KR102179455B1 - Multi split air conditioner system and control method thereof - Google Patents

Abstract

A multi-split air conditioner system and control method, the control method comprising: acquiring an outdoor environment temperature when receiving an open command of an indoor unit (S110); Determining whether the outdoor environment temperature is in a preset temperature range (S120); If the outdoor environment temperature is in a preset temperature range, determining an operation mode of the multi-split air conditioner system according to the operation condition of each indoor unit (S130).

Description

Multi split air conditioner system and control method thereof

This application was filed on the basis of a Chinese patent application whose application number is 201610840220.4 and the filing date is September 21, 2016, claims priority to the Chinese patent application, and uses the entire contents of the Chinese patent application for this application. .

The present invention relates to the field of air conditioning, and more particularly, to a multi-split air conditioning system and a control method thereof.

A multi-split type air conditioner system is a system in which one or several outdoor units are connected in parallel, and several air conditioning indoor units are arranged and used, and the indoor units are independently controlled. Common modes of operation include cooling, heating, and blowing. However, in the same system, since the outdoor unit can operate in only one mode, cooling and heating cannot be operated simultaneously. Because each person has a different experience, some people try to turn on the cooling mode and some people try to turn on the heating mode during the transient season. At this time, one mode priority must be set for the air conditioner system, and the system first operates the mode. Currently, the preferred mode for each air conditioner manufacturer is generally prioritizing cooling or heating. However, since this method has certain limitations, most of the users' demands cannot be satisfied, and the user's experience is not good.

The main object of the present invention is to provide a multi-split air conditioner system and a control method thereof so as to avoid the collision of the operation modes of the multi-split air conditioner system.

In order to achieve the above object, the control method of the multi-split air conditioner system provided by the present invention,

Obtaining an outdoor environment temperature when receiving an open command of the indoor unit;

Determining whether the outdoor environment temperature is in a preset temperature range;

And determining an operation mode of the multi-split air conditioner system according to an operation condition of each opened indoor unit when the outdoor environment temperature is in a preset temperature range.

Preferably, when the outdoor environment temperature is in a preset temperature range, determining the operation mode of the multi-split air conditioner system according to the operation condition of each indoor unit includes:

When the outdoor environment temperature is in a preset temperature range, determining whether an already opened indoor unit exists;

Determining whether or not the priority level of the indoor unit that has sent an open command is highest when there is an already opened indoor unit;

When the priority level of the indoor unit that has sent the open command is the highest, the operation mode of the multi-split air conditioner system is determined according to the operation mode set in the indoor unit that has sent the open command; Otherwise, the operation mode of the multi-split air conditioner system is determined according to the operation mode of the indoor unit that has already been opened.

Preferably, when the outdoor environment temperature is in a preset temperature range, the step of determining whether an already opened indoor unit exists is:

Determining whether or not there are at least two indoor units that have sent an open command when there are no already opened indoor units;

If there are at least two indoor units to which the open command has been sent, determining an operation mode of the multi-split air conditioner system according to a priority level or a rule in which the most open ones have priority according to the number of indoor units and operation modes set therein. do.

Preferably, the control method is:

Determining whether or not the priority level of the indoor unit that has sent the mode change command is the highest when receiving the mode change command sent by the indoor unit;

When the priority level of the indoor unit that has sent the mode change command is not the highest, the mode change command is transmitted to the indoor unit with the highest priority level, and when confirmation of the indoor unit is received, switching the operation mode of the multi-split air conditioner system ;

When the priority level of the indoor unit that has sent the mode change command is the highest, switching the current operating mode of the multi-split air conditioner system according to the mode change command.

Preferably, the control method is:

If the current indoor temperature corresponding to the indoor unit reaches the target set temperature, stopping the operation of the indoor unit and opening the indoor unit again after a preset time.

Preferably, the control method is:

Controlling the multi-split air conditioner system to operate a heating mode when the outdoor environment temperature is less than a lower limit of the preset temperature section;

When the outdoor environment temperature is greater than the upper limit of the preset temperature section, controlling the multi-split air conditioner system to operate the cooling mode.

In addition, in order to achieve the above object, the present invention further provides a multi-split air conditioner system, comprising at least one outdoor unit and at least two indoor units, and forming a refrigerant circulation circuit between the indoor unit and the outdoor unit; Communicate with each other between the indoor unit and the outdoor unit, the outdoor unit includes a controller, receives a control signal of the indoor unit, and controls the operation of the outdoor unit by the control signal; The controller includes a temperature acquisition module, a temperature determination module, and a control module.

The temperature acquisition module is for acquiring the outdoor environment temperature when receiving an open command of the indoor unit.

The temperature determination module is for determining whether the outdoor environment temperature is in a preset temperature range.

The control module is for determining an operation mode of the multi-split air conditioner system according to an operation condition of each opened indoor unit when the outdoor environment temperature is in a preset temperature range.

Preferably, the control module further determines whether or not an already opened indoor unit exists when the outdoor environment temperature is in a preset temperature range; If there is an already opened indoor unit, it is determined whether the priority level of the indoor unit that has sent the open command is the highest; When the priority level of the indoor unit that has sent the open command is the highest, the operation mode of the multi-split air conditioner system is determined according to the operation mode set in the indoor unit that has sent the open command; Otherwise, it is to determine the operation mode of the multi-split air conditioner system according to the operation mode of the indoor unit that has already been opened.

Preferably, the control module further determines whether or not there are at least two indoor units that have sent an open command when there is no already opened indoor unit; When there are at least two indoor units to which the open command is sent, the operation mode of the multi-split air conditioner system is determined according to a priority level or a rule in which most open units are given priority according to the number of indoor units and operation modes set therein.

Preferably, the control module further determines whether or not the priority level of the indoor unit that has sent the mode change command is the highest when receiving the mode change command sent by the indoor unit; When the priority level of the indoor unit sending the mode change command is not the highest, the mode change command is transmitted to the indoor unit with the highest priority level, and when confirmation of the indoor unit is received, the operation mode of the multi-split air conditioner system is switched; When the priority level of the indoor unit that has sent the mode change command is the highest, this is to switch the current operating mode of the multi-split air conditioner system according to the mode change command.

Preferably, the control module is for stopping operation of the indoor unit and reopening the indoor unit after a preset time when the current indoor temperature corresponding to the indoor unit reaches a target set temperature.

Preferably, the control module is also

When the outdoor environment temperature is less than a lower limit of the preset temperature section, controlling the multi-split air conditioner system to operate a heating mode; This is to control the multi-split air conditioner system to operate the cooling mode when the outdoor environment temperature is greater than the upper limit of the preset temperature section.

In an embodiment of the present invention, when the multi-split air conditioner system operates, it is determined whether the outdoor environment temperature is in the transient season, and when the outdoor environment temperature is in the transient season, the operation status of each indoor unit is obtained, and each By synthesizing the operation conditions of the indoor unit and determining the operation mode of the multi-split air conditioner system, collision of the operation mode of the multi-split air conditioner system is avoided.

In order to describe the embodiments of the present invention or technical means in the prior art in more detail, the following embodiments or drawings intended to be used in the prior art will be briefly described, and the following drawings described are merely some implementations of the present invention. It is only an example, and it is obvious that a person of ordinary skill in the art can obtain other drawings according to the structures shown in these drawings without making creative efforts.
1 is a schematic structural diagram of an embodiment of a multi-split air conditioner system of the present invention.
2 is a flowchart of a first embodiment of a method for controlling a multi-split air conditioner system of the present invention.
3 is a schematic diagram of detailed steps for determining an operation mode of the multi-split air conditioner system in the control method of the multi-split air conditioner system of the present invention.
4 is a flowchart of a second embodiment of a method for controlling a multi-split air conditioner system of the present invention.
5 is a flowchart of a third embodiment of a method for controlling a multi-split air conditioner system of the present invention.
6 is a schematic diagram of a function module of the controller of the multi-split air conditioner system of the present invention.

The implementation, functional features and advantages of the objects of the present invention combine embodiments and will be further described with reference to the drawings.

Combining the drawings in the embodiments of the present invention below, the technical means in the embodiments of the present invention will be described clearly and completely. Obviously, the described embodiments are merely some embodiments of the present invention, not all embodiments. Based on the examples in the present invention, all other examples obtained under the premise that those of ordinary skill in the art do not make creative efforts, all fall within the protection scope of the present invention.

It should be explained that, in the embodiment of the present invention, if it is related to a directional indication (for example, up, down, left, right, before, after...), the directional indication is only a specific shape (for example, For example, as shown in the drawing), it is for explaining the relative positional relationship, motion situation, etc. between the components, and if the specified posture changes, the directional indication also changes accordingly.

In addition, if there is a description of “first”, “second”, etc. in the embodiments of the present invention, the description of “first”, “second” and the like is merely used for the purpose of description, and its relative importance Is not to be understood as expressing or implying, or to implicitly clearly point out the quantity of the indicated components. Accordingly, elements defining terms such as "first" and "second" may explicitly or implicitly include at least one of the corresponding elements. In addition, the technical means between the respective embodiments can be combined with each other, but must be based on what can be implemented by a person having ordinary knowledge in the present technical field, so that the combination of technical means contradicts each other or cannot be implemented. In the case, it should be considered that the combination of these technical means does not necessarily exist and is not within the scope of protection required by the present invention.

The present invention provides a control method of a multi-split air conditioner system, and when a multi-split type air conditioner system is used in a transient season, some people want the indoor unit to operate in a cooling mode, and some others, the indoor unit is in a heating mode. The main solution is to create a conflict in the operating mode of the multi-split air conditioner system by wanting to operate, the environmental temperature is partitioned, and the operation of the transient season is controlled solely to avoid the collision of the operating mode. .

Specifically, as shown in FIG. 1, it shows the structure of an embodiment of the multi-split air conditioner system of the present invention. This multi-split air conditioner system includes a compressor (1), a four-way switch valve (2), an outdoor heat exchanger (3), a first throttle component (4), a second throttle component, and an indoor heat exchanger. Here, the indoor heat exchanger may include a plurality of indoor heat exchange units, for example, a first indoor heat exchange unit 6a and a second indoor heat exchange unit 6b, as shown in FIG. 1. The corresponding second throttle component also includes a first electronic expansion valve 5a and a second electronic expansion valve 5b.

The above-described four-way selector valve 2 has four ports, that is, a first port (a), a second port (b), a third port (c), and a fourth port (d).

The exhaust port of the compressor 1 is connected to the first port a of the four-way switching valve 2 through a refrigerant pipeline, and a one-way valve can be installed at the exhaust port of the compressor, so that the refrigerant at the exhaust port is Prevent backflow. The gas recovery port of the compressor 1 is connected to a third port c of the four-way switching valve 2, respectively, through a refrigerant pipeline. As can be understood, the multi-split air conditioner system may further include one gas-liquid separator 9, and gas-liquid separation is performed on the refrigerant that is soon returned to the compressor 1, so that the liquid refrigerant is converted into a compressor ( Avoid going into 1). The third port c of the four-way switching valve 2 is connected to the inlet of the gas-liquid separator 9, and the outlet of the gas-liquid separator 9 is again connected to the gas recovery port of the compressor 1 through a refrigerant pipeline.

One end of the outdoor heat exchanger 3 is connected to the second port b of the four-way switching valve 2 through a refrigerant pipeline, and the other end of the outdoor heat exchanger 3 is connected to a first throttle component ( It is connected to one end of 4). The other end of the first throttle component 4 is connected to one end of the indoor heat exchanger. That is, they are connected to one end of the first indoor heat exchange unit 6a and one end of the second indoor heat exchange unit 6b, respectively.

The other end of the indoor heat exchanger is connected to the fourth port d of the four-way switching valve 2 through a refrigerant pipeline, respectively. That is, the other end of the first indoor heat exchange unit 6a and the other end of the second indoor heat exchange unit 6b join through the refrigerant pipeline, and then are connected to the fourth port d of the four-way switching valve 2, respectively. .

A high-pressure valve 7 is installed in the refrigerant pipeline to which the first throttle component 4 and one end of the indoor heat exchanger are connected. The low pressure valve 8 is installed in the refrigerant pipeline to which the other end of the indoor heat exchanger and the four-way switching valve 2 are connected.

Based on the above-described multi-split air conditioner system, the present invention provides a control method of a multi-split air conditioner system. As shown in Figure 2, the control method may include the following steps.

In step S110, when an open command of the indoor unit is received, the outdoor environment temperature is obtained.

When the user opens the indoor unit and wants to adjust the temperature of the area in which the indoor unit is located, for example, raising or lowering the temperature, send an open command to the target indoor temperature and operating mode, such as cooling. You can set operating modes such as mode, heating mode, etc. The indoor unit receives the open command sent by the user and transmits the open command to the outdoor unit. The outdoor unit acquires the outdoor environment temperature in response to an open command of the indoor unit.

Step S120, it is determined whether the outdoor environment temperature is in a preset temperature range.

In this embodiment, one temperature range, that is, the temperature range of the transient season, for example, 22 to 28°C is set in advance. If the outdoor environment temperature is within the temperature range, it indicates that it is currently in the transient season; When the outdoor environment temperature is less than 22° C., controlling the air conditioning system to activate the heating mode; When the outdoor environment temperature is greater than 28℃, the air conditioning system is controlled to activate the cooling mode.

In step S130, when the outdoor environment temperature is in the preset temperature range, the operation mode of the multi-split air conditioner system is determined according to the operation status of each indoor unit.

When the outdoor environment temperature is in a preset temperature range, an operation state of each indoor unit is obtained, and an operation mode of the multi-split air conditioner system is determined according to a preset determination rule according to the operation state of each indoor unit. That is, the cooling mode can be activated or the heating mode can be activated. The operating conditions include the operating state of the indoor unit and the operating mode of the indoor unit, and the operating state of the indoor unit is, for example, open or closed, and the operation mode of the indoor unit, and the operation mode of the indoor unit is, for example, a cooling mode, a heating mode, and the like. to be.

In an embodiment of the present invention, when the multi-split air conditioner system is operated, it is determined whether the outdoor environment temperature is in the transient season, and when the outdoor environment temperature is the transient season, the operation status of each indoor unit is obtained, and each indoor unit By synthesizing the operating conditions of the multi-split air conditioner system, the operation mode of the multi-split air conditioner system is determined, so as to avoid the collision of the multi-split air conditioner system operation mode.

Further, as shown in Fig. 3, the above-described step S130 includes the following steps.

In step S131, when the outdoor environment temperature is in a preset temperature range, it is determined whether or not an already opened indoor unit exists.

During the operation of the multi-split air conditioner system, the outdoor unit communicates with the indoor unit and informs each of the operation states. That is, when the outdoor environment temperature is in a preset temperature range, the open condition of the indoor unit can be obtained immediately through inquiry of the outdoor unit, and thus it is determined whether or not an already opened indoor unit exists.

In step S132, if there is an indoor unit that has already been opened, it is determined whether the priority level of the indoor unit that has sent an open command is the highest.

In the embodiment of the present invention, each indoor unit is numbered in advance, for example, the indoor unit 1, the indoor unit 2, the indoor unit 3 ... Is the same as For each indoor unit, a level is first installed, and a level status table is first formed. Therefore, when it is determined that there is an indoor unit that has already been opened based on the predetermined priority status table, the priority level of the indoor unit that has sent the open command is compared with the priority level of the indoor unit that has sent the open command. Determine whether this is the highest.

Step S133, if the priority level of the indoor unit that has sent the open command is the highest, determine the operation mode of the multi-split air conditioner system according to the operation mode set in the indoor unit that has sent the open command; Otherwise, the operation mode of the multi-split air conditioner system is determined according to the operation mode of the indoor unit that has already been opened.

When the priority level of the indoor unit that has sent the open command is the highest, the operation mode of the multi-split air conditioner system is determined according to the operation mode set by the open command. For example, if the indoor unit that sent the open command is in the cooling mode, and the multi-split air conditioner system operates in the current heating mode, the current heating mode is switched to the cooling mode.

When the priority level of the indoor unit that has sent the open command is not the highest, that is, the priority level of one of the indoor units that has already been opened is the highest, Without processing, it operates according to the current operating mode of the multi-split air conditioning system.

In step S134, if there is no indoor unit that has already been opened, it is determined whether there are at least two indoor units that have sent an open command.

If there is no indoor unit that has already been opened, it is indicated that the multi-split air conditioner system is currently not in operation, and it is determined whether there is one indoor unit or several indoor units that have sent an open command. When there is one indoor unit that has sent an open command, the multi-split air conditioner system is controlled and operated according to an operation mode in which the open command is set. When there are two or more indoor units to which the open command is sent, the operation mode of the multi-split air conditioner system is determined according to a rule such as a priority level or a most open one by synthesizing the setting conditions of the operation mode of each indoor unit.

In step S135, when there are at least two indoor units to which an open command has been sent, an operation mode of the multi-split air conditioner system is determined according to a priority level or a rule in which a large number of open units is given priority according to the number of indoor units and the set operation mode thereof.

For determining the operation mode of the multi-split air conditioner system according to the priority level rule, it may be referred to as described above. The rule in which a lot of open is prioritized refers to determining the operation mode of the multi-split air conditioner system according to the number of indoor units that have sent the open command and the operation modes set for each indoor unit, if there are many set operation modes. For example, the indoor unit that has sent the open command is the indoor unit (1), the indoor unit (2), and the indoor unit (4), the operation mode set in the indoor unit (1) is the cooling mode, and the operation mode set in the indoor unit (2) is the heating mode. And, if the operation mode set in the indoor unit 4 is a cooling mode, according to the rule that the most open is priority, the final operation mode of the multi-split air conditioner system is the cooling mode.

Furthermore, as shown in FIG. 4, the control method further includes the following steps.

In step S140, after determining the operation mode of the multi-split air conditioner system, when a mode change command sent by the indoor unit is received, it is determined whether the priority level of the indoor unit sending the mode change command is the highest.

Step S150, when the priority level of the indoor unit that has sent the mode change command is not the highest, the mode change command is transmitted to the indoor unit with the highest priority level, and when confirmation of the indoor unit is received, the operation mode of the multi-split air conditioner system is set. Switch.

In step S160, when the priority level of the indoor unit that has sent the mode change command is the highest, the current operation mode of the multi-split air conditioner system is switched according to the mode change command.

After determining the operating mode of the multi-split air conditioner system, the user may wish to switch the current operating mode, for example, to switch the cooling mode to the heating mode. After receiving the mode change command, the indoor unit transmits it to the outdoor unit. The outdoor unit first determines whether the priority level of the indoor unit that has sent the mode change command is the highest, and when the priority level of the indoor unit that has sent the mode change command is the highest, switches the current operation mode of the multi-split air conditioner system according to the mode change command. . When the priority level of the indoor unit that has sent the mode change command is not the highest, the mode change command is transmitted to the indoor unit with the highest priority level to confirm. To be explained, comparing the above-described priority level is to compare an indoor unit that has sent a mode change command to an indoor unit that has already been opened.

Furthermore, as shown in FIG. 5, the control method further includes the following steps.

In step S170, after determining the operation mode of the multi-split air conditioner system, a current indoor temperature corresponding to the indoor unit is obtained.

Step S180, when the current indoor temperature corresponding to the indoor unit reaches the target set temperature, the indoor unit is stopped and opened again after a preset time.

After the operation mode of the multi-split air conditioner system is determined, the indoor unit also detects the current indoor temperature corresponding to the indoor unit. In this embodiment, the indoor temperature may be detected through a temperature sensor installed in the wind recovery port of the indoor unit. When the indoor temperature corresponding to the indoor unit reaches the target set temperature, the indoor unit is controlled to stop the operation for a certain period of time, and then the indoor unit is opened again. After the indoor unit stops operating, the multi-split air conditioner system acquires the operation status of other indoor units, and determines the operation mode of the multi-split air conditioner system again.

Correspondingly, an embodiment of the present invention further provides a multi-split air conditioner system operating with the above-described control method. The multi-split air conditioner system includes a structure as shown in FIG. 1 and further includes a controller. The controller may receive a control signal of the indoor unit and may control the operation of the outdoor unit by the control signal. Specifically, as shown in FIG. 6, the controller includes a temperature acquisition module 110, a temperature determination module 120, and a control module 130.

The temperature acquisition module 110 is for acquiring the outdoor environment temperature when receiving an open command of the indoor unit.

The temperature determination module 120 is for determining whether the outdoor environment temperature is in a preset temperature range.

The control module 130 is for determining an operation mode of the multi-split air conditioner system according to an operation condition of each opened indoor unit when the outdoor environment temperature is in a preset temperature range.

When the user opens the indoor unit and wants to adjust the temperature of the area in which the indoor unit is located, for example, raising or lowering the temperature, send an open command to the target indoor temperature and operating mode, such as cooling. You can set operating modes such as mode, heating mode, etc. The indoor unit receives the open command sent by the user and transmits the open command to the outdoor unit. The temperature acquisition module 110 acquires the outdoor environment temperature by an open command of the indoor unit.

In this embodiment, one temperature range, that is, the temperature range of the transient season, for example, 22 to 28°C is set in advance. If the outdoor environment temperature is within the temperature range, it indicates that it is currently in the transient season; When the outdoor environment temperature is less than 22° C., controlling the air conditioning system to activate the heating mode; When the outdoor environment temperature is greater than 28℃, the air conditioning system is controlled to operate the cooling mode.

When the outdoor environment temperature is in a preset temperature range, an operation state of each indoor unit is obtained, and an operation mode of the multi-split air conditioner system is determined according to a preset determination rule according to the operation state of each indoor unit. That is, the cooling mode can be activated or the heating mode can be activated. The operating conditions include the operating state of the indoor unit and the operating mode of the indoor unit, and the operating state of the indoor unit is, for example, open or closed, and the operation mode of the indoor unit, and the operation mode of the indoor unit is, for example, a cooling mode, a heating mode, and the like. to be.

In an embodiment of the present invention, when the multi-split air conditioner system is operated, it is determined whether the outdoor environment temperature is in the transient season, and when the outdoor environment temperature is the transient season, the operation status of each indoor unit is obtained, and each indoor unit By synthesizing the operating conditions of the multi-split air conditioner system, the operation mode of the multi-split air conditioner system is determined, so as to avoid the collision of the multi-split air conditioner system operation mode.

Further, the control module 130 in the above-described controller additionally determines whether or not an already opened indoor unit exists when the outdoor environment temperature is in a preset temperature range; If there is an already opened indoor unit, it is determined whether the priority level of the indoor unit that has sent the open command is the highest; When the priority level of the indoor unit that has sent the open command is the highest, the operation mode of the multi-split air conditioner system is determined according to the operation mode set in the indoor unit that has sent the open command; Otherwise, it is to determine the operation mode of the multi-split air conditioner system according to the operation mode of the indoor unit that has already been opened.

During the operation of the multi-split air conditioner system, the outdoor unit communicates with the indoor unit and informs each of the operation states. That is, when the outdoor environment temperature is in a preset temperature range, it is determined whether an indoor unit that has already been opened exists by querying the outdoor unit, that is, by obtaining an open state of the indoor unit.

In the embodiment of the present invention, each indoor unit is numbered in advance, for example, the indoor unit 1, the indoor unit 2, the indoor unit 3 ... Is the same as For each indoor unit, a level is first installed, and a level status table is first formed. Therefore, when it is determined that there is an indoor unit that has already been opened based on the predetermined priority status table, the priority level of the indoor unit that has sent the open command is compared with the priority level of the indoor unit that has sent the open command. Determine whether this is the highest.

When the priority level of the indoor unit that has sent the open command is the highest, the operation mode of the multi-split air conditioner system is determined according to the operation mode set by the open command. For example, if the indoor unit that sent the open command is in the cooling mode, and the multi-split air conditioner system operates in the current heating mode, the current heating mode is switched to the cooling mode.

When the priority level of the indoor unit that has sent the open command is not the highest, that is, when the priority level of one of the indoor units that has already been opened is the highest, the processing is not performed and the multi-split air conditioner system operates according to the current operating mode.

Further, the above-described control module 130 additionally determines whether there are at least two indoor units that have sent an open command when there is no additional indoor unit already opened; When there are at least two indoor units to which the open command is sent, the operation mode of the multi-split air conditioner system is determined according to a priority level or a rule in which a large number of open units is given priority according to the number of indoor units and a set operation mode thereof.

If there is no indoor unit that has already been opened, it is indicated that the multi-split air conditioner system is currently not in operation, and it is determined whether there is one indoor unit or several indoor units that have sent an open command. When there is one indoor unit that has sent an open command, the multi-split air conditioner system is controlled and operated according to an operation mode in which the open command is set. When there are two or more indoor units to which the open command is sent, the operation mode of the multi-split air conditioner system is determined according to a rule such as a priority level or a most open one by synthesizing the setting conditions of the operation mode of each indoor unit.

Determining the operation mode of the multi-split air conditioner system according to the above-described priority level rule may be referred to as described above. The rule in which a lot of open is prioritized refers to determining the operation mode of the multi-split air conditioner system according to the number of indoor units that have sent the open command and the operation modes set for each indoor unit, if there are many set operation modes. For example, the indoor unit that has sent the open command is the indoor unit (1), the indoor unit (2), and the indoor unit (4), the operation mode set in the indoor unit (1) is the cooling mode, and the operation mode set in the indoor unit (2) is the heating mode. And, if the operation mode set in the indoor unit 4 is a cooling mode, according to the rule that the most open is priority, the final operation mode of the multi-split air conditioner system is the cooling mode.

Further, the above-described control module 130 further determines whether or not the priority level of the indoor unit that has sent the mode change command is the highest when receiving the mode change command sent by the indoor unit; When the priority level of the indoor unit sending the mode change command is not the highest, the mode change command is transmitted to the indoor unit with the highest priority level, and when confirmation of the indoor unit is received, the operation mode of the multi-split air conditioner system is switched; When the priority level of the indoor unit that has sent the mode change command is the highest, this is to switch the current operating mode of the multi-split air conditioner system according to the mode change command.

After determining the operating mode of the multi-split air conditioner system, the user may wish to switch the current operating mode, for example, to switch the cooling mode to the heating mode. After receiving the mode change command, the indoor unit transmits it to the outdoor unit. The outdoor unit first determines whether the priority level of the indoor unit that has sent the mode change command is the highest, and when the priority level of the indoor unit that has sent the mode change command is the highest, switches the current operation mode of the multi-split air conditioner system according to the mode change command. . When the priority level of the indoor unit that has sent the mode change command is not the highest, the mode change command is transmitted to the indoor unit with the highest priority level to confirm. It should be explained that comparing the above-described priority level is to compare the indoor unit that has sent the mode change command to the indoor unit that has already been opened.

Further, the above-described control module 130 is additionally for stopping the operation of the indoor unit and opening the indoor unit again after a preset time when the current indoor temperature corresponding to the indoor unit reaches the target set temperature.

After the operation mode of the multi-split air conditioner system is determined, the indoor unit also detects the current indoor temperature corresponding to the indoor unit. In this embodiment, the indoor temperature may be detected through a temperature sensor installed in the wind recovery port of the indoor unit. When the indoor temperature corresponding to the indoor unit reaches the target set temperature, the indoor unit is controlled to stop the operation for a certain period of time, and then the indoor unit is opened again. After the indoor unit stops operating, the multi-split air conditioner system acquires the operation status of other indoor units, and determines the operation mode of the multi-split air conditioner system again.

The above is only a preferred embodiment of the present invention, and thus does not limit the scope of the present invention. Under the inventive concept of the present invention, all equivalent configuration conversions made using the contents of the specification and drawings of the present invention, or directly or indirectly used in other related technical fields, all fall within the scope of the patent protection of the present invention.

1: compressor
2: four-way valve
3: outdoor heat exchanger
4: first throttle element
5a: first electronic expansion valve
5b: second electromagnetic expansion valve
6a: first indoor heat exchange unit
6b: second indoor heat exchange unit
7: high pressure valve
8: low pressure valve
9: gas-liquid separator

Claims (12)

In the control method of a multi-split air conditioner system,
The control method,
Obtaining an outdoor environment temperature when receiving an open command of the indoor unit;
Determining whether the outdoor environment temperature is in a preset temperature range;
When the outdoor environment temperature is in a preset temperature range, determining an operation mode of the multi-split air conditioner system according to an operation condition of each opened indoor unit,
When the outdoor environment temperature is in a preset temperature range, determining an operation mode of a multi-split air conditioner system according to an operation condition of each indoor unit includes:
When the outdoor environment temperature is in a preset temperature range, determining whether an already opened indoor unit exists;
Determining whether or not the priority level of the indoor unit that has sent an open command is highest when there is an already opened indoor unit;
When the priority level of the indoor unit that has sent the open command is the highest, the operation mode of the multi-split air conditioner system is determined according to the operation mode set in the indoor unit that has sent the open command; Otherwise, according to the operation mode of the indoor unit that has already been opened, including the step of determining the operation mode of the multi-split air conditioner system
Control method of a multi-split air conditioner system, characterized in that. The method of claim 1,
When the outdoor environment temperature is in a preset temperature range, the step of determining whether there is an already opened indoor unit is:
Determining whether or not there are at least two indoor units that have sent an open command when there are no already opened indoor units;
When there are at least two indoor units to which the open command is sent, determining an operation mode of the multi-split air conditioner system according to a priority level or a rule in which the most open one is given priority according to the number of indoor units and the operation mode set in the indoor unit. To do
Control method of a multi-split air conditioner system, characterized in that. The method of claim 1,
The control method of the multi-split air conditioner system,
Determining whether or not the priority level of the indoor unit that has sent the mode change command is the highest when receiving the mode change command sent by the indoor unit;
When the priority level of the indoor unit that has sent the mode change command is not the highest, the mode change command is transmitted to the indoor unit with the highest priority level, and when confirmation of the indoor unit is received, switching the operation mode of the multi-split air conditioner system ;
When the priority level of the indoor unit that has sent the mode change command is the highest, the step of switching the current operating mode of the multi-split air conditioner system according to the mode change command
Control method of a multi-split air conditioner system, characterized in that. The method according to any one of claims 1 to 3,
The control method of the multi-split air conditioner system,
When the current indoor temperature corresponding to the indoor unit reaches the target set temperature, stopping the operation of the indoor unit and opening the indoor unit again after a preset time.
Control method of a multi-split air conditioner system, characterized in that. The method of claim 1,
The control method of the multi-split air conditioner system:
Controlling the multi-split air conditioner system to operate a heating mode when the outdoor environment temperature is less than a lower limit of the preset temperature section;
If the outdoor environment temperature is greater than the upper limit of the preset temperature section, further comprising the step of controlling the multi-split air conditioner system to operate the cooling mode
Control method of a multi-split air conditioner system, characterized in that. In the multi split air conditioning system,
Comprising at least one outdoor unit and at least two indoor units, and forming a refrigerant circulation circuit between the indoor unit and the outdoor unit; The indoor unit and the outdoor unit communicate with each other, the outdoor unit includes a controller, receives a control signal of the indoor unit, and controls the operation of the outdoor unit by the control signal,
The controller includes a temperature acquisition module, a temperature determination module and a control module,
The temperature acquisition module is for acquiring the outdoor environment temperature when receiving an open command of the indoor unit,
The temperature determination module is for determining whether the outdoor environment temperature is in a preset temperature range,
The control module is for determining the operation mode of the multi-split air conditioner system according to the operation status of each open indoor unit when the outdoor environment temperature is in a preset temperature range,
The control module further determines whether or not an already opened indoor unit exists when the outdoor environment temperature is in a preset temperature range; If there is an already opened indoor unit, it is determined whether the priority level of the indoor unit that has sent the open command is the highest; When the priority level of the indoor unit that has sent the open command is the highest, the operation mode of the multi-split air conditioner system is determined according to the operation mode set in the indoor unit that has sent the open command; Otherwise, according to the operation mode of the indoor unit that has already been opened, to determine the operation mode of the multi-split air conditioner system.
Multi-split air conditioning system, characterized in that. The method of claim 6,
The control module further determines whether there are at least two indoor units that have sent an open command when there is no already opened indoor unit; For determining an operation mode of a multi-split air conditioner system according to a priority level or a rule in which a large number of open ones has priority, depending on the number of indoor units and the operation mode set therein when there are at least two indoor units that have sent an open command
Multi-split air conditioning system, characterized in that. The method of claim 6,
The control module further determines whether or not the priority level of the indoor unit that has sent the mode change command is the highest when receiving the mode change command sent by the indoor unit; When the priority level of the indoor unit sending the mode change command is not the highest, the mode change command is transmitted to the indoor unit with the highest priority level, and when confirmation of the indoor unit is received, the operation mode of the multi-split air conditioner system is switched; To switch the current operating mode of the multi-split air conditioner system according to the mode change command when the indoor unit sending the mode change command has the highest priority level
Multi-split air conditioning system, characterized in that. The method according to any one of claims 6 to 8,
The control module is also for stopping the operation of the indoor unit and opening the indoor unit again after a preset time when the current indoor temperature corresponding to the indoor unit reaches a target set temperature.
Multi-split air conditioning system, characterized in that. The method of claim 6,
The control module further controls the multi-split air conditioner system to operate a heating mode when the outdoor environment temperature is less than a lower limit of the preset temperature section; When the outdoor environment temperature is greater than the upper limit of the preset temperature section, controlling the multi-split air conditioner system to operate the cooling mode
Multi-split air conditioning system, characterized in that. delete delete

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