CN113194652A - Assembly type intelligent high-performance source station and configuration method - Google Patents

Abstract

The invention discloses an assembled intelligent high-efficiency source station and a configuration method, wherein the assembled intelligent high-efficiency source station comprises an energy station body, a dustproof box, an equipment controller, a dustproof net, a support frame, a support table, a motor, a rotating shaft, fan blades and a brush; the equipment controller is arranged in the dustproof box; the supporting frame is fixedly connected above the dustproof box; the support table is fixedly connected above the dustproof box; the motor is fixedly connected above the supporting platform; the rotating shaft is fixedly connected with the output end of the motor; the fan blades are fixedly connected with the rotating shaft; the brush is fixedly connected to one end of the rotating shaft, which is far away from the motor; it is rotatory to drive pivot and flabellum through the motor, and the rotatory air current that produces of flabellum enters into to the dust proof box through fresh air inlet and dust screen in, thereby it is right the equipment controller cools down, and the rotation through the pivot still can drive the brush and rotate along the dust screen surface to clear away the dust on the dust screen, prevent that the dust screen from blockking up, and then can improve the radiating effect to the equipment controller, prevent to damage because of the high temperature.

Description

Assembly type intelligent high-performance source station and configuration method

Technical Field

The invention relates to the technical field of energy stations, in particular to an assembled intelligent high-efficiency source station and a configuration method.

Background

In modern buildings, a lot of assembled intelligent high-efficiency source stations are adopted to supply air conditioners, heating, hot water and the like to the whole building and ensure the comfort of the interior of the building. The energy station depends on the equipment controller to carry out intelligent control on each equipment, but the equipment controller in the existing energy station has poor heat dissipation effect and is easy to damage due to overhigh temperature.

Disclosure of Invention

The invention aims to provide an assembled intelligent high-efficiency source station and a configuration method, and aims to solve the problem that a device controller in the conventional energy station is poor in heat dissipation effect.

In order to achieve the above object, in a first aspect, the present invention provides an assembled intelligent high-performance source station, which includes an energy station body, a dust-proof box, a device controller, a dust-proof net, a support frame, a support table, a motor, a rotating shaft, fan blades and a brush; the dustproof box is fixedly connected with the energy station body and is positioned on the side edge of the energy station body; the equipment controller is fixedly connected with the dust-proof box, is electrically connected with the energy station body and is positioned in the dust-proof box; the dust-proof box is provided with an air inlet hole and a plurality of air outlet holes; the dustproof net is detachably connected with the dustproof box and is positioned above the dustproof box; the supporting frame is fixedly connected with the dust-proof box and is positioned above the dust-proof box; the supporting platform is fixedly connected with the supporting frame and is positioned above the supporting frame; the motor is fixedly connected with the support platform and is positioned above the support platform; one end of the rotating shaft is fixedly connected with the output end of the motor, and one end of the rotating shaft, which is far away from the motor, penetrates through the supporting table; the fan blades are fixedly connected with the rotating shaft, are penetrated through by the rotating shaft and are positioned between the supporting platform and the dust screen; the brush and the rotating shaft are fixedly connected and are positioned at one end, far away from the motor, of the rotating shaft.

The assembly type intelligent high-efficiency source station also comprises an air guide cover; the wind scooper is fixedly connected with the support platform and is positioned on one side, far away from the motor, of the support platform.

The assembly type intelligent high-efficiency source station also comprises a plurality of filter screens; the plurality of filter screens are respectively and fixedly connected with the dust-proof box and are respectively positioned at the plurality of air exhaust holes.

The dustproof box comprises a box body and a door plate; the box body is fixedly connected with the support frame and is positioned below the support frame; the door plate is hinged with the box body and is positioned on the side edge of the box body.

Wherein, the dustproof box also comprises a handle; the handle is fixedly connected with the door panel and is positioned on the side edge of the door panel.

The box body comprises a shell, a mounting seat, two sliding seats and two fixing bolts; the shell is fixedly connected with the support frame and is positioned below the support frame; the mounting seat is fixedly connected with the shell, fixedly connected with the equipment controller and positioned in the shell; the two sliding seats are respectively fixedly connected with the shell, are respectively connected with the dust screen in a sliding manner and are respectively positioned in the shell; the two fixing bolts are respectively in threaded connection with the shell and the two sliding seats and respectively penetrate through the shell and the two sliding seats.

Wherein the housing comprises a shell and a plurality of foot pads; the shell is fixedly connected with the support frame and is positioned below the support frame; the plurality of the foot pads are respectively fixedly connected with the shell and are respectively positioned on one side of the shell, which is far away from the supporting frame.

The equipment controller comprises a building management data module, an internet data module, an energy station equipment data module, an intelligent analysis module and an energy station control module; the building management data module, the internet data module, the energy station equipment data module, the intelligent analysis module and the energy station control module are sequentially connected.

In a second aspect, the invention further provides a method for configuring the assembly type intelligent high-efficiency source station, which comprises the steps of collecting and storing data such as user occupancy rate, temperature, humidity, power consumption and the like of each area through a building management data module; historical weather, wind speed, temperature and humidity data of the area and future weather, wind speed, temperature and humidity data predicted by weather forecast are collected and stored through an internet data module; storing the operation setting parameters of each device of the energy station body in each time period through the energy station device data module; establishing calculable relation data according to the content of the building management data module, the content of the internet data module and the content of the energy station equipment data module through an intelligent analysis module to form optimal setting and operation instructions of each equipment in the energy station body; and controlling the equipment in the energy station body by the energy station control module according to the optimal equipment setting and operation instruction generated by the intelligent analysis module.

According to the assembly type intelligent high-efficiency source station and the configuration method, the device controller can calculate the prediction data of the future building use condition according to the building use condition, including the survival rate, the temperature, the humidity, the electric power and the natural gas consumption data of each area, calculate the optimal setting and the operation instruction of the devices in the energy station body based on the prediction data of the future building use condition and the weather prediction data, and correspondingly control each device, so that the services of air conditioning, heating, hot water and the like can be intelligently and efficiently provided for users. The rotating shaft and the fan blades can be driven to rotate by the motor, air flow generated by the rotation of the fan blades enters the shell through the air inlet holes, so that the equipment controller is cooled, hot air in the shell can be discharged through the air outlet holes, and the heat dissipation effect is improved; the dust can be prevented from entering the shell from the air inlet hole through the dust screen; the rotating shaft can drive the brush to rotate along the surface of the dustproof net, so that dust and foreign matters on the dustproof net can be removed, and the situation that air flow blown out from the fan blades cannot enter the shell due to blockage of the dustproof net is prevented. When the dust screen is replaced, the two fixing bolts slide out of the two sliding seats and the shell, and then the dust screen can be taken out by sliding the dust screen; the installation during the dust screen, only need with the dust screen slides in two the sliding seat with between the casing, again with two fixing bolt screw in respectively two in the sliding seat, through two fixing bolt can with the dust screen is spacing fixed, avoids taking place to drop, and then can realize right convenient and fast's installation and dismantlement of dust screen. The air guide cover can prevent the air flow blown out by the fan blades from flying apart, so that the air flow can enter the shell, and the heat dissipation effect on the equipment controller is improved. Through the mode, the device controller can be effectively radiated, so that the device controller can be prevented from being damaged due to overhigh temperature.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of an intelligent high performance source station according to the present invention;

FIG. 2 is an elevational, cross-sectional view of a self-contained, intelligent, high performance source station of the present invention;

FIG. 3 is a schematic structural view of the dust bin of the present invention;

FIG. 4 is a schematic diagram of the structure of the device controller of the present invention;

FIG. 5 is a flow chart of a method for configuring an intelligent high performance source station according to the present invention.

1-an energy station body, 2-a dust-proof box, 3-a device controller, 4-a dust-proof net, 5-a support frame, 6-a support table, 7-a motor, 8-a rotating shaft, 9-fan blades, 10-a hair brush, 11-an air guide cover, 12-a filter screen, 20-an air inlet hole, 21-a box body, 22-a door plate and 23-a handle, 31-a building management data module, 32-an internet data module, 33-an energy station equipment data module, 34-an intelligent analysis module, 35-an energy station control module, 200-an exhaust hole, 211-a shell, 212-a mounting seat, 213-a sliding seat, 214-a fixing bolt, 2111-a shell, 2112-a foot pad, 2121-a slide rail, 2122-a mounting plate and 21220-a heat dissipation hole.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 4, the present invention provides an assembled intelligent high performance source station: the device comprises an energy station body 1, a dust-proof box 2, a device controller 3, a dust screen 4, a support frame 5, a support table 6, a motor 7, a rotating shaft 8, fan blades 9 and a brush 10; the dust-proof box 2 is fixedly connected with the energy station body 1 and is positioned on the side edge of the energy station body 1; the equipment controller 3 is fixedly connected with the dust-proof box 2, is electrically connected with the energy station body 1 and is positioned in the dust-proof box 2; the dust-proof box 2 is provided with an air inlet hole 20 and a plurality of air outlet holes 200; the dustproof net 4 is detachably connected with the dustproof box 2 and is positioned above the dustproof box 2; the support frame 5 is fixedly connected with the dust-proof box 2 and is positioned above the dust-proof box 2; the support table 6 is fixedly connected with the support frame 5 and is positioned above the support frame 5; the motor 7 is fixedly connected with the support table 6 and is positioned above the support table 6; one end of the rotating shaft 8 is fixedly connected with the output end of the motor 7, and one end of the rotating shaft 8, which is far away from the motor 7, penetrates through the supporting table 6; the fan blades 9 are fixedly connected with the rotating shaft 8, are penetrated through by the rotating shaft 8 and are positioned between the support table 6 and the dust screen 4; the brush 10 is fixedly connected with the rotating shaft 8 and is positioned at one end, far away from the motor 7, of the rotating shaft 8.

In this embodiment, the device controller 3 can calculate predicted data of future building use conditions according to the building use conditions, including the occupancy rate, the temperature of each area, the humidity, the electric power, and the natural gas consumption data, calculate optimal settings and operation instructions of the devices in the energy station body 1 based on the predicted data of the future building use conditions and the weather predicted data, and perform corresponding control on each device, thereby being capable of providing services such as air conditioning, heating, hot water, and the like, for users intelligently and efficiently. The rotating shaft 8 and the fan blades 9 can be driven to rotate by the motor 7, air flow generated by rotation of the fan blades 9 enters the dust-proof box 2 through the air inlet holes 20, so that the equipment controller 3 is cooled, hot air in the dust-proof box 2 can be discharged through the air outlet holes 200, and the heat dissipation effect is improved; the dust can be prevented from entering the dustproof box 2 from the air inlet hole 20 through the dustproof net 4; through the rotation of pivot 8 still can drive brush 10 is followed the dust screen 4 surface is rotatory to can clear away dust and foreign matter on the dust screen 4, prevent because of the dust screen 4 blocks up and leads to the air current that flabellum 9 blew out can't enter into in the dust proof box 2. Through dust proof box 2 can be right equipment controller 3 prevents dust and protects equipment controller 3 prevents to damage. Through the mode, the device controller 3 can be effectively radiated, so that the device controller 3 can be prevented from being damaged due to overhigh temperature.

Further, the assembled intelligent high-efficiency source station further comprises an air guide cover 11; the wind scooper 11 is fixedly connected with the support platform 6 and is positioned on one side of the support platform 6 far away from the motor 7.

In the present embodiment, the air guide cover 11 can prevent the air flow blown by the fan blades 9 from scattering, and the air flow can enter the dust box 2, thereby improving the heat dissipation effect to the device controller 3.

Further, the assembled intelligent high-efficiency source station further comprises a plurality of filter screens 12; a plurality of the filter screens 12 are respectively and fixedly connected with the dustproof box 2 and are respectively positioned at a plurality of the exhaust holes 200.

In this embodiment, the filter screen 12 can prevent dust from entering the dust box 2 through the air outlet 200, and prevent the device controller 3 from being damaged due to dust contamination.

Further, the dust-proof box 2 comprises a box body 21 and a door panel 22; the box body 21 is fixedly connected with the support frame 5 and is positioned below the support frame 5; the door panel 22 is hinged to the box body 21 and is located on the side of the box body 21.

In the present embodiment, the equipment controller 3 can be mounted and protected by the case 21, and dust can be prevented from entering the case 21 by the door panel 22.

Further, the dust-proof box 2 further comprises a handle 23; the handle 23 is fixedly connected with the door panel 22 and is positioned at the side of the door panel 22.

In the present embodiment, the handle 23 can facilitate controlling the door panel 22 to rotate.

Further, the box body 21 includes a housing 211, a mounting seat 212, two sliding seats 213 and two fixing bolts 214; the shell 211 is fixedly connected with the support frame 5 and is positioned below the support frame 5; the mounting seat 212 is fixedly connected with the housing 211, fixedly connected with the equipment controller 3, and positioned inside the housing 211; the two sliding seats 213 are respectively and fixedly connected with the outer shell 211, are respectively and slidably connected with the dust screen 4, and are respectively positioned inside the outer shell 211; the two fixing bolts 214 are respectively in threaded connection with the outer shell 211 and the two sliding seats 213, and respectively penetrate through the outer shell 211 and the two sliding seats 213.

In this embodiment, when replacing the dust screen 4, the two fixing bolts 214 are slid out from the two sliding seats 213 and the housing 211, and the dust screen 4 is slid to take out the dust screen 4; when the dust screen 4 is installed, the dust screen 4 only needs to be slid into the space between the two sliding seats 213 and the shell 211, then the two fixing bolts 214 are screwed into the two sliding seats 213 respectively, the dust screen 4 can be limited and fixed through the two fixing bolts 214, falling off is avoided, and the dust screen 4 can be conveniently and quickly installed and detached; through the mount 212 can support the installation to equipment controller 3 to can make equipment controller 3 keep away from ground, avoid equipment controller 3 damages because of weing.

Further, the housing 211 includes a housing 2111 and a plurality of footpads 2112; the shell 2111 is fixedly connected with the support frame 5 and is positioned below the support frame 5; the plurality of the foot pads 2112 are respectively and fixedly connected with the housing 2111 and are respectively positioned on one side of the housing 2111 away from the support frame 5.

In the present embodiment, the case 2111 is not in contact with the ground due to the plurality of footpads 2112, so that the device controller 3 is prevented from being damaged by moisture, and a heat radiation effect can be improved.

Further, the equipment controller 3 comprises a building management data module 31, an internet data module 32, an energy station equipment data module 33, an intelligent analysis module 34 and an energy station control module 35; the building management data module 31, the internet data module 32, the energy station equipment data module 33, the intelligent analysis module 34 and the energy station control module 35 are connected in sequence.

In the present embodiment, data such as user occupancy, temperature, humidity, and power consumption of each area are collected and stored by the building management data module 31; the internet data module 32 is used for collecting and storing historical weather, wind speed, temperature and humidity data of the area and future weather, wind speed, temperature and humidity data predicted by weather forecast; storing the operation setting parameters of each equipment of the energy station body 1 in each time period through the energy station equipment data module 33; and establishing calculable relation data according to the content of the building management data module 31, the content of the internet data module 32 and the content of the energy station equipment data module 33 through the intelligent analysis module 34 to form optimal setting and operation instructions of each equipment in the energy station body 1. The energy station control module 35 can control the equipment in the energy station body 1 according to the optimal equipment setting and operation instruction generated by the intelligent analysis module 34, so that services such as air conditioning, heating and hot water can be provided for users intelligently and efficiently.

Further, the mounting base 212 includes two sliding rails 2121 and a mounting plate 2122; the two sliding rails 2121 are respectively and fixedly connected with the housing 2111 and are respectively positioned inside the housing 2111; the mounting plate 2122 is slidably connected to the two slide rails 2121, and is located between the two slide rails 2121.

In this embodiment, the mounting plate 2122 can support and mount the device controller 3, and the two slide rails 2121 enable the mounting plate 2122 to slide, so that the device controller 3 can slide out of the housing 2111, and the device controller 3 can be overhauled conveniently.

Further, the mounting plate 2122 has a plurality of heat dissipation holes 21220; the heat dissipation holes 21220 are uniformly distributed on a side of the mounting plate 2122.

In this embodiment, the plurality of heat radiation holes 21220 can improve the heat radiation effect of the bottom of the device controller 3.

In a second aspect, referring to fig. 5, the present invention further provides a method for configuring an intelligent high performance source station, including:

s101, collecting and storing data such as user check-in rate, temperature, humidity and power consumption of each area through a building management data module 31;

the building management data module 31 collects and stores data such as user occupancy, usage of each room, temperature, humidity, and power consumption of each area, and transmits the data to the intelligent analysis module 34.

S102, collecting and storing historical weather, wind speed, temperature and humidity data of the area and future weather, wind speed, temperature and humidity data predicted by weather forecast through the Internet data module 32;

historical weather, wind speed, temperature and humidity data of the area and weather, wind speed, temperature, rainfall, illumination and other data predicted by weather forecast in the future 5 days are collected and stored through the internet data module 32, and are transmitted to the intelligent analysis module 34.

S103, storing the operation setting parameters of each time period of each device of the energy station body 1 through the energy station device data module 33;

the operation setting parameters of each device of the energy station body 1 in each time period are stored by the energy station device data module 33 and are transmitted to the intelligent analysis module 34.

S104, establishing calculable relation data through the intelligent analysis module 34 according to the content of the building management data module 31, the content of the Internet data module 32 and the content of the energy station equipment data module 33 to form optimal setting and operation instructions of each equipment in the energy station body 1;

and a calculable relation data is established by the intelligent analysis module 34 according to the content of the building management data module 31, the content of the internet data module 32 and the content of the energy station equipment data module 33, and an optimal setting and operation instruction of each equipment in the energy station body 1 at each time interval is formed according to the weather prediction condition.

S105, controlling the equipment in the energy station body 1 through the energy station control module 35 according to the optimal equipment setting and operation instruction generated by the intelligent analysis module 34;

the energy station control module 35 controls the equipment in the energy station body 1 according to the optimal equipment setting and operation instruction generated by the intelligent analysis module 34, so that services such as air conditioning, heating, hot water and the like are provided for users intelligently and efficiently.

The working principle and the using process of the invention are as follows: after the system is installed, the equipment controller 3 can calculate the predicted data of the future building service conditions according to the building service conditions, including the survival rate, the temperature, the humidity, the electric power and the natural gas consumption data of each area, calculate the optimal setting and the operation instruction of the equipment in the energy station body 1 based on the predicted data of the future building service conditions and the weather predicted data, and correspondingly control each equipment, so that the system can intelligently and efficiently provide services such as air conditioning, heating, hot water and the like for users. The rotating shaft 8 and the fan blades 9 can be driven to rotate by the motor 7, air flow generated by rotation of the fan blades 9 enters the shell 2111 through the air inlet holes 20, so that the equipment controller 3 is cooled, hot air in the shell 2111 can be discharged through the air outlet holes 200, and the heat dissipation effect is improved; dust can be prevented from entering the housing 2111 from the air inlet holes 20 through the dust screen 4; the rotation of the rotating shaft 8 can also drive the brush 10 to rotate along the surface of the dustproof net 4, so that dust and foreign matters on the dustproof net 4 can be removed, and the situation that the airflow blown out by the fan blades 9 cannot enter the shell 2111 due to the blockage of the dustproof net 4 is prevented. When the dust screen 4 is replaced, the two fixing bolts 214 slide out of the two sliding seats 213 and the housing 2111, and the dust screen 4 is slid to take out the dust screen 4; installation during dust screen 4, only need with dust screen 4 slides in two sliding seat 213 with between the casing 2111, again with two fixing bolt 214 is two respectively the screw in the sliding seat 213, through two fixing bolt 214 can with dust screen 4 is spacing fixed, avoids taking place to drop, and then can realize right dust screen 4 convenient and fast's installation and dismantlement. The air guide cover 11 can prevent the air flow blown by the fan blades 9 from scattering, and the air flow can enter the housing 2111, thereby improving the heat dissipation effect on the device controller 3. Through the mode, the device controller 3 can be effectively radiated, so that the device controller 3 can be prevented from being damaged due to overhigh temperature.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. An assembled intelligent high-efficiency source station is characterized by comprising an energy station body, a dustproof box, an equipment controller, a dustproof net, a support frame, a support table, a motor, a rotating shaft, fan blades and a brush; the dustproof box is fixedly connected with the energy station body and is positioned on the side edge of the energy station body; the equipment controller is fixedly connected with the dust-proof box, is electrically connected with the energy station body and is positioned in the dust-proof box; the dust-proof box is provided with an air inlet hole and a plurality of air outlet holes; the dustproof net is detachably connected with the dustproof box and is positioned above the dustproof box; the supporting frame is fixedly connected with the dust-proof box and is positioned above the dust-proof box; the supporting platform is fixedly connected with the supporting frame and is positioned above the supporting frame; the motor is fixedly connected with the support platform and is positioned above the support platform; one end of the rotating shaft is fixedly connected with the output end of the motor, and one end of the rotating shaft, which is far away from the motor, penetrates through the supporting table; the fan blades are fixedly connected with the rotating shaft, are penetrated through by the rotating shaft and are positioned between the supporting platform and the dust screen; the brush and the rotating shaft are fixedly connected and are positioned at one end, far away from the motor, of the rotating shaft.

2. The intelligent high-performance source station of claim 1, further comprising a wind scooper; the wind scooper is fixedly connected with the support platform and is positioned on one side, far away from the motor, of the support platform.

3. The intelligent high-performance source station of claim 2, further comprising a plurality of screens; the plurality of filter screens are respectively and fixedly connected with the dust-proof box and are respectively positioned at the plurality of air exhaust holes.

4. The intelligent high-performance source station of claim 3, wherein the dust box comprises a box body and a door panel; the box body is fixedly connected with the support frame and is positioned below the support frame; the door plate is hinged with the box body and is positioned on the side edge of the box body.

5. The intelligent high-performance source station of claim 4, wherein the dust bin further comprises a handle; the handle is fixedly connected with the door panel and is positioned on the side edge of the door panel.

6. The assembly type intelligent high-performance source station of claim 5, wherein the box body comprises a housing, a mounting seat, two sliding seats and two fixing bolts; the shell is fixedly connected with the support frame and is positioned below the support frame; the mounting seat is fixedly connected with the shell, fixedly connected with the equipment controller and positioned in the shell; the two sliding seats are respectively fixedly connected with the shell, are respectively connected with the dust screen in a sliding manner and are respectively positioned in the shell; the two fixing bolts are respectively in threaded connection with the shell and the two sliding seats and respectively penetrate through the shell and the two sliding seats.

7. The intelligent high-performance source station of claim 6, wherein the housing comprises a housing and a plurality of foot pads; the shell is fixedly connected with the support frame and is positioned below the support frame; the plurality of the foot pads are respectively fixedly connected with the shell and are respectively positioned on one side of the shell, which is far away from the supporting frame.

8. The intelligent energy-efficient source station as set forth in claim 7, wherein the equipment controller comprises a building management data module, an internet data module, an energy station equipment data module, an intelligent analysis module, and an energy station control module; the building management data module, the internet data module, the energy station equipment data module, the intelligent analysis module and the energy station control module are sequentially connected.

9. A method for configuring a mounted intelligent high performance source station, as claimed in claim 8, comprising:

collecting and storing data such as user check-in rate, temperature, humidity and power consumption of each area through a building management data module;

historical weather, wind speed, temperature and humidity data of the area and future weather, wind speed, temperature and humidity data predicted by weather forecast are collected and stored through an internet data module;

storing the operation setting parameters of each device of the energy station body in each time period through the energy station device data module;

establishing calculable relation data according to the content of the building management data module, the content of the internet data module and the content of the energy station equipment data module through an intelligent analysis module to form optimal setting and operation instructions of each equipment in the energy station body;

and controlling the equipment in the energy station body by the energy station control module according to the optimal equipment setting and operation instruction generated by the intelligent analysis module.

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