing pulley, 402-elastic rope, 403-second fixed block, 404-connecting rod, 405-baffle, 406-torsion spring, 407-first ventilating plate, 408-second fixing frame, 409-guide plate, 410-ejector rod, 411-telescopic rod, 412-sliding rod, 413-second scraper blade, 414-second ventilating plate and 415-sponge block.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

Example 1

An intelligent detection device based on a multi-power-supply multi-connection framework of a power distribution network is shown in figures 1-15 and comprises a cabinet body 1, a cabinet door 2, a guard plate 3, a smoke alarm 4, a temperature and humidity detector 5, an induction lamp 6 and an electric control part 7; two cabinet doors 2 are arranged at the front part of the cabinet body 1; the upper surface of the cabinet body 1 is fixedly connected with a guard plate 3; a smoke alarm 4 is arranged on the upper part of the inner wall of the cabinet body 1; two temperature and humidity detectors 5 are arranged on the upper part of the inner wall of the cabinet body 1 and behind the smoke alarm 4; two induction lamps 6 are arranged at the upper part of the inner wall of the cabinet body 1; two electric control parts 7 are arranged on the inner wall of the cabinet body 1;

the device also comprises a conical cylinder 201, a first fixing frame 202, an electric actuator 203, a top plate 204, a top block 205 and a double-circulation component; a conical barrel 201 is fixedly connected to the middle part of the guard plate 3; a first fixing frame 202 is fixedly connected to the upper part of the inner wall of the cabinet body 1; an electric actuator 203 is fixedly connected to the first fixing frame 202; the telescopic part of the electric actuator 203 is fixedly connected with a top block 205; the upper surface of the top block 205 is fixedly connected with a top plate 204; the top plate 204 is fixedly connected with the conical cylinder 201; the cabinet body 1 is connected with a double-circulation component; the dual cycle assembly is coupled to the first mount 202 and the top block 205.

The outer surface of the guard plate 3 is provided with a plurality of grooves for guiding rainwater.

The cone-shaped barrel 201 is made of rubber materials and used for collecting rainwater, and when the cone-shaped barrel 201 moves upwards and turns outwards, the collected rainwater is poured out.

The double-circulation assembly comprises a connecting frame 301, a screw rod 302, a fixing plate 303, a sleeve 304, a first impeller 305, a connecting shaft 306, a first driving wheel 307, a second driving wheel 308, a second impeller 309 and a discharge unit; the upper part of the cabinet body 1 is connected with a connecting frame 301 in a sliding way; the connecting frame 301 is fixedly connected with the top block 205; a screw rod 302 is fixedly connected to the rear part of the connecting frame 301; a fixing plate 303 is fixedly connected to the rear part of the first fixing frame 202; the fixed plate 303 is rotatably connected with a sleeve 304; the sleeve 304 is screwed with the screw rod 302; a first impeller 305 is fixedly connected to the lower part of the sleeve 304; the front part of the fixed plate 303 is rotatably connected with a connecting shaft 306; a first driving wheel 307 is fixedly connected to the lower part of the sleeve 304; a second driving wheel 308 is fixedly connected with the lower part of the connecting shaft 306; the second transmission wheel 308 is in transmission connection with the first transmission wheel 307 through a belt; the lower part of the connecting shaft 306 is fixedly connected with a second impeller 309; the lower part of the cabinet body 1 is connected with a discharge unit.

The discharging unit comprises a fan 310, a guide cylinder 311, a first fixing block 312, a fixing rod 313, a connecting plate 314, an elastic element 315 and a first scraper 316; the lower part of the cabinet body 1 is provided with a fan 310; a guide cylinder 311 is fixedly connected to the fixed part of the lower surface of the fan 310; two first fixed blocks 312 are fixedly connected inside the guide cylinder 311; the upper surfaces of the two first fixing blocks 312 are fixedly connected with a fixing rod 313; a connecting plate 314 is fixedly connected between the two fixing rods 313; an elastic member 315 is sleeved outside each of the two fixing rods 313, one end of the elastic member 315 is fixedly connected to the connecting plate 314, and the other end of the elastic member 315 is fixedly connected to the first fixing block 312; a first squeegee 316 is secured to the connector tile 314.

The inner side of the guide shell 311 is provided with a plurality of grooves for guiding rainwater and dust, and the upper part of the guide shell 311 is arranged in an inverted cone shape.

The first scraper 316 is made of rubber and has an inverted cone shape to scrape off rainwater and dust adhered to the guide cylinder 311.

The cabinet body 1 is connected with a dehumidification unit; the dehumidifying unit comprises a bearing pulley 401, an elastic rope 402, a second fixing block 403, a connecting rod 404, a baffle 405, a torsion spring 406, a first ventilating plate 407, a second fixing frame 408, a guide plate 409 and a dewatering component; two bearing pulleys 401 are mounted on the top block 205; a plurality of bearing pulleys 401 are respectively arranged at the left part of the outer wall of the cabinet body 1 and the right part of the cabinet body 1, and an elastic rope 402 is wound on the plurality of bearing pulleys 401 at the same side; two second fixing blocks 403 are fixedly connected to the left part of the cabinet body 1 and the right part of the cabinet body 1 respectively; a connecting rod 404 is rotatably connected between the two second fixing blocks 403 on the same side; the middle parts of the two connecting rods 404 are fixedly connected with a baffle 405; the two baffles 405 are fixedly connected with a bearing pulley 401 respectively; a torsion spring 406 is sleeved outside the two ends of each of the two connecting rods 404, one end of the torsion spring 406 is fixedly connected to the second fixing block 403, and the other end of the second fixing block 403 is fixedly connected to the baffle 405; two first ventilating boards 407 are fixedly connected to the middle part of the cabinet body 1; two second fixing frames 408 are fixedly connected to the middle part of the cabinet body 1, and the two second fixing frames 408 are located below the two first ventilating plates 407; a plurality of guide plates 409 are fixedly connected to the two second fixing frames 408 at equal intervals; the baffle 405 is connected to a water removal assembly; the water removing assembly is connected to the second fixing frame 408.

One side that the cabinet body 1 is close to the baffle 405 sets up to the arc for make the baffle 405 overturn, and avoid the rainwater to get into in the cabinet body 1.

The upper surface of the baffle 405 and the upper surface of the baffle 405 are both provided with a sealing rubber strip.

The lower portion of the inner wall of the second fixing frame 408 is provided with a plurality of grooves for guiding rainwater.

The water removing component comprises a top rod 410, an expansion rod 411, a sliding rod 412, a second scraping plate 413, a second ventilating plate 414 and a sponge block 415; the lower parts of the two baffles 405 are fixedly connected with a top rod 410; the bottom parts of the inner walls of the two second fixing frames 408 are fixedly connected with a telescopic rod 411; the telescopic parts of the two telescopic rods 411 are fixedly connected with a sliding rod 412; two sliding rods 412 are respectively connected with a second fixing frame 408 in a sliding way; three second scraping plates 413 are fixedly connected to the two sliding rods 412 at equal intervals; a second ventilating plate 414 is fixedly connected to the inner walls of the two second fixing frames 408; a sponge block 415 is fixedly connected to the back sides of the two second ventilating plates 414.

The end of the push rod 410 remote from the baffle 405 is cut as a bevel, and the upper end of the slide rod 412 is cut as a bevel, so that the push rod 410 and the slide rod 412 are engaged.

A plurality of through holes inclined outwards are formed in the second ventilating plate 414 and the sponge block 415, and are used for preventing rainwater from entering the cabinet body 1.

When the intelligent detection device works, a worker installs the cabinet body 1 to a designated position, and then fixes the intelligent detection device based on the multi-power-supply multi-connection framework of the power distribution network at the designated position, and then when the intelligent detection device is used in rainy days, rainwater is blocked by the protection plate 3, so that rainwater is prevented from entering the cabinet body 1, and meanwhile, part of rainwater is collected in the conical cylinder 201, at the moment, two temperature and humidity detectors 5 are controlled to start to operate, and further, the air environment in the cabinet body 1 is monitored, when the temperature in the cabinet body 1 is monitored to be overhigh, the electric actuator 203 is controlled to start to drive the top block 205 to move upwards, the top block 205 moves to drive the top plate 204 to move upwards, the top plate 204 moves to drive the conical cylinder 201 to move upwards, and further, the conical cylinder 201 is gradually turned outwards, so that rainwater collected in the conical cylinder 201 is gradually poured out and flows down along a plurality of grooves on the outer surface of the protection plate 3, further, the outer wall of the cabinet body 1 is cooled, so that the temperature in the cabinet body 1 is reduced;

then, after the temperature in the cabinet 1 is reduced, the two temperature and humidity detectors 5 continue to operate, when the humidity in the cabinet 1 is monitored to be too high, at this time, while the top block 205 moves upwards, the top block 205 moves to drive the connecting frame 301 to move upwards, the connecting frame 301 moves to drive the lead screw 302 to move, the lead screw 302 moves to drive the sleeve 304 to rotate, the sleeve 304 rotates to drive the first impeller 305 to rotate, meanwhile, the sleeve 304 rotates to drive the first driving wheel 307 to rotate, the first driving wheel 307 rotates to drive the second driving wheel 308 to rotate through a belt, the second driving wheel 308 rotates to drive the connecting shaft 306 to rotate, the connecting shaft 306 rotates to drive the second impeller 309 to rotate, so that the first impeller 305 and the second impeller 309 synchronously rotate, so that the moisture in the cabinet 1 flows downwards, and the fan 310 is controlled to start to operate, so that the moisture in the cabinet 1 is discharged through the guide cylinder 311, meanwhile, after the cabinet body 1 is used for a long time, dust is easily accumulated in the cabinet body 1, at this time, the first impeller 305 and the second impeller 309 continue to rotate, so that dust and moisture in the cabinet body 1 synchronously flow downwards, and when the fan 310 operates to discharge the moisture, the moisture and the dust are easily bonded after being mixed, so that a mixture of the moisture and the dust is bonded on the inner wall of the guide cylinder 311, at this time, the first scraper 316 moves downwards due to wind power generated by the operation of the fan 310, the first scraper 316 moves to drive the connecting plate 314 to move downwards, so that the two elastic members 315 are compressed, the first scraper 316 moves downwards along the inner wall of the guide cylinder 311, and the mixture bonded on the inner wall of the guide cylinder 311 is scraped off through the first scraper 316;

then, when rainwater falls on the left side wall of the cabinet body 1 and the right side wall of the cabinet body 1, at this time, the two elastic ropes 402 are in an unstretched state, that is, the two baffles 405 are in a vertically closed state, thereby preventing rainwater from entering the cabinet body 1, and at the same time, rainwater is further prevented from entering the cabinet body 1 by the plurality of guide plates 409, and then, since the plurality of guide plates 409 are always in an open state and a gap exists between each guide plate 409, a small amount of rainwater will enter the guide plates 409, and when the first impeller 305 and the second impeller 309 rotate synchronously and the fan 310 operates, external air will be sucked through the gaps between the plurality of guide plates 409, resulting in that external rainwater is very easily sucked, and at this time, rainwater sucked through the outside is blocked by the two sponge blocks 415, thereby effectively preventing external rainwater from being sucked, and then, when it is not raining, that is to say, the rainwater collected in the conical barrel 201 is poured out, in the process, the top block 205 moves upwards to drive the two bearing pulleys 401 to move upwards, and then the two elastic ropes 402 are pulled, so that the two baffles 405 are turned over, and then the two first ventilating plates 407 are opened, so that the two first ventilating plates 407 ventilate, at this time, the first impeller 305 and the second impeller 309 are matched to rotate synchronously and the fan 310 operates, so that the discharge of moisture in the cabinet body 1 is further accelerated, further, air enters from the left part of the cabinet body 1 and the right part of the cabinet body 1 and is discharged from the lower part of the cabinet body 1, and the circulation is repeated until the humidity of the cabinet body 1 is monitored by the two temperature and humidity detectors 5 within an appropriate range, so that the air in the cabinet body 1 is subjected to double circulation, and thus the moisture in the cabinet body 1 is quickly discharged;

then, when the two sponge blocks 415 block external rainwater, the two sponge blocks 415 suck rainwater and expand, and further the air permeability is reduced, at this time, when the two baffles 405 turn over, the two baffles 405 rotate to drive the two ejector rods 410 to rotate, the two ejector rods 410 rotate to touch the two sliding rods 412 and extrude the two sliding rods 412, so that the two sliding rods 412 move downwards, and further the two telescopic rods 411 are compressed, so that the two sliding rods 412 move downwards to drive the six second scrapers 413 to move downwards, and further the rainwater sucked in the two sponge blocks 415 is extruded by the six second scrapers 413 and flows out along the grooves at the lower part of the inner walls of the two second fixing frames 408, so that the rainwater sucked in the two sponge blocks 415 is extruded, the air permeability of the two sponge blocks 415 is improved, and further the air circulation of the cabinet body 1 is improved, and effectively prevent rainwater from entering the cabinet body 1;

then, when two electrical control 7 in the cabinet body 1 need carry out the periodic overhaul, open two cabinet doors 2 by the staff, this moment, two response lamp 6 automatic operation, and then improve the illumination luminance in the cabinet body 1, effectively avoided the light of the internal 1 of cabinet relatively poor, then, when the cabinet body 1 appears the short circuit in the power consumption in-process and takes place the spontaneous combustion, smoke alarm 4 functions this moment, detect the internal portion of cabinet, and send out the police dispatch and report and remind, and then timely protect the cabinet body 1 in order to realize the power consumption safety.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. An intelligent detection device based on a multi-power-supply multi-connection framework of a power distribution network comprises a cabinet body (1), a cabinet door (2), a protective plate (3), a smoke alarm (4), a temperature and humidity detector (5), an induction lamp (6) and an electric control part (7); two cabinet doors (2) are arranged at the front part of the cabinet body (1); the upper surface of the cabinet body (1) is fixedly connected with a guard plate (3) for shielding rainwater; a smoke alarm (4) is arranged on the upper part of the inner wall of the cabinet body (1); two temperature and humidity detectors (5) are arranged on the upper part of the inner wall of the cabinet body (1) and behind the smoke alarm (4); two induction lamps (6) for lighting are arranged at the upper part of the inner wall of the cabinet body (1); two electric control parts (7) are arranged on the inner wall of the cabinet body (1); the device is characterized by also comprising a conical cylinder (201), a first fixing frame (202), an electric actuator (203), a top plate (204), a top block (205) and a double-circulation component; a conical barrel (201) for collecting rainwater is fixedly connected to the middle part of the guard plate (3); a first fixing frame (202) is fixedly connected to the upper part of the inner wall of the cabinet body (1); an electric actuator (203) is fixedly connected to the first fixing frame (202); the telescopic part of the electric actuator (203) is fixedly connected with a top block (205); the upper surface of the top block (205) is fixedly connected with a top plate (204); the top plate (204) is fixedly connected with the conical cylinder (201); the cabinet body (1) is connected with a double-circulation component; the dual cycle assembly is coupled to a first mount (202) and a top block (205).

2. The intelligent detection device based on the multi-power-supply multi-connection framework of the power distribution network as claimed in claim 1, wherein a plurality of grooves are formed in the outer surface of the protection plate (3) and used for guiding rainwater.

3. The intelligent detection device based on the multi-power-supply multi-connection framework of the power distribution network as claimed in claim 1, wherein the conical cylinder (201) is made of rubber and used for collecting rainwater, and when the conical cylinder (201) moves upwards and turns outwards, the collected rainwater is poured out.

4. The intelligent detection device based on the multi-power-supply multi-connection framework of the power distribution network as claimed in claim 3, wherein the double-circulation assembly comprises a connecting frame (301), a screw rod (302), a fixing plate (303), a sleeve (304), a first impeller (305), a connecting shaft (306), a first transmission wheel (307), a second transmission wheel (308), a second impeller (309) and a discharge unit; the upper part of the cabinet body (1) is connected with a connecting frame (301) in a sliding way; the connecting frame (301) is fixedly connected with the top block (205); a screw rod (302) is fixedly connected to the rear part of the connecting frame (301); a fixing plate (303) is fixedly connected to the rear part of the first fixing frame (202); the fixed plate (303) is rotatably connected with a sleeve (304); the sleeve (304) is screwed with the screw rod (302); a first impeller (305) is fixedly connected to the lower part of the sleeve (304); the front part of the fixed plate (303) is rotatably connected with a connecting shaft (306); a first driving wheel (307) is fixedly connected to the lower part of the sleeve (304); the lower part of the connecting shaft (306) is fixedly connected with a second driving wheel (308); the second transmission wheel (308) is in transmission connection with the first transmission wheel (307) through a belt; the lower part of the connecting shaft (306) is fixedly connected with a second impeller (309); the lower part of the cabinet body (1) is connected with a discharge unit.

5. The intelligent detection device based on the multi-power-supply multi-connection framework of the power distribution network as claimed in claim 4, wherein the discharge unit comprises a fan (310), a guide cylinder (311), a first fixed block (312), a fixed rod (313), a connecting plate (314), an elastic element (315) and a first scraper (316); a fan (310) is arranged at the lower part of the cabinet body (1); a guide cylinder (311) is fixedly connected to the lower surface fixing part of the fan (310); two first fixed blocks (312) are fixedly connected inside the guide shell (311); the upper surfaces of the two first fixed blocks (312) are fixedly connected with a fixed rod (313); a connecting plate (314) is fixedly connected between the two fixing rods (313); an elastic part (315) is sleeved outside each of the two fixing rods (313), one end of each elastic part (315) is fixedly connected to the connecting plate (314), and the other end of each elastic part (315) is fixedly connected to the first fixing block (312); a first scraper (316) is fixed on the connecting plate (314).

6. The intelligent detection device based on the multi-power-supply multi-connection framework of the power distribution network as claimed in claim 5, wherein a plurality of grooves are formed in the inner side of the guide cylinder (311) and used for guiding rainwater and dust, and the upper portion of the guide cylinder (311) is arranged in an inverted cone shape.

7. The intelligent detection device based on the multi-power-supply multi-connection framework of the power distribution network as claimed in claim 5, wherein the first scraper (316) is made of rubber and is in an inverted cone shape and used for scraping rainwater and dust adhered to the guide cylinder (311).

8. The intelligent detection equipment based on the multi-power-supply multi-connection framework of the power distribution network as claimed in claim 7, further comprising a dehumidification unit, wherein the cabinet body (1) is connected with the dehumidification unit; the dehumidifying unit comprises a bearing pulley (401), an elastic rope (402), a second fixing block (403), a connecting rod (404), a baffle (405), a torsion spring (406), a first ventilating plate (407), a second fixing frame (408), a guide plate (409) and a water removing component; two bearing pulleys (401) are arranged on the top block (205); a plurality of bearing pulleys (401) are respectively arranged at the left part of the outer wall of the cabinet body (1) and the right part of the cabinet body (1), and an elastic rope (402) is wound on the plurality of bearing pulleys (401) at the same side; two second fixed blocks (403) are fixedly connected to the left part of the cabinet body (1) and the right part of the cabinet body (1) respectively; a connecting rod (404) is rotatably connected between the two second fixing blocks (403) on the same side; the middle parts of the two connecting rods (404) are fixedly connected with a baffle (405); the two baffles (405) are fixedly connected with a bearing pulley (401) respectively; the outer sides of two ends of the two connecting rods (404) are sleeved with a torsion spring (406), one end of the torsion spring (406) is fixedly connected to the second fixing block (403), and the other end of the second fixing block (403) is fixedly connected to the baffle (405); two first ventilating plates (407) are fixedly connected to the middle part of the cabinet body (1); two second fixing frames (408) are fixedly connected to the middle part of the cabinet body (1), and the two second fixing frames (408) are positioned below the two first ventilating plates (407); a plurality of guide plates (409) are fixedly connected to the two second fixing frames (408) at equal intervals; the baffle (405) is connected with a water removal component; the water removal component is connected with a second fixing frame (408).

9. The intelligent detection device based on the multi-power-supply multi-connection framework of the power distribution network as claimed in claim 8, wherein one side of the cabinet body (1) close to the baffle (405) is arc-shaped, so that the baffle (405) can be turned over, and rainwater can be prevented from entering the cabinet body (1).

10. The intelligent detection equipment based on the multi-power-supply multi-connection framework of the power distribution network as claimed in claim 9, wherein the water removal assembly comprises a top rod (410), an expansion rod (411), a sliding rod (412), a second scraper (413), a second vent plate (414) and a sponge block (415); the lower parts of the two baffles (405) are fixedly connected with a top rod (410); the bottom parts of the inner walls of the two second fixing frames (408) are fixedly connected with a telescopic rod (411); the telescopic parts of the two telescopic rods (411) are fixedly connected with a sliding rod (412); the two sliding rods (412) are respectively connected with a second fixed frame (408) in a sliding way; three second scraping plates (413) are fixedly connected to the two sliding rods (412) at equal intervals; a second ventilating plate (414) is fixedly connected to the inner walls of the two second fixing frames (408); and the back sides of the two second ventilating plates (414) are fixedly connected with a sponge block (415).