CN113138617A - Comprehensive energy-saving control method and management system for automatic control equipment of intelligent building - Google Patents

Abstract

The invention belongs to the field of building systems, in particular to a comprehensive energy-saving control method and a management system of automatic control equipment of an intelligent building, aiming at the problems that the existing building system is inconvenient for saving electric energy and reducing energy consumption, the invention provides the following scheme that the energy-saving control of an air conditioning system comprises a first area and a second area, wherein the first area is a room in the middle area of the building, the second area is a passageway and a stair area which are positioned outside the building and surround the first area, the first area is provided with a first temperature sensor, and when the first temperature sensor detects that the temperature of the first area is lower than a set value, a central air conditioner conveys hot air into the first area through an air inlet; when the first temperature sensor detects that the temperature of the first area reaches a set value, the central air conditioner stops conveying hot air. The invention has reasonable design, and can save electric energy and reduce the waste of energy by controlling the air conditioner, the humidifier and the illuminating lamp.

Description

Comprehensive energy-saving control method and management system for automatic control equipment of intelligent building

Technical Field

The invention relates to the technical field of building systems, in particular to a comprehensive energy-saving control method and a management system for automatic control equipment of an intelligent building.

Background

In life, we often see this phenomenon: in sunny days or under the condition of no people, the room is still bright in light and the electric appliances are still in working states, the phenomenon is more obvious in public offices or university classrooms, and few people can be aware of the working states of the electric appliances because users do not directly buy bills for the electric charges. Building energy conservation is a very important area of energy saving operations. The building energy consumption refers to energy consumption of buildings, including heating, air conditioning, hot water supply, illumination, cooking, household appliances, elevators and the like, wherein the energy consumption of the heating and the air conditioning accounts for about 60-70%. In China, only 1 percent of the existing buildings with the square meters of nearly 400 hundred million are energy-saving buildings, and the sustainable development is realized in national economy, so that the promotion of building energy saving is imperative and urgent. In energy consumption in buildings, public buildings are extremely huge in consumption, and due to the characteristics of public property, people have poor energy-saving consciousness, so that energy is still consumed under the unmanned condition, and the problems of inconvenience in saving electric energy and inconvenience in reducing energy consumption exist.

Disclosure of Invention

The invention aims to solve the defects that electric energy is not saved conveniently and energy consumption is not reduced conveniently in the prior art, and provides a pneumatic control valve for a dental machine system.

In order to achieve the purpose, the invention adopts the following technical scheme:

an automatic control device comprehensive energy-saving control method for an intelligent building comprises the following steps:

energy-saving control of the air conditioning system:

the air conditioner energy-saving control system comprises a first area and a second area, wherein the first area is a room located in the middle area of a building, the second area is an aisle and stair area located outside the building and surrounding the first area, the first area is provided with a first temperature sensor, and when the first temperature sensor detects that the temperature of the first area is lower than a set value, the central air conditioner conveys hot air into the first area through an air inlet; when the first temperature sensor detects that the temperature of the first area reaches a set value, the central air conditioner stops conveying hot air;

energy-saving control of a humidity system:

the humidity energy-saving control device comprises a humidity controller, a humidifier and a humidity sensor, wherein the humidifier is arranged on an air inlet pipe, the humidity sensor is arranged in a first area, and when the humidity detected by the humidity sensor is smaller than a set value, the humidifier works and humidifies the first area;

public lighting system energy-saving control:

detecting indoor and outdoor conditions in real time, turning off an illumination circuit in a room to be automatically disconnected after a certain time after determining that no person exists in the room, and turning off the illumination circuit in a corridor to be disconnected after a certain time when each room in the whole building has no person;

preferably, the air-conditioning energy-saving control device comprises an air circulation assembly, the air circulation assembly comprises an air exhaust pipe connected with the second area and an air chamber connected with the other end of the air exhaust pipe, and the central air-conditioning extracts air in the air chamber, heats the air and then conveys the air to the first area.

Preferably, the indoor and outdoor are respectively provided with an infrared detector, and the infrared detector or the sound sensor obtains indoor personnel activity signals.

The invention also provides an automatic control equipment comprehensive energy-saving management system of the intelligent building, which comprises a network control module, wherein the network control module is connected with an air conditioner control module, a humidity control module, an illumination control module, a power distribution control module and an alarm control module.

Preferably, the control module is connected with a first temperature detection module, a second temperature detection module and an air circulation module, the first temperature detection module is installed in the first area, and when the first temperature detection module detects that the temperature of the first area is lower than a set value, the central air conditioner conveys hot air into the first area through the air inlet; when the first temperature detection module detects that the temperature of the first area reaches a set value, the central air conditioner stops conveying hot air.

Preferably, the humidity control module is connected with a temperature detection module and a humidification control module, the humidity control module is installed in the first zone, when the humidity detection module detects that the humidity of the first zone is lower than a set value, the humidification control module starts the humidifier to humidify, and when the humidity of the first zone reaches the set value, the humidifier stops working.

Preferably, the lighting control module is connected with an infrared sensing module, a detection module and a driving control module, the infrared sensing module can sense personnel for detection, when the absence of the personnel in the room is determined, the driving control module enables the lighting circuit in the room to be automatically disconnected after a certain time, and when the detection module detects that the absence of the personnel in each room in the whole building is detected, the driving control module enables the lighting circuit in the corridor to be disconnected after a certain time.

Preferably, the power distribution control module is connected with a high-voltage power distribution detection module, a low-voltage power distribution detection module and a transformer control detection module.

Preferably, the alarm control module is connected with a fire alarm detection module and an entrance guard detection module, the fire alarm monitoring module is used for monitoring security state signals of each area in real time, and the entrance guard detection module is used for controlling entrance guard equipment of each entrance and exit of the building.

Compared with the prior art, the central air conditioner has the advantages that when the first temperature detection module detects that the temperature of the first area is lower than a set value, the central air conditioner conveys hot air into the first area through the air inlet; when the first temperature detection module detects that the temperature of the first area reaches a set value, the central air conditioner stops conveying hot air, so that when the temperature is too high, the central air conditioner is turned off to save energy, the humidity control module is installed in the first area, when the humidity detection module detects that the humidity of the first area is lower than the set value, the humidifier is started through the humidification control module to humidify, when the humidity of the first area reaches the set value, the humidifier stops working, the infrared sensing module can sense personnel to detect, after the absence of people in a room is determined, the control module is driven to automatically turn off an illumination circuit in the room after a certain time, when the detection module detects that no people exist in each room in the whole building, the control module is driven to turn off the illumination circuit in the corridor after a certain time, the illumination lamp is turned off to save electric energy, and the safety protection state signals of each area are monitored in real time, and the entrance guard detection module is used for controlling entrance guard equipment of each entrance and exit of the building.

The invention has reasonable design, simple structure and convenient operation, and can save electric energy and reduce the waste of energy sources by controlling the air conditioner, the humidifier and the illuminating lamp.

Drawings

Fig. 1 is a block diagram of an intelligent building automatic control device comprehensive energy-saving control method and a management system thereof according to the present invention.

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.

Referring to fig. 1, a comprehensive energy-saving control method for an automatic control device of an intelligent building includes the following steps:

energy-saving control of the air conditioning system:

the air conditioner energy-saving control system comprises a first area and a second area, wherein the first area is a room located in the middle area of a building, the second area is an aisle and stair area located outside the building and surrounding the first area, the first area is provided with a first temperature sensor, and when the first temperature sensor detects that the temperature of the first area is lower than a set value, the central air conditioner conveys hot air into the first area through an air inlet; when the first temperature sensor detects that the temperature of the first area reaches a set value, the central air conditioner stops conveying hot air;

energy-saving control of a humidity system:

the humidity energy-saving control device comprises a humidity controller, a humidifier and a humidity sensor, wherein the humidifier is arranged on an air inlet pipe, the humidity sensor is arranged in a first area, and when the humidity detected by the humidity sensor is smaller than a set value, the humidifier works and humidifies the first area;

public lighting system energy-saving control:

detecting indoor and outdoor conditions in real time, turning off an illumination circuit in a room to be automatically disconnected after a certain time after determining that no person exists in the room, and turning off the illumination circuit in a corridor to be disconnected after a certain time when each room in the whole building has no person;

the air-conditioning energy-saving control device comprises an air circulation assembly, wherein the air circulation assembly comprises an air exhaust pipe connected with the second area and an air chamber connected with the other end of the air exhaust pipe, and air in the air chamber extracted by the central air conditioner is heated and then conveyed to the first area.

In the invention, infrared detectors are arranged both indoors and outdoors, and the infrared detectors or sound sensors obtain indoor personnel activity signals.

The invention also provides an automatic control equipment comprehensive energy-saving management system of the intelligent building, which comprises a network control module, wherein the network control module is connected with an air conditioner control module, a humidity control module, an illumination control module, a power distribution control module and an alarm control module.

In the invention, a control module is connected with a first temperature detection module, a second temperature detection module and an air circulation module, the first temperature detection module is arranged in a first area, and when the first temperature detection module detects that the temperature of the first area is lower than a set value, a central air conditioner conveys hot air into the first area through an air inlet; when the first temperature detection module detects that the temperature of the first area reaches a set value, the central air conditioner stops conveying hot air.

In the invention, a humidity control module is connected with a temperature detection module and a humidification control module, the humidity control module is arranged in a first area, when the humidity detection module detects that the humidity of the first area is lower than a set value, a humidifier is started to humidify through the humidification control module, and when the humidity of the first area reaches the set value, the humidifier stops working.

According to the invention, the illumination control module is connected with the infrared sensing module, the detection module and the driving control module, the infrared sensing module can sense personnel for detection, when the absence of the personnel in a room is determined, the driving control module enables the illumination circuit in the room to be automatically disconnected after a certain time, and when the detection module detects that the absence of the personnel in each room in the whole building is detected, the driving control module enables the illumination circuit in the corridor to be disconnected after a certain time.

In the invention, the power distribution control module is connected with a high-voltage power distribution detection module, a low-voltage power distribution detection module and a transformer control detection module.

The system comprises an alarm control module, a fire alarm detection module, an entrance guard detection module, a fire alarm monitoring module and an entrance guard detection module, wherein the alarm control module is connected with the fire alarm detection module and the entrance guard detection module, the fire alarm monitoring module is used for monitoring security state signals of all areas in real time, and the entrance guard detection module is used for controlling entrance guard equipment of all entrances and exits of a building.

In the invention, when the first temperature detection module detects that the temperature of the first area is lower than a set value, the central air conditioner conveys hot air into the first area through the air inlet; when the first temperature detection module detects that the temperature of the first area reaches a set value, the central air conditioner stops conveying hot air, so that when the temperature is too high, the central air conditioner is turned off to save energy, the humidity control module is installed in the first area, when the humidity detection module detects that the humidity of the first area is lower than the set value, the humidifier is started through the humidification control module to humidify, when the humidity of the first area reaches the set value, the humidifier stops working, the infrared sensing module can sense personnel to detect, after the absence of people in a room is determined, the control module is driven to automatically turn off an illumination circuit in the room after a certain time, when the detection module detects that no people exist in each room in the whole building, the control module is driven to turn off the illumination circuit in the corridor after a certain time, the illumination lamp is turned off to save electric energy, and the safety protection state signals of each area are monitored in real time, entrance guard detection module for the entrance guard's equipment of each access & exit of control building through the control to air conditioner, humidifier, light, can practice thrift the electric energy, reduces the waste of energy

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. An automatic control device comprehensive energy-saving control method of an intelligent building is characterized by comprising the following steps;

energy-saving control of the air conditioning system:

the air conditioner energy-saving control system comprises a first area and a second area, wherein the first area is a room located in the middle area of a building, the second area is an aisle and stair area located outside the building and surrounding the first area, the first area is provided with a first temperature sensor, and when the first temperature sensor detects that the temperature of the first area is lower than a set value, the central air conditioner conveys hot air into the first area through an air inlet; when the first temperature sensor detects that the temperature of the first area reaches a set value, the central air conditioner stops conveying hot air;

energy-saving control of a humidity system:

the humidity energy-saving control device comprises a humidity controller, a humidifier and a humidity sensor, wherein the humidifier is arranged on an air inlet pipe, the humidity sensor is arranged in a first area, and when the humidity detected by the humidity sensor is smaller than a set value, the humidifier works and humidifies the first area;

public lighting system energy-saving control:

the indoor and outdoor detection is carried out in real time, when no person is in a room, the lighting circuit in the room is turned off after a certain time, and when no person is in each room in the whole building, the lighting circuit in the corridor is turned off after a certain time.

2. The method as claimed in claim 1, wherein the air-conditioning energy-saving control includes an air circulation module, the air circulation module includes an air exhaust pipe connected to the second area, and an air chamber connected to the other end of the air exhaust pipe, and the central air-conditioning extracts air from the air chamber and heats the air to deliver the air to the first area.

3. The method as claimed in claim 1, wherein the infrared detector, the infrared detector or the sound sensor is installed both indoors and outdoors to obtain the signal of the activity of the indoor personnel.

4. The comprehensive energy-saving management system for the automatic control equipment of the intelligent building is characterized by comprising a network control module, wherein the network control module is connected with an air conditioner control module, a humidity control module, an illumination control module, a power distribution control module and an alarm control module.

5. The automatic control equipment comprehensive energy-saving management system of the intelligent building is characterized in that the control module is connected with a first temperature detection module, a second temperature detection module and an air circulation module, the first temperature detection module is installed in the first area, and when the first temperature detection module detects that the temperature of the first area is lower than a set value, the central air conditioner conveys hot air into the first area through the air inlet; when the first temperature detection module detects that the temperature of the first area reaches a set value, the central air conditioner stops conveying hot air.

6. The system according to claim 4, wherein the humidity control module is connected to a temperature detection module and a humidification control module, the humidity control module is installed in the first zone, when the humidity detection module detects that the humidity in the first zone is lower than a set value, the humidification control module starts the humidifier to humidify, and when the humidity in the first zone reaches the set value, the humidifier stops working.

7. The system as claimed in claim 4, wherein the lighting control module is connected to an infrared sensor module, a detection module and a driving control module, the infrared sensor module can sense the absence of people, the driving control module automatically turns off the lighting circuit in the room after a certain time, and the driving control module turns off the lighting circuit in the corridor after a certain time when the detection module detects the absence of people in each room of the whole building.

8. The system according to claim 4, wherein the distribution control module is connected to a high voltage distribution detection module, a low voltage distribution detection module and a transformer control detection module.

9. The system according to claim 4, wherein the alarm control module is connected to a fire alarm detection module and an entrance guard detection module, the fire alarm detection module is used for monitoring the security status signals of each area in real time, and the entrance guard detection module is used for controlling the entrance guard equipment of each entrance and exit of the building.

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