KR20210045191A - Heatpump system and method of control thereof - Google Patents

Abstract

The present invention is to provide a heat pump system capable of achieving high efficiency as a heat pump system for controlling the temperature of a first space and a second space that are separated from each other. According to the present invention, a control method of a heat pump may comprise the steps of: setting the heat pump to any one of a manual mode and a basic mode; receiving, by the heat pump, temperature information of a first space measured by a first temperature sensor; cooling or heating the first space according to the temperature of the first space measured by the first temperature sensor by the heat pump; receiving, by the heat pump, temperature information of a second space measured by a second temperature sensor; and cooling or heating, by the heat pump, the second space according to the temperature of the second space measured by the second temperature sensor.

Description

Heat pump system and control method thereof {HEATPUMP SYSTEM AND METHOD OF CONTROL THEREOF}

The present invention relates to a heat pump system and a control method thereof, and more particularly, to a heat pump system for cooling or heating two spaces separated from each other, and a control method thereof.

The heat pump includes a compressor for compressing a refrigerant, an indoor heat exchanger, an expansion valve for expanding the refrigerant, and an outdoor heat exchanger.

When the indoor heat exchanger exchanges heat with indoor air, the indoor air may be heated or cooled through heat exchange with a refrigerant. When the indoor heat exchanger operates as an evaporator, indoor air passing through the indoor heat exchanger may be cooled by heat exchange with a refrigerant. In contrast, when the indoor heat exchanger operates as a condenser, indoor air passing through the indoor heat exchanger may be heated by heat exchange with the refrigerant.

The system for heating or cooling by using the above heat pump is widely used throughout the industry. In particular, since the target temperature inside the house and the target temperature of the low-temperature warehouse are different in farmhouses, attempts have been made to use a heat pump to maintain this smoothly.

KR 10-1321200 B1 KR 10-2015-0009201 A

The problem to be solved by the present invention is to provide a heat pump system capable of achieving high efficiency as a heat pump system for controlling the temperature of a first space and a second space that are separated from each other.

Another problem to be solved by the present invention is to provide a heat pump system capable of achieving high efficiency while satisfying realistic temperature conditions when the second space is used as a low-temperature warehouse.

The heat pump system of the present invention for solving the above problem is a heat pump system that controls the temperature of a first space and a second space separated from the outside, wherein the heat pump system is a heat pump that generates hot or cold air. And a control unit for controlling supply of the hot or cold air generated by the heat pump to the first space and the second space, wherein the control unit, when it is determined that heating of the first space is required, the heat pump When it is determined that cooling of the second space is necessary while supplying the heat generated by the heat to the first space and supplying the heat generated by the heat pump to the first space, the heat pump is Cool air generated while generating heat supplied to the second space is supplied to the second space, and when it is determined that cooling of the second space is not necessary, the heat pump generates heat supplied to the first space Is discharged to the outside.

In an embodiment of the present invention, the heat pump may be operated by selecting one of a heating priority mode and a cooling priority mode, and the control unit determines that heating of the first space is required, and the heat pump is While the generated heat is supplied to the first space, the heat pump may be controlled to operate in a heating priority mode.

In an embodiment of the present invention, the control unit controls the heat pump to operate in a cooling priority mode when it is determined that heating of the first space is not required and cooling of the second space is required, and the The cool air generated by the heat pump may be supplied to the second space.

In one embodiment of the present invention, the control unit controls the heat pump to operate in a heating priority mode, and even while supplying heat generated by the heat pump to the first space, the temperature of the second space If it is determined that the upper limit has been reached, the heat pump may be controlled to operate in a cooling priority mode, and cold air generated by the heat pump may be supplied to the second space.

In an embodiment of the present invention, the control unit determines that heating of the first space is required, and the temperature of the second space is maintained even while the heat generated by the heat pump is supplied to the first space. If it is determined that the lower limit has been reached, at least a part of the heat generated by the heat pump may be supplied to the second space.

In one embodiment of the present invention, the control unit, when it is determined that heating of the first space is not required and cooling of the second space is required, the cool air generated by the heat pump is supplied to the second space. I can.

In an embodiment of the present invention, the heat pump may be operated by selecting one of a heating priority mode and a cooling priority mode, and the control unit does not require heating of the first space, and It is determined that cooling is necessary, and while the cool air generated by the heat pump is supplied to the second space, the heat pump may be controlled to operate in a cooling priority mode.

In one embodiment of the present invention, the control unit may supply heat generated while the heat pump generates cool air supplied to the second space to the first space.

In addition, in the control method of the heat pump system of the present invention for solving the above problem, in the control method of the heat pump system for controlling the temperature of the first space and the second space separated from the outside, the heat pump system, A heat pump for generating hot or cold air, and a control unit for controlling supply of hot or cold air generated by the heat pump to the first space and the second space, and whether the control unit requires heating of the first space When determining that heating of the first space is necessary in the determining whether the first space needs to be heated by the control unit, supplying the heat generated by the heat pump to the first space, the control unit In the step of determining whether cooling of the second space is necessary while supplying the heat generated by the heat pump to the first space, and in the step of determining whether cooling of the second space is required by the control unit, When it is determined that cooling is necessary, the heat pump generates heat supplied to the first space and supplies the generated cool air to the second space, and in the step of determining whether cooling of the second space is required, the second space If it is determined that the cooling of the heat pump is not required, the heat pump generates heat supplied to the first space while discharging the generated cool air to the outside.

In an embodiment of the present invention, the heat pump may be selected and operated in one of a heating priority mode and a cooling priority mode, and the control unit may operate the heat pump in the step of supplying the heat to the first space. It can be controlled to operate in the heating priority mode.

In one embodiment of the present invention, the temperature of the second space in the step of determining whether the temperature of the second space has reached a lower limit value by the control unit and the step of determining whether the temperature of the second space has reached the lower limit value by the control unit If it is determined that is reached the lower limit, the step of supplying at least a portion of the heat generated by the heat pump to the second space may be further included.

In an embodiment of the present invention, in the step of determining, by the control unit, whether heating of the first space is not required, and whether cooling of the second space is required, and in the step of determining whether cooling of the second space is required by the control unit When it is determined whether cooling of the second space is necessary, the step of supplying cool air generated by the heat pump to the second space may be further included.

The heat pump system according to an embodiment of the present invention can achieve high efficiency in controlling the temperatures of the first space and the second space that are separated from each other.

In addition, the heat pump system according to an embodiment of the present invention can achieve high efficiency while satisfying realistic temperature conditions when the second space among the first space and the second space is used as a low-temperature warehouse.

1 is a conceptual diagram showing components for explaining a control method of a heat pump according to an embodiment of the present invention.
2 is an operational state diagram of the heat pump system according to the first embodiment of the present invention.
3 is a graph showing a temperature change in each space according to the first embodiment of the present invention.
4 is an operational state diagram of the heat pump system according to the second embodiment of the present invention.
5 is a graph showing a temperature change in each space according to a second embodiment of the present invention.
6 is an operational state diagram of the heat pump system according to the third embodiment of the present invention.
7 is a graph showing a temperature change in each space according to a third exemplary embodiment of the present invention.
8 is an operational state diagram of the heat pump system according to the fourth embodiment of the present invention.
9 is a graph showing a temperature change in each space according to a fourth exemplary embodiment of the present invention.
10 is an operational state diagram of the heat pump system according to the fifth embodiment of the present invention.
11 is a graph showing a temperature change in each space according to a fifth embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that adding a detailed description of a technology or configuration already known in the relevant field may obscure the subject matter of the present invention, some of these will be omitted from the detailed description. In addition, terms used in the present specification are terms used to properly express embodiments of the present invention, which may vary according to related people or customs in the field. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

The terminology used herein is for reference only to specific embodiments and is not intended to limit the present invention. Singular forms as used herein also include plural forms unless the phrases clearly indicate the opposite. The meaning of'comprising' as used in the specification specifies a specific characteristic, region, integer, step, action, element and/or component, and other specific characteristic, region, integer, step, action, element, component and/or group It does not exclude the existence or addition of

1 is a block diagram schematically showing the configuration of a heat pump system according to an embodiment of the present invention.

The heat pump system of the present invention controls the temperature of the first space 100 and the second space 200. Here, the first space 100 and the second space 200 may be indoor spaces that are separated from the outside, and are spaces that are separated from each other.

In a preferred embodiment of the present invention, the first space 100 may be a space corresponding to an indoor space in which a user resides among buildings. For example, the first space 100 may be a living room or room of a house. The set temperature of the first space 100 may be adjustable by a user.

A first temperature sensor 110 for measuring the temperature of the first space 100 is installed in the first space 100. The first temperature sensor 110 may measure the temperature of the first space 100 in real time and provide the measured temperature information of the first space 100 to the heat pump system 300. Specifically, temperature information may be collected by the control unit to control the heat pump.

The second space 200 is a space separated from the first space 100. In a preferred embodiment of the present invention, the second space 200 may be a low-temperature warehouse. The second space 200 may be used as a space for storing various food materials. For example, the temperature of the second space 200 used as a low-temperature warehouse is maintained within 3° C. to 7° C., but the temperature of the second space 200 may be preferably 4° C. to be an appropriate temperature.

A second temperature sensor 210 for measuring the temperature of the second space 200 is installed in the second space 200. The second temperature sensor 210 may measure the temperature of the second space 200 in real time and provide the measured temperature information of the second space 200 to the heat pump system 300.

The heat pump system 300 includes a heat pump 310 and a conduit connected to the heat pump 310.

The heat pump 310 is a cooling/heating device that transfers a low-temperature heat source to a high temperature or a high-temperature heat source to a low temperature using heat generation or condensation heat of a refrigerant. It has a structure that uses both heating.

The heat pump 310 may operate in a heating priority mode or a cooling priority mode. In the heating priority mode, the heat pump 310 operates for the purpose of generating heat. When the heat pump 310 operates in the heating priority mode, cold air is generated as a counter supply, but this is weaker than the cold air generated when the heat pump 310 operates in the cooling priority mode.

In the cooling priority mode, the heat pump 310 operates for the purpose of generating cold air. When the heat pump 310 operates in the cooling priority mode, heat is generated as a counter supply, but this is weaker than the heat generated by the heat pump 310 operating in the heating priority mode.

As shown in FIG. 1, a plurality of pipe passages connected to the heat pump 310 may be formed.

Specifically, the first conduit 321 makes the first conduit 321 communicate with the first space 100 and the heat pump 310. In addition, a first valve (not shown) for opening and closing the first conduit 321 may be formed in the first conduit 321.

The second conduit 322 communicates the second space 200 and the heat pump 310. In addition, a second valve (not shown) for opening and closing the second conduit 322 may be formed in the second conduit 322.

The third conduit 323 communicates the heat pump 310 and the outside. In addition, a third valve (not shown) for opening and closing the third conduit 323 may be formed in the third conduit 323.

The first to third pipes 321, 322, and 323 are opened or closed by the operation of the first to third valves according to the control of the control unit, and the temperature of the first and second spaces 100 and 200 can be controlled. Support.

Although not shown in FIG. 1, the heat pump system 300 further includes a control unit. The control unit may control an operation mode (heating priority mode or cooling priority mode) of the heat pump, an operation state, and whether or not a pipe is opened or closed.

The third temperature sensor 330 may measure the external temperature in real time and provide the measured external temperature information to the heat pump system 300.

Hereinafter, operation of the heat pump system according to an embodiment of the present invention in the first embodiment will be described with reference to FIGS. 2 to 3.

In order to describe the first embodiment, an environment assumed in the first embodiment will be described.

In the first embodiment, it is assumed that the external temperature is initially 10.0°C, the temperature of the first space is 15.0°C, and the temperature of the second space is 8.0°C.

In this situation, the user may set the set temperature of the first space to 23.0°C. Then, since the temperature of the first space is lower than the set temperature, the control unit determines that heating of the first space is necessary.

Accordingly, the controller may control the heat pump system to supply the heat generated by the heat pump to the first space. In this situation, the heat pump may operate in a heating priority mode and operate to generate heat as much as possible. The heat generated in this way is supplied to the first space to increase the temperature of the first space.

During this time, the control unit determines whether cooling of the second space is required. In the above-described situation, the controller determines that cooling of the second space is necessary because the temperature of the second space is higher than the set temperature (4.0° C.).

However, the control unit may control the system to lower the temperature of the second space as much as possible while maintaining the heat pump in the heating priority mode without switching the heat pump to the cooling priority mode. Specifically, the control unit operates in a heating priority mode to generate heat supplied to the first space by the heat pump, and supplies cold air generated as a counter supply to the second space.

When the control unit controls the heat pump system in the above manner, the temperature of the first space gradually increases to reach the set temperature, and the temperature of the second space may be lower than the initial temperature.

Referring to FIG. 3 for example, when the heat pump system is operated in the same manner as described above for 1 hour, the temperature of the first space increases by 8.0° C. to 23.0° C. to reach the set temperature. In the meantime, the temperature of the second space may decrease by 1.5° C. to become 6.5° C.

The heat pump operates in the heating-priority mode, so the temperature drop in the second space is small compared to the temperature rise in the first space, but it can achieve the effect of slightly lowering the temperature of the second space without a separate operation for cooling the second space. have.

Hereinafter, operation of the heat pump system according to an embodiment of the present invention in the second embodiment will be described with reference to FIGS. 4 to 5.

In order to describe the second embodiment, an environment assumed in the second embodiment will be described.

In the second embodiment, it is assumed that the external temperature is initially 2.0°C, the temperature of the first space is 15.0°C, and the temperature of the second space is 3.0°C.

In this situation, the user may set the set temperature of the first space to 23.0°C. Then, since the temperature of the first space is lower than the set temperature, the control unit determines that heating of the first space is necessary.

Accordingly, the controller may control the heat pump system to supply the heat generated by the heat pump to the first space. In this situation, the heat pump may operate in a heating priority mode and operate to generate heat as much as possible. The heat generated in this way is supplied to the first space to increase the temperature of the first space.

During this time, the control unit determines whether cooling of the second space is required. In the above-described situation, the controller determines that cooling of the second space is not necessary because the temperature of the second space is lower than the set temperature (4.0° C.).

In this situation, the controller may discharge the generated cool air to the outside while generating heat supplied by the heat pump to the first space. This is because there is no need to lower the temperature by additionally supplying cold air to the second space.

When the control unit controls the heat pump system in the above manner, the temperature of the first space gradually rises to reach the set temperature, but the temperature of the second space will be a situation independent of the heat pump system. 5 shows a graph of temperature change according to this situation.

Hereinafter, operation of the heat pump system according to an embodiment of the present invention in the third embodiment will be described with reference to FIGS. 6 to 7.

In order to describe the third embodiment, an environment assumed in the third embodiment will be described.

The third embodiment will be described assuming the end point of the first embodiment described above. That is, in the third embodiment, it is assumed that the external temperature is initially 10.0°C, the temperature of the first space is 23.0°C, and the temperature of the second space is 6.5°C.

In this situation, it may be a situation in which the user sets the set temperature of the first space to 23.0°C. Then, the controller determines that heating is not required since the temperature of the first space has already reached the set temperature.

The control unit determines whether cooling of the second space is necessary. In the above-described situation, the controller determines that cooling of the second space is necessary because the temperature of the second space is higher than the set temperature (4.0° C.).

Since the control unit does not require heating of the first space, it is possible to switch the heat pump to the cooling priority mode. When the heat pump operates in the cooling priority mode, while the heat pump operates in the heating priority mode, it is possible to lower the temperature of the second space faster than cooling by using cold air generated as a counter supply.

If the heat pump is operated in the cooling priority mode, heat may be generated as a counter benefit. The control unit may supply such heat to the first space. If the temperature of the first space is lower than the set temperature, but is slightly lower than the set temperature, but does not require separate heating, the temperature of the first space may be slightly increased by using the heat generated by the counter supply.

Even when the temperature of the first space reaches the set temperature or is higher than the set temperature, the control unit can supply the heat of the counter supply to the first space. In particular, when the external temperature is lower than the set temperature of the first space, even when the temperature of the first space reaches the set temperature or is higher than the set temperature, it may be efficient for the controller to supply the heat of the counter supply to the first space.

For example, referring to FIG. 7, when the heat pump system is operated for 30 minutes in the above manner, the temperature of the second space decreases by 2.5° C. to 4.0° C., thereby reaching the set temperature. In the meantime, the temperature of the first space may be maintained at 23.0°C even though the external temperature of the first space is low. This can be interpreted as due to the heat generated by the counter supply while the heat pump operates in the cooling priority mode.

Hereinafter, operation of the heat pump system according to an embodiment of the present invention in the fourth embodiment will be described with reference to FIGS. 8 to 9.

In order to describe the fourth embodiment, an environment assumed in the fourth embodiment will be described.

In the fourth embodiment, it is assumed that the external temperature is initially 15.0°C, the temperature of the first space is 15.0°C, and the temperature of the second space is 8.0°C.

In this situation, the user may set the set temperature of the first space to 27.0°C. Then, since the temperature of the first space is lower than the set temperature, the control unit determines that heating of the first space is necessary.

Accordingly, the controller may control the heat pump system to supply the heat generated by the heat pump to the first space. In this situation, the heat pump may operate in a heating priority mode and operate to generate heat as much as possible. The heat generated in this way is supplied to the first space to increase the temperature of the first space.

During this time, the control unit determines whether cooling of the second space is required. In the above-described situation, the controller determines that cooling of the second space is necessary because the temperature of the second space is higher than the set temperature (4.0° C.).

However, the control unit may control the system to lower the temperature of the second space as much as possible while maintaining the heat pump in the heating priority mode without switching the heat pump to the cooling priority mode. Specifically, the control unit supplies cool air generated while operating in the heating priority mode to the second space in order to generate heat supplied by the heat pump to the first space.

However, while the heat pump operates in the heating priority mode, the cold air generated as a counter supply may not be sufficient to lower the temperature of the second space. In particular, when the external temperature is higher than the temperature of the second space as in the situation of the fourth embodiment, the temperature of the second space may increase despite the cold air generated by the counter supply. In some cases, the temperature of the second space may increase when external heat flows in due to the opening of the door of the second space.

The control unit may pre-store information on the upper temperature limit of the second space. In this embodiment, the upper limit of the temperature of the second space is assumed to be 10.0°C.

The heat pump operates in the heating-priority mode to heat the first space, and supplies cold air generated as a counter-supply to the second space, but explains the situation where the temperature of the second space rises and reaches the upper limit of 10°C. do.

When such a situation occurs, the controller may control the heat pump to operate in the cooling priority mode even though the temperature of the first space has not yet reached the set temperature. In addition, the cool air generated by the heat pump can be supplied to the second space.

The temperature of the second space can be lowered because the heat pump operates in the heating priority mode and the cool air generated while operating in the cooling priority mode is larger than the cold air generated by the counter supply.

In this situation, while the heat pump operates in the cooling priority mode, heat generated as a counter supply may be supplied to the first space.

Referring to FIG. 9 for example, if the heat pump system is operated for 30 minutes in the same manner as above after the temperature of the second space reaches the upper limit, the temperature of the second space decreases by 3.0° C. and decreases to 7.0° C. Can be. In the meantime, the temperature of the first space may slightly increase by receiving the heat of the opposite supply.

Hereinafter, operation of the heat pump system according to an embodiment of the present invention in the fourth embodiment will be described with reference to FIGS. 10 to 11.

In order to describe the fifth embodiment, an environment assumed in the fifth embodiment will be described.

In the fifth embodiment, it is assumed that the external temperature is initially -5.0°C, the temperature of the first space is 15.0°C, and the temperature of the second space is 2.0°C.

In this situation, the user may set the set temperature of the first space to 23.0°C. Then, since the temperature of the first space is lower than the set temperature, the control unit determines that heating of the first space is necessary.

Accordingly, the controller may control the heat pump system to supply the heat generated by the heat pump to the first space. In this situation, the heat pump may operate in a heating priority mode and operate to generate heat as much as possible. The heat generated in this way is supplied to the first space to increase the temperature of the first space.

During this time, the control unit determines whether cooling of the second space is required. In the above-described situation, the controller determines that cooling of the second space is not necessary because the temperature of the second space is lower than the set temperature (4.0° C.).

In this situation, the controller may discharge the generated cool air to the outside while generating heat supplied by the heat pump to the first space. This is because there is no need to lower the temperature by additionally supplying cold air to the second space.

Even though separate cold air is not supplied to the second space, it is possible that the temperature of the second space continues to decrease. In particular, when the external temperature is lower than the temperature of the second space as in the situation of the fifth embodiment, the temperature of the second space may decrease. In some cases, when external cool air flows in due to the opening of the door of the second space, the temperature of the second space may decrease.

The control unit may pre-store information on the lower temperature limit of the second space. In this embodiment, it is assumed that the lower limit of the temperature of the second space is 0°C.

The heat pump operates in the heating priority mode to heat the first space, and discharges the cold air generated by the counter supply to the outside, but the temperature of the second space decreases and reaches the lower limit of 0°C.

When such a situation occurs, the controller may control to supply at least part of the heat generated by the heat pump to the second space. Even if the rate of temperature rise of the first space is slowed by such an operation, the temperature of the second space can be changed higher than the lower limit.

Heat generated by the heat pump may be distributed and some may be supplied to the first space, and the remaining part may be supplied to the second space. Accordingly, the temperature of the second space may increase and may be changed higher than the lower limit. However, the increase in temperature of the first space may proceed later than before distributing the heat.

Hereinafter, a brief description will be given of a control method in which the above heat pump system is controlled. Since the control method of the heat pump system is substantially the same as the description of the control unit of the heat pump system described above, a duplicate description will be omitted.

The control method of the heat pump system is to control the temperature of the first space and the second space separated from the outside.

The heat pump system includes a heat pump that generates hot or cold air, and a control unit that controls supply of hot or cold air generated by the heat pump to the first space and the second space.

In the control method of the heat pump system, when the control unit determines whether heating of the first space is required, and when the control unit determines that heating of the first space is necessary in the step of determining whether heating of the first space is required, the heat pump generates Supplying heat to the first space, determining whether cooling of the second space is necessary while the control unit supplies the heat generated by the heat pump to the first space, and determining whether cooling of the second space is necessary by the control unit When it is determined that cooling of the second space is necessary, the heat pump generates heat supplied to the first space and supplies the generated cool air to the second space, and in the step of determining whether cooling of the second space is necessary, the second space If it is determined that cooling is not required, the heat pump generates heat supplied to the first space while discharging the generated cool air to the outside.

The heat pump may be operated by selecting one of a heating priority mode and a cooling priority mode, and the controller may control the heat pump to operate in a heating priority mode in the step of supplying heat to the first space.

The control method of the heat pump system determines that the temperature of the second space has reached the lower limit in the step of determining whether the temperature of the second space has reached the lower limit and the step of determining whether the temperature of the second space has reached the lower limit. Then, the step of supplying at least part of the heat generated by the heat pump to the second space may be further included.

In the control method of the heat pump system, in the step of determining whether heating of the first space is not required and cooling of the second space is required by the control unit, and whether cooling of the second space is necessary in the step of determining whether cooling of the second space is required by the control unit. When it is determined that it is determined, the step of supplying cold air generated by the heat pump to the second space may be further included.

In the above, embodiments of the heat pump system and a control method thereof of the present invention have been described. The present invention is not limited to the above-described embodiments and the accompanying drawings, and various modifications and variations are possible from the perspective of those of ordinary skill in the field to which the present invention pertains. Therefore, the scope of the present invention should be defined by the claims of the present specification as well as those equivalents to the claims.

100: first space
110: first temperature sensor
200: second space
210: second temperature sensor
300: heat pump system
310: heat pump
320: pipeline
321: first pipeline
322: second conduit
323: third pipeline
330: third temperature sensor

Claims (12)

In the heat pump system for controlling the temperature of the first space and the second space separated from the outside,
The heat pump system,
A heat pump generating hot or cold air; And
And a control unit for controlling supply of hot or cold air generated by the heat pump to the first space and the second space,
The control unit,
When it is determined that heating of the first space is necessary, heat generated by the heat pump is supplied to the first space,
While supplying the heat generated by the heat pump to the first space,
When it is determined that cooling of the second space is necessary, the heat pump generates heat supplied to the first space while supplying generated cold air to the second space,
When it is determined that cooling of the second space is not required, the heat pump system generates heat supplied to the first space and discharges the generated cool air to the outside. The method of claim 1,
The heat pump may be operated by selecting one of a heating priority mode and a cooling priority mode,
The control unit,
A heat pump system configured to control the heat pump to operate in a heating priority mode while it is determined that heating of the first space is required and heat generated by the heat pump is supplied to the first space. The method of claim 2,
The control unit,
If it is determined that heating of the first space is not required and cooling of the second space is required,
A heat pump system for controlling the heat pump to operate in a cooling priority mode and supplying cool air generated by the heat pump to the second space. The method of claim 2,
The control unit,
Even while controlling the heat pump to operate in a heating priority mode and supplying the heat generated by the heat pump to the first space,
When it is determined that the temperature of the second space has reached the upper limit, the heat pump is controlled to operate in a cooling priority mode, and the cool air generated by the heat pump is supplied to the second space. The method of claim 1,
The control unit,
Even while it is determined that heating of the first space is necessary and the heat generated by the heat pump is supplied to the first space,
When it is determined that the temperature of the second space has reached the lower limit, the heat pump system supplies at least part of the heat generated by the heat pump to the second space. The method of claim 1,
The control unit,
When it is determined that heating of the first space is not required and cooling of the second space is required, a heat pump system that supplies cool air generated by the heat pump to the second space. The method of claim 6,
The heat pump may be operated by selecting one of a heating priority mode and a cooling priority mode,
The control unit,
It is determined that heating of the first space is not required and cooling of the second space is required, and the heat pump is controlled to operate in a cooling priority mode while supplying the cool air generated by the heat pump to the second space. Heat pump system. The method of claim 6,
The control unit,
A heat pump system for supplying heat generated while the heat pump generates cold air supplied to the second space to the first space. In the control method of the heat pump system for controlling the temperature of the first space and the second space separated from the outside,
The heat pump system,
A heat pump generating hot or cold air; And
And a control unit for controlling supply of hot or cold air generated by the heat pump to the first space and the second space,
Determining, by the control unit, whether heating of the first space is required;
Supplying heat generated by the heat pump to the first space when the control unit determines that heating of the first space is required in the step of determining whether heating of the first space is required;
Determining whether cooling of the second space is necessary while the control unit supplies the heat generated by the heat pump to the first space; And
In the step of determining whether cooling of the second space is required by the control unit, if it is determined that cooling of the second space is necessary, the cool air generated while generating heat supplied to the first space by the heat pump is When it is determined that cooling of the second space is not required in the step of supplying to and determining whether cooling of the second space is required, the heat pump generates heat supplied to the first space, and the generated cold air to the outside. Control method of a heat pump system comprising the step of discharging. The method of claim 9,
The heat pump may be operated by selecting one of a heating priority mode and a cooling priority mode,
The control unit controls the heat pump to operate in a heating priority mode in the step of supplying the heat to the first space. The method of claim 9,
Determining, by the control unit, whether the temperature of the second space has reached a lower limit value; And
If the control unit determines that the temperature of the second space has reached the lower limit in the step of determining whether the temperature of the second space has reached the lower limit, supplying at least part of the heat generated by the heat pump to the second space Control method of a heat pump system further comprising a. The method of claim 9,
Determining, by the control unit, whether heating of the first space is not required and cooling of the second space is required; And
A heat pump further comprising the step of supplying cool air generated by the heat pump to the second space when the control unit determines whether cooling of the second space is necessary in the step of determining whether cooling of the second space is necessary How to control the system.

Images