CN113432635B

CN113432635B - Energy data monitoring and analyzing system and method based on comprehensive energy complementation

Info

Publication number: CN113432635B
Application number: CN202110676249.4A
Authority: CN
Inventors: 徐巍峰; 余彬; 冯兴隆; 翁利国; 朱海燕; 张阳辉
Original assignee: State Grid Zhejiang Xiaoshan District Power Supply Co ltd; Zhejiang Zhongxin Electric Power Engineering Construction Co Ltd
Current assignee: State Grid Zhejiang Xiaoshan District Power Supply Co ltd; Zhejiang Zhongxin Electric Power Engineering Construction Co Ltd
Priority date: 2021-06-18
Filing date: 2021-06-18
Publication date: 2023-03-21
Anticipated expiration: 2041-06-18
Also published as: CN113432635A

Abstract

The invention discloses an energy data monitoring and analyzing system and an energy data monitoring and analyzing method based on comprehensive energy complementation, and the energy data monitoring and analyzing system comprises a monitoring control box, a box door hinged to the front side of the monitoring control box and a control module arranged in the monitoring control box, wherein a cross column is fixed between two sides of the inner wall of the monitoring control box, a plurality of sectional winding drums are arranged below the cross column, and positioning rings are rotatably connected to two sides of the surface of each sectional winding drum. This energy data monitoring analytic system and analytic method based on comprehensive energy is complementary, through the setting of single segmentation winding reel operating device, but the rotation of the different segmentation winding reels of independent control can receive line and unwrapping wire alone to single pencil according to actual demand, does not need whole unwrapping wire and receipts line, and when needing whole receipts line and unwrapping wire, also synchro operation for the wiring of whole device is more clear, and convenient operation, and the use limitation is little.

Description

Energy data monitoring and analyzing system and method based on comprehensive energy complementation

Technical Field

The invention relates to the technical field of data monitoring, in particular to an energy data monitoring and analyzing system and an energy data monitoring and analyzing method based on comprehensive energy complementation.

Background

Wind, light and tidal power generation are renewable energy sources, so that the tidal power generation is an optimal way for energy transformation and is widely applied and popularized; however, wind, light and tide renewable energy power generation is affected by natural conditions such as weather, the generated power has volatility and intermittency, the power cannot be supplied to a user load normally and stably, the power is converted into a power form required by the user through a power electronic converter, and power generation and power supply are realized in a multi-power-supply grid. The wiring inside the monitoring device is particularly important when monitoring and analyzing energy data.

Referring to Chinese patent, the automatic device for analyzing and early warning the economic operation of a park (publication number: CN 213125065U) based on energy monitoring data comprises an electric control cabinet for detecting the electricity consumption condition of enterprise equipment, wherein a mounting frame is arranged in the electric control cabinet, a plurality of electricity meters are arranged on the mounting frame, and a switch door for observing the electricity meters is hinged to one side of the electric control cabinet.

Aiming at the above referenced patents, the existing energy data monitoring and analyzing system and method for comprehensive energy complementation still have the following defects:

(1) When a plurality of wire harnesses are combined together, single wire harness is inconvenient to take up and pay off independently, so that the wire take-up and pay-off can only be operated integrally every time, and the use limitation is large;

(2) The wire harness is inconvenient to cool in time, so that the aging of the wire harness is accelerated, and the service life of the wire harness is shortened;

(3) The winding and unwinding are troublesome, manual winding is needed, and the automation degree is low.

Therefore, the present invention provides an energy data monitoring and analyzing system and an energy data monitoring and analyzing method based on comprehensive energy complementation, so as to solve the above-mentioned problems.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an energy data monitoring and analyzing system and an energy data monitoring and analyzing method based on comprehensive energy complementation, which solve the problem that when a plurality of wire harnesses are combined together, single wire harness is inconvenient to be separately wound and paid off, so that the winding and paying off can only be integrally operated every time, and the use limitation is large; the wire harness is inconvenient to cool in time, so that the aging of the wire harness is accelerated, and the service life of the wire harness is shortened; the wire winding and unwinding is troublesome, manual wire winding is needed, and the automation degree is low.

In order to realize the purpose, the invention is realized by the following technical scheme: energy data monitoring and analyzing system based on comprehensive energy is complementary, include the supervisory control case, articulate at the positive chamber door of supervisory control case and set up the control module in supervisory control incasement portion, be fixed with the spreader between the both sides of supervisory control incasement wall, the below of spreader is provided with the segmentation reel, the segmentation reel is provided with a plurality ofly, the equal swivelling joint in both sides on segmentation reel surface has the holding ring, the holding ring passes through the jib to be fixed in the below on spreader surface, the fixed surface of segmentation reel has the thimble, the both sides on segmentation reel surface all are fixed with the pin, be fixed with the frame plate between the both sides of supervisory control incasement wall, the front at the frame plate is fixed to the control module, be provided with single segmentation reel operating mechanism on the supervisory control case, the right side of supervisory control case is provided with the drive and receives paying out machine and constructs, still be provided with pencil cooling mechanism on the supervisory control case.

The single-section winding reel operating mechanism comprises a hollow rotary drum which is rotatably connected to the left side of the inner wall of a monitoring control box, the right side of the hollow rotary drum penetrates through the monitoring control box and extends to the outside of the monitoring control box, an insertion rod penetrates through and slides on the surface of the hollow rotary drum, insertion holes matched with the insertion rod are formed in the inner wall of the section winding reel, a bearing block is fixed at the bottom end of the insertion rod, a strong spring is fixed at the bottom of the bearing block, the bottom end of the strong spring is fixedly connected with the inner wall of the hollow rotary drum, a stabilizer bar is fixed between the two sides of the inner wall of the hollow rotary drum, the bottom end of the stabilizer bar penetrates through the bearing block and extends to the outside of the bearing block, a guide pulley is fixed on the inner wall of the hollow rotary drum, a reset pull rope is fixed at the bottom of the bearing block, one end of the reset pull rope is wound on the surface of the guide pulley and penetrates through the hollow rotary drum, a pull ring is fixed at one end of the reset pull ring, a hook matched with a label of the section winding reel is fixed on the surface of the hollow rotary drum.

The right side of hollow rotary drum is provided with the drag reduction mechanism that oils, the drag reduction mechanism that oils advances oil pipe including running through the rotation on hollow rotary drum right side, the right side of monitor control box is fixed with telescopic cylinder through first fixed plate, the right side of monitor control box still is fixed with a lubricating oil section of thick bamboo through the second fixed plate, the inner wall sliding connection of a lubricating oil section of thick bamboo has sealed piston, sealed piston's top is fixed with the pull pole that runs through the slip on a lubricating oil section of thick bamboo, the top of pull pole and telescopic cylinder's bottom fixed connection, advance the one end of oil pipe run through the second fixed plate and with the bottom intercommunication of a lubricating oil section of thick bamboo, the surface intercommunication that advances oil pipe has oil pumping pipe, advance oil pipe and oil pumping pipe's surface all to be fixed with the flow stopping valve.

Preferably, the driving take-up and pay-off mechanism comprises a large gear fixed on the surface of the hollow rotary drum, and a take-up and pay-off motor is fixed on the right side of the monitoring control box through a support plate.

Preferably, a driving shaft is fixed to an output shaft of the take-up and pay-off motor, and a pinion gear engaged with the gearwheel is fixed to the surface of the driving shaft.

Preferably, pencil cooling mechanism is including fixing the pipe of returning the shape between monitoring control box inner wall is all around and fixing the air-blower on monitoring control box right side, monitoring control box's right side still is fixed with the filter.

Preferably, the top of the filter is communicated with an air inlet of the air blower through a guide pipe, an air outlet of the air blower is communicated with an air inlet pipe, one end of the air inlet pipe penetrates through the monitoring control box and extends into the monitoring control box, and the inner sides of the surfaces of the rectangular pipes are communicated with spray heads.

Preferably, a circular groove is formed in the front face of the box door in a penetrating mode, a heat dissipation dustproof net is arranged inside the circular groove, a magnetic block is fixed on the surface of the heat dissipation dustproof net, a pressing groove matched with the magnetic block is formed in the inner wall of the circular groove, an arc-shaped groove matched with the magnetic block is further formed in the inner wall of the circular groove, and an iron block matched with the magnetic block is embedded in the inner wall of the arc-shaped groove.

Preferably, the control module comprises an energy data input module, a central processing unit, an energy data identification module, an energy classification calculation module, a data feedback module, a data storage module, an energy classification module and an energy delivery module.

Preferably, the output of energy data input module is connected with central processing unit's input, the input of energy data identification module is connected with central processing unit's output, the input of energy classification calculation module is connected with energy data identification module's output, the input of data feedback module is connected with energy classification calculation module's output, the output of data feedback module is connected with central processing unit's input, the input of data storage module is connected with central processing unit's output, energy classification module's input is connected with energy data identification module's output, energy classification module's output is connected with energy transport module's input.

The invention also discloses an analysis method of the energy data monitoring and analyzing system based on comprehensive energy complementation, which specifically comprises the following steps:

s1, monitoring information is imported by an energy data input module, the information is processed by a central processing unit and then transmitted to an energy data identification module, energy is further classified and calculated by an energy classification calculation module, then the information is transmitted to the central processing unit by a data feedback module, and then various data information is stored by a data storage module;

and S2, the energy data identification module transmits the information to the energy classification module, and the energy classification module classifies the energy and then the energy conveying module conveys various types of energy.

Preferably, the model of the central processing unit in the step S1 is ARM9.

Advantageous effects

The invention provides an energy data monitoring and analyzing system based on comprehensive energy complementation and an analyzing method thereof. Compared with the prior art, the method has the following beneficial effects:

(1) The energy data monitoring and analyzing system based on comprehensive energy complementation and the analyzing method thereof are characterized in that a hollow rotary drum which is rotatably connected to the left side of the inner wall of a monitoring control box is included in a single-section winding drum operating mechanism, the right side of the hollow rotary drum penetrates through the monitoring control box and extends to the outside of the monitoring control box, an inserted rod penetrates through and slides on the surface of the hollow rotary drum, a jack matched with the inserted rod is formed in the inner wall of the section winding drum, a bearing block is fixed to the bottom end of the inserted rod, a strong spring is fixed to the bottom of the bearing block, the bottom end of the strong spring is fixedly connected with the inner wall of the hollow rotary drum, a stabilizer bar is fixed between the two sides of the inner wall of the hollow rotary drum, the bottom end of the stabilizer bar penetrates through the bearing block and extends to the outside of the bearing block, a guide pulley is fixed to the inner wall of the hollow rotary drum, a reset pull rope is fixed to the bottom of the bearing block, through the setting of the single-section winding drum operating mechanism, the rotation of different section winding drums can be independently controlled, independent take-up and pay-off can be carried out on a single wire harness according to actual demands, integral pay-off and take-up and pay-off are not needed, and integral take-off are carried out, the integral take-off, the integral take-up and synchronous operation, the wiring device is more clear in wiring, and the wiring arrangement of the whole operating device, and the use is convenient for the operating device.

(2) According to the energy data monitoring and analyzing system and the energy data monitoring and analyzing method based on the comprehensive energy complementation, through the arrangement of the oiling and drag reduction mechanism in the single segmented winding reel control mechanism, the friction is large when the reset stay rope is in contact with the hollow rotary drum, the oiling can be carried out on the inside of the hollow rotary drum, the friction between the reset stay rope and the hollow rotary drum is reduced, the abrasion of the reset stay rope can be reduced, and the service life of the reset stay rope is prolonged.

(3) According to the energy data monitoring and analyzing system and the energy data monitoring and analyzing method based on comprehensive energy complementation, the driving wire collecting and releasing mechanism comprises the large gear fixed on the surface of the hollow rotary drum, the wire collecting and releasing motor is fixed on the right side of the monitoring control box through the support plate, the driving shaft is fixed on the output shaft of the wire collecting and releasing motor, the small gear meshed with the large gear is fixed on the surface of the driving shaft, wire collection and releasing can be automatically carried out through the arrangement of the driving wire collecting and releasing mechanism, manual winding is not needed, and the automation degree is high.

(4) The energy data monitoring and analyzing system based on comprehensive energy complementation and the analyzing method thereof have the advantages that the wire harness cooling mechanism comprises a clip pipe fixed between the periphery of the inner wall of the monitoring control box and an air blower fixed on the right side of the monitoring control box, the right side of the monitoring control box is also fixed with a filter, the top of the filter is communicated with an air inlet of the air blower through a guide pipe, an air outlet of the air blower is communicated with an air inlet pipe, the wire harness is cooled in time through the arrangement of the wire harness cooling mechanism, the overheating and aging of the wire harness are prevented from being accelerated, and the service life of the wire harness can be prolonged.

Drawings

FIG. 1 is a perspective view of the structure of the present invention;

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

FIG. 3 is a front cross-sectional view of a portion of the structure of the present invention;

FIG. 4 is a perspective cross-sectional view of the sectional spool structure of the present invention;

FIG. 5 is an enlarged view of a portion of the invention at A in FIG. 1;

FIG. 6 is an enlarged view of a portion of the invention at B in FIG. 2;

FIG. 7 is a perspective view of the structure of the oil and drag reduction mechanism of the present invention;

FIG. 8 is a perspective cross-sectional view of a lubricating oil cartridge structure of the present invention;

FIG. 9 is a perspective view of the drive take-up and pay-off mechanism of the present invention;

FIG. 10 is a front cross-sectional view of a portion of the door of the present invention;

FIG. 11 is a schematic block diagram of a control module of the present invention.

In the figure: 1-monitoring control box, 2-box door, 3-control module, 31-energy data input module, 32-central processing unit, 33-energy data recognition module, 34-energy classification calculation module, 35-data feedback module, 36-data storage module, 37-energy classification module, 38-energy delivery module, 4-segmentation winding reel, 5-positioning ring, 6-suspension rod, 7-single segmentation winding reel control mechanism, 701-hollow rotary drum, 701-1-oiling drag reduction mechanism, 701-11-oil inlet pipe, 701-12-first fixing plate, 701-13-telescopic cylinder, 701-14-second fixing plate, 701-15-lubricating oil cylinder, 701-16-sealing piston 701-17-pull rod, 701-18-oil pumping pipe, 701-19-check valve, 702-inserted rod, 703-inserted hole, 704-bearing block, 705-strong spring, 706-stabilizing rod, 707-guide pulley, 708-reset pull rope, 709-pull ring, 710-hook, 711-segmented bobbin label, 8-drive winding and unwinding mechanism, 801-big gear, 802-winding and unwinding motor, 803-drive shaft, 804-small gear, 9-wire harness cooling mechanism, 901-return pipe, 902-blower, 903-filter, 904-air inlet pipe, 10-threading ring, 11-stop rod, 12-frame plate, 13-cross column, 14-circular groove, 15-heat dissipation dustproof net, 3-stop rod, and the like, 16-magnet, 17-pressing groove, 18-arc groove, 19-iron block and 20-wire harness.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, the present invention provides a technical solution: the energy data monitoring and analyzing system based on comprehensive energy complementation comprises a monitoring control box 1, a box door 2 hinged to the front side of the monitoring control box 1 and a control module 3 arranged inside the monitoring control box 1, wherein the top of the monitoring control box 1 is hinged to a box cover, a support is arranged at the bottom of the monitoring control box 1, a cross column 13 is fixed between two sides of the inner wall of the monitoring control box 1, a plurality of sectional winding drums 4 are arranged below the cross column 13, positioning rings 5 are rotatably connected to two sides of the surface of each sectional winding drum 4, the positioning rings 5 are fixed below the surface of the cross column 13 through suspenders 6, threading rings 10 are fixed on the surface of each sectional winding drum 4, stop levers 11 are fixed to two sides of the surface of each sectional winding drum 4, so that a wire harness 20 can be limited, a frame plate 12 is fixed between two sides of the inner wall of the monitoring control box 1, the control module 3 is fixed to the front side of the frame plate 12, a single sectional winding drum operating mechanism 7 is arranged on the monitoring control box 1, a driving take-up mechanism 8 is arranged on the right side of the monitoring control box 1, and a cooling wire harness cooling mechanism 9 is further arranged on the monitoring control box 1;

referring to fig. 1-6, a single segment spool operating mechanism 7 includes a hollow drum 701 rotatably connected to the left side of the inner wall of the monitoring control box 1, the right side of the hollow drum 701 penetrates through the monitoring control box 1 and extends to the outside of the monitoring control box 1, a plurality of insertion rods 702 penetrate through the surface of the hollow drum 701 and slide, insertion holes 703 adapted to the insertion rods 702 are formed in the inner wall of the segment drum 4, the segment drum 4 can be driven to rotate by the hollow drum 701 through the cooperation of the insertion rods 702 and the insertion holes 703, and is provided and annularly distributed on the inner wall of the segment drum 4, a support block 704 is fixed to the bottom end of the insertion rods 702, a strong spring 705 is fixed to the bottom end of the support block 704, the bottom end of the strong spring 705 is fixedly connected to the inner wall of the hollow drum 701, a stabilizing rod 706 is fixed between two sides of the inner wall of the hollow drum 701 and acts on the support block 704, the bottom end of the stabilizing rod 706 penetrates through the support block 704 and extends to the outside of the support block 704, a guide pulley 707 is fixed to the inner wall of the hollow drum 701 and has a guide function for guiding the pull ring 704, and a hook 709 is fixed to the surface of the hollow drum 701, and a hook 710 for observing a label through the rotation of the hollow drum 701, and a digital hook 710 fixed on the hollow drum 701.

Referring to fig. 7-8, an oil-applying and drag-reducing mechanism is disposed on the right side of a hollow rotary drum 701, the oil-applying and drag-reducing mechanism 701-1 includes an oil inlet pipe 701-11 penetrating and rotating on the right side of the hollow rotary drum 701, a telescopic cylinder 701-13 is fixed on the right side of a monitoring and control box 1 through a first fixing plate 701-12, the telescopic cylinder 701-13 is electrically connected with an external power supply and controlled through a control switch, the model adopted is MAL16-50, a lubricating oil cylinder 701-15 is fixed on the right side of the monitoring and control box 1 through a second fixing plate 701-14, a glass window is embedded on the surface for observing the residual amount of oil, and scale marks are engraved on the surface, a sealing piston 701-16 is slidably connected to the inner wall of the lubricating oil cylinder 701-15, a drawing rod 701-17 penetrating and sliding on the lubricating oil cylinder 701-15 is fixed on the top of the sealing piston 701-16, the top end of the drawing rod 701-17 is fixedly connected with the bottom end of the telescopic cylinder 701-13, one end of the oil inlet pipe 701-11 penetrates through the second fixing plate 701-14 and is communicated with the bottom of the lubricating oil cylinder 701-15, and the surface of the oil inlet pipe 701-11 is communicated with a flow-stopping valve 701-18.

Referring to fig. 9, the driving take-up and pay-off mechanism 8 includes a large gear 801 fixed on the surface of a hollow drum 701, a take-up and pay-off motor 802 is fixed on the right side of the monitoring control box 1 through a support plate, and is a three-phase ac asynchronous motor capable of rotating forward and backward, electrically connected with an external power supply and controlled by a control switch, and has a model of YVP-80M2-4, a driving shaft 803 is fixed on an output shaft of the take-up and pay-off motor 802, and a small gear 804 engaged with the large gear 801 is fixed on the surface of the driving shaft 803.

Referring to fig. 1, the wire harness cooling mechanism 9 includes a clip 901 fixed between the peripheries of the inner wall of the monitoring control box 1 and a blower 902 fixed on the right side of the monitoring control box 1, and is electrically connected to an external power supply and controlled by a control switch, the type is Q1F-FF-32, and has a cooling effect on the wire harness 10 inside the monitoring control box 1, a filter 903 is further fixed on the right side of the monitoring control box 1, so as to filter an ash layer in the air, and prevent the ash layer from entering the monitoring control box 1, the top of the filter 903 is communicated with an air inlet of the blower 902 through a conduit, an air outlet of the blower 902 is communicated with an air inlet pipe 904, one end of the air inlet pipe 904 penetrates through the monitoring control box 1 and extends to the inside of the monitoring control box 1, and the inner side of the surface of the clip 901 is communicated with a spray head.

Referring to fig. 1 and 10, a circular groove 14 is formed in the front surface of the box door 2 in a penetrating manner, a heat dissipation dustproof mesh 15 is arranged inside the circular groove 14 and has a heat dissipation dustproof effect, a magnetic block 16 is fixed on the surface of the heat dissipation dustproof mesh 15, a pressure groove 17 matched with the magnetic block 16 is formed in the inner wall of the circular groove 14, an arc-shaped groove 18 matched with the magnetic block 16 is further formed in the inner wall of the circular groove 14, an iron block 19 matched with the magnetic block 16 is embedded in the inner wall of the arc-shaped groove 18, and the magnetic block 16 can be positioned through the arrangement of the iron block 19, so that the heat dissipation dustproof mesh 15 is conveniently positioned.

Referring to fig. 11, the control module 3 includes an energy data input module 31, a central processing unit 32, an energy data recognition module 33, an energy classification calculation module 34, a data feedback module 35, a data storage module 36, an energy classification module 37, and an energy delivery module 38, an output end of the energy data input module 31 is connected to an input end of the central processing unit 32, an input end of the energy data recognition module 33 is connected to an output end of the central processing unit 32, an input end of the energy classification calculation module 34 is connected to an output end of the energy data recognition module 33, an input end of the data feedback module 35 is connected to an output end of the energy classification calculation module 34, an output end of the data feedback module 35 is connected to an input end of the central processing unit 32, an input end of the data storage module 36 is connected to an output end of the central processing unit 32, an input end of the energy classification module 37 is connected to an output end of the energy data recognition module 33, and an output end of the energy classification module 37 is connected to an input end of the energy delivery module 38.

s1, monitoring information is imported by an energy data input module 31, the information is processed by a central processing unit 32 and then transmitted to an energy data identification module 33, the energy is further classified and calculated by an energy classification calculation module 34, then the information is transmitted to the central processing unit 32 by a data feedback module 35, and then various data information is stored by a data storage module 36;

s2, the energy data identification module 33 transmits the information to the energy classification module 37, and the energy classification module 37 classifies the energy and then the energy transmission module 38 transmits various types of energy.

Referring to fig. 11, the model of the central processing unit 32 in step S1 is ARM9.

And those not described in detail in this specification are well within the skill of those in the art.

During operation, one end of a wire harness 20 penetrates through the thimble 10, when a single segmentation winding reel 4 needs to be controlled to rotate independently, pull rings 709 corresponding to the other two reset pull ropes 708 are sleeved on the corresponding hooks 710, at the moment, the corresponding bearing blocks 704 are pulled through the two reset pull ropes 708 respectively, so that the two insertion rods 702 are separated from the two insertion holes 703 respectively, then a take-up and pay-off motor 802 can be started, a pinion 804 is driven to rotate through a driving shaft 803, then the hollow drum 701 is driven to rotate through the gear wheel 801, the single segmentation winding reel 4 can be driven to rotate through the matching of the hollow drum 701 and the insertion rods 702, further, the take-up and pay-off operations of the single wire harness 20 are completed, before the whole take-up and pay-off are needed, the three pull rings 709 are taken down from the three hooks 710 respectively, under the elastic action of three strong springs, the three insertion rods 702 can be reset simultaneously, further, the corresponding insertion holes 703 are matched, and the corresponding segmentation winding reel 4 is limited.

In the process of frequent pulling and releasing, the friction on the reset pull rope 708 is large, at the moment, the check valves 701-19 on the oil inlet pipes 701-11 are opened, the check valves 701-19 on the oil pumping pipes 701-18 are closed, then the telescopic cylinders 701-13 are started, the telescopic cylinders 701-13 grow, and the sealing pistons 701-16 are extruded through the pull rods 701-17, so that lubricating oil in the lubricating oil cylinders 701-15 can be input into the hollow rotary drum 701 through the oil inlet pipes 701-11, the surface of the reset pull rope 708 is lubricated through the lubricating oil, and the friction of the reset pull rope 708 is reduced.

When the internal wiring harness 20 of the monitoring control box 1 needs to be cooled, the blower 902 is started, airflow is filtered through the filter 903 and then enters the return pipe 901 through the air inlet pipe 904, and finally is sprayed to the inside of the monitoring control box 1 through the spray head on the return pipe 901, the temperature of the wiring harness is reduced, when the heat dissipation dustproof net 15 needs to be disassembled and cleaned, the heat dissipation dustproof net 15 is rotated, the magnetic block 16 is separated from the iron block 19, the magnetic block 16 can rotate in the arc-shaped groove 18 until the magnetic block 16 enters the pressure groove 17, and then the heat dissipation dustproof net 15 can be disassembled by pulling the heat dissipation dustproof net 15 to the outside of the box door 2.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Energy data monitoring analytic system based on comprehensive energy is complementary, including monitor control case (1), articulate positive chamber door (2) in monitor control case (1) and set up at monitor control case (1) inside control module group (3), its characterized in that: a cross column (13) is fixed between two sides of the inner wall of the monitoring control box (1), a plurality of sectional winding drums (4) are arranged below the cross column (13), positioning rings (5) are rotatably connected to two sides of the surface of each sectional winding drum (4), the positioning rings (5) are fixed below the surface of the cross column (13) through hanging rods (6), threading rings (10) are fixed on the surfaces of the sectional winding drums (4), stop levers (11) are fixed on two sides of the surface of each sectional winding drum (4), a frame plate (12) is fixed between two sides of the inner wall of the monitoring control box (1), the control module (3) is fixed on the front surface of the frame plate (12), a single sectional winding drum control mechanism (7) is arranged on the monitoring control box (1), a driving winding and unwinding mechanism (8) is arranged on the right side of the monitoring control box (1), and a wire harness cooling mechanism (9) is further arranged on the monitoring control box (1);

the single segmented spool operating mechanism (7) comprises a hollow rotary drum (701) rotatably connected to the left side of the inner wall of a monitoring control box (1), the right side of the hollow rotary drum (701) penetrates through the monitoring control box (1) and extends to the outside of the monitoring control box (1), an insertion rod (702) penetrates through and slides on the surface of the hollow rotary drum (701), a jack (703) matched with the insertion rod (702) is formed in the inner wall of the segmented spool (4), a bearing block (704) is fixed at the bottom end of the insertion rod (702), a strong spring (705) is fixed at the bottom end of the bearing block (704), the bottom end of the strong spring (705) is fixedly connected with the inner wall of the hollow rotary drum (701), a stabilizing rod (706) is fixed between two sides of the inner wall of the hollow rotary drum (701), the bottom end of the stabilizing rod (706) penetrates through the bearing block (704) and extends to the outside of the bearing block (704), a guide pulley (707) is fixed on the inner wall of the hollow rotary drum (701), a pull rope (708) is fixed at one end of a pull rope (708) and winds around the surface of the guide pulley (709), and a reset pulley (701) is fixed with a hook (701), a segmented winding drum label (711) is adhered to the surface of the hollow rotary drum (701);

an oil and drag applying mechanism is arranged on the right side of the hollow rotary drum (701), the oil and drag applying mechanism (701-1) comprises an oil inlet pipe (701-11) which penetrates through and rotates on the right side of the hollow rotary drum (701), a telescopic cylinder (701-13) is fixed on the right side of the monitoring control box (1) through a first fixing plate (701-12), a lubricating oil cylinder (701-15) is fixed on the right side of the monitoring control box (1) through a second fixing plate (701-14), a sealing piston (701-16) is connected to the inner wall of the lubricating oil cylinder (701-15) in a sliding mode, a drawing rod (701-17) which penetrates through and slides on the lubricating oil cylinder (701-15) is fixed on the top of the sealing piston (701-16), the top end of the drawing rod (701-17) is fixedly connected with the bottom end of the telescopic cylinder (701-13), one end of the oil inlet pipe (701-11) penetrates through the second fixing plate (701-14) and is communicated with the bottom of the lubricating oil cylinder (701-15), the surface of the oil inlet pipe (701-11) is communicated with a flow stopping valve (701-18), and the surface of the oil inlet pipe (701-18) is connected with the oil homogenizing pipe (701-18);

the driving take-up and pay-off mechanism (8) comprises a large gear (801) fixed on the surface of a hollow rotary drum (701), a take-up and pay-off motor (802) is fixed on the right side of the monitoring control box (1) through a support plate, a driving shaft (803) is fixed on an output shaft of the take-up and pay-off motor (802), and a small gear (804) meshed with the large gear (801) is fixed on the surface of the driving shaft (803);

pencil cooling mechanism (9) are including fixing time shape pipe (901) between monitoring control case (1) inner wall all around and fixing air-blower (902) on monitoring control case (1) right side, the right side of monitoring control case (1) still is fixed with filter (903), the air intake intercommunication of pipe and air-blower (902) is passed through at the top of filter (903), the air outlet intercommunication of air-blower (902) has air-supply line (904), the inside that monitoring control case (1) and extended to monitoring control case (1) is run through to the one end of air-supply line (904), the inboard that returns venturi tube (901) surface all communicates there is the shower nozzle.

2. The system for monitoring and analyzing energy data based on energy integration according to claim 1, wherein: the front of chamber door (2) runs through and has seted up circular slot (14), the inside of circular slot (14) is provided with heat dissipation dust screen (15), the fixed surface of heat dissipation dust screen (15) has magnetic block (16), indent (17) with magnetic block (16) looks adaptation are seted up to the inner wall of circular slot (14), arc wall (18) with magnetic block (16) looks adaptation are still seted up to the inner wall of circular slot (14), the inner wall of arc wall (18) inlays and is equipped with iron plate (19) that use with magnetic block (16) cooperation.

3. The system for monitoring and analyzing energy data based on energy integration according to claim 1, wherein: the control module (3) comprises an energy data input module (31), a central processing unit (32), an energy data identification module (33), an energy classification calculation module (34), a data feedback module (35), a data storage module (36), an energy classification module (37) and an energy delivery module (38).

4. The system for monitoring and analyzing energy data based on energy integration according to claim 3, wherein: the output of energy data input module (31) is connected with the input of central processing unit (32), the input of energy data identification module (33) is connected with the output of central processing unit (32), the input of energy classification calculation module (34) is connected with the output of energy data identification module (33), the input of data feedback module (35) is connected with the output of energy classification calculation module (34), the output of data feedback module (35) is connected with the input of central processing unit (32), the input of data storage module (36) is connected with the output of central processing unit (32), the input of energy classification module (37) is connected with the output of energy data identification module (33), the output of energy classification module (37) is connected with the input of energy transport module (38).

5. The analysis method of the energy data monitoring and analysis system based on energy integration according to any one of claims 1 to 4, wherein: the method specifically comprises the following steps:

s1, monitoring information is imported by an energy data input module (31), the information is processed by a central processing unit (32) and then transmitted to an energy data identification module (33), the energy is further classified and calculated by an energy classification calculation module (34), then the information is transmitted to the central processing unit (32) by a data feedback module (35), and then various data information is stored by a data storage module (36);

s2, the energy data identification module (33) transmits the information to the energy classification module (37), and the energy classification module (37) classifies the energy and then the energy transmission module (38) transmits various types of energy.

6. The analysis method of the energy data monitoring and analysis system based on comprehensive energy complementation according to claim 5, wherein the model of the central processing unit (32) in the step S1 is ARM9.