CN114661114B

CN114661114B - Real-time monitoring device for electric power operation and maintenance service based on cloud service platform

Info

Publication number: CN114661114B
Application number: CN202210567150.5A
Authority: CN
Inventors: 虞文权; 叶建平; 闰公明
Original assignee: Sichuan Hua Dong Electric Group Co ltd
Current assignee: Sichuan Hua Dong Electric Group Co ltd
Priority date: 2022-05-24
Filing date: 2022-05-24
Publication date: 2022-08-23
Anticipated expiration: 2042-05-24
Also published as: CN114661114A

Abstract

The invention discloses a real-time monitoring device for electric power operation and maintenance service based on a cloud service platform, which belongs to the field of electric power monitoring, and comprises a monitoring device main body and a plurality of electric power monitoring units arranged in electric power facilities, wherein the monitoring device main body comprises a box shell, a plurality of storage units for storing electric power equipment operation signals in different regions and a ventilation adjusting mechanism for intensively radiating the plurality of storage units are arranged in the box shell, the storage units capable of independently storing the electric power equipment operation signals in different regions are beneficial to improving the convenience and high efficiency when the electric power equipment operation data in a certain region are called, the data storage safety is also beneficial to ensuring, meanwhile, the storage units in starting can be independently ventilated and radiated by arranging the ventilation adjusting mechanism, is favorable for improving the effect of centralized heat dissipation in the device.

Description

Real-time monitoring device for electric power operation and maintenance service based on cloud service platform

Technical Field

The invention relates to the field of power monitoring, in particular to a real-time monitoring device for power operation and maintenance service based on a cloud service platform.

Background

The electric power operation and maintenance refers to electric power service operation for maintaining electric power facilities and circuit operation, can timely process circuit abnormity in the electric power facilities, and is favorable for guaranteeing stability of power supply and power utilization.

In the prior art, the power monitoring unit transmits and gathers signals generated by real-time monitoring in the power operation process to the monitoring device in the operation process, stores power operation data by the monitoring device, for real-time monitoring data of power equipment in a plurality of different areas during operation, the monitoring device will usually store the data in a unified storage unit, this results in the need to activate the entire memory unit when invoking the verification of the power monitoring data in a certain area, due to the stacking of the magnetic disks in the single large-capacity storage unit, the heat dissipation structure in the monitoring device cannot timely and accurately act on the heating part of the magnetic disk in starting, therefore, the mode of promoting the air volume or the refrigerating capacity is adopted to carry out high-efficient heat dissipation among the prior art usually for the inside radiating efficiency of equipment is concentrated inadequately, and then causes the unnecessary loss of energy consumption.

Therefore, a real-time monitoring device for electric power operation and maintenance service based on a cloud service platform is provided to solve some problems in the prior art.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a real-time monitoring device for electric power operation and maintenance service based on a cloud service platform, wherein a storage unit for independently storing operation signals of electric power equipment in different areas is arranged in monitoring equipment, so that when the operation data of the electric power equipment in a certain area is called, only the corresponding storage unit needs to be operated, the convenience and the storage safety of calling the data in different areas are ensured, meanwhile, the storage unit in starting can be independently ventilated and cooled by arranging a ventilation adjusting mechanism, the heat dissipation effect is favorably concentrated, and the energy consumption of calling the internal data of the monitoring device is reduced to a certain extent.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A real-time monitoring device for electric power operation and maintenance service based on a cloud service platform comprises a monitoring device main body and a plurality of electric power monitoring units arranged in the electric power facilities, wherein signal transmission modules electrically connected with the electric power monitoring units are arranged in the electric power facilities, the monitoring device main body comprises a box shell, a main control panel is fixedly arranged on the inner side end wall of the box shell, a processor for processing and monitoring signals and a signal transceiving module corresponding to the signal transmission modules are arranged in the main control panel, a plurality of storage units electrically connected with the main control panel are fixedly arranged in the box shell, signals generated by real-time monitoring in the electric power facilities distributed in different regions are independently stored through the storage units, the signal transceiving module can upload data stored in the storage units to the cloud end platform, a plurality of cooling fans communicated with the interior of the box shell are embedded in the back end wall of the box shell, a ventilation adjusting mechanism capable of independently radiating a plurality of storage units is arranged in the box shell.

Furthermore, the ventilation adjusting mechanism comprises a separation shell which is independently sleeved on the outer side of each storage unit, a plurality of separation shells are fixedly stacked on the inner end wall of the bottom of the box shell from top to bottom, a separation plate a which is transversely separated between the main control panel and the plurality of storage units is fixedly mounted on the inner end wall of the box shell, a separation plate b connected between the left inner end wall and the right inner end wall of the box shell is fixedly mounted at the top of the separation plate a, the main control panel is separated in an independent space communicated with the plurality of radiating fans by the separation plate b, a vertically arranged communication pipe is mounted on the right side in the box shell, the right ends of the plurality of separation shells are fixedly communicated with the communication pipe through a pipeline, and the top end of the communication pipe is fixedly communicated with the end wall of the separation plate b;

through-hole an has all been fixed to have seted up in back one end intermediate position department of every partition shell, and the back of case shell is fixed to be inlayed and is had the box, and has seted up the air intake on the back end wall of box, and the inside of air intake is inlayed and is had the filter screen, and through-hole b has been seted up in the front of box, and is connected with the hose on the through-hole b, and the fixed intercommunication of front one end of hose has can be at a plurality of partition shell back outer end wall on nimble gliding coupling an.

Furthermore, an electromagnetic sliding rail which is vertically arranged is fixedly installed on the outer end wall of the back surface of the separation shell, an electromagnetic sliding block which can flexibly slide is connected to the outer side of the electromagnetic sliding rail, and the pipe joint a is fixedly connected with the electromagnetic sliding block.

Furthermore, an electric push rod a transversely arranged is fixedly mounted on the outer end wall of the electromagnetic sliding block, the telescopic end of the electric push rod a is fixedly connected with the outer end wall of the pipe joint a, one end of the back face of the hose is fixedly communicated with a pipe joint b correspondingly arranged with the through hole b, the pipe joint b slides to be connected with the front end wall of the box body in a sliding manner, an electric push rod b transversely arranged is fixedly mounted on the front end wall of the box body, and the telescopic end of the electric push rod b is fixedly connected with the outer end wall of the pipe joint b.

Furthermore, all install the valve in the pipeline of intercommunication between a plurality of partition shell and the communicating pipe, the valve sets up to the check valve.

Furthermore, the box protrusion sets up on the back face outer end wall of case shell, and the top end wall internal fixation of box inlays and has sets up the semiconductor refrigeration board in the case shell outside, and the top of semiconductor refrigeration board exposes in the box outside.

Furthermore, a plurality of metal radiating sheets which are longitudinally arranged are uniformly fixed on the top of the semiconductor refrigeration plate, and the tops of the plurality of metal radiating sheets extend to the back surfaces of the plurality of radiating fans.

Furthermore, a plurality of moisture absorbing pieces arranged in a spherical structure are uniformly filled in the box body, and a screen plate is fixedly embedded in the through hole b.

Further, moisture absorption spare is including setting up the support in intermediate position department, and the appearance of support sets up to "rice" style of calligraphy structure, and from inside to outside fixed cover is equipped with a plurality of scraps of paper in proper order on a plurality of ends of support, and the outside of scraps of paper is attached to on the surface and absorbs moisture the granule.

Furthermore, a waterproof film is attached to the surface of the paper sheet close to the inner side of the moisture absorption piece, and the moisture absorption particles are attached to the outer side surface of the paper sheet in a non-uniform shape.

3. Advantageous effects

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

(1) this scheme is through being provided with the memory cell that is used for carrying out independent storage to power equipment running signal in the different regions in monitoring facilities inside, make when transferring power equipment running data in a certain region, only need move rather than corresponding memory cell, the convenience and the storage security of data transfer in the different regions have been ensured, and simultaneously, through being provided with ventilation adjustment mechanism, can independently ventilate the heat dissipation to the memory cell in the start, be favorable to concentrating the radiating effect, energy consumption when having reduced this monitoring devices inside data transfer to a certain extent.

(2) The pipe joints a which can flexibly move on the back surfaces of the plurality of partition shells are arranged to guide the air flow, and the partition shells are matched with each other, so that the air flow can be controlled to only pass through the outer side of the storage unit in operation, the air flow is concentrated, and the heat dissipation efficiency of the device to a single storage unit in the operation process is favorably ensured.

(3) Through vertically installing the electromagnetism slide rail on a plurality of partition shell back end walls, the electromagnetism slide rail circular telegram after starting, can control the cover and establish the electromagnetism slider in its outside and reciprocate along it, and then realize the control to coupling head a position, the effectual control convenience that has promoted the device.

(4) Through with the hose around the hose on the union joint a of connecting and union joint b respectively fixed mounting be simultaneously for the flexible of the electric putter an and the electric putter b of horizontal setting serve, through the circular telegram start of electric putter an and electric putter b, can control union joint a and keep away from through-hole an for a constant benefit, through-hole b is kept away from in control union joint b sideslip for through-hole b directly communicates with a plurality of partition shells, the effectual control flexibility that has promoted the device, be favorable to the device to be suitable for the heat dissipation adjustment under the different situation.

(5) The valves arranged for the one-way valves are respectively arranged in the pipelines between the plurality of separation shells and the communicating pipe, so that the flow direction of the airflow can be limited, the flowing stability of the airflow for heat dissipation in the device is effectively guaranteed, and the internal heat dissipation effect of the device is further guaranteed.

(6) Through inlaying the semiconductor refrigeration board at the top of box, can initiatively carry out the refrigeration operation to the inside of box, cool down for the inside air current that passes through of box, be favorable to promoting the effect of air current to the inside heat dissipation of the device.

(7) Through with a plurality of metal cooling thin slices fixed mounting at the top of semiconductor refrigeration board, the effectual area that has increased semiconductor refrigeration board top and outside air contact, simultaneously, through vertically setting up a plurality of metal cooling thin slices, and extend the top of a plurality of metal cooling thin slices to the back of a plurality of radiator fans, make the air current that blows out among the radiator fan can smoothly walk between a plurality of metal cooling thin slices, under the multiple cooperation, the effectual effect of having promoted the outside dissipation of semiconductor refrigeration board top heat, and then be favorable to promoting the inside radiating efficiency of the device.

(8) Through filling a plurality of moisture-absorbing parts in the inside of box, under the air current blows, fly to walk about the inside of box for a plurality of moisture-absorbing parts that the ball-type structure set up, with the air current fully contact, can effectually absorb the moist moisture in the air current, avoid the air current inside the access device under the humid condition, be favorable to avoiding the main control panel and the storage unit to receive damp gas corrosion when dispelling the heat, ensured the device's job stabilization nature to a certain extent.

(9) Through with a plurality of scraps of paper from inside to outside fixed cover in proper order establish a plurality of end departments at the support, and set up the moisture absorption granule on the outside surface of scraps of paper, realize the absorption operation to the moisture with the help of the moisture absorption granule, and simultaneously, the moisture after the moisture absorption granule moisture absorption is acted on the scraps of paper, make the scraps of paper curl, expose the moisture absorption granule that sets up in the inboard, be favorable to progressive moisture to in the air current to carry out the moisture absorption, be favorable to guaranteeing the moisture absorption of a moisture absorption piece fully comprehensive nature.

(10) Through attaching to water-proof film the scraps of paper and being close to on the inside one side surface of moisture absorption piece, can carry out the separation to absorptive moisture on the outside moisture absorption granule, it curls to have ensured that follow-up scraps of paper receive to damp, a plurality of moisture absorption granules are the stability of moisture absorption in proper order, through attaching to the outside of moisture absorption granule inhomogeneous form on the scraps of paper, it is inhomogeneous to make the scraps of paper receive the inside absorptive moisture influence of moisture absorption granule, be favorable to reinforcing the scraps of paper and wet the effect of curling.

Drawings

FIG. 1 is a flow chart of the operation of the present invention;

FIG. 2 is a schematic structural diagram of a monitoring device body according to the present invention;

FIG. 3 is a rear view of the monitoring device body of the present invention;

FIG. 4 is a front view of the body of the monitoring device of the present invention;

FIG. 5 is a cross-sectional view taken at A-A of FIG. 4;

FIG. 6 is a cross-sectional view taken at B-B of FIG. 4;

FIG. 7 is a schematic view of the interior of the enclosure of the present invention;

FIG. 8 is a side view of FIG. 7;

FIG. 9 is a schematic view of the absorbent member of the present invention in an unactivated state;

FIG. 10 is a schematic view of the absorbent member of the present invention in an activated state;

FIG. 11 is a schematic view of the structure of the stent of the present invention.

The reference numbers in the figures illustrate:

1. a box shell; 101. a main control panel; 102. a storage unit; 103. a heat radiation fan; 2. a partition case; 201. a partition plate a; 202. a partition plate b; 203. a communicating pipe; 204. a through hole a; 205. a box body; 206. an air inlet; 207. a through hole b; 208. a hose; 209. a pipe joint a; 3. an electromagnetic slide rail; 301. an electromagnetic slider; 302. an electric push rod a; 303. a pipe joint b; 304. an electric push rod b; 4. a valve; 5. a semiconductor refrigeration plate; 501. a metal heat dissipation sheet; 6. an absorbent member; 601. a support; 602. a sheet of paper; 603. moisture-absorbing particles.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "fitted/connected", "connected", and the like, are to be interpreted broadly, such as "connected", which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1 to 11, a real-time monitoring device for electric power operation and maintenance service based on a cloud service platform includes a monitoring device main body and a plurality of electric power monitoring units installed in electric power facilities, signal transmission modules electrically connected to the electric power monitoring units are installed in the plurality of electric power facilities, the monitoring device main body includes a case 1, a main control panel 101 is fixedly installed on an inner side end wall of the case 1, a processor for processing and monitoring signals and signal transceiver modules corresponding to the plurality of signal transmission modules are included in the main control panel 101, a plurality of storage units 102 electrically connected to the main control panel 101 are fixedly installed in the case 1, signals generated by real-time monitoring of the inside of the electric power facilities distributed in different areas are independently stored through the plurality of storage units 102, and the signal transceiver modules can upload data stored in the plurality of storage units 102 to the cloud platform, a plurality of heat radiation fans 103 communicated with the inside of the box shell 1 are embedded on the back end wall of the box shell 1, and a ventilation adjusting mechanism capable of independently radiating heat of a plurality of storage units 102 is installed inside the box shell 1.

When the device works, an electric power monitoring unit arranged in the electric power facility monitors the state of an internal circuit of the device and transmits monitored signal data to the outside through a signal transmission module, at the moment, a signal receiving and transmitting module arranged on a main control panel 101 in a monitoring device main body receives the data, the data is processed through the main control panel 101, the signal data is transmitted and stored into corresponding storage units 102 according to different signal data sources, namely the data transmitted in different electric power facilities are classified and stored, the regularity of signal data storage can be effectively guaranteed, the convenient calling of the past data is facilitated, and the processor on the main control panel 101 analyzes the transmitted signals in real time, if the abnormal condition is found after the data analysis, the abnormal condition is timely sent to a terminal carried by a related operation and maintenance inspection worker through the signal receiving and sending module so that the related worker can timely process the abnormal condition, the data stored in the plurality of storage units 102 can be uploaded to a cloud-end platform through the signal receiving and sending module, and the data are subjected to multiple backup, so that the stability of the data is guaranteed.

Through the transmission of signal data, with the signal transmission that electric power monitoring unit monitoring current produced in a plurality of power equipment to unified monitoring devices main part in, unified the processing to signal data with the help of main control panel 101, need not to install the treater alone in every electric power facility, the effectual cost of implementing the monitoring in the electric power facility that has reduced, be favorable to the staff to carry out the overall planning to abnormal conditions through same processing, the convenience of electric power fortune dimension has been promoted to a certain extent, and, the treater is when handling monitoring signal, its operation can produce great heat, shift out the treater in the electric power facility, can eliminate the heat because of treater work production in the electric power facility, other electric power unit operating stability in the electric power facility has been ensured to a certain extent.

Through being provided with the memory cell 102 that is used for carrying out independent storage to power equipment running signal in the different regions in monitoring facilities inside, when making and transferring power equipment running data in a certain region, only need move rather than corresponding memory cell 102, the convenience and the storage security of data transfer in the different regions have been ensured, and simultaneously, through being provided with ventilation adjustment mechanism, can carry out independent ventilation cooling to memory cell 102 in the start, be favorable to concentrating the radiating effect, energy consumption when having reduced this monitoring devices internal data transfer to a certain extent.

Referring to fig. 6, the ventilation adjusting mechanism includes a plurality of partition cases 2 separately sleeved on the outer side of each storage unit 102, the plurality of partition cases 2 are fixedly stacked on the inner end wall of the bottom of the case 1 from top to bottom, partition boards a201 horizontally isolated between the main control panel 101 and the plurality of storage units 102 are fixedly mounted on the inner end wall of the case 1, partition boards b202 connected between the left and right inner end walls of the case 1 are fixedly mounted on the top of the partition boards a201, the main control panel 101 is partitioned by the partition boards b202 into separate spaces communicated with the plurality of cooling fans 103, a vertically arranged communication pipe 203 is mounted on the right side inside the case 1, the right ends of the plurality of partition cases 2 are fixedly communicated with the communication pipe 203 through a pipeline, and the top end of the communication pipe 203 is fixedly communicated with the end wall of the partition board b 202;

through-hole a204 has all been fixed to the back one end intermediate position department of every partition shell 2, and the back of case shell 1 is fixed to be inlayed and is had box 205, and has seted up air intake 206 on the back end wall of box 205, and the inside of air intake 206 is inlayed and is had the filter screen, and through-hole b207 has been seted up on the front of box 205, and is connected with hose 208 on through-hole b207, and the fixed intercommunication of front one end of hose 208 has can be at the nimble gliding coupling a209 on a plurality of partition shell 2 back outer end wall.

When the device works, the main control panel 101 arranged in the box shell 1 and the storage units 102 arranged in the separation shell 2 generate large heat in the operation process, the monitoring device main body is provided with a plurality of storage units 102 to store monitoring data in different electric facilities, the main control panel 101 only calls the corresponding storage units 102 when processing different data, at the moment, the pipe joints a209 arranged on the end walls of the back surfaces of the plurality of separation shells 2 move to the back surfaces of the separation shells 2 provided with the starting storage units 102 and are aligned with the through holes a204 arranged on the back surfaces of the separation shells, by means of the communication of the hoses 208, outside air flow enters the box body 205 from the air inlets 206, passes through the hoses 208 and the pipe joints a209 through the through holes b207, passes through the through holes a204 and enters the corresponding separation shells 2, and carries out the heat generated by the operation on the corresponding storage units 102, according to the operating condition of storage unit 102, move coupling a209 to the partition shell 2 back that corresponds, can concentrate the air current, the effectual stability that dispels the heat that has ensured, guide the air current through being provided with coupling a209 that can move in a flexible way at a plurality of partition shell 2 backs, casing 2 is separated in the cooperation, can control the air current and only pass through the storage unit 102 outside that is in the operation, and then realize concentrating the air current, be favorable to guaranteeing the device operating process to the radiating efficiency of single storage unit 102.

Referring to fig. 7-8, the electromagnetic slide rail 3 is vertically and fixedly mounted on the outer end wall of the back surface of the partition case 2, the electromagnetic slide block 301 capable of flexibly sliding is connected to the outer side of the electromagnetic slide rail 3, and the pipe joint a209 is fixedly connected to the electromagnetic slide block 301.

Referring to fig. 8, an electric push rod a302 arranged transversely is fixedly mounted on an outer end wall of an electromagnetic slider 301, a telescopic end of the electric push rod a302 is fixedly connected with an outer end wall of a pipe joint a209, a pipe joint b303 arranged corresponding to a through hole b207 is fixedly communicated with one end of the back surface of a hose 208, the pipe joint b303 is slidably connected with a front end wall of a box body 205, an electric push rod b304 arranged transversely is fixedly mounted on a front end wall of the box body 205, and a telescopic end of the electric push rod b304 is fixedly connected with an outer end wall of the pipe joint b303, when the device works, the pipe joint a209 and the pipe joint b303 connected with the front end and the back end of the hose 208 are respectively fixedly mounted on telescopic ends of the electric push rod a302 and the electric push rod b304 arranged transversely, the electric push rod a302 and the electric push rod b304 are powered on and started, the pipe joint a209 can be controlled to be constantly away from the through hole a204, the pipe joint b303 is controlled to move transversely away from the through hole b207, the through hole b207 is directly communicated with the plurality of partition cases 2, so that the control flexibility of the device is effectively improved, and the device is suitable for heat dissipation adjustment under different conditions.

Referring to fig. 6, valves 4 are installed in the pipelines communicated between the plurality of partition cases 2 and the communication pipe 203, the valves 4 are set as one-way valves, when the device is in operation, the valves 4 set for the one-way valves are installed in the pipelines between the plurality of partition cases 2 and the communication pipe 203, respectively, the flow direction of air flow can be limited, and the stability of air flow for heat dissipation in the device is effectively ensured, so that the internal heat dissipation effect of the device is ensured.

Referring to fig. 2-3 and 6, the box body 205 is convexly disposed on the outer end wall of the back surface of the box shell 1, the semiconductor refrigeration plate 5 disposed on the outer side of the box shell 1 is fixedly embedded in the top end wall of the box body 205, and the top of the semiconductor refrigeration plate 5 is exposed outside the box body 205.

Referring to fig. 3 and 6-8, a plurality of metal heat dissipation sheets 501 are uniformly fixed on the top of the semiconductor cooling plate 5, the top of the plurality of metal heat dissipation sheets 501 extends to the back of the plurality of heat dissipation fans 103, when the device works, the plurality of metal radiating sheets 501 are fixedly arranged at the top of the semiconductor refrigerating plate 5, so that the contact area of the top of the semiconductor refrigerating plate 5 and the outside air is effectively increased, meanwhile, by arranging a plurality of metal heat dissipation sheets 501 longitudinally, and extending the tops of the plurality of metal heat dissipation sheets 501 to the back of the plurality of heat dissipation fans 103, the airflow blown out from the cooling fan 103 can smoothly pass through the plurality of metal cooling sheets 501, and the effect of dissipating heat from the top of the semiconductor refrigeration plate 5 outwards is effectively improved under the multiple cooperation, so that the internal cooling efficiency of the device is improved.

Referring to fig. 6 and 9, a plurality of moisture absorbing members 6 arranged in a spherical structure are uniformly filled in the box 205, and a mesh plate is fixedly embedded in the through hole b207, when the device is in operation, the moisture absorbing members 6 are filled in the box 205, and under the blowing of air flow, the moisture absorbing members 6 arranged in the spherical structure fly through the box 205 up and down, and are fully contacted with the air flow, so that moisture in the air flow can be effectively absorbed, the air flow is prevented from entering the device under a humid condition, the moisture corrosion of the main control panel 101 and the storage unit 102 during heat dissipation is avoided, and the working stability of the device is ensured to a certain extent.

Referring to fig. 9-11, the moisture absorbing member 6 includes a support 601 disposed at a middle position, and the support 601 is configured as a "m" shape, a plurality of paper sheets 602 are fixedly disposed on a plurality of ends of the support 601 from inside to outside in sequence, and moisture absorbing particles 603 are attached on the outer surface of the paper sheets 602, when the device is in operation, when the moisture absorbing member 6 passes through the air flow, the moisture absorbing particles 603 attached on the outer side of the paper sheets 602 absorb moisture in the air flow, the moisture absorbing particles 603 may be activated carbon, and affected by the moisture absorbing particles 603 after absorbing moisture, the corresponding paper sheets 602 curl after being wetted, so that the moisture absorbing particles 603 on the inner side are exposed, and the moisture absorbing operation is performed again, and the above operations are performed sequentially until all the moisture absorbing particles 603 inside the moisture absorbing member 6 absorb moisture and are discarded, by sequentially and fixedly disposing the plurality of paper sheets 602 at the plurality of ends of the support 601 from inside to outside, the moisture absorption particles 603 are arranged on the outer side surface of the paper sheet 602, moisture absorption operation is achieved through the moisture absorption particles 603, meanwhile, moisture after moisture absorption of the moisture absorption particles 603 acts on the paper sheet 602, the paper sheet 602 is curled, the moisture absorption particles 603 arranged on the inner side are exposed, moisture absorption in airflow in a progressive mode is facilitated, and moisture absorption of the moisture absorption piece 6 is guaranteed sufficiently.

The scraps of paper 602 are attached with a waterproof film on the surface close to one side inside the moisture absorbing member 6, the moisture absorbing particles 603 are non-uniformly attached to the outer surface of the scraps of paper 602, the device works, the waterproof film is attached to the surface close to one side inside the moisture absorbing member 6 through the scraps of paper 602, the moisture absorbed by the moisture absorbing particles 603 can be blocked, the subsequent scraps of paper 602 are enabled to be wetted and curled, the stability of sequential moisture absorption of a plurality of moisture absorbing particles 603 is ensured, the moisture absorbing particles 603 are non-uniformly attached to the outer surface of the scraps of paper 602, the influence of moisture absorbed by the moisture absorbing particles 603 on the scraps of paper 602 is non-uniform, and the effect of wetting and curling of the scraps of paper 602 is enhanced.

The above are merely preferred embodiments of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims

1. A real-time monitoring device for electric power operation and maintenance service based on a cloud service platform comprises a monitoring device main body and electric power monitoring units installed in a plurality of electric power facilities, wherein signal transmission modules electrically connected with the electric power monitoring units are installed inside the electric power facilities, the monitoring device main body comprises a box shell (1), a main control panel (101) is fixedly installed on the inner side end wall of the box shell (1), the main control panel (101) comprises a processor used for processing and monitoring signals and signal receiving and transmitting modules corresponding to the signal transmission modules, a plurality of storage units (102) electrically connected with the main control panel (101) are fixedly installed inside the box shell (1), and signals generated by real-time monitoring inside the electric power facilities distributed in different areas are independently stored through the plurality of storage units (102), the signal transceiver module can upload data stored in a plurality of storage units (102) to a cloud-end platform, a plurality of cooling fans (103) communicated with the inside of the cabinet are embedded in the end wall of the back of the cabinet shell (1), and a ventilation regulating mechanism capable of independently cooling the plurality of storage units (102) is installed in the cabinet shell (1); the method is characterized in that: the ventilation regulating mechanism comprises a separation shell (2) which is independently sleeved on the outer side of each storage unit (102), a plurality of separation shells (2) are fixedly stacked on the inner end wall of the bottom of the box shell (1) from top to bottom, a clapboard a (201) which is transversely isolated between the main control panel (101) and a plurality of storage units (102) is fixedly arranged on the inner end wall of the box shell (1), the top of the partition board a (201) is fixedly provided with a partition board b (202) connected between the left inner end wall and the right inner end wall of the box shell (1), the partition plate b (202) partitions the main control panel (101) in an independent space communicating with the plurality of heat dissipation fans (103), the right side in the box shell (1) is provided with a vertically arranged communicating pipe (203), the right ends of the plurality of separating shells (2) are fixedly communicated with the communicating pipe (203) through pipelines, the top end of the communicating pipe (203) is fixedly communicated with the end wall of the partition plate b (202);

every through-hole a (204) have all been fixed to have seted up in back one end intermediate position department of separating shell (2), the back of case shell (1) is fixed to be inlayed and has been had box (205), and has seted up air intake (206) on the back end wall of box (205), the inside of air intake (206) is inlayed and is had the filter screen, through-hole b (207) have been seted up in the front of box (205), and are connected with hose (208) on through-hole b (207), the fixed intercommunication of front one end of hose (208) has can be at a plurality of pipe joint a (209) of separating shell (2) back outside flexible sliding on the end wall.

2. The real-time monitoring device for the electric power operation and maintenance service based on the cloud service platform according to claim 1, wherein: the electromagnetic sliding rail (3) which is vertically arranged is fixedly mounted on the outer end wall of the back face of the separation shell (2), the outer side of the electromagnetic sliding rail (3) is connected with an electromagnetic sliding block (301) which can flexibly slide, and the pipe joint a (209) is fixedly connected with the electromagnetic sliding block (301).

3. The real-time monitoring device for the electric power operation and maintenance service based on the cloud service platform according to claim 2, wherein: fixed mounting has electric putter a (302) of horizontal setting on the outer end wall of electromagnetism slider (301), and the flexible end of electric putter a (302) and the outer end wall fixed connection of coupling a (209), the fixed intercommunication of back one end of hose (208) has the coupling b (303) that corresponds the setting with through-hole b (207), and coupling b (303) slip and the front end wall sliding connection of box (205), fixed mounting has electric putter b (304) for horizontal setting on the front end wall of box (205), and the flexible end and the coupling b (303) outer end wall fixed connection of electric putter b (304).

4. The real-time monitoring device for the electric power operation and maintenance service based on the cloud service platform is characterized in that: a plurality of valves (4) are arranged in pipelines communicated between the separation shell (2) and the communicating pipe (203), and the valves (4) are set to be one-way valves.

5. The real-time monitoring device for the electric power operation and maintenance service based on the cloud service platform according to claim 1, wherein: the box (205) protrusion sets up on the back face outer end wall of case shell (1), the top end wall internal fixation of box (205) inlays and is equipped with semiconductor refrigeration board (5) of setting in the case shell (1) outside, and exposes in the box (205) outside at the top of semiconductor refrigeration board (5).

6. The real-time monitoring device for the electric power operation and maintenance service based on the cloud service platform is characterized in that: the top of the semiconductor refrigeration plate (5) is uniformly fixed with a plurality of longitudinally arranged metal heat dissipation sheets (501), and the tops of the metal heat dissipation sheets (501) extend to the back surfaces of the plurality of heat dissipation fans (103).

7. The real-time monitoring device for the electric power operation and maintenance service based on the cloud service platform according to claim 5, wherein: the inside of box (205) evenly is filled with a plurality of moisture absorption spare (6) that set up for the ball-type structure, the inside fixed screen board of inlaying of through-hole b (207).

8. The real-time monitoring device for the electric power operation and maintenance service based on the cloud service platform according to claim 7, wherein: the moisture absorption piece (6) comprises a support (601) arranged at the middle position, the appearance of the support (601) is arranged to be of a structure shaped like a Chinese character 'mi', a plurality of paper sheets (602) are sequentially fixedly sleeved on a plurality of end heads of the support (601) from inside to outside, and moisture absorption particles (603) are attached to the outer side surface of each paper sheet (602).

9. The real-time monitoring device for the electric power operation and maintenance service based on the cloud service platform according to claim 8, wherein: the surface of the paper sheet (602) close to one side inside the moisture absorption piece (6) is attached with a waterproof film, and the moisture absorption particles (603) are attached to the outer surface of the paper sheet (602) in a non-uniform shape.