CN110567107A - Regional control method, device and system and air conditioning system - Google Patents

Abstract

The application relates to a zone control method, a zone control device, a zone control system and an air conditioning system, wherein the method comprises the following steps: receiving a temperature information packet sent by a temperature controller in a sub-area, and analyzing the temperature information packet to obtain an address code and temperature information; obtaining the area code of the subregion where the temperature controller is located according to the address code and the stored pairing data of the temperature controller code and the area code; the temperature controller code and area code pairing data are obtained by binding the address code of the temperature controller and the area code of the subarea; and controlling the temperature of the subarea where the temperature controller is located according to the temperature information and the area code of the subarea where the temperature controller is located. Need not to set up the address through the inside dial switch of temperature controller, the cost is reduced to avoid producing regional control system control error's problem because of operating personnel's error, compare with traditional temperature controller pairing mode, improved regional control system's adaptability.

Description

Regional control method, device and system and air conditioning system

Technical Field

The present disclosure relates to the field of intelligent control technologies, and in particular, to a method, an apparatus, a system and an air conditioning system for area control.

background

Along with the improvement of the living standard of people, the air conditioner export market is increasingly expanded, due to the characteristic that some export countries have extensive and sparse people, houses are mostly in the form of villas and the like, and for some office places, office areas can be divided into small areas, and the area control system is derived according to the requirement. The regional control system realizes regional temperature control monitoring and control by installing a wireless temperature controller in each region. Due to the adoption of a wireless communication mode, the temperature controller and the air valve controller need to be matched so as to prevent the air valve controller from being influenced by an external temperature controller.

The traditional temperature controller matching mode is that different areas are distinguished by disassembling the temperature controller and adjusting the setting address of an internal dial switch. The air valve controller distinguishes the temperatures of different areas according to the address so as to control the air valves of the different areas. This method is inconvenient to operate, and if a user mistakenly adjusts two thermostats with the same address, or the addresses of adjacent thermostats are the same, a zone control system may be erroneously controlled due to an error of an operator, resulting in poor adaptability of the zone control system.

Disclosure of Invention

In view of the above, it is necessary to provide a zone control method, a zone control device, a zone control system, and an air conditioning system, which can improve the adaptability of the zone control system, in order to solve the problem that the adaptability of the zone control system is poor due to the conventional temperature controller pairing method.

A zone control method, comprising:

Receiving a temperature information packet sent by a temperature controller in a sub-area, and analyzing the temperature information packet to obtain an address code and temperature information;

Obtaining the area code of the subregion where the temperature controller is located according to the address code and the stored pairing data of the temperature controller code and the area code; the temperature controller code and area code matching data are obtained by binding the address code of the temperature controller and the area code of the subarea;

And controlling the temperature of the subarea where the temperature controller is located according to the temperature information and the area code of the subarea where the temperature controller is located.

In one embodiment, before receiving a temperature information packet sent by a temperature controller in a sub-area and analyzing the temperature information packet to obtain an address code and temperature information, the method further includes:

Acquiring temperature controller information of temperature controllers in each sub-area, sending the temperature controller information to an area control terminal, and receiving temperature controller codes and area code pairing data returned by the area control terminal for storage; the temperature controller information is used for binding the address code of the temperature controller in the area range and the area code of the subarea by the area control terminal to obtain temperature controller code and area code pairing data.

In one embodiment, the performing temperature control on the sub-area where the temperature controller is located according to the temperature information and the area code of the sub-area where the temperature controller is located includes:

Determining the subarea of the temperature controller according to the area code of the subarea of the temperature controller;

And adjusting the opening degree of an air valve in the sub-area where the temperature controller is located according to the temperature information, and controlling the temperature in the sub-area.

in one embodiment, the address code is obtained by setting a burning rolling code of the temperature controller.

An area control apparatus comprising:

The data receiving module is used for receiving a temperature information packet sent by the temperature controllers in the sub-areas and analyzing the temperature information packet to obtain address codes and temperature information;

The area identification module is used for acquiring the area code of the sub-area where the temperature controller is located according to the address code and the stored temperature controller code and area code pairing data;

And the temperature control module is used for controlling the temperature of the subarea where the temperature controller is located according to the temperature information and the area code of the subarea where the temperature controller is located.

A zone control system comprises an air valve controller, a temperature controller and air valves, wherein the temperature controller and the air valves are arranged in each sub-zone, the air valve controller is connected with the temperature controller and the air valves, and the air valve controller is used for controlling the temperature according to the method.

in one embodiment, the regional control system further includes a regional control terminal, the regional control terminal is connected to the air valve controller, and the regional control terminal is configured to receive the temperature controller information sent by the air valve controller, and bind the address code of the temperature controller and the regional code of the sub-region within the regional range according to the temperature controller information, so as to obtain paired data of the temperature controller code and the regional code, and send the paired data to the air valve controller for storage.

in one embodiment, the zone control terminal determines unbound temperature controllers within a zone range according to the temperature controller information, and displays address codes of the unbound temperature controllers; and receiving the area code of the sub-area input aiming at the displayed address code, and binding the address code with the area code.

in one embodiment, the area control terminal is further configured to unbind the bound address code from the area code according to the received unbinding instruction.

An air conditioning system comprises an air conditioner internal unit, an air conditioner external unit and the regional control system, wherein the air conditioner internal unit is connected with the air conditioner external unit and the air valve controller.

According to the zone control method, the zone control device, the zone control system and the air conditioning system, the address codes of the temperature controllers and the zone codes of the sub-zones are bound, and paired data of the temperature controller codes and the zone codes are obtained and stored. After receiving the temperature information package that the temperature controller sent in the subregion, the address coding that obtains according to the analysis and the temperature controller code that preserves pairs data with the region code can obtain the subregion of temperature controller place region code, and then confirm the subregion of temperature controller place, the temperature control is carried out to subregion of temperature controller place to the temperature information that combines the analysis to obtain, need not to set up the address through the inside dial switch of temperature controller, the cost is reduced, and avoided producing the problem of regional control system control error because of operating personnel's error, compare with traditional temperature controller pairing mode, regional control system's adaptability has been improved.

Drawings

FIG. 1 is a flow chart of a zone control method in an embodiment;

FIG. 2 is a flow chart of a zone control method in another embodiment;

FIG. 3 is a flow chart of a zone control method in yet another embodiment;

FIG. 4 is a block diagram of a zone control apparatus according to an embodiment;

FIG. 5 is a block diagram showing the structure of a zone control apparatus according to still another embodiment;

FIG. 6 is a schematic diagram of a zone control system according to an embodiment;

FIG. 7 is a schematic diagram of a control method for a regional control system in one embodiment;

FIG. 8 is a flow chart illustrating the pairing of the thermostat and the damper controller according to an embodiment.

Detailed Description

in order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In one embodiment, there is provided a zone control method, as shown in fig. 1, including:

step S120: and receiving a temperature information packet sent by the temperature controllers in the sub-areas, and analyzing the temperature information packet to obtain the address code and the temperature information.

Specifically, the temperature information packet sent by the temperature controller in the sub-area can be received by the air valve controller. The air valve controller can communicate with the temperature controllers in the sub-regions in an RF (Radio Frequency) mode to obtain temperature information packets, and the temperature information packets are analyzed to obtain address codes and temperature information, so that temperature adjustment can be correspondingly performed in combination with the acquired environment temperature of the sub-regions.

the address code is the unique identification information of the temperature controller, and specifically can be a combination of numbers and letters. The temperature information is obtained by detecting the environmental temperature of the sub-area where the temperature controller is located. The mode of setting the address code to the temperature controller is not unique, and in this embodiment, the address code is obtained by setting the burning rolling code to the temperature controller. A unique address code is set for each temperature controller in a burning rolling code mode, the problem of address repetition caused by manual address code setting is effectively avoided, and the operation is simple, convenient and reliable.

Step S130: and obtaining the area code of the sub-area where the temperature controller is located according to the address code and the stored temperature controller code and area code matching data.

the temperature controller code and the region code pairing data are obtained by binding the address code of the temperature controller and the region code of the sub-region. The area code is the only identification information of each subregion, specifically, the address code of the temperature controller of communication in the regional scope can be sent to the regional control terminal through the blast gate controller and is shown, operating personnel utilizes regional control terminal to bind the address code of each subregion temperature controller and the area code of subregion, then regional control terminal will bind the temperature controller code that generates after binding and the regional code is mated data feedback to the blast gate controller and is preserved. After the air valve controller analyzes the address code of the temperature controller, the area code of the sub-area where the temperature controller is located can be directly determined according to the stored temperature controller code and the area code matching data.

Step S140: and controlling the temperature of the subarea where the temperature controller is located according to the temperature information and the area code of the subarea where the temperature controller is located.

After the area code of the sub-area where the temperature controller is located is obtained, the air valve controller can directly control the temperature of the sub-area where the temperature controller is located according to the temperature data collected by the temperature controller. Specifically, the damper controller may adjust the temperature by adjusting the damper of the corresponding sub-zone. For example, a user can send the set temperature of each sub-area to the air valve controller through the area control terminal, and the air valve controller adjusts the opening degree of the air valve of the corresponding sub-area according to the temperature information acquired by the temperature controller, so that the environment temperature of the sub-area is maintained at the set temperature of the sub-area.

According to the area control method, the address codes of the temperature controllers and the area codes of the sub-areas are bound, and the pairing data of the temperature controller codes and the area codes are obtained and stored. After receiving the temperature information package that the temperature controller sent in the subregion, the address coding that obtains according to the analysis and the temperature controller code that preserves pairs data with the region code can obtain the subregion of temperature controller place region code, and then confirm the subregion of temperature controller place, the temperature control is carried out to subregion of temperature controller place to the temperature information that combines the analysis to obtain, need not to set up the address through the inside dial switch of temperature controller, the cost is reduced, and avoided producing the problem of regional control system control error because of operating personnel's error, compare with traditional temperature controller pairing mode, regional control system's adaptability has been improved.

In one embodiment, as shown in fig. 2, before step S120, the method may further include step S110.

Step S110: and acquiring temperature controller information of the temperature controllers in each sub-area, sending the temperature controller information to the area control terminal, and receiving temperature controller codes and area code pairing data returned by the area control terminal for storage.

The temperature controller information is used for binding the address code of the temperature controller in the area range and the area code of the subarea by the area control terminal to obtain temperature controller code and area code pairing data. Specifically, after a user installs the temperature controller in a required sub-area, the air valve controller receives a temperature controller signal of each sub-area within the area range and sends temperature controller information to the area control terminal. The temperature controller information may include information such as a name and an address code of the temperature controller. And the regional control terminal displays the address codes of the temperature controllers which can be searched by the air valve controller in the regional range on a man-machine interaction interface, and a user adds the regional codes to bind the temperature controllers with the sub-regions to generate temperature controller code and regional code pairing data and return the temperature controller code and regional code pairing data to the air valve controller. The address code of the temperature controller is displayed through the area control terminal, a user can easily finish pairing and binding the temperature controller only by binding the address code and the area code through the area control terminal, and the area corresponding to the temperature controller can be selected by the user, so that the use of the user is facilitated.

Further, in one embodiment, as shown in fig. 3, step S140 includes step S142 and step S144.

Step S142: and determining the sub-area of the temperature controller according to the area code of the sub-area of the temperature controller.

Step S144: and adjusting the opening degree of an air valve in the sub-area where the temperature controller is located according to the temperature information, and controlling the temperature in the sub-area.

specifically, the air valve controller is further connected with air valves in all sub-areas, and after the air valve controller determines the sub-area where the temperature controller is located, the opening degree of the air valve in the sub-area is adjusted according to the temperature information collected by the temperature controller, so that the temperature of the sub-area is adjusted.

In one embodiment, there is also provided a zone control apparatus, as shown in fig. 4, including a data receiving module 120, a zone identifying module 130, and a temperature control module 140.

The data receiving module 120 is configured to receive a temperature information packet sent by a temperature controller in a sub-area, and analyze the temperature information packet to obtain an address code and temperature information.

The area identification module 130 is configured to obtain an area code of a sub-area where the temperature controller is located according to the address code and the stored pairing data of the temperature controller code and the area code.

the temperature control module 140 is configured to control the temperature of the sub-area where the temperature controller is located according to the temperature information and the area code of the sub-area where the temperature controller is located.

In one embodiment, the temperature control module 140 determines the sub-area where the thermostat is located according to the area code of the sub-area where the thermostat is located. And adjusting the opening degree of an air valve in the sub-area where the temperature controller is located according to the temperature information, and controlling the temperature in the sub-area.

in an embodiment, as shown in fig. 5, the apparatus further includes an information obtaining module 110, where the information obtaining module 110 is configured to obtain the temperature controller information of the temperature controllers in the respective sub-areas and send the temperature controller information to the area control terminal before the data receiving module 120 receives the temperature information packet sent by the temperature controllers in the sub-areas and analyzes the temperature information packet to obtain the address code and the temperature information, and receive the pairing data of the temperature controller code and the area code returned by the area control terminal to store the pairing data. The temperature controller information is used for binding the address code of the temperature controller in the area range and the area code of the subarea by the area control terminal to obtain temperature controller code and area code pairing data.

For the specific definition of the area control device, reference may be made to the above definition of the area control method, which is not described herein again. The respective modules in the area control device described above may be implemented in whole or in part by software, hardware, and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

According to the area control method, the address codes of the temperature controllers and the area codes of the sub-areas are bound, and the pairing data of the temperature controller codes and the area codes are obtained and stored. After receiving the temperature information package that the temperature controller sent in the subregion, the address coding that obtains according to the analysis and the temperature controller code that preserves pairs data with the region code can obtain the subregion of temperature controller place region code, and then confirm the subregion of temperature controller place, the temperature control is carried out to subregion of temperature controller place to the temperature information that combines the analysis to obtain, need not to set up the address through the inside dial switch of temperature controller, the cost is reduced, and avoided producing the problem of regional control system control error because of operating personnel's error, compare with traditional temperature controller pairing mode, regional control system's adaptability has been improved.

In one embodiment, a zone control system is further provided, as shown in fig. 6, which includes a blast gate controller 210, a thermostat and a blast gate, the thermostat and the blast gate are disposed in each sub-zone, the blast gate controller connects the thermostat and the blast gate, and the blast gate controller 210 is used for temperature control according to the above method. Wherein, for example, the sub-regions include a region 1 to a region n, and each sub-region is respectively provided with a temperature controller 1 to a temperature controller n and an air valve 1 to an air valve n. The damper controller 210 is connected to the temperature controllers 1 to n and the dampers 1 to n, and controls the dampers of the corresponding sub-areas according to the temperature information packets uploaded by the temperature controllers of the sub-areas.

In an embodiment, the zone control system further includes a zone control terminal 220, the zone control terminal 220 is connected to the air valve controller 210, and the zone control terminal 220 is configured to receive the temperature controller information sent by the air valve controller 210, and bind the address code of the temperature controller within the zone range and the zone code of the sub-zone according to the temperature controller information, so as to obtain paired data of the temperature controller code and the zone code, and send the paired data to the air valve controller 210 for storage.

further, in one embodiment, the zone control terminal 220 determines unbound thermostats within the zone range according to the thermostat information, and displays the address codes of the unbound thermostats; and receiving the area code of the sub-area input aiming at the displayed address code, and binding the address code with the area code.

Wherein, the address code of each temperature controller can be informed to the user by way of printed matters and the like. After the user installs the thermostat in the sub-area, the user selects to add the thermostat through the man-machine interface of the area control terminal 220, and the damper controller 210 sends the received information of all the thermostats to the area control terminal 220. The zone control terminal 220 displays the temperature controllers which can be searched by the air valve controllers 210 in the zone range and are not paired and bound on a man-machine interaction interface, a user checks the address codes of the temperature controllers according to modes such as printed matter packaging and the like, and the temperature controllers corresponding to the address codes are selected in a pairable temperature controller list of the zone control terminal 220. After the addition is successful, the user can select the zone code of the thermostat to bind the address code and the zone code. The area codes are used for distinguishing different sub-areas, and the area codes correspond to the air valves of the sub-areas one by one.

In this embodiment, the area control terminal 220 displays the address code of the unbound temperature controller for binding and pairing by the user, thereby avoiding the problem that the same temperature controller binds a plurality of different sub-areas, and improving the accuracy of area control.

in addition, when the user selects the zone code of the thermostat, the zone control terminal 220 may also display only the zone codes of the remaining unbound thermostats through the human-machine interface. The zone control terminal 220 only displays the zone code of the unbound temperature controllers, and can also avoid binding a plurality of different temperature controllers in the same sub-zone, thereby improving the accuracy of zone control.

in one embodiment, the area control terminal 220 is further configured to unbind the bound address code from the area code according to the received unbinding instruction. Specifically, the user may control the area control terminal 220 to display all the bound address codes and area codes on the human-computer interaction interface, and select a corresponding address code and area code to perform unbinding, for example, delete the bound address code or area code, and input a new area code, thereby implementing rebinding of the address code and area code.

In this embodiment, the zone control terminal 220 can simultaneously support the binding and contact binding functions of the address code and the zone code, so that the user can easily complete the pairing and binding of the temperature controller only by binding the address code and the zone code through the zone control terminal 220, and can change the sub-zone where the temperature controller is located to automatically select the zone corresponding to the temperature controller.

According to the area control system, the address codes of the temperature controllers and the area codes of the sub-areas are bound, and the obtained temperature controller codes and the area codes are paired to obtain data to be stored. After receiving the temperature information package that the temperature controller sent in the subregion, the address coding that obtains according to the analysis and the temperature controller code that preserves pairs data with the region code can obtain the subregion of temperature controller place region code, and then confirm the subregion of temperature controller place, the temperature control is carried out to subregion of temperature controller place to the temperature information that combines the analysis to obtain, need not to set up the address through the inside dial switch of temperature controller, the cost is reduced, and avoided producing the problem of regional control system control error because of operating personnel's error, compare with traditional temperature controller pairing mode, regional control system's adaptability has been improved.

In one embodiment, an air conditioning system is also provided, as shown in fig. 6, which includes an air conditioner indoor unit 310, an air conditioner outdoor unit 320, and the above zone control system, wherein the air conditioner indoor unit 310 is connected to the air conditioner outdoor unit 320 and the air valve controller 210. Further, the air valve controller 210 may be connected to an outdoor unit 320 of an air conditioner. In addition, the air conditioning system further comprises an air pipe 330, the air conditioner internal unit 310 is connected with the air valve of each sub-area through the air pipe 330, the air quantity is conveyed to each sub-area, and the temperature control of each sub-area is realized by combining the adjustment of the opening degree of the air valve.

According to the air conditioning system, the address code of the temperature controller and the area code of the sub-area are bound, and the obtained temperature controller code and the area code pairing data are stored. After receiving the temperature information package that the temperature controller sent in the subregion, the address coding that obtains according to the analysis and the temperature controller code that preserves pairs data with the region code can obtain the subregion of temperature controller place region code, and then confirm the subregion of temperature controller place, the temperature control is carried out to subregion of temperature controller place to the temperature information that combines the analysis to obtain, need not to set up the address through the inside dial switch of temperature controller, the cost is reduced, and avoided producing the problem of regional control system control error because of operating personnel's error, compare with traditional temperature controller pairing mode, regional control system's adaptability has been improved.

In order to better understand the zone control method, the zone control device, the zone control system and the air conditioning system, the following detailed description is made with reference to specific embodiments.

According to the area control method, the device and the system as well as the air conditioning system, the address code is set in a rolling code burning mode inside the temperature controller, and the air valve controller distinguishes areas according to the relation between the address code and the area code. The user can easily finish pairing and binding the temperature controller only by binding the address code and the zone code through the zone control terminal, and can select the zone corresponding to the temperature controller by self. The temperature controller is internally provided with no dial switch, so that the cost is reduced, the problem of the temperature controller with two identical addresses is solved, the operation is more humanized, and the adaptability of a regional control system is improved.

as shown in fig. 6, the zone control system may use one air conditioner indoor unit 210 and one air conditioner outdoor unit 20 to achieve different set temperatures for each sub-zone. The temperature controllers of each subarea are bound and unbound through one key, so that the temperature controllers of each subarea do not influence each other.

the control method is shown in fig. 7, when the temperature controllers are produced, the chip rolling code burning function is used, and unique address codes are set for each temperature controller. The address code may inform the user of the address code of the thermostat by way of printing, but the mode is not limited to this. In order to reduce the power consumption of the thermostat, the thermostat only has the function of sending a message packet. The information packet contains at least an address code and temperature information. If the thermostat has a function of receiving a packet, the sleep mode cannot be performed, and thus power consumption increases. The user installs the temperature controller in the required subregion, and blast gate controller can continuously receive the information package of temperature controller.

Firstly, a user selects to add a temperature controller through a human-computer interaction interface of a regional control terminal. The air valve controller continuously receives the temperature controller signals of all the sub-areas, wherein the signals comprise signals sent by the temperature controllers which are not paired and bound. The air valve controller sends the received information of all the temperature controllers to the regional control terminal, and the regional control terminal can display the temperature controllers which are not paired and bound and can be searched by the air valve controller in the regional range on a human-computer interaction interface. The user looks over the address code of temperature controller according to modes such as printed matter packing to can match the temperature controller list selection corresponding address code at regional control terminal. After successful addition, the user should select the zone code of the thermostat. The area codes are used for distinguishing different sub-areas, and the area codes correspond to the air valves of the sub-areas one by one. And after the user binds the address code of the temperature controller with the area code of the sub-area, displaying that the pairing is successful. And secondly, after the matching process, the air valve controller periodically receives a temperature information packet of the temperature controller, and the air valve controller acquires the area code corresponding to the address code of the temperature controller from the area control terminal, so that the area code of the area where the temperature controller is located can be obtained. And thirdly, controlling the air valve with the same area code by the air valve controller according to the obtained area code, thereby realizing the temperature control of different areas.

As shown in fig. 8, it is assumed that the area code of the current sub-area is 1, one air valve is installed, the area code is also set to 1, and the factory address code of the temperature controller is 123. The thermostat is installed in sub-area 1 and the air valve controller receives the thermostat information packet with address code 123. The user uses the function of adding and binding the temperature controller through the regional control terminal, selects the address code 123 temperature controller to bind, and selects the region code as 1. The damper controller thus controls the dampers of region code 1 based on the packets of address code 123.

The user can pair and bind a new temperature controller by the method, and can select to unbind the temperature controller at the area control terminal or exchange the position of the temperature controller in the area. In order to avoid binding a plurality of temperature controllers in the same sub-area, when a user selects the area code of the temperature controller, the human-computer interaction interface of the area control terminal only displays the remaining areas which are not bound with the temperature controller, and the condition that the air valve controller receives two pieces of temperature controller information from the same area code to generate error control is avoided.

Since both binding and unbinding thermostat are user settable, there is no external thermostat interference. By using the control method of the regional control system, a dial switch is removed, the user operation is simple, the cost is effectively reduced, the adaptability of the regional control system is high, and the user experience is improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. a zone control method, comprising:

Receiving a temperature information packet sent by a temperature controller in a sub-area, and analyzing the temperature information packet to obtain an address code and temperature information;

Obtaining the area code of the subregion where the temperature controller is located according to the address code and the stored pairing data of the temperature controller code and the area code; the temperature controller code and area code matching data are obtained by binding the address code of the temperature controller and the area code of the subarea;

And controlling the temperature of the subarea where the temperature controller is located according to the temperature information and the area code of the subarea where the temperature controller is located.

2. the area control method according to claim 1, wherein before receiving the temperature information packet sent by the temperature controller in the sub-area and analyzing the temperature information packet to obtain the address code and the temperature information, the method further comprises:

acquiring temperature controller information of temperature controllers in each sub-area, sending the temperature controller information to an area control terminal, and receiving temperature controller codes and area code pairing data returned by the area control terminal for storage; the temperature controller information is used for binding the address code of the temperature controller in the area range and the area code of the subarea by the area control terminal to obtain temperature controller code and area code pairing data.

3. the area control method of claim 1, wherein the performing temperature control on the sub-area where the temperature controller is located according to the temperature information and the area code of the sub-area where the temperature controller is located comprises:

Determining the subarea of the temperature controller according to the area code of the subarea of the temperature controller;

And adjusting the opening degree of an air valve in the sub-area where the temperature controller is located according to the temperature information, and controlling the temperature in the sub-area.

4. The zone control method according to any one of claims 1 to 3, wherein the address code is obtained by setting a burn rolling code for the thermostat.

5. An area control apparatus, comprising:

The data receiving module is used for receiving a temperature information packet sent by the temperature controllers in the sub-areas and analyzing the temperature information packet to obtain address codes and temperature information;

The area identification module is used for acquiring the area code of the sub-area where the temperature controller is located according to the address code and the stored temperature controller code and area code pairing data;

And the temperature control module is used for controlling the temperature of the subarea where the temperature controller is located according to the temperature information and the area code of the subarea where the temperature controller is located.

6. A zone control system comprising a thermostat and a damper, said thermostat and said damper being located in each sub-zone, said damper controller connecting said thermostat and said damper, said damper controller being adapted for temperature control according to the method of any of claims 1-4.

7. The zone control system according to claim 6, further comprising a zone control terminal, wherein the zone control terminal is connected to the air valve controller, and the zone control terminal is configured to receive the temperature controller information sent by the air valve controller, and bind the address code of the temperature controller and the zone code of the sub-zone within the zone range according to the temperature controller information, and send the obtained temperature controller code and zone code pairing data to the air valve controller for storage.

8. The zone control system according to claim 7, wherein the zone control terminal determines unbound thermostats within a zone range according to the thermostat information and displays an address code of the unbound thermostats; and receiving the area code of the sub-area input aiming at the displayed address code, and binding the address code with the area code.

9. The zone control system according to claim 7, wherein the zone control terminal is further configured to unbind the bound address code from the zone code according to the received unbinding instruction.

10. An air conditioning system, comprising an air conditioner indoor unit, an air conditioner outdoor unit and the zone control system as claimed in any one of claims 6 to 9, wherein the air conditioner indoor unit is connected with the air conditioner outdoor unit and the air valve controller.