WO2020038005A1 - Control method for multi-split air conditioning system - Google Patents

Abstract

The present invention falls within the technical field of air conditioners, and aims to solve the problem that an existing multi-split air conditioning system cannot accurately determine the refrigeration and heating conditions of an indoor unit, and accordingly, an outdoor unit cannot be started according to the correct starting mode. Therefore, the present invention provides a control method for a multi-split air conditioning system. The multi-split air conditioning system comprises an outdoor unit and a plurality of indoor units connected to the outdoor unit. The control method comprises: acquiring a total refrigeration load and a total heating load of all the indoor units; and selecting a starting mode of the outdoor unit according to the total refrigeration load and the total heating load. According to the present invention, the relationship between the total refrigerating load and the total heating load of the indoor units can be determined before the outdoor unit is started, so that the outdoor unit is started in the correct starting mode, and the refrigeration/heating effect of the indoor units can be maintained or improved after the outdoor unit is started.

Description

Control method for multi-line air conditioning system Technical field

The invention belongs to the technical field of air conditioning, and specifically provides a control method for a multi-line air conditioning system.

Background technique

Multi-connected air-conditioning system A type of central air-conditioning system, commonly known as "one-to-more", refers to an outdoor unit connected to multiple indoor units through pipes. It has a wide range of applications in small and medium-sized buildings and some public buildings.

Existing multi-connected air-conditioning systems can include both cooling indoor units and heating indoor units, all of which are connected to outdoor units. The disadvantage of the structure of this type of air-conditioning system is that the outdoor unit can only choose the cooling mode and One operation in the heating mode, which makes the multi-line air conditioning system prone to the problem of uneven heating and cooling effects.

In the prior art, the capacity of a refrigerating indoor unit and the capacity of a heating indoor unit are generally compared, and then the operation mode of the outdoor unit is determined. However, the low capacity of the refrigerating indoor unit does not mean that the cooling effect of the refrigerating indoor unit is low. The high capacity of the refrigerating indoor unit does not mean that the cooling effect of the refrigerating indoor unit is high. Similarly, the low capacity of the refrigerating indoor unit does not represent the heating indoor unit. The heating effect of the machine is low, and the high capacity of the heating indoor unit does not mean that the heating effect of the heating indoor unit is high. That is, judging by the capacity of the cooling indoor unit and the heating indoor unit alone cannot accurately determine the cooling and heating conditions of the indoor unit. Before the outdoor unit is turned on, it is impossible to accurately determine the cooling and heating of the indoor unit. Thermal effect, that is, it is impossible to know whether the cooling and heating effects of the indoor unit are balanced, so that the outdoor unit cannot be turned on in the correct on mode, which may cause the cooling and heating effects of the indoor unit to be more uneven.

Therefore, there is a need in the art for a new control method for a multi-line air conditioning system to solve the above problems.

Summary of the Invention

In order to solve the above-mentioned problems in the prior art, that is, to solve the problem that the existing multi-connected air-conditioning system cannot accurately determine the cooling and heating conditions of the indoor unit, and thus the outdoor unit cannot be turned on according to the correct opening mode, the present invention A control method for a multi-connected air-conditioning system is provided. The multi-connected air-conditioning system includes an outdoor unit and a plurality of indoor units connected to the outdoor unit. The control method includes: obtaining a total cooling load and a heating total of all indoor units. Load; according to the total cooling load and the total heating load, select the on mode of the outdoor unit.

In a preferred technical solution of the above control method, the step of "selecting the on mode of the outdoor unit according to the total cooling load and the total heating load" includes: calculating the sum of the total cooling load and the total heating load; calculating the total cooling load and the The ratio of the sum value is used to obtain the cooling and heating effect load balancing index; according to the cooling and heating effect load balancing index, the outdoor unit's on mode is selected.

In a preferred technical solution of the above control method, the step of "selecting the on mode of the outdoor unit according to the cooling and heating effect load balancing index" specifically includes: if the cooling and heating effect load balancing index is greater than or equal to the first preset value, The outdoor unit is turned on in cooling mode.

In a preferred technical solution of the above control method, the step of "selecting the on mode of the outdoor unit according to the cooling and heating effect load balancing index" further includes: if the cooling and heating effect load balancing index is less than the first preset value, the outdoor unit Turn on in heating mode.

In the preferred technical solution of the above control method, the step of "selecting the on mode of the outdoor unit according to the total cooling load and the total heating load" includes: calculating the sum of the total cooling load and the total heating load; calculating the total heating load Obtain the cooling and heating effect load balance index by the ratio with the sum value; according to the cooling and heating effect load balance index, select the on mode of the outdoor unit.

In a preferred technical solution of the above control method, the step of "selecting the on mode of the outdoor unit according to the cooling and heating effect load balancing index" specifically includes: if the cooling and heating effect load balancing index is greater than or equal to a second preset value, The outdoor unit is turned on in heating mode.

In a preferred technical solution of the above control method, the step of "selecting the on mode of the outdoor unit according to the cooling and heating effect load balancing index" further includes: if the cooling and heating effect load balancing index is less than the second preset value, the outdoor unit Turn on in cooling mode.

In a preferred technical solution of the above control method, the step of "selecting the on mode of the outdoor unit according to the total cooling load and the total heating load" specifically includes: if the total cooling load is greater than or equal to the total heating load, the outdoor unit uses cooling The mode is on.

In a preferred technical solution of the above control method, the step of "selecting the on mode of the outdoor unit according to the total cooling load and the total heating load" further includes: if the total cooling load is less than the total heating load, the outdoor unit is in a heating mode On.

In a preferred technical solution of the above control method, during the operation of the outdoor unit, the control method further includes: obtaining a cooling and heating effect load balancing index of the air conditioning system and a current operating mode of the outdoor unit; and according to the cooling and heating effect load balancing index and The current operation mode of the outdoor unit selectively adjusts the control operation of the air conditioning system.

In the preferred technical solution of the above control method, the step of "obtaining the cooling and heating effect load balance index of the air conditioning system" specifically includes: obtaining the total cooling load and the total heating load of all indoor units; calculating the total cooling load and the total heating load The sum of the loads; calculate the ratio of the total cooling load to the sum to obtain the cooling and heating effect load balance index.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" specifically includes: if the cooling and heating effect load balancing index If it is greater than the third preset value and the current operation mode of the outdoor unit is a cooling mode, the opening degree of the electronic expansion valve of the outdoor unit is increased, and the fan speed of the outdoor unit is increased.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index If it is less than or equal to the third preset value and greater than or equal to the fourth preset value and the current operation mode of the outdoor unit is a cooling mode, the control operation of the air conditioning system is maintained.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index If it is less than the fourth preset value and the current operation mode of the outdoor unit is the cooling mode, then the current status of the electronic expansion valve and the fan of the outdoor unit is continued to be obtained; the air conditioner is selectively adjusted according to the current status of the electronic expansion valve and the fan of the outdoor unit. Control operation of the system.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" specifically includes: if the electronic expansion valve is not completely closed and the outdoor unit's When the fan is in a non-stop state, the opening degree of the electronic expansion valve is reduced, and the fan speed of the outdoor unit is reduced.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" further includes: if the electronic expansion valve is completely closed and the fan of the outdoor unit is closed In the stalled state, the operation mode of the outdoor unit is switched to the heating mode, the opening degree of the electronic expansion valve is increased, and the fan speed of the outdoor unit is increased.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" specifically includes: if the cooling and heating effect load balancing index Greater than the fifth preset value and the current operation mode of the outdoor unit is heating mode, then the current status of the electronic expansion valve of the outdoor unit and the fan of the outdoor unit is continued to be obtained; based on the current status of the electronic expansion valve and the fan of the outdoor unit, select Adjust the control operation of the air conditioning system.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" specifically includes: if the electronic expansion valve is not completely closed and the outdoor unit's When the fan is in a non-stop state, the opening degree of the electronic expansion valve is reduced, and the fan speed of the outdoor unit is reduced.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" further includes: if the electronic expansion valve is completely closed and the fan of the outdoor unit is closed In the stalled state, the operation mode of the outdoor unit is switched to the cooling mode, the opening degree of the electronic expansion valve is increased, and the fan speed of the outdoor unit is increased.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index If it is less than or equal to the fifth preset value and greater than or equal to the sixth preset value and the current operation mode of the outdoor unit is a heating mode, the control operation of the air conditioning system is maintained.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index Less than the sixth preset value and the current operation mode of the outdoor unit is a heating mode, increase the opening degree of the electronic expansion valve of the outdoor unit, and increase the fan speed of the outdoor unit.

In the preferred technical solution of the above control method, the step of "obtaining the cooling and heating effect load balance index of the air conditioning system" specifically includes: obtaining the total cooling load and the total heating load of all indoor units; calculating the total cooling load and the total heating load The sum of the loads; calculate the ratio of the total heating load to the sum to obtain the cooling and heating effect load balance index.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" specifically includes: if the cooling and heating effect load balancing index If it is less than the seventh preset value and the current operation mode of the outdoor unit is a cooling mode, the opening degree of the electronic expansion valve of the outdoor unit is increased, and the fan speed of the outdoor unit is increased.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index If it is greater than or equal to the seventh preset value and less than or equal to the eighth preset value and the current operation mode of the outdoor unit is a cooling mode, the control operation of the air conditioning system is maintained.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index Greater than the eighth preset value and the current operation mode of the outdoor unit is the cooling mode, the current status of the electronic expansion valve and the fan of the outdoor unit is continued to be obtained; the air conditioner is selectively adjusted according to the current status of the electronic expansion valve and the fan of the outdoor unit Control operation of the system.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" specifically includes: if the electronic expansion valve is not completely closed and the outdoor unit's When the fan is in a non-stop state, the opening degree of the electronic expansion valve is reduced, and the fan speed of the outdoor unit is reduced.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" further includes: if the electronic expansion valve is completely closed and the fan of the outdoor unit is closed In the stalled state, the operation mode of the outdoor unit is switched to the heating mode, the opening degree of the electronic expansion valve is increased, and the fan speed of the outdoor unit is increased.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" specifically includes: if the cooling and heating effect load balancing index Less than the ninth preset value and the current operation mode of the outdoor unit is a heating mode, then the current status of the electronic expansion valve of the outdoor unit and the fan of the outdoor unit is continued to be obtained; Adjust the control operation of the air conditioning system.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" specifically includes: if the electronic expansion valve is not completely closed and the outdoor unit's When the fan is in a non-stop state, the opening degree of the electronic expansion valve is reduced, and the fan speed of the outdoor unit is reduced.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" further includes: if the electronic expansion valve is completely closed and the fan of the outdoor unit is closed In the stalled state, the operation mode of the outdoor unit is switched to the cooling mode, the opening degree of the electronic expansion valve is increased, and the fan speed of the outdoor unit is increased.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index If it is greater than or equal to the ninth preset value and less than or equal to the tenth preset value and the current operation mode of the outdoor unit is a heating mode, the control operation of the air conditioning system is maintained.

In a preferred technical solution of the above control method, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index If it is greater than the tenth preset value and the current operation mode of the outdoor unit is a heating mode, the opening degree of the electronic expansion valve of the outdoor unit is increased, and the fan speed of the outdoor unit is increased.

Those skilled in the art can understand that in the preferred technical solution of the present invention, before the outdoor unit is turned on, the cooling effect and heating effect of the indoor unit can be determined by obtaining the total cooling load and heating load of the indoor unit. Whether it is balanced, and the relationship between the total cooling load and the total heating load of the indoor unit can be determined, so that the outdoor unit is turned on in the correct on mode, and the outdoor unit can maintain or improve the cooling effect / production of the indoor unit after it is turned on. Thermal effect, that is, when the cooling effect of the cooling indoor unit is not as good as the heating effect of the heating indoor unit, the outdoor unit is turned on in the cooling mode, and the heat is dissipated to the outside through the outdoor unit heat exchanger to improve the cooling effect of the cooling indoor unit. When the heating effect of the hot indoor unit is not as good as the cooling effect of the refrigerating indoor unit, the outdoor unit is turned on in the cooling mode, so as to absorb heat from the outside through the outdoor unit heat exchanger to improve the heating effect of the heating indoor unit.

Further, before the outdoor unit is turned on, the cooling and heating effect load balancing index calculated by the ratio of the total cooling load and the sum of the total cooling load and the total heating load can be selected by the cooling and heating effect load balancing index. When the outdoor unit is turned on, if the cooling and heating effect load balance index is greater than or equal to the first preset value, it means that the total cooling load of the indoor unit is greater than the total heating load, that is, the cooling effect of the cooling indoor unit is not as good as that of the heating indoor unit. The outdoor unit should be turned on in the cooling mode. On the contrary, if the load balance index of the cooling and heating effect is less than the first preset value, it means that the total cooling load of the indoor unit is less than the total heating load, that is, the heating indoor unit. The heating effect is not as good as the cooling indoor unit. The outdoor unit should be turned on in heating mode. Alternatively, the cooling and heating effect load balance index calculated by the ratio of the total heating load to the total cooling load and the sum of the total heating load can be selected, and then the outdoor heating On mode, if the load balance index of cooling and heating effect is greater than or equal to the second preset value, it means that the total heating load of the indoor unit is greater than the total cooling load, that is, the heating effect of the heating indoor unit is not as good as that of the cooling indoor unit. Effect, the outdoor unit should be turned on in heating mode; conversely, if the load balance index of the cooling and heating effect is less than the second preset value, it means that the total heating load of the indoor unit at this time is less than the total cooling load, that is, the cooling effect of the cooling indoor unit Not as good as the heating effect of the indoor unit. The outdoor unit should be turned on in cooling mode. In addition to the above-mentioned method of comparing the cooling and heating effect load balance index with a preset value, a method of directly comparing the total cooling load and the total heating load may also be adopted, that is, if the total cooling load of the indoor unit is greater than the total heating The load indicates that the cooling effect of the cooling indoor unit is not as good as the heating effect of the heating indoor unit. At this time, the outdoor unit should be turned on in the cooling mode to improve the cooling effect of the cooling indoor unit. If the total cooling load of the indoor unit is equal to the total heating load It shows that the cooling effect of the cooling indoor unit is very balanced with the heating effect of the heating indoor unit. At this time, the outdoor unit can be directly turned on in the cooling mode. If the total cooling load of the indoor unit is less than the total heating load, it means that the The heating effect is not as good as the cooling effect of a cooling indoor unit. At this time, the outdoor unit should be turned on in a heating mode to improve the heating effect of the heating indoor unit. Through this control method, before the outdoor unit is turned on, the optimal opening mode has been selected through judgment. After the outdoor unit is turned on, the cooling / heating effect of the indoor unit can be improved immediately, and the cooling of the multi-line air conditioning system can be achieved. The heating is kept balanced or the equilibrium is reached at the fastest speed, thereby reducing the energy consumption of the multi-line air conditioning system, thereby making the multi-line air conditioning system more energy efficient and improving the user experience.

Furthermore, first obtain the cooling and heating effect load balancing index of the air conditioning system and the current operating mode of the outdoor unit, and then selectively adjust the control operation of the air conditioning system through the cooling and heating effect load balancing index and the outdoor unit's current operating mode. So that when the indoor unit of the multi-line air-conditioning system has a problem of unbalanced cooling and heating, it can be adjusted in real time to ensure the balance of the effects of all cooling indoor units and heating indoor units, and take into account the heating of all heating indoor units Effect and the cooling effect of all refrigeration indoor units, while reducing the energy consumption of the air conditioning system as much as possible, so that the multi-line air conditioning system is more energy efficient.

Still further, the cooling and heating effect load balance index calculated by the ratio of the total cooling load to the sum of the total cooling load and the total heating load can feed back the heating effect of the heating indoor unit and the cooling effect of the cooling indoor unit. That is, when the load balance index of the cooling and heating effect is greater than the third preset value and the current operating mode of the outdoor unit is the cooling mode, it means that the cooling effect of the cooling indoor unit is not as good as the heating effect of the heating indoor unit at this time, and the air conditioner should be increased. The opening degree of the electronic expansion valve on the outdoor unit side of the system increases the fan speed of the outdoor unit, thereby improving the cooling effect of the air-conditioning system; the load balancing index of the cooling and heating effect is less than or equal to the third preset value and greater than or equal to the fourth preset value Value and the current operation mode of the outdoor unit is the cooling mode, it means that the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are relatively balanced at this time and maintained at a better level, and the current control operation should be maintained, that is, the entire air conditioner The system does not need to adjust the control operation; when the cooling and heating effect load balance index is less than the fourth preset value and the outdoor unit When the operation mode is cooling mode, it means that the heating effect of the heating indoor unit is not as good as that of the cooling indoor unit at this time. First, the opening degree of the electronic expansion valve on the outdoor unit side of the air conditioning system and the fan speed of the outdoor unit should be reduced. Reduce the cooling effect of the air conditioning system and improve the heating effect. If the electronic expansion valve is completely closed and the fan of the outdoor unit is completely stopped and the cooling and heating effect load balance index is still less than the fourth preset value, the outdoor unit needs to be replaced by The cooling mode is adjusted to the heating mode, and the opening degree of the electronic expansion valve is increased and the fan speed of the outdoor unit is increased, thereby further improving the heating effect of the air conditioning system. Similarly, when the load balance index of the cooling and heating effect is greater than the fifth preset value and the current operation mode of the outdoor unit is the heating mode, it indicates that the cooling effect of the cooling indoor unit is not as good as the heating effect of the heating indoor unit at this time. First, the opening degree of the electronic expansion valve on the outdoor unit side of the air conditioning system and the fan speed of the outdoor unit should be reduced to reduce the heating effect of the air conditioning system and improve the cooling effect. If the electronic expansion valve is completely closed and the fan of the outdoor unit is completely stopped In turn, when the cooling and heating effect load balance index is still greater than the fifth preset value, it is necessary to adjust the outdoor unit from the heating mode to the cooling mode, and increase the opening degree of the electronic expansion valve and increase the fan speed of the outdoor unit, thereby further Improve the cooling effect of the air conditioning system; the load balance index of the cooling and heating effect is less than or equal to the fifth preset value and greater than or equal to the sixth preset value and the current operating mode of the outdoor unit is the heating mode, indicating that the indoor unit of the cooling unit is at this time The cooling effect and heating effect of the heating indoor unit are relatively balanced and maintained at a better level, and the current control should be maintained Operation, that is, the entire air conditioning system does not need to adjust the control operation; the load balance index of the cooling and heating effect is less than the sixth preset value and the current operating mode of the outdoor unit is the heating mode, indicating that the heating effect of the heating indoor unit is not as good at this time The cooling effect of a refrigerating indoor unit should increase the opening degree of the electronic expansion valve on the outdoor unit side of the air conditioning system and increase the fan speed of the outdoor unit, thereby improving the heating effect of the air conditioning system. Through the above-mentioned control method, the cooling and heating balance of the air-conditioning system can always be ensured, that is, the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are balanced, thereby achieving the purpose of taking into account the effects of all indoor units and reducing The energy consumption of the online air-conditioning system makes the multi-line air-conditioning system more energy efficient and improves the user experience.

Still further, as another alternative of the above method, the cooling and heating effect load balance index calculated by the ratio of the total heating load to the total cooling load and the sum of the total heating load can be fed back to the heating indoor unit. The heating effect and the cooling effect of the cooling indoor unit, that is, when the load balance index of the cooling and heating effect is less than the seventh preset value and the current operating mode of the outdoor unit is the cooling mode, it means that the cooling effect of the cooling indoor unit is not as good as the heating at this time. The heating effect of the indoor unit should increase the opening degree of the electronic expansion valve on the outdoor unit side of the air conditioning system and increase the fan speed of the outdoor unit, thereby improving the cooling effect of the air conditioning system; the load balancing index of the cooling and heating effect is greater than or equal to the seventh When the preset value is less than or equal to the eighth preset value and the current operating mode of the outdoor unit is the cooling mode, it means that the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are relatively balanced at this time and maintained at a better level , The current control operation should be maintained, that is, the entire air-conditioning system does not need to adjust the control operation; When the value is greater than the eighth preset value and the current operation mode of the outdoor unit is the cooling mode, it means that the heating effect of the heating indoor unit is not as good as the cooling effect of the cooling indoor unit. The electronic expansion valve on the outdoor unit side of the air conditioning system should be reduced first. Opening degree and reduce the fan speed of the outdoor unit, thereby reducing the cooling effect of the air conditioning system and improving the heating effect. If the electronic expansion valve is completely closed and the fan of the outdoor unit is completely stopped, the cooling and heating effect load balance index is still greater than the eighth When the value is preset, it is necessary to adjust the outdoor unit from the cooling mode to the heating mode, and increase the opening degree of the electronic expansion valve and increase the fan speed of the outdoor unit, thereby further improving the heating effect of the air conditioning system. Similarly, when the load balance index of the cooling and heating effect is less than the ninth preset value and the current operation mode of the outdoor unit is the heating mode, it means that the cooling effect of the cooling indoor unit is not as good as the heating effect of the heating indoor unit at this time. First, the opening degree of the electronic expansion valve on the outdoor unit side of the air conditioning system and the fan speed of the outdoor unit should be reduced to reduce the heating effect of the air conditioning system and improve the cooling effect. If the electronic expansion valve is completely closed and the fan of the outdoor unit is completely stopped In turn, when the load balance index of the cooling and heating effect is still less than the ninth preset value, it is necessary to adjust the outdoor unit from the heating mode to the cooling mode, and increase the opening degree of the electronic expansion valve and increase the fan speed of the outdoor unit, thereby further Improve the cooling effect of the air conditioning system; the load balance index of the cooling and heating effect is greater than or equal to the ninth preset value and less than or equal to the tenth preset value and the current operating mode of the outdoor unit is the heating mode, indicating that the indoor unit of the cooling unit is at this time The cooling effect and heating effect of the heating indoor unit are relatively balanced and maintained at a better level, and the current control should be maintained Operation, that is, the entire air-conditioning system does not need to adjust the control operation; the load balancing index of the cooling and heating effect is greater than the tenth preset value and the current operation mode of the outdoor unit is the heating mode, indicating that the heating effect of the heating indoor unit is not as good at this time The cooling effect of a refrigerating indoor unit should increase the opening degree of the electronic expansion valve on the outdoor unit side of the air conditioning system and increase the fan speed of the outdoor unit, thereby improving the heating effect of the air conditioning system. Similar to the above, through such a control method, the cooling and heating balance of the air-conditioning system can be ensured at all times, that is, the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are balanced, thereby achieving the effects of all indoor units. The purpose is to reduce the energy consumption of the multi-connected air-conditioning system, make the multi-connected air-conditioning system more energy efficient, and improve the user experience.

BRIEF DESCRIPTION OF THE DRAWINGS

1 is a flowchart of a control method of a multi-connected air-conditioning system according to the present invention;

2 is a schematic diagram of a connection between an outdoor unit and an indoor unit in Embodiment 6 of the present invention;

FIG. 3 is a parameter table of the indoor unit in the sixth embodiment of the present invention.

detailed description

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Those skilled in the art should understand that these embodiments are only used to explain the technical principles of the present invention, and are not intended to limit the protection scope of the present invention.

It should be noted that, in the description of the present invention, the terms "first", "second", "third", "fourth", "fifth", "sixth", "seventh", "first "Eighth", "Ninth", and "Tenth" are used for descriptive purposes only and cannot be interpreted as indicating or implying relative importance.

Based on the background of the prior art multi-connected air-conditioning system, due to the inability to accurately determine the cooling and heating conditions of the indoor unit, and thus the outdoor unit cannot be turned on in the correct on mode, the present invention provides a multi-connected air-conditioning system. The control method of the air conditioning system is designed to enable the outdoor unit to determine the relationship between the total cooling load and the total heating load of the indoor unit before it is turned on, so that the outdoor unit is turned on in the correct on mode, and the outdoor unit can be turned on after Maintain or improve the cooling / heating effect of indoor units.

Specifically, the multi-connected air-conditioning system of the present invention includes an outdoor unit and a plurality of indoor units connected to the outdoor unit. As shown in FIG. 1, the control method of the present invention includes: obtaining a total cooling load and a total heating load of all indoor units. ; According to the total cooling load and total heating load, select the on mode of the outdoor unit. Among them, the cooling and heating effect load balancing index referred to in the present invention can also be referred to as the cooling and heating effect load balancing rate, that is, calculated from the total cooling load and total heating load of the indoor unit. In practical applications, First calculate the sum of the total cooling load and the total heating load of the indoor unit, and then calculate the cooling and heating effect load balance index by the ratio of the total cooling load and the sum, or use the total heating load and the sum To obtain the cooling and heating effect load balance index. In addition, in the present invention, the total cooling load of the indoor unit is calculated by calculating the cooling load of each cooling indoor unit in all the cooling indoor units, and the cooling load of each cooling indoor unit is the indoor unit capacity (horsepower) HP × (actual temperature CurTemp-set temperature SetTemp), so the total cooling load of all cooling indoor units CoolLoad = Σ [(CurTemp-SetTemp) × HP]; Similarly, the calculation method of total heating load of indoor units is: The heating load of each heating indoor unit among all heating indoor units, and the heating load of each heating indoor unit is the indoor unit capacity (number of horses) HP × (set temperature SetTemp-actual temperature CurTemp), so all heating The total heating load of the indoor unit, HeatLoad = [[SetTemp-CurTemp) × HP]. The cooling and heating effect load balance index (i.e., cooling and heating effect load balance index Rate = CoolLoad / (CoolLoad + HeatLoad)) is based on the ratio of the total cooling load CoolLoad, the total cooling load CoolLoad, and the total heating load HeatLoad. ) And the ratio of the total heating load HeatLoad to the total cooling load CoolLoad and the total heating load HeatLoad is worth the cooling and heating effect load balancing index (that is, the cooling and heating effect load balancing index Rate = HeatLoad / (CoolLoad + HeatLoad) ) Two aspects, the technical solution of the present invention is explained in detail.

Example one

The steps of "selecting the on mode of the outdoor unit according to the total cooling load and the total heating load" include: calculating the sum of the total cooling load CoolLoad and the total heating load HeatLoad; calculating the ratio of the total cooling load CoolLoad and the total value to obtain cooling The heating effect load balance index Rate (the calculation method is the same as that of the first embodiment, which will not be repeated here); according to the cooling and heating effect load balance index Rate, an on mode of the outdoor unit is selected. Specifically, the step of “selecting the opening mode of the outdoor unit according to the cooling and heating effect load balancing index Rate” specifically includes: if the cooling and heating effect load balancing index Rate is greater than or equal to the first preset value, the outdoor unit uses cooling The mode is turned on; if the cooling and heating effect load balance index Rate is less than the first preset value, the outdoor unit is turned on in the heating mode. The first preset value may be 50%, that is, when Rate is greater than 50%, the total cooling load of the indoor unit CoolLoad is greater than the total heating load HeatLoad, which indicates that the cooling effect of the cooling indoor unit is not as good as the heating effect of the heating indoor unit. At this time, the outdoor unit should be turned on in the cooling mode to improve the cooling effect of the indoor unit. When the rate is less than 50%, the total cooling load of the indoor unit CoolLoad is less than the total heating load HeatLoad, indicating the heating of the indoor unit. The effect is not as good as the cooling effect of the cooling indoor unit. At this time, the outdoor unit should be turned on in the heating mode, thereby improving the heating effect of the heating indoor unit. In addition, the first preset value is not limited to 50%, and may also be other percentage values. Those skilled in the art can flexibly set the specific value of the first preset value in actual applications, as long as the boundary determined by the first preset value is used. It is sufficient to determine and compare the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit. It should be noted that when Rate is equal to 50%, then the total cooling load of the indoor unit CoolLoad is equal to the total heating load HeatLoad. In principle, the outdoor unit can be turned on in either the cooling mode or the heating mode. In this implementation, In the example, the outdoor unit is turned on in the cooling mode.

Example two

The steps of "selecting the on mode of the outdoor unit according to the total cooling load and the total heating load" include: calculating the sum of the total cooling load CoolLoad and the total heating load HeatLoad; calculating the ratio of the total heating load HeatLoad to the total value to obtain The cooling and heating effect load balancing index Rate (the calculation method is the same as that in the second embodiment, which will not be repeated here); according to the cooling and heating effect load balancing index Rate, an on mode of the outdoor unit is selected. Specifically, the step of "selecting the on mode of the outdoor unit according to the cooling and heating effect load balancing index Rate" specifically includes: if the cooling and heating effect load balancing index Rate is greater than or equal to a second preset value, The thermal mode is turned on; if the cooling and heating effect load balance index Rate is less than the second preset value, the outdoor unit is turned on in the cooling mode. The second preset value may be 50%, that is, when Rate is greater than 50%, the total heating load of the indoor unit, HeatLoad, is greater than the total cooling load, CoolLoad, indicating that the heating effect of the heating indoor unit is not as good as that of the cooling indoor unit. At this time, the outdoor unit should be turned on in the heating mode, so as to improve the heating effect of the heating indoor unit; and when Rate is less than 50%, the total heating load HeatLoad of the indoor unit is less than the total cooling load CoolLoad, indicating that the The cooling effect is not as good as the heating effect of a heating indoor unit. At this time, the outdoor unit should be turned on in a cooling mode to improve the cooling effect of the cooling indoor unit. In addition, the second preset value is not limited to 50%, and may also be other percentage values. Those skilled in the art can flexibly set the specific value of the second preset value in actual applications, as long as the boundary determined by the second preset value is determined. It is sufficient to determine and compare the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit. It should be noted that when Rate is equal to 50%, then the total cooling load of the indoor unit CoolLoad is equal to the total heating load HeatLoad. In principle, the outdoor unit can be turned on in either the cooling mode or the heating mode. In this implementation, In the example, the outdoor unit is turned on in a heating mode.

Example three

In addition to adopting the technical solutions of the first embodiment and the second embodiment, the judgment of the outdoor unit on mode can also be performed by directly comparing the total cooling load and the total heating load. Specifically, the step of “selecting the on mode of the outdoor unit according to the total cooling load and the total heating load” includes: if the total cooling load is greater than or equal to the total heating load, the outdoor unit is turned on in the cooling mode; if the total cooling load is If the load is less than the total heating load, the outdoor unit is turned on in heating mode. By directly comparing the total heating load and the total cooling load of the indoor unit, the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit can be directly compared, and the corresponding opening mode can be directly selected.

Preferably, during the operation of the outdoor unit, the control method of the present invention further includes: obtaining a cooling and heating effect load balance index of the air-conditioning system and the current operation mode of the outdoor unit; according to the cooling and heating effect load balance index and the current of the outdoor unit The operating mode selectively adjusts the control operation of the air conditioning system. The technical solution of the present invention is further described below through two embodiments.

Embodiment 4

The steps of "obtaining the cooling and heating effect load balance index of the air-conditioning system" specifically include: obtaining the total cooling load CoolLoad and the total heating load HeatLoad of all indoor units; calculating the sum of the total cooling load CoolLoad and the total heating load HeatLoad; calculating The ratio of the total cooling load CoolLoad and the sum value (CoolLoad + HeatLoad) to obtain the cooling and heating effect load balance index Rate.

The step of “selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operating mode of the outdoor unit” specifically includes: if the cooling and heating effect load balancing index Rate is greater than a third preset value and the outdoor unit The current operating mode is cooling mode, increase the opening of the electronic expansion valve of the outdoor unit, and increase the fan speed of the outdoor unit. The third preset value can be set to 55%, that is, when the Rate is greater than 55%, the total cooling load of the indoor unit CoolLoad is higher than the total heating load HeatLoad, and the multi-line air conditioning system determines that the cooling of the indoor unit is cooling. The effect is not as good as the heating effect of the indoor unit. At this time, the opening degree of the electronic expansion valve of the outdoor unit should be increased, and the fan speed of the outdoor unit should be increased, so that the heat dissipation of the outdoor unit heat exchanger is used to improve the cooling of the indoor unit. effect. Among them, the fan speed of the outdoor unit should be adjusted with reference to the opening ratio of the electronic expansion valve of the outdoor unit. In practical applications, the opening degree of the electronic expansion valve of the outdoor unit is preferably increased by 5% each time (full opening is 100%). The fan speed of the outdoor unit increases correspondingly with the opening ratio of the electronic expansion valve of the outdoor unit. That is, after increasing the opening degree of the electronic expansion valve of the outdoor unit each time, the multi-line air conditioning system continues to obtain the cooling and heating effect load balance index Rate. If the Rate is still greater than 55%, the electronic expansion of the outdoor unit is increased again. Valve opening and increase fan speed of outdoor unit. Of course, the opening degree of the electronic expansion valve of the outdoor unit is not limited to an increase of 5% each time, but may also be 10%, 15%, etc., or the percentage value of the opening degree of the electronic expansion valve of the outdoor unit is different each time. Even in extreme cases, it can be directly increased to 100% at one time (that is, the electronic expansion valve of the outdoor unit is fully open). Those skilled in the art can flexibly set the opening degree of the electronic expansion valve each time in practical applications. The adjustment or change of the specific percentage value of each time the opening degree of the electronic expansion valve increases does not constitute a limitation on the present invention. In addition, the third preset value is not limited to 55%, and may also be other percentage values. Those skilled in the art can flexibly set the specific value of the third preset value in actual applications, as long as it is determined by the third preset value. The demarcation point can determine that the cooling effect of the cooling indoor unit is not as good as the heating effect of the heating indoor unit.

Based on the above technical solution, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operating mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index Rate is less than Or equal to the third preset value and greater than or equal to the fourth preset value and the current operation mode of the outdoor unit is a cooling mode, the control operation of the air conditioning system is maintained. Still taking the third preset value of 55% as an example, wherein the fourth preset value can be set to 45%, that is, when Rate is greater than or equal to 45% and less than or equal to 55%, the total cooling load of the indoor unit CoolLoad Similar to the total heating load HeatLoad, the multi-line air conditioning system judges that the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are basically in a balanced state, so the multi-line air conditioning system does not need to perform any control operation, so that the multi-line air conditioning The system remains in this equilibrium state at all times. In addition, the fourth preset value is not limited to 45%, and may also be other percentage values. Those skilled in the art can flexibly set specific values of the fourth preset value in actual applications, as long as the third preset value and the first preset value are passed. The boundary interval determined by the four preset values can determine that the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are in an equilibrium state.

Based on the above technical solution, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operating mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index Rate is less than The fourth preset value and the current operation mode of the outdoor unit is the cooling mode, then the current status of the electronic expansion valve and the fan of the outdoor unit is continuously acquired; and the air conditioning system is selectively adjusted according to the current status of the electronic expansion valve and the fan of the outdoor unit Control operations. Specifically, the step of “selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit” specifically includes: if the electronic expansion valve is not completely closed and the fan of the outdoor unit is in a non-stop state , Then reduce the opening of the electronic expansion valve and reduce the fan speed of the outdoor unit; if the electronic expansion valve is completely closed and the fan of the outdoor unit is stopped, the operating mode of the outdoor unit is switched to the heating mode, increasing The opening degree of the electronic expansion valve increases the fan speed of the outdoor unit. Still taking the fourth preset value of 45% as an example, that is, when the Rate is less than 45%, the total heating load HeatLoad of the indoor unit is higher than the total cooling load CoolLoad, and the multi-line air-conditioning system determines that the heating indoor unit is manufactured. The thermal effect is not as good as the cooling effect of the indoor unit. Because the outdoor unit is in the cooling mode at this time, it is preferred to reduce the opening of the electronic expansion valve of the outdoor unit and reduce the fan speed of the outdoor unit to make the outdoor unit heat exchanger. The heat radiation of the outdoor unit is reduced, thereby improving the heating effect of the indoor unit. In practical applications, the opening degree of the electronic expansion valve of the outdoor unit is preferably reduced by 5% each time (fully closed is 0%), and the fan speed of the outdoor unit is reduced. With the opening ratio of the electronic expansion valve of the outdoor unit correspondingly reduced, that is, after reducing the opening degree of the electronic expansion valve of the outdoor unit each time, the multi-line air conditioning system continues to obtain the cooling and heating effect load balance index Rate, if Rate If it is still less than 45%, reduce the opening degree of the electronic expansion valve of the outdoor unit and reduce the fan speed of the outdoor unit again. Of course, the opening degree of the electronic expansion valve of the outdoor unit is not limited to being reduced by 5% each time, and may be 10%, 15%, etc., or the percentage value of the opening degree of the electronic expansion valve of the outdoor unit is different each time. Even in extreme cases, it can be directly reduced to 0% at a time (that is, the electronic expansion valve of the outdoor unit is fully closed). Those skilled in the art can flexibly set the opening degree of the electronic expansion valve each time in practical applications. The adjustment or change of the specific percentage value of each time the opening degree of the electronic expansion valve decreases does not constitute a limitation on the present invention. The opening degree of the electronic expansion valve of the outdoor unit is reduced to 0%, that is, the electronic expansion valve of the outdoor unit is completely closed (because the fan of the outdoor unit adjusts the rotation speed with the opening ratio of the electronic expansion valve of the outdoor unit, When the electronic expansion valve is completely closed, in principle, the fan of the outdoor unit is in a stopped state), if the Rate is still less than 45%, then the opening of the electronic expansion valve and the speed of the fan of the outdoor unit cannot be reduced at this time. To improve the heating effect of the heating indoor unit, you need to switch the outdoor unit from the cooling mode to the heating mode, and then increase the opening of the electronic expansion valve of the outdoor unit and increase the fan speed of the outdoor unit to improve the heating. Heating effect of thermal indoor unit.

The step of “selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operating mode of the outdoor unit” specifically includes: if the cooling and heating effect load balancing index Rate is greater than a fifth preset value and the outdoor unit The current operation mode of the heating unit is to continue to obtain the current state of the electronic expansion valve of the outdoor unit and the fan of the outdoor unit; and to selectively adjust the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit. Specifically, the step of “selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit” specifically includes: if the electronic expansion valve is not completely closed and the fan of the outdoor unit is in a non-stop state , Reduce the opening of the electronic expansion valve and reduce the fan speed of the outdoor unit; if the electronic expansion valve is completely closed and the fan of the outdoor unit is stopped, the operating mode of the outdoor unit is switched to the cooling mode, increasing the electronic The opening of the expansion valve increases the fan speed of the outdoor unit. Take the fifth preset value of 55% as an example, that is, when Rate is greater than 55%, the total cooling load of the indoor unit CoolLoad is higher than the total heating load HeatLoad, and the multi-line air conditioning system determines that the cooling effect of the cooling indoor unit is not as good. Since the outdoor unit is in heating mode at this time, it is preferred to reduce the opening of the electronic expansion valve of the outdoor unit and reduce the fan speed of the outdoor unit to make the outdoor unit heat exchanger. The heat absorption of the outdoor unit is reduced, thereby improving the cooling effect of the indoor unit. In practical applications, the opening degree of the electronic expansion valve of the outdoor unit is preferably reduced by 5% each time (fully closed is 0%). The opening ratio of the electronic expansion valve of the outdoor unit is correspondingly reduced. That is, after reducing the opening of the electronic expansion valve of the outdoor unit each time, the multi-line air conditioning system continues to obtain the cooling and heating effect load balance index Rate. If it is greater than 55%, the opening degree of the electronic expansion valve of the outdoor unit is reduced again and the fan speed of the outdoor unit is reduced. Of course, the opening degree of the electronic expansion valve of the outdoor unit is not limited to being reduced by 5% each time, and may be 10%, 15%, etc., or the percentage value of the opening degree of the electronic expansion valve of the outdoor unit is different each time. Even in extreme cases, it can be directly reduced to 0% at a time (that is, the electronic expansion valve of the outdoor unit is fully closed). Those skilled in the art can flexibly set the opening degree of the electronic expansion valve each time in practical applications. The adjustment or change of the specific percentage value of each time the opening degree of the electronic expansion valve decreases does not constitute a limitation on the present invention. The opening degree of the electronic expansion valve of the outdoor unit is reduced to 0%, that is, the electronic expansion valve of the outdoor unit is completely closed (because the fan of the outdoor unit adjusts the rotation speed with the opening ratio of the electronic expansion valve of the outdoor unit, When the electronic expansion valve is completely closed, in principle, the fan of the outdoor unit is in a stopped state), if the Rate is still greater than 55%, the opening of the electronic expansion valve and the speed of the fan of the outdoor unit cannot be reduced at this time. To improve the cooling effect of the cooling indoor unit, the outdoor unit needs to be switched from the heating mode to the cooling mode, and then the opening degree of the electronic expansion valve of the outdoor unit and the fan speed of the outdoor unit are increased to increase the cooling indoor unit. Cooling effect. In addition, the fifth preset value is not limited to 55%, and may also be other percentage values. Those skilled in the art can flexibly set the specific value of the fifth preset value in actual applications, as long as it is determined by the fifth preset value. The demarcation point can determine that the cooling effect of the cooling indoor unit is not as good as the heating effect of the heating indoor unit.

Based on the above technical solution, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operating mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index Rate is less than Or equal to the fifth preset value and greater than or equal to the sixth preset value and the current operation mode of the outdoor unit is a heating mode, the control operation of the air conditioning system is maintained. Still taking the fifth preset value of 55% as an example, wherein the sixth preset value can be set to 45%, that is, when Rate is greater than or equal to 45% and less than or equal to 55%, the total cooling load of the indoor unit CoolLoad Similar to the total heating load HeatLoad, the multi-line air conditioning system judges that the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are basically in a balanced state, so the multi-line air conditioning system does not need to perform any control operation, so that the multi-line air conditioning The system remains in this equilibrium state at all times. In addition, the sixth preset value is not limited to 45%, and may also be other percentage values. Those skilled in the art can flexibly set the specific value of the sixth preset value in actual applications, as long as the fifth preset value and the first preset value are passed. The boundary interval determined by the six preset values can determine that the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are in an equilibrium state.

Based on the above technical solution, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operating mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index Rate is less than The sixth preset value and the current operation mode of the outdoor unit is a heating mode, increase the opening degree of the electronic expansion valve of the outdoor unit, and increase the fan speed of the outdoor unit. Still taking the sixth preset value of 45% as an example, that is, when the Rate is less than 45%, the total heating load HeatLoad of the indoor unit is higher than the total cooling load CoolLoad, and the multi-line air conditioning system determines that the heating indoor unit is a heating system. The thermal effect is not as good as the cooling indoor unit. At this time, the opening of the electronic expansion valve of the outdoor unit should be increased, and the fan speed of the outdoor unit should be increased. Therefore, the heat absorption of the outdoor unit's heat exchanger can be used to improve the heating of the indoor unit. Heating effect. Among them, the fan speed of the outdoor unit should be adjusted with reference to the opening ratio of the electronic expansion valve of the outdoor unit. In practical applications, the opening degree of the electronic expansion valve of the outdoor unit is preferably increased by 5% each time (full opening is 100%). The fan speed of the outdoor unit increases correspondingly with the opening ratio of the electronic expansion valve of the outdoor unit. That is, after increasing the opening degree of the electronic expansion valve of the outdoor unit each time, the multi-line air conditioning system continues to obtain the cooling and heating effect load balance index Rate. If the Rate is still less than 45%, the electronic expansion of the outdoor unit is increased again. Valve opening and increase fan speed of outdoor unit. Of course, the opening degree of the electronic expansion valve of the outdoor unit is not limited to an increase of 5% each time, but may also be 10%, 15%, etc., or the percentage value of the opening degree of the electronic expansion valve of the outdoor unit is different each time. Even in extreme cases, it can be directly increased to 100% at one time (that is, the electronic expansion valve of the outdoor unit is fully open). Those skilled in the art can flexibly set the opening degree of the electronic expansion valve each time in practical applications. The adjustment or change of the specific percentage value of each time the opening degree of the electronic expansion valve increases does not constitute a limitation on the present invention.

Example 5

The steps of "obtaining the cooling and heating effect load balance index of the air-conditioning system" specifically include: obtaining the total cooling load CoolLoad and the total heating load HeatLoad of all indoor units; calculating the sum of the total cooling load CoolLoad and the total heating load HeatLoad; calculating The ratio of the total heating load HeatLoad and the sum value (CoolLoad + HeatLoad) to obtain the cooling and heating effect load balance index Rate.

The step of “selectively adjusting the control operation of the air conditioning system according to the cooling and heating effect load balancing index and the current operating mode of the outdoor unit” specifically includes: if the cooling and heating effect load balancing index Rate is less than a seventh preset value and the outdoor unit The current operating mode is cooling mode, increase the opening of the electronic expansion valve of the outdoor unit, and increase the fan speed of the outdoor unit. The seventh preset value can be set to 45%, that is, when Rate is less than 45%, the total cooling load of the indoor unit CoolLoad is higher than the total heating load HeatLoad, and the multi-line air conditioning system determines that the cooling of the indoor unit is cooling. The effect is not as good as the heating effect of the indoor unit. At this time, the opening degree of the electronic expansion valve of the outdoor unit should be increased, and the fan speed of the outdoor unit should be increased, so that the heat dissipation of the outdoor unit heat exchanger is used to improve the cooling of the indoor unit. effect. Among them, the fan speed of the outdoor unit should be adjusted with reference to the opening ratio of the electronic expansion valve of the outdoor unit. In practical applications, the opening degree of the electronic expansion valve of the outdoor unit is preferably increased by 5% each time (full opening is 100%). The fan speed of the outdoor unit increases correspondingly with the opening ratio of the electronic expansion valve of the outdoor unit. That is, after increasing the opening degree of the electronic expansion valve of the outdoor unit each time, the multi-line air conditioning system continues to obtain the cooling and heating effect load balance index Rate. If the Rate is still less than 45%, the electronic expansion of the outdoor unit is increased again. Valve opening and increase fan speed of outdoor unit. Of course, the opening degree of the electronic expansion valve of the outdoor unit is not limited to an increase of 5% each time, but may also be 10%, 15%, etc., or the percentage value of the opening degree of the electronic expansion valve of the outdoor unit is different each time. Even in extreme cases, it can be directly increased to 100% at one time (that is, the electronic expansion valve of the outdoor unit is fully open). Those skilled in the art can flexibly set the opening degree of the electronic expansion valve each time in practical applications. The adjustment or change of the specific percentage value of each time the opening degree of the electronic expansion valve increases does not constitute a limitation on the present invention. In addition, the seventh preset value is not limited to 45%, and may also be other percentage values. Those skilled in the art can flexibly set the specific value of the seventh preset value in actual applications, as long as it is determined by the seventh preset value. The demarcation point can determine that the cooling effect of the cooling indoor unit is not as good as the heating effect of the heating indoor unit.

Based on the above technical solution, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index Rate is greater than Or equal to the seventh preset value and less than or equal to the eighth preset value and the current operation mode of the outdoor unit is a cooling mode, the control operation of the air conditioning system is maintained. Taking the seventh preset value as 45% as an example, the eighth preset value can be set to 55%, that is, when Rate is greater than or equal to 45% and less than or equal to 55%, the total cooling load of the indoor unit CoolLoad Similar to the total heating load HeatLoad, the multi-line air conditioning system judges that the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are basically in a balanced state, so the multi-line air conditioning system does not need to perform any control operation, so that the multi-line air conditioning The system remains in this equilibrium state at all times. In addition, the eighth preset value is not limited to 55%, and may also be other percentage values. Those skilled in the art can flexibly set specific values of the eighth preset value in actual applications, as long as the seventh preset value and the first preset value are passed. The boundary interval determined by the eight preset values can determine that the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are in an equilibrium state.

Based on the above technical solution, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index Rate is greater than The eighth preset value and the current operation mode of the outdoor unit is the cooling mode, then continue to obtain the current status of the electronic expansion valve and the fan of the outdoor unit; selectively adjust the air conditioning system according to the current status of the electronic expansion valve and the fan of the outdoor unit Control operations. Specifically, the step of “selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit” specifically includes: if the electronic expansion valve is not completely closed and the fan of the outdoor unit is in a non-stop state , Then reduce the opening of the electronic expansion valve and reduce the fan speed of the outdoor unit; if the electronic expansion valve is completely closed and the fan of the outdoor unit is stopped, the operating mode of the outdoor unit is switched to the heating mode, increasing The opening degree of the electronic expansion valve increases the fan speed of the outdoor unit. Still taking the eighth preset value of 55% as an example, that is, when Rate is greater than 55%, the total heating load HeatLoad of the indoor unit is higher than the total cooling load CoolLoad, and the multi-line air-conditioning system determines that the heating indoor unit is manufactured. The thermal effect is not as good as the cooling effect of the indoor unit. Because the outdoor unit is in the cooling mode at this time, it is preferred to reduce the opening of the electronic expansion valve of the outdoor unit and reduce the fan speed of the outdoor unit to make the outdoor unit heat exchanger. The heat radiation of the outdoor unit is reduced, thereby improving the heating effect of the indoor unit. In practical applications, the opening degree of the electronic expansion valve of the outdoor unit is preferably reduced by 5% each time (fully closed is 0%), and the fan speed of the outdoor unit is reduced. With the opening ratio of the electronic expansion valve of the outdoor unit correspondingly reduced, that is, after reducing the opening degree of the electronic expansion valve of the outdoor unit each time, the multi-line air conditioning system continues to obtain the cooling and heating effect load balance index Rate, if Rate If it is still greater than 55%, reduce the opening degree of the electronic expansion valve of the outdoor unit and reduce the fan speed of the outdoor unit again. Of course, the opening degree of the electronic expansion valve of the outdoor unit is not limited to being reduced by 5% each time, and may be 10%, 15%, etc., or the percentage value of the opening degree of the electronic expansion valve of the outdoor unit is different each time. Even in extreme cases, it can be directly reduced to 0% at a time (that is, the electronic expansion valve of the outdoor unit is fully closed). Those skilled in the art can flexibly set the opening degree of the electronic expansion valve each time in practical applications. The adjustment or change of the specific percentage value of each time the opening degree of the electronic expansion valve decreases does not constitute a limitation on the present invention. The opening degree of the electronic expansion valve of the outdoor unit is reduced to 0%, that is, the electronic expansion valve of the outdoor unit is completely closed (because the fan of the outdoor unit adjusts the rotation speed with the opening ratio of the electronic expansion valve of the outdoor unit, When the electronic expansion valve is completely closed, in principle, the fan of the outdoor unit is in a stopped state), if the Rate is still greater than 55%, the opening of the electronic expansion valve and the speed of the fan of the outdoor unit cannot be reduced at this time. To improve the heating effect of the heating indoor unit, you need to switch the outdoor unit from the cooling mode to the heating mode, and then increase the opening of the electronic expansion valve of the outdoor unit and increase the fan speed of the outdoor unit to improve the heating. Heating effect of thermal indoor unit.

The step of “selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operating mode of the outdoor unit” specifically includes: if the cooling and heating effect load balancing index Rate is less than a ninth preset value and the outdoor unit The current operation mode of the heating unit is to continue to obtain the current state of the electronic expansion valve of the outdoor unit and the fan of the outdoor unit; and to selectively adjust the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit. Specifically, the step of “selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit” specifically includes: if the electronic expansion valve is not completely closed and the fan of the outdoor unit is in a non-stop state , Reduce the opening of the electronic expansion valve and reduce the fan speed of the outdoor unit; if the electronic expansion valve is completely closed and the fan of the outdoor unit is stopped, the operating mode of the outdoor unit is switched to the cooling mode, increasing the electronic The opening of the expansion valve increases the fan speed of the outdoor unit. Take the ninth preset value of 45% as an example, that is, when the Rate is less than 45%, the total cooling load of the indoor unit CoolLoad is higher than the total heating load HeatLoad, and the multi-line air conditioning system determines that the cooling effect of the cooling indoor unit is not as good. Since the outdoor unit is in heating mode at this time, it is preferred to reduce the opening of the electronic expansion valve of the outdoor unit and reduce the fan speed of the outdoor unit to make the outdoor unit heat exchanger. The heat absorption of the outdoor unit is reduced, thereby improving the cooling effect of the indoor unit. In practical applications, the opening degree of the electronic expansion valve of the outdoor unit is preferably reduced by 5% each time (fully closed is 0%). The opening ratio of the electronic expansion valve of the outdoor unit is correspondingly reduced. That is, after reducing the opening of the electronic expansion valve of the outdoor unit each time, the multi-line air conditioning system continues to obtain the cooling and heating effect load balance index Rate. If it is less than 45%, the opening degree of the electronic expansion valve of the outdoor unit is reduced again and the fan speed of the outdoor unit is reduced. Of course, the opening degree of the electronic expansion valve of the outdoor unit is not limited to being reduced by 5% each time, and may be 10%, 15%, etc., or the percentage value of the opening degree of the electronic expansion valve of the outdoor unit is different each time. Even in extreme cases, it can be directly reduced to 0% at a time (that is, the electronic expansion valve of the outdoor unit is fully closed). Those skilled in the art can flexibly set the opening degree of the electronic expansion valve each time in practical applications. The adjustment or change of the specific percentage value of each time the opening degree of the electronic expansion valve decreases does not constitute a limitation on the present invention. The opening degree of the electronic expansion valve of the outdoor unit is reduced to 0%, that is, the electronic expansion valve of the outdoor unit is completely closed (because the fan of the outdoor unit adjusts the rotation speed with the opening ratio of the electronic expansion valve of the outdoor unit, When the electronic expansion valve is completely closed, in principle, the fan of the outdoor unit is in a stopped state), if the Rate is still less than 45%, then the opening of the electronic expansion valve and the speed of the fan of the outdoor unit cannot be reduced at this time. To improve the cooling effect of the cooling indoor unit, the outdoor unit needs to be switched from the heating mode to the cooling mode, and then the opening degree of the electronic expansion valve of the outdoor unit and the fan speed of the outdoor unit are increased to increase the cooling indoor unit. Cooling effect. In addition, the ninth preset value is not limited to 45%, and may also be other percentage values. Those skilled in the art can flexibly set the specific value of the ninth preset value in actual applications, as long as it is determined by the fifth preset value. The demarcation point can determine that the cooling effect of the cooling indoor unit is not as good as the heating effect of the heating indoor unit.

Based on the above technical solution, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index Rate is greater than Or equal to the ninth preset value and less than or equal to the tenth preset value and the current operation mode of the outdoor unit is a heating mode, the control operation of the air conditioning system is maintained. Taking the ninth preset value as 45% as an example, the tenth preset value can be set to 55%, that is, when Rate is greater than or equal to 45% and less than or equal to 55%, the total cooling load of the indoor unit CoolLoad Similar to the total heating load HeatLoad, the multi-line air conditioning system judges that the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are basically in a balanced state, so the multi-line air conditioning system does not need to perform any control operation, so that the multi-line air conditioning The system remains in this equilibrium state at all times. In addition, the tenth preset value is not limited to 55%, and may also be other percentage values. Those skilled in the art can flexibly set specific values of the tenth preset value in actual applications, as long as the ninth preset value and the The boundary interval determined by the ten preset values can determine that the cooling effect of the cooling indoor unit and the heating effect of the heating indoor unit are in an equilibrium state.

Based on the above technical solution, the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balancing index and the current operation mode of the outdoor unit" further includes: if the cooling and heating effect load balancing index Rate is greater than The tenth preset value and the current operation mode of the outdoor unit is a heating mode, increase the opening degree of the electronic expansion valve of the outdoor unit, and increase the fan speed of the outdoor unit. Still taking the tenth preset value of 55% as an example, that is, when the Rate is greater than 55%, the total heating load HeatLoad of the indoor unit is higher than the total cooling load CoolLoad, and the multi-line air-conditioning system determines that the heating indoor unit is manufactured. The thermal effect is not as good as the cooling effect of the cooling indoor unit. At this time, the opening degree of the electronic expansion valve of the outdoor unit should be increased, and the fan speed of the outdoor unit should be increased. Heating effect. Among them, the fan speed of the outdoor unit should be adjusted with reference to the opening ratio of the electronic expansion valve of the outdoor unit. In practical applications, the opening degree of the electronic expansion valve of the outdoor unit is preferably increased by 5% each time (full opening is 100%). The fan speed of the outdoor unit increases correspondingly with the opening ratio of the electronic expansion valve of the outdoor unit. That is, after increasing the opening degree of the electronic expansion valve of the outdoor unit each time, the multi-line air conditioning system continues to obtain the cooling and heating effect load balance index Rate. If the Rate is still greater than 55%, the electronic expansion of the outdoor unit is increased again. Valve opening and increase fan speed of outdoor unit. Of course, the opening degree of the electronic expansion valve of the outdoor unit is not limited to an increase of 5% each time, but may also be 10%, 15%, etc., or the percentage value of the opening degree of the electronic expansion valve of the outdoor unit is different each time. Even in extreme cases, it can be directly increased to 100% at one time (that is, the electronic expansion valve of the outdoor unit is fully open). Those skilled in the art can flexibly set the opening degree of the electronic expansion valve each time in practical applications. The adjustment or change of the specific percentage value of each time the opening degree of the electronic expansion valve increases does not constitute a limitation on the present invention.

The above technical solution is described below in combination with a specific embodiment.

Example Six

As shown in Figures 2 and 3, the outdoor unit is connected to all cooling indoor units through valve box 1, and the outdoor unit is connected to all heating indoor units through valve box 2. It should be noted that the mode of valve box 1 and valve box 2 It can be different, but the indoor unit mode connected to the same valve box must be the same. Continue to refer to Figures 2 and 3, assuming that 2 # indoor unit and 8 # indoor unit are off, 1 # indoor unit, 3 # indoor unit, and 4 # indoor The unit is in cooling mode, and the 5 # indoor unit, 6 # indoor unit, and 7 # indoor unit are in heating state. For the parameters of the indoor unit, see Figure 3. Before the outdoor unit is turned on (take the case in the third embodiment as an example), First calculate the total cooling load CoolLoad and total heating load HeatLoad of the indoor unit. In this embodiment, the calculation method of the cooling and heating effect load balance index Rate is Rate = CoolLoad / (CoolLoad + HeatLoad)), where the total cooling load CoolLoad = ∑ [(CurTemp-SetTemp) × HP] = (23.2-20) × 5.0 + (26.7-22) × 1.2 + (25.3-23) × 0.6 = 23.02, total heating load HeatLoad = ∑ [(SetTemp-CurTemp) × HP] = (30-26.5) × 4.0 + (25-24.2) × 1.5 + (24-23.5) × 2.0 = 16.2, therefore, Rate = 23.02 / (23.02 + 16.2) = 0.58 7 = 58.7%, still taking the first preset value of 50% as an example. Since the Rate is greater than 50%, the indoor unit should be turned on in the cooling mode at this time.

For another example, if the above calculation result is that the outdoor unit is turned on and the operating mode of the outdoor unit is cooling mode (that is, the case in the first embodiment), the third preset value is still 55% as an example. When Rate is greater than 55%, it means that the total cooling load of the indoor unit CoolLoad is higher than the total heating load HeatLoad. The multi-line air conditioning system determines that the cooling effect of the cooling indoor unit is not as good as the heating effect of the heating indoor unit. The opening degree of the electronic expansion valve of the large outdoor unit and the fan speed of the outdoor unit are increased, so that the heat dissipation of the outdoor unit heat exchanger is used to improve the cooling effect of the cooling indoor unit.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the accompanying drawings. However, those skilled in the art can easily understand that the protection scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, those skilled in the art can make equivalent changes or replacements to related technical features, and the technical solutions after these changes or replacements will fall into the protection scope of the present invention.

Claims (32)

1. A control method for a multi-connected air-conditioning system. The multi-connected air-conditioning system includes an outdoor unit and a plurality of indoor units connected to the outdoor unit. The control method includes:

   Obtaining the total cooling load and the total heating load of all the indoor units;

   Selecting the on mode of the outdoor unit according to the total cooling load and the total heating load.
2. The control method according to claim 1, wherein the step of "selecting the on mode of the outdoor unit according to the total cooling load and the total heating load" includes:

   Calculating a sum of the total cooling load and the total heating load;

   Calculating a ratio of the total cooling load to the sum to obtain the cooling and heating effect load balance index;

   Selecting the on mode of the outdoor unit according to the cooling and heating effect load balancing index.
3. The control method according to claim 2, wherein the step of "selecting the on mode of the outdoor unit based on the cooling and heating effect load balancing index" specifically includes:

   If the cooling and heating effect load balance index is greater than or equal to a first preset value, the outdoor unit is turned on in a cooling mode.
4. The control method according to claim 3, wherein the step of "selecting the on mode of the outdoor unit based on the cooling and heating effect load balance index" further comprises:

   If the load balancing index of the cooling and heating effect is smaller than the first preset value, the outdoor unit is turned on in a heating mode.
5. The control method according to claim 1, wherein the step of "selecting the on mode of the outdoor unit according to the total cooling load and the total heating load" includes:

   Calculating a sum of the total cooling load and the total heating load;

   Calculating a ratio of the total heating load to the sum to obtain the cooling and heating effect load balance index;

   Selecting the on mode of the outdoor unit according to the cooling and heating effect load balancing index.
6. The control method according to claim 5, wherein the step of "selecting the on mode of the outdoor unit according to the cooling and heating effect load balance index" specifically includes:

   If the cooling and heating effect load balance index is greater than or equal to a second preset value, the outdoor unit is turned on in a heating mode.
7. The control method according to claim 6, wherein the step of "selecting the on mode of the outdoor unit according to the cooling and heating effect load balance index" further comprises:

   If the cooling and heating effect load balance index is less than the second preset value, the outdoor unit is turned on in a cooling mode.
8. The control method according to claim 1, wherein the step of "selecting the on mode of the outdoor unit according to the total cooling load and the total heating load" specifically includes:

   If the total cooling load is greater than or equal to the total heating load, the outdoor unit is turned on in a cooling mode.
9. The control method according to claim 8, wherein the step of "selecting the on mode of the outdoor unit according to the total cooling load and the total heating load" further comprises:

   If the total cooling load is less than the total heating load, the outdoor unit is turned on in a heating mode.
10. The control method according to any one of claims 1 to 9, wherein during the operation of the outdoor unit, the control method further comprises:

    Obtaining a cooling and heating effect load balancing index of the air conditioning system and a current operating mode of the outdoor unit;

    The control operation of the air conditioning system is selectively adjusted according to the cooling and heating effect load balance index and the current operation mode of the outdoor unit.
11. The control method according to claim 10, wherein the step of "obtaining a cooling and heating effect load balance index of the air conditioning system" specifically includes:

    Obtaining the total cooling load and the total heating load of all the indoor units;

    Calculating a sum of the total cooling load and the total heating load;

    Calculate the ratio of the total cooling load to the sum to obtain the cooling and heating effect load balance index.
12. The control method according to claim 11, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" is specific include:

    If the cooling and heating effect load balance index is greater than a third preset value and the current operation mode of the outdoor unit is a cooling mode, increase the opening degree of the electronic expansion valve of the outdoor unit and increase the outdoor unit Fan speed.
13. The control method according to claim 12, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" further comprises include:

    If the cooling and heating effect load balance index is less than or equal to the third preset value and greater than or equal to the fourth preset value and the current operation mode of the outdoor unit is a cooling mode, control of the air conditioning system is maintained operating.
14. The control method according to claim 13, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" further comprises include:

    If the cooling and heating effect load balance index is less than the fourth preset value and the current operation mode of the outdoor unit is a cooling mode, then continue to obtain the current states of the electronic expansion valve and the fan of the outdoor unit;

    According to the current state of the electronic expansion valve and the fan of the outdoor unit, the control operation of the air conditioning system is selectively adjusted.
15. The control method according to claim 14, wherein the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" specifically includes:

    If the electronic expansion valve is not completely closed and the fan of the outdoor unit is in a non-stop state, the opening degree of the electronic expansion valve is reduced, and the speed of the fan of the outdoor unit is reduced.
16. The control method according to claim 15, wherein the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" further comprises:

    If the electronic expansion valve is completely closed and the fan of the outdoor unit is stopped, the operation mode of the outdoor unit is switched to a heating mode, the opening degree of the electronic expansion valve is increased, and the outdoor temperature is increased. The fan speed of the machine.
17. The control method according to claim 11, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" is specific include:

    If the cooling and heating effect load balance index is greater than a fifth preset value and the current operation mode of the outdoor unit is a heating mode, then continue to obtain the current value of the electronic expansion valve of the outdoor unit and the fan of the outdoor unit. status;

    According to the current state of the electronic expansion valve and the fan of the outdoor unit, the control operation of the air conditioning system is selectively adjusted.
18. The control method according to claim 17, wherein the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" specifically includes:

    If the electronic expansion valve is not completely closed and the fan of the outdoor unit is in a non-stop state, the opening degree of the electronic expansion valve is reduced, and the speed of the fan of the outdoor unit is reduced.
19. The control method according to claim 18, wherein the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" further comprises:

    If the electronic expansion valve is completely closed and the fan of the outdoor unit is stopped, the operation mode of the outdoor unit is switched to a cooling mode, the opening degree of the electronic expansion valve is increased, and the outdoor unit is increased. Fan speed.
20. The control method according to claim 17, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" further include:

    If the cooling and heating effect load balance index is less than or equal to the fifth preset value and greater than or equal to the sixth preset value and the current operation mode of the outdoor unit is a heating mode, maintaining the Control operation.
21. The control method according to claim 20, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" further include:

    If the load balance index of the cooling and heating effect is smaller than the sixth preset value and the current operation mode of the outdoor unit is a heating mode, the opening degree of the electronic expansion valve of the outdoor unit is increased, and the The fan speed of the outdoor unit is described.
22. The control method according to claim 10, wherein the step of "obtaining the cooling and heating effect load balance index of the air conditioning system" specifically includes:

    Obtaining the total cooling load and the total heating load of all the indoor units;

    Calculating a sum of the total cooling load and the total heating load;

    Calculate a ratio of the total heating load to the sum to obtain the cooling and heating effect load balance index.
23. The control method according to claim 22, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" is specific include:

    If the cooling and heating effect load balance index is less than a seventh preset value and the current operation mode of the outdoor unit is a cooling mode, increase the opening degree of the electronic expansion valve of the outdoor unit and increase the outdoor unit Fan speed.
24. The control method according to claim 23, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" further comprises include:

    If the cooling and heating effect load balance index is greater than or equal to the seventh preset value and less than or equal to the eighth preset value and the current operation mode of the outdoor unit is a cooling mode, control of the air conditioning system is maintained operating.
25. The control method according to claim 24, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" further include:

    If the cooling and heating effect load balance index is greater than the eighth preset value and the current operating mode of the outdoor unit is a cooling mode, then continue to obtain the current states of the electronic expansion valve and the fan of the outdoor unit;

    According to the current state of the electronic expansion valve and the fan of the outdoor unit, the control operation of the air conditioning system is selectively adjusted.
26. The control method according to claim 25, wherein the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" specifically includes:

    If the electronic expansion valve is not completely closed and the fan of the outdoor unit is in a non-stop state, the opening degree of the electronic expansion valve is reduced, and the speed of the fan of the outdoor unit is reduced.
27. The control method according to claim 26, wherein the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" further comprises:

    If the electronic expansion valve is completely closed and the fan of the outdoor unit is stopped, the operation mode of the outdoor unit is switched to a heating mode, the opening degree of the electronic expansion valve is increased, and the outdoor temperature is increased. The fan speed of the machine.
28. The control method according to claim 22, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" is specific include:

    If the cooling and heating effect load balance index is less than a ninth preset value and the current operation mode of the outdoor unit is a heating mode, then continue to obtain the current of the electronic expansion valve of the outdoor unit and the fan of the outdoor unit. status;

    According to the current state of the electronic expansion valve and the fan of the outdoor unit, the control operation of the air conditioning system is selectively adjusted.
29. The control method according to claim 28, wherein the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" specifically includes:

    If the electronic expansion valve is not completely closed and the fan of the outdoor unit is in a non-stop state, the opening degree of the electronic expansion valve is reduced, and the speed of the fan of the outdoor unit is reduced.
30. The control method according to claim 29, wherein the step of "selectively adjusting the control operation of the air conditioning system according to the current state of the electronic expansion valve and the fan of the outdoor unit" further comprises:

    If the electronic expansion valve is completely closed and the fan of the outdoor unit is stopped, the operation mode of the outdoor unit is switched to a cooling mode, the opening degree of the electronic expansion valve is increased, and the outdoor unit is increased. Fan speed.
31. The control method according to claim 28, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" further include:

    If the cooling and heating effect load balance index is greater than or equal to the ninth preset value and less than or equal to the tenth preset value and the current operation mode of the outdoor unit is a heating mode, maintaining the Control operation.
32. The control method according to claim 31, wherein the step of "selectively adjusting the control operation of the air conditioning system based on the cooling and heating effect load balance index and the current operation mode of the outdoor unit" further include:

    If the cooling and heating effect load balance index is greater than the tenth preset value and the current operation mode of the outdoor unit is a heating mode, increase the opening degree of the electronic expansion valve of the outdoor unit and increase the The fan speed of the outdoor unit is described.

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