CN117177544A - Communication power supply state monitoring device and method - Google Patents
Communication power supply state monitoring device and method Download PDFInfo
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- CN117177544A CN117177544A CN202311348208.8A CN202311348208A CN117177544A CN 117177544 A CN117177544 A CN 117177544A CN 202311348208 A CN202311348208 A CN 202311348208A CN 117177544 A CN117177544 A CN 117177544A
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- 238000012544 monitoring process Methods 0.000 claims abstract description 31
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- 238000007664 blowing Methods 0.000 claims abstract description 21
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- 230000001105 regulatory effect Effects 0.000 claims abstract description 5
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 claims description 28
- 229910052742 iron Inorganic materials 0.000 claims description 14
- 210000001503 joint Anatomy 0.000 claims description 13
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- 238000001514 detection method Methods 0.000 claims description 7
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- 230000005494 condensation Effects 0.000 claims description 5
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- 238000010586 diagram Methods 0.000 description 7
- 230000033228 biological regulation Effects 0.000 description 6
- 238000000605 extraction Methods 0.000 description 4
- 238000010030 laminating Methods 0.000 description 4
- 238000009423 ventilation Methods 0.000 description 3
- 238000012546 transfer Methods 0.000 description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
- 230000000903 blocking effect Effects 0.000 description 1
- 239000003245 coal Substances 0.000 description 1
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- 230000020169 heat generation Effects 0.000 description 1
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Abstract
The invention discloses a communication power supply state monitoring device and a method, which relate to the technical field of communication power supply state monitoring and comprise a shell and a power supply body. The invention discloses a communication power supply state monitoring device and a method, which are characterized in that under the condition that the temperature in a shell is gradually increased, a second hydraulic cylinder is regulated to drive an extruding plate to extrude downwards, so that cold gas in a gas storage box is pressed into two exhaust frames, the cold gas pushes a baffle plate, a connecting spring rod is compressed, then the cold gas is discharged into the shell through a gas blowing hole on a gas blowing cover, the cold gas pushes high-temperature gas in the shell to push the gas out of a heat dissipation hole above, the cold gas takes away heat generated by a power supply body in the flowing process, the cooling of a storage space of the power supply body can be rapidly realized when the power supply body fails, the further damage of the power supply body caused by the high temperature state in the shell is avoided, and the effect of protecting the power supply body is achieved.
Description
Technical Field
The invention relates to the technical field of communication power supply state monitoring, in particular to a communication power supply state monitoring device and a communication power supply state monitoring method.
Background
Common power supplies are dry cell (dc) and household 110V-220V ac power supplies. The power supply is based on the principle of 'magnetic electricity generation', and is powered by renewable energy sources such as water power, wind power, sea tide, dam water pressure difference, solar energy and the like, and generated by burning coal, oil residues and the like, and the communication power supply needs to be monitored through a monitoring device in the use process, so that the safety accidents caused by high-temperature damage on the inner side of the communication power supply are prevented.
The current communication power state monitoring device is in the use, temperature monitoring of power department is carried out through temperature sensor, when the power is because of the inside temperature of space that each side trouble led to its heat production to rise sharply, the power is in under the environment of high temperature, each spare part on it all is in the state of sharp loss, aggravate the loss of power, simultaneously, be accompanied with corresponding security risk, however, current power is in the use, it installs in the shell inside, just realize thermal emission through simple ventilation, this kind of mode is applicable to the power heat dissipation under the normal condition, can't be applicable to the power heat dissipation under the special condition, current power state monitoring device only can realize the control, can't realize adjusting, use value is lower.
Disclosure of Invention
The invention discloses a communication power supply state monitoring device, which aims to solve the technical problems that the prior communication power supply state monitoring device is used for monitoring the temperature of a power supply through a temperature sensor, when the power supply generates heat to be rapidly increased due to faults in various aspects, the temperature in the space where the power supply is positioned is increased, the power supply is in a high-temperature environment, all parts on the power supply are in a rapid loss state, the loss of the power supply is aggravated, and meanwhile, the corresponding safety risk is accompanied, however, the prior power supply is arranged in a shell in the use process, and only the heat dissipation is realized through simple ventilation and ventilation.
In order to achieve the above purpose, the present invention adopts the following technical scheme:
the utility model provides a communication power state monitoring device, includes casing and power body, power body places in the inside of casing, and opens the bottom of casing has the mounting hole, and mounting hole department is equipped with cooling module, cooling module includes the gas storage case, and gas storage case fixedly connected in the inner wall of mounting hole, exhaust port has all been opened at the top both ends of gas storage case, the top of gas storage case is opened there is the fixed orifices, the inside of two exhaust ports is equal fixedly connected with exhaust frame, the inside fixedly connected with frame of fixed orifices, the top fixedly connected with support of frame, the bottom fixedly connected with pneumatic cylinder two of support, the output fixedly connected with stripper plate of pneumatic cylinder two, open the bottom of frame has the lift groove, the inside sliding connection in lift inside casing of lift groove, stripper plate fixedly connected in the bottom of lift inside casing.
Through being provided with the radiator unit, under the inside temperature of casing gradually the condition that rises, adjust pneumatic cylinder two and drive the stripper plate and push towards the below, thereby with the inside cold air of gas storage box push into two exhaust frames, when the inside atmospheric pressure of gas storage box increases, then cold air promotes the baffle, the connection spring pole is compressed, then cold air is discharged into the casing through the air-blowing hole on the air-blowing cover, cold air promotes the inside high temperature gas of casing, push out it from the louvre of top, cold air takes away the heat that the power body produced at the in-process that flows, ensure that the power body is in the time of breaking down, can realize the cooling of its parking space fast, avoid the inside further damage that causes the power body that is in under the high temperature state of casing, protect the power body.
In a preferred scheme, two the equal fixedly connected with of top of exhaust frame is ventilated and is covered, and the outside equidistance of ventilated is left there is the air vent, and the both sides inner wall of exhaust frame all has the baffle through hinge connection, and the top of two baffles contacts, and the equal distance fixedly connected with in one side in opposite directions of two baffles connects the spring pole, connects the inner wall of spring pole fixedly connected with exhaust frame, and the gas storage case is located the inner wall fixedly connected with collar of one of them exhaust frame below, collar department fixedly connected with pressure sensor.
In a preferred scheme, the bottom inner wall fixedly connected with cavity gas delivery board of gas storage case, and the top equidistance of cavity gas delivery board leaves there is the escape hole, the inner wall fixedly connected with baffle of gas storage case, the baffle is located the top of two exhaust frame below and all opens there is the intercommunicating pore, the gas storage case is located the both sides between baffle and the cavity gas delivery board and all opens there is the perforation, two fenestrated inside fixedly connected with same condenser pipe, the outside that the condenser pipe is located two open ends department all is through flange joint there being solenoid valve, the condenser pipe is located between baffle and the cavity gas delivery board, one side fixedly connected with air pump of gas storage case, the gas-supply end fixedly connected with air duct of air pump, the air duct is pegged graft in the inside of cavity gas delivery board.
In a preferred scheme, the bottom fixedly connected with ground connection seat of casing, and the both sides that the casing is close to the top are all fixedly connected with two side frame, and every side frame is towards the equal fixedly connected with pneumatic cylinder one of one side of casing, and the same shutoff lid of output fixedly connected with of two pneumatic cylinders one that lie in one side, and open at the top of shutoff lid has the louvre, and the bottom of shutoff lid contacts with power body's top.
In a preferred scheme, the both sides inner wall of casing all opens has the regulation spout, and the inside of two regulation spouts is all sliding connection has the sliding block, and the outside fixedly connected with end block that the casing is close to the regulation spout tip, and end block one side fixedly connected with cylinder towards the sliding block, the output fixed connection of cylinder in the outside of sliding block, and the sliding block is equipped with the state monitoring subassembly towards one side of power body.
In a preferred scheme, the state monitoring assembly comprises a moving track, the moving track is fixedly connected to the outer side of the sliding block, a connecting rod is fixedly connected to the outer side, close to the top end, of the moving track, a fixing shaft is fixedly connected to one side, facing the power supply body, of the connecting rod, a rotating groove is formed in the fixing shaft, a deflection belt is sleeved in the rotating groove, a moving sliding block is connected to the inner portion of the moving track in a sliding mode, and the moving sliding block is fixedly connected to the bottom of the deflection belt.
Through being provided with state monitoring subassembly, in the power body working process, regular regulation cylinder drives state monitoring subassembly and removes, under the initial condition, iron plate and electro-magnet are in contact state, under the monitoring condition, this electro-magnet outage, then remove the slider and slide along the removal track under the action of gravity, slide the in-process, another electro-magnet circular telegram, then this electro-magnet adsorbs another iron plate on the deflection belt for temperature sensor slides to the other end from the one end of moving guide rail, reciprocating operation, cooperation cylinder's reciprocal regulation realizes the inside diversified temperature detection of casing, ensure temperature detection result's accuracy.
In a preferred scheme, the outside fixedly connected with lantern ring of removal slider, and temperature sensor has been placed to the inside of lantern ring, and the equal fixedly connected with installation piece in both sides of deflection area, two opposite sides of installation piece all are equipped with the iron plate, and the equal fixedly connected with hanging piece in bottom both ends of connecting rod, the bottom of two hanging pieces all is equipped with the electro-magnet.
In a preferred scheme, the bottom both ends of power supply body are all fixedly connected with bottom board, and the casing is located the equal fixedly connected with of bottom inner wall of two bottom boards below a plurality of ejecting spring rods, and the equal fixedly connected with of top of every ejecting spring rod is ejecting the head, and the top head contacts with the bottom of power supply body, and the casing is located the inside of power supply body department and is equipped with laminating heat conduction assembly.
In a preferred scheme, laminating heat conduction subassembly includes the fixed frame, and the bottom fixedly connected with two butt joint framves of fixed frame, two butt joint framves fixedly connected with are in the inside wall of casing, the fixed frame is close to the equal fixedly connected with bottom backup pad of the bottom of two butt joint framves, the both sides inner wall of fixed frame is through the bearing connection there being the axis of rotation, the outside equidistance fixedly connected with contact clamp plate of the oblique below of axis of rotation, the outside equidistance fixedly connected with side limiting plate of axis of rotation face side up, the outside equidistance of side limiting plate leaves there is the hole of placing, the heat-conducting rod has all been placed to the inside in every hole of placing, the equal fixedly connected with dead lever in the outside of the side limiting plate at both ends, the same fixed pipe of outside fixedly connected with of two dead levers, the inside fixedly connected with connecting pipe of two butt joint holes that are located same one side, the outside fixedly connected with liquid reserve tank and collection box of ground connection seat, the outside fixedly connected with delivery pump of liquid reserve tank, the delivery end of delivery pump is through the inside of one of pipeline connection in one of the connecting pipes, the pump of the inside through the pipeline connection in the collection box, the pump is connected with the inside pump through the pump of another pump.
Through being provided with laminating heat conduction subassembly, the power supply body lays the in-process, with it impress inside the casing, the in-process of impressing, power supply body at first contacts with the contact clamp plate, contact clamp plate drives the axis of rotation under the contact and the extrusion state, then side limiting plate removes towards power supply body's lateral wall, each heat-conducting rod contacts with power supply body, the delivery pump carries the condensate to two fixed pipes in, the heat of transfer on the condensate with the heat-conducting rod is absorbed, the pump draws this part condensate to the collecting box in, realize power supply body's contact heat conduction through this kind of mode, improve the radiating effect.
A communication power supply state monitoring method using a communication power supply state monitoring device as described above, the monitoring method comprising the steps of:
step one: in the process of placing the power supply body, the power supply body is pressed into the shell, in the process of pressing, the power supply body is firstly contacted with the contact pressing plate, and in the contact and extrusion state, the contact pressing plate drives the rotating shaft to rotate, so that the side limit plate moves towards the side wall of the power supply body, and each heat conducting rod is contacted with the power supply body, so that the installation of the power supply body is completed;
step two: in the working process of the power supply body, the air cylinder is regularly regulated to drive the state monitoring assembly to move, in the initial state, the iron plate is in contact with the electromagnet, in the monitoring state, the electromagnet is powered off, the movable sliding block slides along the movable track under the action of gravity, in the sliding process, the other electromagnet is powered on, the electromagnet adsorbs the other iron plate on the deflection belt, so that the temperature sensor slides from one end of the movable guide rail to the other end, and the reciprocating operation is carried out, and the multidirectional temperature detection in the shell is realized by matching with the reciprocating regulation of the air cylinder;
step three: when the temperature sensor monitors that the temperature inside the shell rises gradually, the adjusting hydraulic cylinder II drives the extruding plate to extrude towards the lower side, so that cold air inside the air storage box is pressed into the two exhaust frames, when the air pressure inside the air storage box increases, the cold air pushes the baffle, the connecting spring rod is compressed, then the cold air is discharged into the shell through the air blowing hole on the air blowing cover, the cold air pushes high-temperature air inside the shell, the high-temperature air is pushed out of the radiating hole above, the heat generated by the power supply body is carried away by the cold air in the flowing process, the cooling treatment inside the shell is realized, and the lowest damage degree of the power supply body is ensured before workers arrive at repair.
According to the communication power supply state monitoring device, under the condition that the temperature in the shell is gradually increased, the second hydraulic cylinder is regulated to drive the extrusion plate to extrude downwards, so that cold gas in the gas storage box is pressed into the two exhaust frames, when the air pressure in the gas storage box is increased, the cold gas pushes the baffle, the connecting spring rod is compressed, the cold gas is discharged into the shell through the air blowing hole in the air blowing cover, the cold gas pushes high-temperature gas in the shell and pushes the high-temperature gas out of the radiating hole in the upper part, heat generated by the power supply body is taken away by the cold gas in the flowing process, the cooling of a storage space of the power supply body can be rapidly realized when the power supply body fails, further damage of the power supply body caused by the fact that the inside of the shell is in a high-temperature state is avoided, and the technical effect of protecting the power supply body is achieved.
Drawings
Fig. 1 is a schematic diagram of the overall structure of a communication power status monitoring device according to the present invention.
Fig. 2 is a sectional view of a housing structure of a communication power status monitoring device according to the present invention.
Fig. 3 is a schematic diagram of an internal structure of a housing of a communication power status monitoring device according to the present invention.
Fig. 4 is a schematic diagram of a heat dissipation assembly of a communication power status monitoring device according to the present invention.
Fig. 5 is a sectional view of a gas storage tank structure of a communication power status monitoring device according to the present invention.
FIG. 6 is a schematic diagram of a hollow gas panel structure of a communication power status monitor according to the present invention.
Fig. 7 is a schematic diagram of a status monitoring component of a status monitoring device for a communication power supply according to the present invention.
Fig. 8 is a turnover view of the whole structure of fig. 7.
Fig. 9 is a schematic diagram of a combined structure of a heat conduction assembly and a power body attached to a communication power state monitoring device according to the present invention.
Fig. 10 is a schematic diagram of a bonding heat conduction assembly of a communication power status monitoring device according to the present invention.
In the figure: 1. a housing; 2. a first hydraulic cylinder; 3. a side frame; 4. a grounding seat; 5. a transfer pump; 6. a liquid storage tank; 7. a heat radiation hole; 8. a blocking cover; 9. adjusting the chute; 10. a pump; 11. a collection box; 12. a power supply body; 13. a heat dissipation assembly; 1301. a gas storage tank; 1302. an exhaust frame; 1303. an outer frame; 1304. a gas-blowing cover; 1305. a second hydraulic cylinder; 1306. a bracket; 1307. a gas hole; 1308. an electromagnetic valve; 1309. a mounting ring; 1310. connecting a spring rod; 1311. a baffle; 1312. lifting the inner frame; 1313. an extrusion plate; 1314. a partition plate; 1315. a communication hole; 1316. a hollow gas delivery plate; 1317. a condensing duct; 1318. a pressure sensor; 1319. a dissipation hole; 1320. an air pump; 1321. an air duct; 14. a status monitoring component; 1401. a moving track; 1402. a connecting rod; 1403. a deflection belt; 1404. a fixed shaft; 1405. an electromagnet; 1406. hanging blocks; 1407. an iron plate; 1408. a collar; 1409. moving the slide block; 1410. a temperature sensor; 1411. a mounting block; 15. attaching a heat conduction assembly; 1501. a fixed frame; 1502. a fixed tube; 1503. a connecting pipe; 1504. a butt joint frame; 1505. a bottom end support plate; 1506. a heat conduction rod; 1507. a fixed rod; 1508. a side limit plate; 1509. a rotating shaft; 1510. a contact pressure plate; 16. ejecting a spring rod; 17. a top head; 18. a bottom plate; 19. a sliding block; 20. a cylinder; 21. an end block.
Description of the embodiments
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.
The invention discloses a communication power supply state monitoring device which is mainly applied to the temperature monitoring of a power supply position through a temperature sensor in the use process of the existing communication power supply state monitoring device, when the heat generation of the power supply is rapidly increased due to faults of all aspects, the temperature in the space where the power supply is positioned is increased, the power supply is in a high-temperature environment, all parts on the power supply are in a rapid loss state, the loss of the power supply is aggravated, and meanwhile, the corresponding safety risk is accompanied.
Referring to fig. 1-10, a communication power state monitoring device comprises a housing 1 and a power body 12, wherein the power body 12 is placed in the housing 1, and the bottom of the housing 1 is provided with a mounting hole, a heat dissipation component 13 is arranged at the mounting hole, the heat dissipation component 13 comprises a gas storage tank 1301, the gas storage tank 1301 is fixedly connected to the inner wall of the mounting hole, two ends of the top of the gas storage tank 1301 are provided with exhaust ports, the top of the gas storage tank 1301 is provided with a fixing hole, the two exhaust ports are fixedly connected with an exhaust frame 1302, an outer frame 1303 is fixedly connected with a support 1306 at the top of the outer frame 1303, a hydraulic cylinder II 1305 is fixedly connected with a squeeze plate 1313 at the bottom of the support 1306, a lifting groove is formed in the bottom of the outer frame 1303, a lifting inner frame 1312 is slidingly connected with the inside of the lifting groove, and the squeeze plate 1313 is fixedly connected to the bottom of the lifting inner frame 1312.
Referring to fig. 1-6, in a preferred embodiment, the top of two exhaust frames 1302 is fixedly connected with an air-blowing cover 1304, and the outside of the air-blowing cover 1304 is equidistantly separated from an air-blowing hole 1307, two side inner walls of the exhaust frames 1302 are all connected with a baffle plate 1311 through a hinge, the tops of the two baffle plates 1311 are contacted, one side of the two baffle plates 1311 opposite to each other is fixedly connected with a connecting spring rod 1310, the connecting spring rod 1310 is fixedly connected to the inner wall of the exhaust frame 1302, the inner wall of the gas storage tank 1301 below one of the exhaust frames 1302 is fixedly connected with a mounting ring 1309, the mounting ring 1309 is fixedly connected with a pressure sensor 1318, the bottom inner wall of the gas storage tank 1301 is fixedly connected with a hollow gas delivery plate 1316, and the top of the hollow gas delivery plate 1316 is equidistantly separated from the hollow gas delivery plate 1319, the inner wall of the gas storage tank 1314 is fixedly connected with a partition plate 1314, the top below the two exhaust frames 1302 is provided with a communication hole 1315, two sides of the gas storage tank 1301 are respectively provided with a perforation, two inner pipelines are fixedly connected with a gas guide flange 1317 and a gas pump 1316, the two inner side of the same air guide pipeline is fixedly connected with a gas guide plate 1311, and the inner side of the air guide pipeline is fixedly connected with a gas guide plate 1311, and the air guide pipeline is fixedly connected with a gas guide plate 1320 is fixedly connected to the air guide plate 1321.
In a specific application scenario, under the condition that the temperature inside the casing 1 gradually increases, the hydraulic cylinder two 1305 is adjusted to drive the extrusion plate 1313 to extrude downwards, so that the cold air inside the air storage box 1301 is pressed into the two exhaust frames 1302, when the air pressure inside the air storage box 1301 increases, the cold air pushes the baffle 1311, the connecting spring rod 1310 is compressed, the cold air is discharged into the casing 1 through the air blowing hole 1307 on the air blowing cover 1304, the cold air pushes the high-temperature air inside the casing 1, pushes the high-temperature air out of the heat dissipating hole 7 above, and the cold air carries out the heat generated by the power supply body 12 in the flowing process, so that the cooling of the storage space of the power supply body 12 can be quickly realized when the power supply body 12 fails, the power supply body 12 is prevented from being damaged further when the inside of the casing 1 is in a high-temperature state, and the power supply body 12 is protected.
Specifically, in the process of exhausting the cold gas inside the gas storage tank 1301, the air pump 1320 is started when the air pressure monitored by the pressure sensor 1318 is reduced, the air pump 1320 blows air into the hollow gas delivery plate 1316, the part of air is discharged between the partition 1314 and the hollow gas delivery plate 1316 through the dissipation holes 1319, condensate is filled inside the condensation pipeline 1317, the temperature of the air is gradually reduced after the air contacts with the condensation pipeline 1317, and the replenishment of the cold gas inside the gas storage tank 1301 is realized, so that the cold gas inside the gas storage tank 1301 is always in a constant quantity, and the use is convenient in time.
Referring to fig. 1, fig. 2, fig. 3, fig. 7 and fig. 8, in a preferred embodiment, the bottom of the casing 1 is fixedly connected with the grounding seat 4, two sides of the casing 1 close to the top end are fixedly connected with the two side frames 3, one side of each side frame 3 facing the casing 1 is fixedly connected with the first hydraulic cylinder 2, the output ends of the two first hydraulic cylinders 2 positioned at one side are fixedly connected with the same plugging cover 8, the top of the plugging cover 8 is provided with the heat dissipation hole 7, the bottom of the plugging cover 8 is contacted with the top of the power supply body 12, two side inner walls of the casing 1 are provided with the adjusting slide grooves 9, the insides of the two adjusting slide grooves 9 are slidably connected with the sliding blocks 19, the outer side of the casing 1 close to the end of the adjusting slide grooves 9 is fixedly connected with the end block 21, one side of the end block 21 facing the sliding block 19 is fixedly connected with the cylinder 20, the output end of the cylinder 20 is fixedly connected with the outer side of the sliding block 19, and one side of the sliding block 19 facing the power supply body 12 is provided with the state monitoring component 14.
Referring to fig. 1, 3, 7 and 8, in a preferred embodiment, the state monitoring assembly 14 includes a moving track 1401, the moving track 1401 is fixedly connected to the outer side of the sliding block 19, the outer side of the moving track 1401 close to the top end is fixedly connected with a connecting rod 1402, one side of the connecting rod 1402 facing the power source body 12 is fixedly connected with a fixed shaft 1404, a rotating groove is formed in the fixed shaft 1404, a deflection belt 1403 is sleeved in the rotating groove, a moving slide block 1409 is slidably connected in the moving track 1401, the moving slide block 1409 is fixedly connected to the bottom of the deflection belt 1403, a collar 1408 is fixedly connected to the outer side of the moving slide block 1409, a temperature sensor 1410 is placed in the collar 1408, two sides of the deflection belt 1403 are fixedly connected with mounting blocks 1411, iron plates 1407 are arranged on opposite sides of the two mounting blocks 1411, hanging blocks 1406 are fixedly connected to the two ends of the bottom of the connecting rod 1402, and electromagnets 1405 are arranged on the bottoms of the two hanging blocks 1406.
It should be noted that, during the operation of the power supply body 12, the air cylinder 20 is regularly adjusted to drive the state monitoring component 14 to move, in the initial state, the iron plate 1407 is in contact with the electromagnet 1405, in the monitoring state, the electromagnet 1405 is powered off, then the moving slide 1409 slides along the moving track 1401 under the action of gravity, in the sliding process, the other electromagnet 1405 is powered on, then the electromagnet 1405 adsorbs the other iron plate 1407 on the deflecting belt 1403, so that the temperature sensor 1410 slides from one end to the other end of the moving track 1401, and performs reciprocating operation, and cooperates with the reciprocating adjustment of the air cylinder 20 to realize multi-azimuth temperature detection inside the casing 1, thereby ensuring the accuracy of the temperature detection result.
Referring to fig. 1, 2, 3, 9 and 10, in a preferred embodiment, the bottom two ends of the power supply body 12 are fixedly connected with bottom plates 18, the bottom inner walls of the casing 1 below the two bottom plates 18 are fixedly connected with a plurality of ejection spring rods 16, the top of each ejection spring rod 16 is fixedly connected with an ejection head 17, the ejection heads 17 are in contact with the bottom of the power supply body 12, and the inside of the casing 1 at the position of the power supply body 12 is provided with a bonding heat conduction assembly 15. Laminating heat conduction subassembly 15 includes fixed frame 1501, and the bottom fixedly connected with of fixed frame 1501 two butt joint framves 1504, two butt joint framves 1504 fixedly connected with are in the inside wall of casing 1, fixed frame 1501 is close to the equal fixedly connected with bottom backup pad 1505 of the bottom of two butt joint framves 1504, the both sides inner wall of fixed frame 1501 is connected with axis of rotation 1509 through the bearing, the outside equidistance fixedly connected with contact clamp 1510 of axis of rotation 1509 oblique below, the outside equidistance fixedly connected with side limiting plate 1508 of axis of rotation 1509 face up, the outside equidistance of side limiting plate 1508 leaves has the hole of placing, the heat-conducting rod 1506 has all been placed to the inside in every hole of placing. The outside of the side limiting plates 1508 that is located both ends all fixedly connected with dead lever 1507, the same fixed pipe 1502 of outside fixedly connected with of two dead levers 1507, the heat-conducting rod 1506 peg graft in the inside of fixed pipe 1502, the butt joint hole has all been opened at the both ends of two fixed pipes 1502, the inside fixedly connected with same connecting pipe 1503 of two butt joint holes that are located same side, the outside fixedly connected with liquid reserve tank 6 and collection tank 11 of ground connection seat 4, the outside fixedly connected with delivery pump 5 of liquid reserve tank 6, the delivery end of delivery pump 5 passes through the inside of pipe connection in one of them connecting pipe 1503, the feed liquor end of delivery pump 5 passes through the inside of pipe connection in liquid reserve tank 6, one side fixedly connected with extraction pump 10 of collection tank 11, the extraction end of extraction pump 10 passes through the inside of pipe connection in another connecting pipe 1503, the delivery end of extraction pump 10 passes through the inside of pipe connection in collection tank 11.
Specifically, in the process of placing the power supply body 12, the power supply body 12 is pressed into the housing 1, in the process of pressing, the power supply body 12 is firstly contacted with the contact pressing plate 1510, and in the contact and extrusion state, the contact pressing plate 1510 drives the rotating shaft 1509 to rotate, then the side limit plate 1508 moves towards the side wall of the power supply body 12, each heat conducting rod 1506 contacts with the power supply body 12, the conveying pump 5 conveys condensate into the two fixing pipes 1502, the condensate absorbs heat transferred on the heat conducting rods 1506, and the extracting pump 10 pumps the condensate into the collecting box 11.
The communication power supply state monitoring method using the communication power supply state monitoring device comprises the following steps:
step one: in the process of placing the power supply body 12, the power supply body 12 is pressed into the shell 1, in the process of pressing, the power supply body 12 is firstly contacted with the contact pressing plate 1510, and in the contact and extrusion state, the contact pressing plate 1510 drives the rotating shaft 1509 to rotate, so that the side limit plate 1508 moves towards the side wall of the power supply body 12, and each heat conducting rod 1506 is contacted with the power supply body 12 to finish the installation of the power supply body 12;
step two: in the working process of the power supply body 12, the air cylinder 20 is regularly regulated to drive the state monitoring assembly 14 to move, in the initial state, the iron plate 1407 is in contact with the electromagnet 1405, in the monitoring state, the electromagnet 1405 is powered off, the moving slide 1409 slides along the moving track 1401 under the action of gravity, in the sliding process, the other electromagnet 1405 is powered on, the other iron plate 1407 on the deflection belt 1403 is adsorbed by the electromagnet 1405, so that the temperature sensor 1410 slides from one end to the other end of the moving guide rail, and is operated in a reciprocating manner, and the reciprocating adjustment of the air cylinder 20 is matched, so that the multidirectional temperature detection in the shell 1 is realized;
step three: when the temperature sensor 1410 detects that the temperature inside the casing 1 gradually rises, the hydraulic cylinder two 1305 is adjusted to drive the extrusion plate 1313 to extrude downwards, so that the cold air inside the air storage tank 1301 is pressed into the two exhaust frames 1302, when the air pressure inside the air storage tank 1301 increases, the cold air pushes the baffle 1311, the connecting spring rod 1310 is compressed, then the cold air is discharged into the casing 1 through the air blowing holes 1307 on the air blowing cover 1304, the cold air pushes the high-temperature air inside the casing 1, the high-temperature air is pushed out of the heat dissipation holes 7 above, the heat generated by the power supply body 12 is carried away by the cold air in the flowing process, the cooling process inside the casing 1 is realized, and the lowest damage degree of the power supply body 12 before the workers are recovered is ensured.
The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.
Claims (10)
1. The utility model provides a communication power state monitoring device, includes casing (1) and power body (12), a serial communication port, power body (12) are placed in the inside of casing (1), and the bottom of casing (1) is opened there is the mounting hole, and mounting hole department is equipped with radiator unit (13), radiator unit (13) are including gas storage case (1301), and gas storage case (1301) fixedly connected in the inner wall of mounting hole, the exhaust port has all been opened at the top both ends of gas storage case (1301), open at the top of gas storage case (1301) has the fixed orifices, the inside of two exhaust ports is equal fixedly connected with exhaust frame (1302), the inside fixedly connected with frame (1303) of fixed orifices, the top fixedly connected with support (1306) of frame (1303), the bottom fixedly connected with pneumatic cylinder two (1305) of support (1306), the output fixedly connected with extrusion plate (1313) of pneumatic cylinder two (1305), the bottom of frame (1303) is opened there is the lift groove, the inside sliding connection in lift inside casing (1312), extrusion plate (1313) fixedly connected with in the bottom of lift inside casing (1312).
2. The communication power supply state monitoring device according to claim 1, wherein the top of each of the two exhaust frames (1302) is fixedly connected with an air blowing cover (1304), air blowing holes (1307) are formed in the outer side of each air blowing cover (1304) in an equidistant manner, baffles (1311) are connected to the inner walls of two sides of each exhaust frame (1302) through hinges, the tops of the two baffles (1311) are contacted, connecting spring rods (1310) are fixedly connected to one side of each of the two baffles (1311) in the opposite direction at equal distance, the connecting spring rods (1310) are fixedly connected to the inner wall of each exhaust frame (1302), a mounting ring (1309) is fixedly connected to the inner wall of each gas storage box (1301) located below one of the exhaust frames (1302), and a pressure sensor (1318) is fixedly connected to the mounting ring (1309).
3. The communication power supply state monitoring device according to claim 2, wherein the bottom inner wall of the gas storage tank (1301) is fixedly connected with a hollow gas delivery plate (1316), the top of the hollow gas delivery plate (1316) is equidistantly separated from a dissipation hole (1319), the inner wall of the gas storage tank (1301) is fixedly connected with a partition plate (1314), the top of the partition plate (1314) below the two gas discharge frames (1302) is provided with communication holes (1315), the two sides of the gas storage tank (1301) between the partition plate (1314) and the hollow gas delivery plate (1316) are provided with perforations, the two perforated inner parts are fixedly connected with the same condensation pipeline (1317), the outer sides of the condensation pipeline (1317) at the two open ends are all connected with electromagnetic valves (1308) through flanges, the condensation pipeline (1317) is positioned between the partition plate (1314) and the hollow gas delivery plate (1316), one side of the gas storage tank (1301) is fixedly connected with an air pump (1320), the air delivery end of the air pump (1321) is fixedly connected with an air guide pipe (1321), and the air guide pipe (1321) is inserted into the hollow gas delivery plate (1316).
4. The communication power supply state monitoring device according to claim 3, wherein the bottom of the shell (1) is fixedly connected with a grounding seat (4), two sides of the shell (1) close to the top end are fixedly connected with two side frames (3), one side of each side frame (3) facing the shell (1) is fixedly connected with a first hydraulic cylinder (2), the output ends of the two first hydraulic cylinders (2) located on one side are fixedly connected with the same plugging cover (8), the top of the plugging cover (8) is provided with a heat dissipation hole (7), and the bottom of the plugging cover (8) is in contact with the top of the power supply body (12).
5. The communication power supply state monitoring device according to claim 4, wherein the inner walls of two sides of the housing (1) are provided with adjusting sliding grooves (9), the insides of the two adjusting sliding grooves (9) are slidably connected with sliding blocks (19), the outer side of the housing (1) close to the end part of the adjusting sliding groove (9) is fixedly connected with an end block (21), one side of the end block (21) facing the sliding block (19) is fixedly connected with an air cylinder (20), the output end of the air cylinder (20) is fixedly connected with the outer side of the sliding block (19), and one side of the sliding block (19) facing the power supply body (12) is provided with a state monitoring component (14).
6. The communication power supply state monitoring device according to claim 5, wherein the state monitoring component (14) comprises a moving track (1401), the moving track (1401) is fixedly connected to the outer side of the sliding block (19), a connecting rod (1402) is fixedly connected to the outer side of the moving track (1401) close to the top end, a fixed shaft (1404) is fixedly connected to one side of the connecting rod (1402) facing the power supply body (12), a rotating groove is formed in the fixed shaft (1404), a deflection belt (1403) is sleeved in the rotating groove, a moving slide block (1409) is slidably connected to the inner portion of the moving track (1401), and the moving slide block (1409) is fixedly connected to the bottom of the deflection belt (1403).
7. The communication power supply state monitoring device according to claim 6, wherein the outside of the movable slider (1409) is fixedly connected with a lantern ring (1408), a temperature sensor (1410) is placed in the lantern ring (1408), two sides of the deflection belt (1403) are fixedly connected with mounting blocks (1411), one opposite side of the two mounting blocks (1411) is provided with an iron plate (1407), two ends of the bottom of the connecting rod (1402) are fixedly connected with hanging blocks (1406), and the bottoms of the two hanging blocks (1406) are provided with electromagnets (1405).
8. The communication power supply state monitoring device according to claim 7, wherein bottom two ends of the power supply body (12) are fixedly connected with bottom plates (18), the inner walls of bottoms of the two bottom plates (18) of the shell (1) are fixedly connected with a plurality of ejection spring rods (16), the top of each ejection spring rod (16) is fixedly connected with an ejection head (17), the ejection heads (17) are in contact with the bottom of the power supply body (12), and a bonding heat conduction assembly (15) is arranged in the position of the shell (1) at the position of the power supply body (12).
9. The communication power supply state monitoring device according to claim 8, wherein the attaching heat conducting component (15) comprises a fixing frame (1501), two butt joint frames (1504) are fixedly connected to the bottom of the fixing frame (1501), the two butt joint frames (1504) are fixedly connected to the inner side walls of the shell (1), the bottom of the fixing frame (1501) close to the two butt joint frames (1504) is fixedly connected with a bottom support plate (1505), two side inner walls of the fixing frame (1501) are connected with a rotating shaft (1509) through bearings, the outer sides of the oblique lower parts of the rotating shaft (1509) are fixedly connected with a contact pressing plate (1510), the outer sides of the rotating shaft (1509) face upwards are fixedly connected with side limit plates (1508), the outer sides of the side limit plates (1508) are equidistantly separated from a placing hole, heat conducting rods (1506) are respectively placed in the inner sides of the two placing holes, the outer sides of the side limit plates (1508) at two ends are fixedly connected with a fixing rod (1507), the outer sides of the two fixing rods (1507) are fixedly connected with the same fixing tube (1502), the two fixing tubes (1503) are fixedly connected with the inner sides of the fixing tube (1502), the two heat conducting tubes (1506) are fixedly connected with the same connecting box (11), the two ends of the connecting box (1506) are fixedly connected with the inner sides of the connecting box (11), the outside fixedly connected with delivery pump (5) of liquid reserve tank (6), the delivery end of delivery pump (5) passes through the inside of pipe connection in one of them connecting pipe (1503), the feed liquor end of delivery pump (5) passes through the inside of pipe connection in liquid reserve tank (6), one side fixedly connected with pump (10) of collecting box (11), the pump (10) draw end passes through the inside of pipe connection in another connecting pipe (1503), the pump (10) draw end passes through the inside of pipe connection in collecting box (11).
10. A communication power supply state monitoring method using a communication power supply state monitoring apparatus according to claim 9, characterized in that the monitoring method comprises the steps of:
step one: in the process of placing the power supply body (12), the power supply body (12) is pressed into the shell (1), in the process of pressing, the power supply body (12) is firstly contacted with the contact pressing plate (1510), under the contact and extrusion state, the contact pressing plate (1510) drives the rotating shaft (1509) to rotate, then the side limit plate (1508) moves towards the side wall of the power supply body (12), and each heat conducting rod (1506) is contacted with the power supply body (12), so that the installation of the power supply body (12) is completed;
step two: in the working process of the power supply body (12), the air cylinder (20) is regularly regulated to drive the state monitoring assembly (14) to move, in the initial state, the iron plate (1407) is in contact with the electromagnet (1405), in the monitoring state, the electromagnet (1405) is powered off, the movable sliding block (1409) slides along the movable track (1401) under the action of gravity, in the sliding process, the other electromagnet (1405) is powered on, the electromagnet (1405) adsorbs the other iron plate (1407) on the deflection belt (1403), so that the temperature sensor (1410) slides from one end of the movable guide rail to the other end to reciprocate, and the reciprocating adjustment of the air cylinder (20) is matched, so that the multidirectional temperature detection in the shell (1) is realized;
step three: when temperature sensor (1410) detects that the inside temperature of casing (1) rises gradually, adjust pneumatic cylinder two (1305) drive stripper plate (1313) to the below extrusion, thereby with the inside air conditioning of gas storage case (1301) push into two exhaust frame (1302), when the inside atmospheric pressure of gas storage case (1301) increases, then air conditioning promotes baffle (1311), connect spring bar (1310) by compression, then air conditioning is discharged into casing (1) through air-blowing hole (1307) on air-blowing cover (1304), the inside high temperature gas of casing (1) is promoted to the cold gas, release it from radiating hole (7) of top, the heat that the cold gas will power body (12) produced is carried out in the in-process of flowing and is taken away, realize the inside cooling treatment of casing (1), ensure that the staff is before repairing in the arrival, power body (12) damage degree is minimum.
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