CN206817703U - A kind of energy-saving wireless sensor network central air-conditioning temperature control system - Google Patents

Abstract

The utility model discloses an energy-saving wireless sensor network central air-conditioning temperature control system, which comprises a user control terminal, a central air-conditioning temperature control center and more than two central air-conditioning temperature controllers; the central air-conditioning temperature control center is installed on the building The central air-conditioning management center of the building; the number of central air-conditioning temperature controllers matches the number of rooms in the building, and one central air-conditioning temperature controller is installed in each room; the user control terminal communicates with the central air-conditioning temperature master control center through the Internet Connection; the central air-conditioning temperature master control center is connected with all central air-conditioning temperature controllers through ZigBee wireless network. The utility model can properly control the opening or closing of the central air conditioner in the room according to the needs, so as to avoid the waste of electric energy caused by the uncontrolled use of the central air conditioner in the room, so as to achieve the purpose of saving electric energy.

Description

An energy-saving wireless sensor network central air-conditioning temperature control system

technical field

The utility model relates to the technical field of central air-conditioning, in particular to an energy-saving wireless sensor network central air-conditioning temperature control system.

Background technique

With the development of urbanization in our country, various modern buildings are also increasing, and central air-conditioning is also being used more, which creates a comfortable environment for people and also causes a lot of energy consumption. According to statistics, in buildings equipped with central air-conditioning, the energy consumption of central air-conditioning accounts for more than 60% of the energy consumption of the entire building. In addition, most of the central air-conditioning temperature controllers currently on the market are single and decentralized controllers, which do not have the function of online intelligent control and management, and do not have the ability to detect when there is no one in the room for a long time, and then automatically adjust the work of the air conditioner Mode, working state or automatic shutdown function, also does not have the function of automatically adjusting the working state of the air conditioner according to the number of people in the room. Therefore, the existing central air conditioner is basically manually controlled by the personnel entering the room. This control method lacks reasonable control and management. It often occurs that the indoor temperature is suitable but the air conditioner is turned on, and the air conditioner is forgotten to be turned off after leaving, or the temperature of the air conditioner is turned on very high or very high. Therefore, the effective utilization rate of indoor central air-conditioning is not high, resulting in a serious waste of electric energy, which is extremely inconsistent with the theme of "energy saving, low-carbon environmental protection, and sustainable development" advocated by today's society.

According to literature review, there are many existing utility model patents for central air-conditioning temperature controllers, but there are deficiencies in all of them. For example: the Chinese utility model patent with the notification number CN201322413Y discloses a multi-functional area temperature controller for floor central air-conditioning, which can control floor heating and fan-coil cooling separately or simultaneously, fully utilizing the respective functions of floor heating and fan-coil heating. The advantages. The Chinese utility model patent with the announcement number CN201909414U discloses a new type of central air-conditioning infrared remote control temperature controller, which solves the problem that the current traditional central air-conditioning temperature controller cannot realize that when any indoor fan in the room is turned on, the outdoor refrigeration main unit Also be able to automatically start the job at the same time. The Chinese utility model patent with the notification number CN205037501U discloses a central air-conditioning fan coil temperature controller, which realizes automatic adjustment of fan speed and fan outlet size according to user settings to control indoor temperature. But the defect of these above-mentioned patents is that: only the user in the room can control the air conditioner, if the user has low awareness of energy conservation or forgets to turn off the air conditioner, it will cause huge waste of energy, and remote control and management cannot be performed. The Chinese utility model patent with the notification number CN204757281U discloses an energy-saving central air-conditioning temperature controller, which can communicate with a remote computer to adjust the indoor temperature. However, this patent uses a wired RS485 communication mode, which is not suitable for It is used in occasions where it is difficult to lay communication cables.

Utility model content

The technical problem to be solved by the utility model is the problem of energy waste caused by single and decentralized control of the existing central air conditioner, and an energy-saving wireless sensor network central air conditioner temperature control system is provided.

In order to solve the above problems, the utility model is achieved through the following technical solutions:

An energy-saving wireless sensor network central air-conditioning temperature control system, including a user control terminal, a central air-conditioning temperature control center and more than two central air-conditioning temperature controllers; the central air-conditioning temperature control center is installed in the central air-conditioning of the building Indoor of the management center; the number of central air-conditioning temperature controllers matches the number of rooms in the building, and one central air-conditioning temperature controller is installed in each room; the user control terminal is connected to the central air-conditioning temperature master control center through the Internet; the central air-conditioning The temperature master control center is connected with all central air-conditioning temperature controllers through ZigBee wireless network.

In the above scheme, the central air-conditioning temperature master control center is mainly composed of master control microprocessor, master control ZigBee module, master control GSM module, master control WiFi module and master control clock module; master control clock module is connected with master control microprocessor ; The total control GSM module and the total control WiFi module are connected to the total control microprocessor at the same time, and the total control microprocessor is connected to the user control terminal through the total control GSM module or the total control WiFi module; the total control ZigBee module is connected to the total control micro On the processor, the master control microprocessor is connected with the central air-conditioning temperature controller through the master control ZigBee module.

In the above solution, the central air-conditioning temperature master control center further includes a master control voice module, and the master control voice module is connected with the master control microprocessor.

In the above scheme, each central air-conditioning temperature controller is mainly composed of a sub-control microprocessor, a sub-control ZigBee module, a sub-control WiFi module, a sub-control relay module, a sub-control temperature and humidity sensor and a sub-control human body infrared sensor; The humidity sensor and the sub-control human body infrared sensor are connected to the sub-control microprocessor; the sub-control microprocessor is connected to the fan coil control end of the central air conditioner through the sub-control relay module; the sub-control WiFi module is connected to the sub-control microprocessor, The sub-control microprocessor is connected to the user control terminal through the sub-control WiFi module; the sub-control ZigBee module is connected to the sub-control microprocessor, and the sub-control microprocessor is connected to the central air-conditioning temperature master control center through the sub-control ZigBee module.

In the above solution, each central air-conditioning temperature controller further includes a sub-control voice module, and the sub-control voice module is connected with the sub-control microprocessor.

In the above solution, each central air-conditioning temperature controller further includes a sub-control human-computer interaction module, and the sub-control human-computer interaction module is connected with the sub-control microprocessor.

In the above solution, the user control terminal is a mobile phone or a PC.

Compared with the prior art, the utility model has the following characteristics:

1. Select different networks to realize the organic networking of the user control terminal, the central air-conditioning temperature control center and the central air-conditioning temperature controller, so that it can properly control the opening or closing of the central air-conditioning in the room according to the needs, and avoid the central air-conditioning in the room. The problem of waste of electric energy caused by the unrestrained use of electricity, in order to achieve the purpose of saving electric energy.

2. Due to the adoption of ZigBee module and WiFi module, not only the central air-conditioning temperature control system has simple structure, reliable performance, low cost and easy installation, no need to lay communication cables, it is suitable for occasions where laying communication cables is difficult; and management personnel can pass through Mobile phones or PCs can remotely manage and control the working conditions of central air conditioners in rooms equipped with central air conditioner temperature controllers (such as classrooms or offices in teaching buildings, hotel rooms or offices, etc.), without having to visit the site in person, which can save money. The manpower and material resources of the manager, thus saving electric energy.

3. Due to the use of human body infrared sensors, not only the central air-conditioning temperature controller can intelligently manage the temperature in the room, but when there is no one in the room, it can be shut down intelligently according to the mode set by the manager, so as to achieve "energy saving, low carbon "Environmental protection, sustainable development"; and the central air-conditioning temperature controller can automatically adjust the working status or working mode of the air-conditioning according to the number of people in the room.

4. The central air-conditioning temperature master control center and the central air-conditioning temperature controller have the functions of voice playback and voice collection, so that they can play the current environmental parameters (temperature and humidity), time, etc. in the room according to the user's settings, and can also be turned on Conversation function, calling the front desk or sentry box, etc.

Description of drawings

Figure 1 is a functional block diagram of an energy-saving wireless sensor network central air-conditioning temperature control system.

Figure 2 is a functional block diagram of the central air-conditioning temperature master control center.

Figure 3 is a functional block diagram of the central air-conditioning temperature controller.

detailed description

An energy-saving wireless sensor network central air-conditioning temperature control system, as shown in Figure 1, the system includes a user control terminal, a central air-conditioning temperature master control center and more than two central air-conditioning temperature controllers. The central air-conditioning temperature master control center is installed in the central air-conditioning management center of the building to control and manage the central air-conditioning temperature of the entire building. The number of central air-conditioning temperature controllers matches the number of rooms in the building. One central air-conditioning temperature controller is installed in each room to adjust the temperature and wind speed of the air-conditioning in each room. The central air-conditioning temperature master control center is connected to all central air-conditioning temperature controllers through the ZigBee wireless network, and the central air-conditioning temperature master control center and the central air-conditioning temperature controllers use the ZigBee wireless network for data and command interaction. The user control terminal is connected with the central air-conditioning temperature master control center through the Internet.

The user control terminal is a mobile phone or a PC. The central air-conditioning temperature master control center can combine the user control terminal to realize the control and management of the central air-conditioning temperature controller of the whole building at any time, and can also view or modify the temperature of the central air-conditioning in the room of the whole building through the user control terminal. set up. Once the setting is completed, the central air-conditioning temperature master control center can work independently without the user control terminal. Managers can use the central air-conditioning temperature master control center to monitor the central air-conditioning temperature controllers in each room through the ZigBee wireless network, grasp the usage in real time, and also control the central air-conditioning temperature controllers through the central air-conditioning temperature master control center , start the central air-conditioning temperature controller, turn on the central air-conditioning in each room, set the temperature, wind speed, working mode, timing automatic shutdown and other parameters of the central air-conditioning temperature controller. Users in the room can set the temperature, wind speed, time, and working mode through the touch screen on the central air-conditioning temperature controller, or use the mobile APP to set these parameters through WiFi, which is easy to operate.

Referring to Figure 2, the central air-conditioning temperature master control center is composed of a master control microprocessor, a master control ZigBee module, a master control GSM module, a master control WiFi module, a master clock module and a master voice module. The general control GSM module and the general control WiFi module are connected to the general control microprocessor at the same time, and the general control microprocessor is connected to the user control terminal through the general control GSM module or the general control WiFi module to exchange data and commands. The master control ZigBee module is connected to the master control microprocessor, and the master control microprocessor is connected with the central air-conditioning temperature controller through the master control ZigBee module to exchange data and commands. The high-precision general control clock module is connected with the general control microprocessor, so that the current date can be accurately sent into the general control microprocessor. The master control voice module is connected with the master control microprocessor, so that managers can use voice to broadcast the usage of the central air conditioner in the whole building, and can also communicate with users in each room through the voice module.

Referring to Figure 3, each central air-conditioning temperature controller is mainly composed of a sub-control microprocessor, a sub-control ZigBee module, a sub-control WiFi module, a sub-control relay module, a sub-control temperature and humidity sensor, a sub-control human body infrared sensor, a sub-control voice module And sub-control human-computer interaction module.

The sub-control human-computer interaction module is connected with the sub-control microprocessor. The user can enter the setting menu through the human-computer interaction module to set the temperature and wind speed of the room air conditioner, switch the working mode of the air conditioner, and shut down the air conditioner at a fixed time. It can also display the air condition in the room. Parameters such as temperature and humidity, wind speed of the air conditioner, and working mode of the air conditioner.

The sub-control temperature and humidity sensor and the sub-control human body infrared sensor are connected with the sub-control microprocessor. The sub-control microprocessor controls the sub-control temperature and humidity sensor to collect the temperature and humidity values in the room. When the indoor temperature reaches the set temperature value, the fan is turned off, and when the indoor temperature is lower or higher than the set temperature, the fan is started to deliver heating or cooling air. When the temperature controller of the central air conditioner works in the automatic mode, when the indoor temperature is far from the set temperature value, start the fan to send air at high level, and then adjust the working gear of the fan in real time according to the temperature value in the room (the gear of the fan Divided into high-grade, medium-grade, low-grade), in order to achieve the purpose of saving electric energy. The sub-control microprocessor controls the sub-control human body infrared sensor to collect the number of people in the room. When it detects that people's activities have decreased, the central air-conditioning temperature controller intelligently adjusts parameters such as fan speed and set temperature. For example, when people are sleeping, intelligently switch the working mode of the central air-conditioning temperature controller to avoid human discomfort caused by too low or too high temperature. It is also possible to set the working mode according to the need to detect whether there is any human activity in the room at regular intervals (the time value can be set according to the user's needs). Turn off the fan coil unit to achieve the purpose of saving electric energy.

The output end of the sub-control microprocessor is connected with the fan coil control end of the central air conditioner via the sub-control relay module. The three normally open control output terminals of the sub-control relay module are respectively connected to the high, medium and low gears of the fan coil unit. After the incoming command is analyzed and processed, the sub-control relay module is controlled and operated, thereby switching the gear of the fan coil unit to change the wind speed of the air conditioner.

The sub-control WiFi module is connected to the sub-control microprocessor, and the sub-control microprocessor is connected with the user control terminal through the sub-control WiFi module, so that the user can use the user control terminal to control the temperature, wind speed, time and Set parameters such as working mode. The sub-control ZigBee module is connected to the sub-control microprocessor, and the sub-control microprocessor is connected with the central air-conditioning temperature master control center through the sub-control ZigBee module to exchange data and commands.

The sub-control voice module is connected with the sub-control microprocessor. The sub-control voice module has the function of playing and collecting voice. According to the user's settings, it can play the current environmental parameters (temperature and humidity), time, etc. in the room, and can also start a dialogue function, call the front desk or sentry box, etc. After the central air-conditioning temperature controller is connected to the Internet, you can also consult the information around the building by voice, and then display it on the LCD screen, and you can query hotels, hotels, banks, supermarkets, etc. around the building. Shopping malls and other places are convenient for shopping and traveling.

The utility model can not only automatically control and manage the central air-conditioning temperature controllers of hotel rooms and offices, school offices and classrooms, enterprise offices and other building rooms equipped with central air-conditioning through the wireless sensor network, but also the central air-conditioning of building rooms The temperature controller can also control the central air-conditioning in the room according to the temperature, wind speed and the number of people in the room set by the user, so as to save energy and save the manpower and material resources of the manager.

The above-mentioned embodiments are only specific examples for further specifying the purpose, technical solutions and beneficial effects of the utility model of the present invention, and the utility model is not limited thereto. All modifications, equivalent replacements, improvements, etc. made within the disclosed scope of the present utility model are included in the protection scope of the present utility model.

Claims (7)

1. An energy-saving wireless sensor network central air-conditioning temperature control system is characterized in that: it comprises a user control terminal, a central air-conditioning temperature total control center and more than two central air-conditioning temperature controllers; the central air-conditioning temperature total control center is installed In the central air-conditioning management center of the building; the number of central air-conditioning temperature controllers matches the number of rooms in the building, and one central air-conditioning temperature controller is installed in each room; the user control terminal communicates with the central air-conditioning temperature summary through the Internet. Control center connection; central air-conditioning temperature master control center is connected with all central air-conditioning temperature controllers through ZigBee wireless network. 2. A kind of energy-saving wireless sensor network central air-conditioning temperature control system according to claim 1 is characterized in that: the central air-conditioning temperature total control center is mainly composed of a total control microprocessor, a total control ZigBee module, a total control GSM module, The master control WiFi module and the master control clock module are composed; the master control clock module is connected with the master control microprocessor; the master control GSM module and the master control WiFi module are simultaneously connected to the master control microprocessor, and the master control microprocessor The GSM module or the master control WiFi module is connected to the user control terminal; the master control ZigBee module is connected to the master control microprocessor, and the master control microprocessor is connected to the central air-conditioning temperature controller through the master control ZigBee module. 3. A kind of energy-saving wireless sensor network central air-conditioning temperature control system according to claim 2, characterized in that: the central air-conditioning temperature total control center also further includes a total control voice module, and the total control voice module and the total control micro-processing device connection. 4. A kind of energy-saving wireless sensor network central air-conditioning temperature control system according to claim 1, is characterized in that: each central air-conditioning temperature controller is mainly composed of sub-control microprocessor, sub-control ZigBee module, sub-control WiFi module , sub-control relay module, sub-control temperature and humidity sensor and sub-control human body infrared sensor; sub-control temperature and humidity sensor and sub-control human body infrared sensor are connected with sub-control microprocessor; sub-control microprocessor is connected with central The fan coil control terminal of the air conditioner is connected; the sub-control WiFi module is connected to the sub-control microprocessor, and the sub-control microprocessor is connected to the user control terminal through the sub-control WiFi module; the sub-control ZigBee module is connected to the sub-control microprocessor , the sub-control microprocessor is connected with the central air-conditioning temperature master control center through the sub-control ZigBee module. 5. A kind of energy-saving wireless sensor network central air-conditioning temperature control system according to claim 4, characterized in that: each central air-conditioning temperature controller further includes a sub-control voice module, and the sub-control voice module is connected with the sub-control micro Processor connection. 6. An energy-saving wireless sensor network central air-conditioning temperature control system according to claim 4, characterized in that: each central air-conditioning temperature controller further includes a sub-control human-computer interaction module, and the sub-control human-computer interaction module Connect with sub-controlling microprocessor. 7. An energy-saving wireless sensor network central air-conditioning temperature control system according to claim 1, wherein the user control terminal is a mobile phone or a PC.