CN114007001B - Equipment operation monitoring method and device based on power generation operation management system - Google Patents

Abstract

The invention belongs to the technical field of monitoring, in particular to a device operation monitoring method and a device thereof based on a power generation operation management system, wherein the device operation monitoring method comprises the following steps of S1: screwing a threaded part on a connecting rod at the top of the camera into a fixed cavity with a sucker, so that an air passage on the side wall of the connecting rod and an air inlet groove on the side wall of the fixed cavity are staggered; s2: the sucking disc is pressed on the flat fixing surface, so that the sucking disc and the fixing surface are adsorbed and fixed; s3: when the camera is required to be disassembled, the threaded part on the connecting rod is screwed out from the inside of the fixed cavity by reversely rotating the connecting rod; according to the invention, the camera is installed and disassembled through the sucker and the air inlet structure arranged on the sucker, and the traditional modes such as bolt fixing are replaced, so that the installation and disassembly of the camera are more convenient, the labor burden of workers is reduced, and the camera can be quickly maintained and replaced after being damaged, so that the equipment of the power generation operation management system can be more effectively monitored.

Description

Equipment operation monitoring method and device based on power generation operation management system

Technical Field

The invention belongs to the technical field of monitoring, in particular to a device operation monitoring method and a device thereof based on a power generation operation management system.

Background

The traditional thermal power generation enterprise operation shift-switching management still stays in the handwriting and dictation stage, and is low in efficiency and easy to overlook. The production information which is required to be transferred by the switching office is manually recorded, the information integration and summarization of the switching office management cannot be automatically realized, each node of the switching process is free of mark and difficult to trace, the whole switching office behavior is not standardized by the process management, an effective real-time supervision means is not available, and certain limitations exist, so that equipment of a thermal power generation enterprise operation management system appears in the prior art.

Because the equipment of the power generation operation management system is manually operated, the working condition and the equipment condition of the power generation operation management system need to be monitored in real time by using a camera and the like, but the existing monitoring equipment is often inconvenient to install, disassemble and maintain, so that the monitoring equipment is time-consuming and labor-consuming during installation and replacement, and the effective monitoring of the power generation operation management system equipment by the monitoring equipment is delayed.

Accordingly, a device operation monitoring method based on a power generation operation management system and an apparatus thereof are proposed in view of the above-described problems.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention solves the problems that the existing monitoring equipment is inconvenient to install, detach and maintain, and the time and the labor are wasted when the monitoring equipment is installed and replaced, so that the monitoring equipment is delayed to effectively monitor the power generation operation management system equipment.

The technical scheme adopted for solving the technical problems is as follows: an equipment operation monitoring method based on a power generation operation management system comprises the following steps:

s1: firstly, screwing a threaded part on a connecting rod at the top of a camera into a fixed cavity with a sucker, so that an air passage on the side wall of the connecting rod and an air inlet groove on the side wall of the fixed cavity are staggered;

s2: then the sucking disc is pressed on the flat fixing surface, so that the sucking disc and the fixing surface are adsorbed and fixed, and the installation and the fixation of the camera are completed;

s3: when the camera is required to be disassembled, the threaded part on the connecting rod is screwed out from the inside of the fixing cavity by reversely rotating the connecting rod until the end part of the air passage on the side wall of the connecting rod is aligned with and communicated with the air inlet groove, so that the operation of the sucker is invalid, and the camera can be discharged from the fixing position; install and dismantle the camera through the structure that admits air that sets up on sucking disc and the sucking disc, replaced modes such as traditional bolt fastening for the installation of camera is more convenient and swift with dismantling, has alleviateed staff's work burden greatly, also makes the camera can maintain fast and change after damaging simultaneously, thereby can carry out more effectual monitoring to the equipment of electricity generation operation management system.

The equipment operation monitoring device based on the power generation operation management system is suitable for the monitoring method and comprises a camera, wherein a lens is arranged at the end of the camera, a connecting rod is rotationally connected to the top of the camera, a fixing cavity is connected to the top of the connecting rod through a thread part in a threaded manner, a sucker communicated with the fixing cavity is connected to the top of the fixing cavity, an air passage communicated with the side wall of the connecting rod is formed in the top of the connecting rod, and an air inlet groove matched with the air passage is formed in the bottom of the side wall of the fixing cavity; when the camera is required to be installed, at the moment, the threaded part on the connecting rod is screwed into the fixed cavity, so that the air passage on the side wall of the connecting rod and the air inlet groove on the side wall of the fixed cavity are staggered, the bottom end of the sucker is in a blocking state, then the sucker is pressed at the flat fixed surface, and the sucker is fixedly adsorbed on the fixed surface, so that the camera can be conveniently and quickly installed, when the camera is required to be disassembled, the connecting rod is only required to be reversely rotated, the threaded part on the connecting rod is screwed out from the inside of the fixed cavity until the end part of the air passage on the side wall of the connecting rod is aligned and communicated with the air inlet groove, external air can flow into the sucker through the communicated air inlet groove and the air passage, the sucker is in failure in work, and workers are not required to pull the sucker off from the fixed surface; through this mode to install and dismantle the camera, replaced modes such as traditional bolt fastening for the installation of camera is more convenient with dismantle more swiftly, has alleviateed staff's work burden greatly, also makes the camera can maintain fast and change after damaging simultaneously, thereby can carry out more effective monitoring to the equipment of electricity generation operation management system.

Preferably, the two sides of the lens are respectively provided with a support plate, a slide bar is connected between the support plates, one side, close to the support plates, of the slide bar is connected with a cleaning plate which can be attached to the surface of the lens in a sliding manner, an elastic piece is connected between the cleaning plate and the adjacent support plate, a motor is installed at the other support plate, the end part of the motor is connected with a rotating shaft, a traction rope is wound on the rotating shaft, and the other end of the traction rope is connected with the cleaning plate; during operation, because the environment in the power plant is comparatively abominable for the camera lens is adhesion dust impurity easily, and inconvenient clearance, the motor can be through pivot roll-up haulage rope this moment at the during operation, make haulage rope pulling clearance board to motor one side motion, and carry out automatic efficient clearance to the dust impurity on the camera lens surface of its laminating, definition when having improved the camera lens greatly, and no longer need the staff climbing to the eminence to take time and energy to the clearance of camera lens, the potential safety hazard of camera when the clearance has been reduced, monitoring devices's practicality has been improved.

Preferably, the elastic piece is an elastic wavy film, a lubricating block made of water-absorbing materials is filled between the wavy film and the sliding rod, and lubricating oil is adsorbed in the lubricating block; during operation, when the clearance board slides on the slide bar, the clearance board can drive the lubricating oil coating on the lubricating block at this moment and at the slide bar surface, greatly reduced the frictional resistance when clearance piece and slide bar relative motion, simultaneously through the constitution form that sets up the elastic component for the wave membrane can wrap up the lubricating block that adsorbs lubricating oil, reduces the condition that lubricating oil seepage in the lubricating block is out.

Preferably, a cleaning groove is formed in the side wall, close to the lens, of the cleaning plate, a cleaning block attached to the surface of the lens is arranged in the cleaning groove, a magnetic block is slidably connected to the bottom end of the cleaning groove, a spring is connected between the magnetic block and the interior of the cleaning groove, a conveying strip is mounted in the magnetic block in an embedded mode, the top end of the conveying strip is connected with the bottom end of the cleaning block, the cleaning block and the conveying strip are made of water absorbing materials respectively, a water storage cavity and a water receiving cavity are connected to the bottom ends of the cleaning plate and the lens respectively, and an adsorption block capable of attracting the magnetic block is arranged at the top end of the interior of the water storage cavity; during operation, when the clearance board is located the water storage chamber top under the effect of elastic component, the adsorption block can attract with the magnetic block this moment for the magnetic block is to the inside motion of water storage chamber, and drive and carry strip bottom and preserve the ponding contact at the water storage chamber in advance, make carry strip can carry water to the clearance piece in, later when the clearance board slides from the camera lens, the clearance board cleans the camera lens surface through the clearance piece that adsorbs water this moment, the cleaning performance on camera lens surface has been improved greatly, the water receiving chamber that sets up simultaneously can collect the camera lens through the water droplet of wiping back flow down, reduce the condition that the water droplet on the lens flows everywhere.

Preferably, the inside of the water storage cavity is rotationally connected with a swivel, the bottom end of the swivel is connected with a gravity block, the adsorption block is arranged on the side part of the swivel, the top end of the magnetic block is connected with a slide tube, the top end of the slide tube is connected with a pressing plate, a liquid leakage groove is formed in the pressing plate, and the conveying strip is positioned in the slide tube; when the cleaning plate resets under the effect of elastic component, the adsorption block can rotate to the one side that is close to the magnetic block under the appeal of magnetic block this moment, simultaneously the adsorption block is when rotating to the swivel top, because its inertial action, make the adsorption block gradually to keeping away from one side motion of magnetic block, the magnetic block upwards resets under the rebound force of spring simultaneously, the adsorption block can reverse rotation and drive the magnetic block down motion again afterwards, thereby make the magnetic block can be in the reciprocal upper and lower slip of clearance groove bottom, and extrude the clearance piece that has water through slide tube and clamp plate repeatedly, the water in the clearance piece is taken out its absorptive dust when being extruded, thereby can play the effect of "washing" to the clearance piece, the cleanliness of clearance piece has been improved with follow-up to the cleaning effect of camera lens, and the gravity piece that sets up can make the adsorption block on the swivel stable reset to the position department that cooperatees with the magnetic block, thereby make the adsorption block and the absorption work of magnetic block can go on smoothly.

Preferably, a magnetic plate is embedded and installed at the camera head end corresponding to the space between the lens and the cleaning plate, an extrusion part capable of attracting the magnetic plate is arranged between the inner end of the cleaning groove and the cleaning block, and an elastomer is connected between the extrusion part and the inner end of the cleaning groove; during operation, when the cleaning block that adsorbs water moves to magnetic plate department, the extrusion piece extrudes the cleaning block under the attraction of magnetic plate this moment for more moisture in the cleaning block extrudes, thereby reaches the effect of "wringing out" the cleaning block, when reducing follow-up cleaning block to the camera lens wiping, leads to its surface remaining water droplet more condition, has improved the dryness of camera lens after the clearance.

Preferably, a water absorption groove is formed in the cleaning plate corresponding to one side, close to the elastic piece, of the cleaning groove, and a water absorption block capable of being attached to the surface of the lens is arranged in the water absorption groove; when the cleaning block is used for wiping the lens, the water absorbing block can absorb water drops remained on the surface of the lens after wiping, so that the dryness of the surface of the lens after wiping is further improved.

Preferably, a group of wavy bags are embedded and installed in the water absorption block, a group of mounting grooves are formed in the side wall, far away from the lens, of the cleaning plate, air bags communicated with the wavy bags are installed in the mounting grooves, and blocking strips are connected to the outer ends of the mounting grooves in a rotating mode through torsion springs; during operation, the wave-shaped bag can extrude the water absorption block, make it more inseparable laminating at the camera lens surface, and carry out more efficient absorption clearance to its surface residual water droplet, the gasbag that sets up simultaneously is expanded easily under the higher circumstances of external temperature, and make its inside gas impress in the wave-shaped bag of yielding, thereby make the wave-shaped bag expand and extrude the water absorption block, and extrude the absorptive water in the water absorption block, the gasbag can drive the blend stop rotation when the inflation simultaneously, and make the mounting groove open, make the gasbag can more effectual and external contact, thereby accelerate its inside gaseous inflation, the blend stop that sets up simultaneously can seal the mounting groove when the gasbag resets the shrink, reduce the condition that external dust impurity got into the water absorption block from the mounting groove.

Preferably, the inner end of the cleaning groove is connected with a group of evenly distributed clapboards, the extrusion part consists of extrusion balls evenly distributed among the clapboards, S-shaped connecting strips with two ends extending to two sides of the extrusion balls are embedded and rotated in the clapboards, conveying pieces attached to the cleaning blocks are embedded and installed in the extrusion balls, the connecting strips and the conveying pieces are made of water absorbing materials, one end of each conveying piece, which is close to an elastomer, can be attached to the end part of the connecting strip at the top end of the corresponding baffle, a flow guide groove is formed in the bottom end baffle corresponding to the outer end of the extrusion ball, a blocking net is connected to the top end of the flow guide groove, and a converging groove communicated with the flow guide groove is formed in the side wall of the cleaning plate; during operation, the connecting strip that sets up can be with water transfer to each clearance piece, when clearance groove motion to magnetic plate department, the magnetic plate can adsorb the extrusion ball this moment for the extrusion ball drives conveyer and connecting strip disconnection, water extrusion in the clearance piece simultaneously, make the water that is extruded can more effectual outflow through guiding gutter and confluence groove, thereby make the clearance piece reach better "wringing out" effect, when reducing the clearance piece and being extruded, the water that is extruded is difficult to outflow or by the condition that the clearance piece reabsorbed again, spherical extrusion ball can reduce the relative resistance between the baffle simultaneously, make the extrusion ball can more effectually extrude the water in the clearance piece.

The beneficial effects of the invention are as follows:

1. according to the invention, the camera is installed and disassembled through the sucker and the air inlet structure arranged on the sucker, and the traditional modes such as bolt fixing are replaced, so that the installation and disassembly of the camera are more convenient and quicker, the labor burden of workers is greatly reduced, and meanwhile, the camera can be quickly maintained and replaced after being damaged, so that the equipment of the power generation operation management system can be more effectively monitored.

2. According to the invention, the motor can roll up the traction rope through the rotating shaft when in operation, so that the traction rope pulls the cleaning plate to move to one side of the motor, and dust and impurities on the surface of the lens attached to the traction rope are automatically and efficiently cleaned, so that the definition of the lens in shooting is greatly improved, a worker is not required to climb to a high place to clean the lens in a time-consuming and labor-consuming manner, the potential safety hazard of a camera in cleaning is reduced, and the practicability of the monitoring device is improved.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a diagram of the method steps of the present invention;

FIG. 2 is a schematic view of a partial structure of the present invention;

FIG. 3 is a schematic view of the structure of the lens of the present invention;

fig. 4 is an enlarged view at a in fig. 3;

FIG. 5 is a schematic view of the structure of the cleaning tank in the present invention;

FIG. 6 is a schematic view of the structure of the water absorbing tank in the present invention;

FIG. 7 is a schematic view showing the structure of a cleaning tank in the second embodiment;

in the figure: camera 1, lens 2, connecting rod 3, screw 4, fixed chamber 5, sucking disc 6, air flue 7, air inlet groove 8, backup pad 9, slide bar 10, cleaning plate 11, elastic component 12, motor 13, pivot 14, haulage rope 15, lubricant block 16, cleaning block 17, magnetic block 18, conveying strip 19, water storage chamber 20, water receiving chamber 21, adsorption block 22, swivel 23, gravity block 24, slide tube 25, clamp plate 26, magnetic plate 27, extrusion 28, elastic body 29, water absorption groove 30, water absorption block 31, wave bag 32, gasbag 33, blend stop 34, baffle 35, extrusion ball 36, connecting strip 37, conveying component 38, guiding groove 39, blocking net 40, and confluence groove 41.

Detailed Description

The invention is further described in the following description in conjunction with the embodiments, so that the technical means, the creation features, the achievement of the purpose and the effect achieved by the invention are easy to understand.

As shown in fig. 1, the device operation monitoring method based on the power generation operation management system according to the present invention comprises the following steps:

s1: firstly, screwing a threaded part 4 on a connecting rod 3 at the top of a camera 1 into a fixed cavity 5 with a sucker 6, so that an air passage 7 on the side wall of the connecting rod 3 and an air inlet groove 8 on the side wall of the fixed cavity 5 are staggered;

s2: then the sucker 6 is pressed on the flat fixing surface, so that the sucker 6 and the fixing surface are adsorbed and fixed, and the installation and the fixation of the camera 1 are completed;

s3: when the camera 1 needs to be disassembled, the threaded part 4 on the connecting rod 3 is screwed out from the inside of the fixed cavity 5 by reversely rotating the connecting rod 3 until the end part of the air passage 7 on the side wall of the connecting rod 3 is aligned with and communicated with the air inlet groove 8, so that the work of the sucker 6 is invalid, and the camera 1 can be disassembled from the fixed part; the camera 1 is installed and disassembled through the suction disc 6 and the air inlet structure arranged on the suction disc 6, traditional bolt fixing and other modes are replaced, so that the installation and disassembly of the camera 1 are more convenient and quick, the labor burden of workers is greatly reduced, and meanwhile, the camera 1 can be quickly maintained and replaced after being damaged, so that equipment of a power generation operation management system can be effectively monitored.

Embodiment one:

as shown in fig. 2-6, the device for monitoring equipment operation based on a power generation operation management system according to the present invention is suitable for the above-mentioned monitoring method, the monitoring device comprises a camera 1, a lens 2 is provided at the end of the camera 1, a connecting rod 3 is rotatably connected to the top of the camera 1, the top of the connecting rod 3 is screwed with a fixing cavity 5 through a screw thread part 4, the top of the fixing cavity 5 is connected with a suction cup 6 communicated with the fixing cavity 5, an air channel 7 communicated with the side wall of the connecting rod 3 is provided at the top of the connecting rod 3, and an air inlet groove 8 matched with the air channel 7 is provided at the bottom of the side wall of the fixing cavity 5; when the camera 1 is required to be installed, at the moment, the threaded part 4 on the connecting rod 3 is screwed into the fixed cavity 5, so that the air channel 7 on the side wall of the connecting rod 3 and the air inlet groove 8 on the side wall of the fixed cavity 5 are staggered, the bottom end of the sucker 6 is in a blocking state, then the sucker 6 is pressed on the flat fixed surface, so that the sucker 6 is adsorbed and fixed with the fixed surface, the camera 1 can be conveniently and quickly installed, when the camera 1 is required to be disassembled, the connecting rod 3 is only required to be reversely rotated, the threaded part 4 on the connecting rod 3 is screwed out from the inside of the fixed cavity 5 until the end part of the air channel 7 on the side wall of the connecting rod 3 is aligned with and communicated with the air inlet groove 8, so that external air can flow into the sucker 6 through the communicated air inlet groove 8 and the air channel 7, the work of the sucker 6 is invalid, and workers are no longer required to laboriously pull the sucker 6 from the fixed surface; through this mode to install and dismantle camera 1, replaced modes such as traditional bolt fastening for the installation of camera 1 is more convenient with dismantle swiftly, has alleviateed staff's work burden greatly, also makes camera 1 can maintain fast and change after damaging simultaneously, thereby can carry out more effective monitoring to the equipment of electricity generation operation management system.

The lens comprises a lens 2, a support plate 9, a slide bar 10, a cleaning plate 11, an elastic piece 12, a motor 13, a rotating shaft 14, a traction rope 15, a cleaning plate 11 and a traction rope 15, wherein the support plate 9 is arranged on two sides of the lens 2, the slide bar 10 is connected between the support plates 9, the cleaning plate 11 is connected with the surface of the lens 2 in a sliding manner, the elastic piece 12 is connected between the cleaning plate 11 and the adjacent support plate 9, the motor 13 is arranged at the other support plate 9, the end part of the motor 13 is connected with the rotating shaft 14, the traction rope 15 is wound on the rotating shaft 14, and the other end of the traction rope 15 is connected with the cleaning plate 11; during operation, because the environment in the power plant is comparatively abominable for the camera lens 2 adhesion dust impurity easily, and inconvenient clearance, motor 13 can be through pivot 14 roll-up haulage rope 15 this moment at the during operation, make haulage rope 15 pulling clearance board 11 move to motor 13 one side, and carry out automatic efficient clearance to the dust impurity on the camera lens 2 surface of its laminating, definition when having improved the camera lens 2 greatly, and no longer need the staff climbing to the clearance that takes time and energy to the camera lens 2 to the eminence, the potential safety hazard of camera 1 when the clearance has been reduced, monitoring devices's practicality has been improved.

The elastic piece 12 is an elastic wave-shaped film, a lubricating block 16 made of water-absorbing materials is filled between the wave-shaped film and the sliding rod 10, and lubricating oil is adsorbed in the lubricating block 16; when the cleaning plate 11 slides on the slide bar 10 during operation, the cleaning plate 11 can drive lubricating oil on the lubricating block 16 to coat the surface of the slide bar 10, so that friction resistance during relative movement of the cleaning block 17 and the slide bar 10 is greatly reduced, meanwhile, the wave-shaped film can wrap the lubricating block 16 adsorbed with lubricating oil through the composition form of the elastic piece 12, and the condition that lubricating oil in the lubricating block 16 leaks and flows outwards is reduced.

The cleaning plate 11 is close to the side wall of the lens 2 and is provided with a cleaning groove, a cleaning block 17 attached to the surface of the lens 2 is arranged in the cleaning groove, a magnetic block 18 is slidably connected to the bottom end of the cleaning groove, a spring is connected between the magnetic block 18 and the interior of the cleaning groove, a conveying strip 19 is embedded and installed in the magnetic block 18, the top end of the conveying strip 19 is connected with the bottom end of the cleaning block 17, the cleaning block 17 and the conveying strip 19 are respectively made of water-absorbing materials, a water storage cavity 20 and a water receiving cavity 21 are respectively connected to the bottom ends of the cleaning plate 11 and the lens 2, and an adsorption block 22 capable of attracting the magnetic block 18 is arranged at the top end of the interior of the water storage cavity 20; when the cleaning plate 11 is positioned at the top end of the water storage cavity 20 under the action of the elastic piece 12, the adsorption block 22 can attract the magnetic block 18 at the moment, so that the magnetic block 18 moves towards the inside of the water storage cavity 20 and drives the bottom end of the conveying strip 19 to be in contact with accumulated water stored in the water storage cavity 20 in advance, the conveying strip 19 can convey water into the cleaning block 17, and then when the cleaning plate 11 slides from the lens 2, the cleaning plate 11 wipes the surface of the lens 2 through the cleaning block 17 with water adsorbed at the moment, the cleaning effect of the surface of the lens 2 is greatly improved, and meanwhile, the water receiving cavity 21 can collect water drops flowing down after the lens 2 is wiped, so that the water drops flowing down on the lens 2 are reduced.

The inside rotation of water storage chamber 20 is connected with swivel 23, swivel 23 bottom is connected with gravity piece 24, absorption piece 22 installs in swivel 23 lateral part, magnetic block 18 top is connected with slide pipe 25, slide pipe 25 top is connected with clamp plate 26, clamp plate 26 inside is provided with the weeping groove, transport strip 19 is located slide pipe 25 inside; when the cleaning plate 11 is reset under the action of the elastic piece 12, the adsorption block 22 can rotate to one side close to the magnetic block 18 under the attraction force of the magnetic block 18, meanwhile, the adsorption block 22 gradually moves to one side far away from the magnetic block 18 due to the inertia effect when rotating to the top end of the swivel 23, meanwhile, the magnetic block 18 is reset upwards under the rebound force of the spring, then the adsorption block 22 can reversely rotate and drive the magnetic block 18 to move downwards again, so that the magnetic block 18 can slide up and down in the reciprocating mode at the bottom end of the cleaning groove, the cleaning block 17 adsorbed with water is repeatedly extruded through the slide tube 25 and the pressing plate 26, dust adsorbed by the water in the cleaning block 17 is taken out, the cleaning block 17 can be washed, the cleanliness of the cleaning block 17 and the cleaning effect of the lens 2 can be improved, and the set gravity block 24 can enable the adsorption block 22 on the swivel 23 to be reset to the position matched with the magnetic block 18 stably, so that the adsorption block 22 and the magnetic block 18 can work smoothly.

A magnetic plate 27 is embedded and installed at the end part of the camera 1 corresponding to the position between the lens 2 and the cleaning plate 11, an extrusion piece 28 which can be attracted with the magnetic plate 27 is arranged between the inner end of the cleaning groove and the cleaning block 17, and an elastic body 29 is connected between the extrusion piece 28 and the inner end of the cleaning groove; when the cleaning block 17 with water is moved to the magnetic plate 27 during operation, the extrusion piece 28 extrudes the cleaning block 17 under the attraction of the magnetic plate 27, so that more water in the cleaning block 17 is extruded, the effect of wringing the cleaning block 17 is achieved, more water drops remained on the surface of the cleaning block 17 during wiping of the lens 2 is reduced, and the dryness of the lens 2 after cleaning is improved.

A water absorption groove 30 is formed in the cleaning plate 11 corresponding to one side, close to the elastic piece 12, of the cleaning groove, and a water absorption block 31 capable of being attached to the surface of the lens 2 is arranged in the water absorption groove 30; when the cleaning block 17 is used for wiping the lens 2, the water absorbing block 31 can absorb water drops remained on the surface of the lens 2 after wiping, so that the dryness of the surface of the lens 2 after wiping is further improved.

A group of wavy bags 32 are embedded and installed in the water absorption block 31, a group of installation grooves are formed in the side wall, far away from the lens 2, of the cleaning plate 11, air bags 33 communicated with the wavy bags 32 are installed in the installation grooves, and the outer ends of the installation grooves are rotationally connected with barrier strips 34 through torsion springs; during operation, the wave-shaped bag 32 can extrude the water absorption block 31, make it more closely laminate on the surface of the lens 2, and carry out more efficient absorption clearance to the water droplet that remains on its surface, the gasbag 33 that sets up simultaneously is expanded easily under the higher condition of external temperature, and make its inside gas presss into the wave-shaped bag 32 of yielding, thereby make wave-shaped bag 32 inflation and extrude the water absorption block 31, and extrude the water absorbed in the water absorption block 31, simultaneously gasbag 33 can drive blend stop 34 rotation when the inflation, and make the mounting groove open, make gasbag 33 can more effective contact with the external world, thereby accelerate the inflation of its inside gas, the blend stop 34 that sets up simultaneously can seal the mounting groove when gasbag 33 resets and shrink, reduce the circumstances that external dust impurity gets into in the water absorption block 31 from the mounting groove.

Embodiment two:

as shown in fig. 7, the inner ends of the cleaning tanks are connected with a group of evenly distributed partition plates 35, the extrusion parts 28 are composed of extrusion balls 36 evenly distributed among the partition plates 35, the inside of the partition plates 35 is inlaid with and rotated with S-shaped connecting strips 37 with two ends respectively extending to two sides of the extrusion balls 36, the inside of the extrusion balls 36 is inlaid with and installed with conveying members 38 attached to the cleaning blocks 17, the connecting strips 37 and the conveying members 38 are respectively made of water-absorbing materials, one end of the conveying members 38, which is close to the elastic body 29, can be attached to the end parts of the connecting strips 37 at the top ends of the partition plates 35, the bottom partition plates 35 corresponding to the outer ends of the extrusion balls 36 are provided with guide grooves 39, the top ends of the guide grooves 39 are connected with blocking nets 40, and the side walls of the cleaning plates 11 are internally provided with confluence grooves 41 communicated with the guide grooves 39; during operation, the connecting strip 37 that sets up can convey water to each cleaning block 17, when the cleaning tank moves to magnetic plate 27 department, magnetic plate 27 can adsorb extrusion ball 36 this moment, make extrusion ball 36 drive conveyer 38 and connecting strip 37 disconnection, water extrusion in the cleaning block 17 simultaneously, make the water that is extruded can more effectual outflow through guiding gutter 39 and confluence groove 41, thereby make cleaning block 17 reach better "wringing out" effect, when reducing cleaning block 17 and being extruded, the water that is extruded is difficult to flow or by the condition that cleaning block 17 reabsorbed, spherical extrusion ball 36 can reduce the relative resistance with baffle 35 simultaneously, make extrusion ball 36 can more effectively extrude the water in the cleaning block 17.

When the camera 1 is required to be installed, at the moment, the threaded part 4 on the connecting rod 3 is screwed into the fixed cavity 5, so that the air channel 7 on the side wall of the connecting rod 3 and the air inlet groove 8 on the side wall of the fixed cavity 5 are staggered, the bottom end of the sucker 6 is in a blocking state, then the sucker 6 is pressed on the flat fixed surface, so that the sucker 6 is adsorbed and fixed with the fixed surface, the camera 1 can be conveniently and quickly installed, when the camera 1 is required to be disassembled, the connecting rod 3 is only required to be reversely rotated, the threaded part 4 on the connecting rod 3 is screwed out from the inside of the fixed cavity 5 until the end part of the air channel 7 on the side wall of the connecting rod 3 is aligned with and communicated with the air inlet groove 8, so that external air can flow into the sucker 6 through the communicated air inlet groove 8 and the air channel 7, the work of the sucker 6 is invalid, and workers are no longer required to laboriously pull the sucker 6 from the fixed surface; the camera 1 is installed and disassembled in the mode, the traditional modes such as bolt fixing and the like are replaced, so that the installation and disassembly of the camera 1 are more convenient and quicker, the labor burden of workers is greatly reduced, and meanwhile, the camera 1 can be quickly maintained and replaced after being damaged, so that the equipment of the power generation operation management system can be effectively monitored; because the environment in the power plant is severe, dust impurities are easy to adhere to the lens 2, and cleaning is inconvenient, at the moment, the motor 13 can roll up the traction rope 15 through the rotating shaft 14 during working, so that the traction rope 15 pulls the cleaning plate 11 to move to one side of the motor 13, and the dust impurities on the surface of the lens 2 attached to the cleaning plate are automatically and efficiently cleaned, so that the shooting definition of the lens 2 is greatly improved, a worker is not required to climb to a high place to clean the lens 2 in a time-consuming and labor-consuming manner, the potential safety hazard of the camera 1 during cleaning is reduced, and the practicability of the monitoring device is improved; when the cleaning plate 11 slides on the slide bar 10, the cleaning plate 11 can drive lubricating oil on the lubricating block 16 to be coated on the surface of the slide bar 10, so that the friction resistance of the cleaning block 17 and the slide bar 10 during relative movement is greatly reduced, and meanwhile, the wavy film can wrap the lubricating block 16 adsorbed with the lubricating oil through the arrangement of the composition form of the elastic piece 12, so that the leakage and outflow of the lubricating oil in the lubricating block 16 are reduced; when the cleaning plate 11 is positioned at the top end of the water storage cavity 20 under the action of the elastic piece 12, the adsorption block 22 can be attracted to the magnetic block 18, so that the magnetic block 18 moves towards the inside of the water storage cavity 20 and drives the bottom end of the conveying strip 19 to be in contact with accumulated water pre-stored in the water storage cavity 20, so that the conveying strip 19 can convey water into the cleaning block 17, and then when the cleaning plate 11 slides from the lens 2, the cleaning plate 11 wipes the surface of the lens 2 through the cleaning block 17 adsorbed with water, the cleaning effect of the surface of the lens 2 is greatly improved, and meanwhile, the water receiving cavity 21 can collect water drops flowing down after the lens 2 is wiped, so that the water drops on the lens 2 flow everywhere; when the cleaning plate 11 is reset under the action of the elastic piece 12, the adsorption block 22 can rotate to one side close to the magnetic block 18 under the attraction force of the magnetic block 18, meanwhile, when the adsorption block 22 rotates to the top end of the swivel 23, due to the inertia effect of the adsorption block 22, the adsorption block 22 gradually moves to one side far away from the magnetic block 18, meanwhile, the magnetic block 18 is reset upwards under the rebound force of the spring, and then the adsorption block 22 can reversely rotate and drive the magnetic block 18 to move downwards again, so that the magnetic block 18 can slide up and down in a reciprocating manner at the bottom end of the cleaning groove, and repeatedly extrudes the cleaning block 17 adsorbed with water through the slide tube 25 and the pressing plate 26, so that the water in the cleaning block 17 is extruded and dust adsorbed by the cleaning block 17 is taken out, the cleaning block 17 is washed, the cleanliness of the cleaning block 17 and the cleaning effect of a lens 2 are improved, and the arranged gravity block 24 can enable the adsorption block 22 on the swivel 23 to stably reset to a position matched with the magnetic block 18, so that the adsorption block 22 and the magnetic block 18 can smoothly adsorb and work; when the cleaning block 17 absorbed with water moves to the magnetic plate 27, the extrusion piece 28 extrudes the cleaning block 17 under the attraction of the magnetic plate 27, so that more water in the cleaning block 17 is extruded, the effect of wringing the cleaning block 17 is achieved, the situation that more water drops remain on the surface of the cleaning block 17 when the lens 2 is wiped by the subsequent cleaning block 17 is reduced, and the dryness of the lens 2 after cleaning is improved; after the cleaning block 17 wipes the lens 2, the water absorbing block 31 can absorb the water drops remained on the surface of the lens 2 after wiping, so that the dryness of the surface of the lens 2 after wiping is further improved; the wave-shaped bag 32 can extrude the water absorbing block 31 so as to be more tightly attached to the surface of the lens 2, and more efficiently absorb and clean water drops remained on the surface of the water absorbing block, meanwhile, the air bag 33 is easy to expand under the condition of higher external temperature, and gas in the air bag is pressed into the wave-shaped bag 32 which is easy to deform, so that the wave-shaped bag 32 expands and extrudes the water absorbing block 31, water absorbed in the water absorbing block 31 is extruded, meanwhile, the air bag 33 can drive the barrier strip 34 to rotate when expanding, and the mounting groove is opened, so that the air bag 33 can be more effectively contacted with the outside, the expansion of the gas in the air bag 33 is accelerated, and meanwhile, the barrier strip 34 can seal the mounting groove when the air bag 33 is reset and contracted, and the condition that external dust impurities enter the water absorbing block 31 from the mounting groove is reduced; the connecting strip 37 that sets up can be with water transfer to each clearance piece 17, when clearance groove motion to magnetic plate 27 department, magnetic plate 27 can adsorb extrusion ball 36 this moment, make extrusion ball 36 drive conveyer 38 and connecting strip 37 disconnection, extrude the water in the clearance piece 17 simultaneously, make the water that is extruded can more effective outflow through guiding gutter 39 and confluence groove 41, thereby make clearance piece 17 reach better "wringing out" effect, when reduction clearance piece 17 is extruded, the water that is extruded is difficult to flow or by clearance piece 17 reabsorbed condition, spherical extrusion ball 36 can reduce the relative resistance with baffle 35 simultaneously, make extrusion ball 36 can more effective extrude the water in the clearance piece 17.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing embodiments, and that the foregoing embodiments and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, and these changes and modifications fall within the scope of the invention as hereinafter claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The device operation monitoring device based on the power generation operation management system is characterized in that: the monitoring device comprises a camera (1), a lens (2) is arranged at the end part of the camera (1), a connecting rod (3) is rotationally connected to the top of the camera (1), a fixing cavity (5) is connected to the top end of the connecting rod (3) through a thread part (4) in a threaded mode, a sucking disc (6) communicated with the fixing cavity (5) is connected to the top end of the fixing cavity, an air channel (7) communicated with the side wall of the connecting rod (3) is formed in the top end of the connecting rod, and an air inlet groove (8) matched with the air channel (7) is formed in the bottom end of the side wall of the fixing cavity (5);

the lens is characterized in that support plates (9) are respectively arranged on two sides of the lens (2), a sliding rod (10) is connected between the support plates (9), a cleaning plate (11) which can be attached to the surface of the lens (2) is connected to one side, close to the support plates (9), of the sliding rod (10) in a sliding manner, an elastic piece (12) is connected between the cleaning plate (11) and the adjacent support plates (9), a motor (13) is arranged at the other support plate (9), a rotating shaft (14) is connected to the end of the motor (13), a traction rope (15) is wound on the rotating shaft (14), and the other end of the traction rope (15) is connected with the cleaning plate (11);

the elastic piece (12) is an elastic wavy film, a lubricating block (16) made of water-absorbing materials is filled between the wavy film and the sliding rod (10), and lubricating oil is adsorbed in the lubricating block (16);

the cleaning plate (11) is close to the cleaning groove on the lateral wall of the lens (2), the cleaning groove is internally provided with a cleaning block (17) attached to the surface of the lens (2), the bottom end of the cleaning groove is slidably connected with a magnetic block (18), a spring is connected between the magnetic block (18) and the cleaning groove, a conveying strip (19) is embedded in the magnetic block (18), the top end of the conveying strip (19) is connected with the bottom end of the cleaning block (17), the cleaning block (17) and the conveying strip (19) are respectively made of water absorbing materials, the cleaning plate (11) and the bottom end of the lens (2) are respectively connected with a water storage cavity (20) and a water receiving cavity (21), and an adsorption block (22) capable of attracting the magnetic block (18) is arranged at the top end of the water storage cavity (20).

2. The apparatus operation monitoring device based on the power generation operation management system according to claim 1, wherein: the inside swivel (23) that rotates of water storage chamber (20) is connected with, swivel (23) bottom is connected with gravity piece (24), absorption piece (22) are installed in swivel (23) lateral part, magnetic block (18) top is connected with slide pipe (25), slide pipe (25) top is connected with clamp plate (26), clamp plate (26) inside is provided with the weeping groove, transport strip (19) are located slide pipe (25) inside.

3. The apparatus operation monitoring device based on the power generation operation management system according to claim 2, wherein: the camera is characterized in that a magnetic plate (27) is embedded and installed at the end part of the camera (1) corresponding to the space between the lens (2) and the cleaning plate (11), an extrusion part (28) capable of attracting the magnetic plate (27) is arranged between the inner end of the cleaning groove and the cleaning block (17), and an elastomer (29) is connected between the extrusion part (28) and the inner end of the cleaning groove.

4. The apparatus operation monitoring device based on the power generation operation management system according to claim 3, wherein: the cleaning plate (11) corresponding to one side of the cleaning groove, which is close to the elastic piece (12), is provided with a water absorption groove (30), and a water absorption block (31) which can be attached to the surface of the lens (2) is arranged in the water absorption groove (30).

5. The apparatus operation monitoring device based on the power generation operation management system according to claim 4, wherein: a group of wavy bags (32) are embedded and installed in the water absorption block (31), a group of installation grooves are formed in the side wall, far away from the lens (2), of the cleaning plate (11), air bags (33) communicated with the wavy bags (32) are installed in the installation grooves, and barrier strips (34) are connected to the outer ends of the installation grooves through torsion springs in a rotating mode.

6. The apparatus operation monitoring device based on the power generation operation management system according to claim 5, wherein: the cleaning tank inner is connected with a group of evenly distributed baffle (35), extrusion piece (28) comprises evenly distributed extrusion ball (36) between baffle (35), inside mosaic of baffle (35) is installed and is changeed connecting strip (37) that have both ends to stretch out the S-shaped of extrusion ball (36) both sides respectively, inside mosaic of extrusion ball (36) is installed and is laminated transport piece (38) mutually with cleaning block (17), connecting strip (37) are made by water absorbing material respectively with transport piece (38), the one end that transport piece (38) is close to elastomer (29) can laminate mutually with connecting strip (37) tip on baffle (35) top, guiding gutter (39) have been seted up on bottom baffle (35) that the extrusion ball (36) outer end corresponds, the top of guiding gutter (39) is connected with stop net (40), set up in the lateral wall of cleaning plate (11) and be linked together with guiding gutter (41).

7. A device operation monitoring method based on a power generation operation management system, characterized by being applied to the device operation monitoring apparatus based on a power generation operation management system as set forth in claim 6, the method comprising the steps of:

s1: firstly, screwing a threaded part (4) on a connecting rod (3) at the top of a camera (1) into a fixed cavity (5) with a sucker (6), so that an air passage (7) on the side wall of the connecting rod (3) and an air inlet groove (8) on the side wall of the fixed cavity (5) are staggered;

s2: then, the sucker (6) is pressed on the flat fixing surface, so that the sucker (6) and the fixing surface are adsorbed and fixed, and the camera (1) is installed and fixed;

s3: when needs dismantle camera (1), through reverse rotation connecting rod (3) for screw thread portion (4) on connecting rod (3) are unscrewed from fixed chamber (5) inside, until air flue (7) tip on connecting rod (3) lateral wall aligns and communicates with air inlet tank (8), makes the work of sucking disc (6) inefficacy, thereby makes camera (1) to follow the fixed part and discharge.

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