KR102053841B1 - HVAC control system and HVAC control method using the same - Google Patents

Abstract

An HVAC control system according to an embodiment of the present invention includes an HVAC system including a temperature sensor measuring a temperature of a container room, a battery management system measuring a temperature of a battery module, and the container measured by the HVAC system. And a HVAC control unit configured to receive a temperature of a room and a temperature of the battery module measured by the battery management system to determine an operating condition of the HVAC system and to control the HVAC system.

Description

HVAC control system and HVAC control method using the same {HVAC control system and HVAC control method using the same}

The present invention relates to a system and a control method for controlling an HVAC system using temperature information of a battery module.

Heating, ventilation, and / or air conditioning (HVAC) systems (hereinafter referred to as "HVAC") systems are used for the comfort of buildings or other places.

Traditionally, HVAC systems monitor temperatures inside buildings and other locations, and use internal temperature information to control HVAC systems.

However, when controlling the HVAC system using only internal temperature information, it is difficult to control the temperature of the battery module that is the main body of the HVAC system because the internal temperature change and the temperature change of the battery module are different.

In addition, as temperature control of the battery module becomes difficult, a problem may occur in that power consumption of the HVAC system is inefficiently used.

An object of the present invention is to provide a technique for efficiently controlling the HVAC system using the temperature information of the battery module.

Technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following descriptions.

HVAC control system according to an embodiment of the present invention for achieving the above object is a HVAC system including a temperature sensor for measuring the temperature of the container (Room), a battery management system for measuring the temperature of the battery module, and And an HVAC control unit configured to determine an operating condition of the HVAC system and to control the HVAC system by receiving the temperature of the container room measured in the HVAC system and the temperature of the battery module measured in the battery management system.

The battery management system may further include a temperature sensor measuring a temperature of the battery module.

The battery management system measures the temperature of the battery module every predetermined period from a temperature sensor installed in the battery module.

The battery management system further comprises a battery cooling system (Battery Cooling System) for determining whether or not the operation of the fire alarm.

The operating conditions of the HVAC is characterized in that it includes components such as whether the HVAC is operating, the operation mode, the set temperature and the air flow rate.

The operation of the HVAC is set to OFF or ON, the operation mode is set to cooling, heating or blowing, characterized in that the air flow is set to strong, medium or weak.

On the other hand, the HVAC system control method according to an embodiment of the present invention, the step of transmitting the temperature information of the battery module measured in the battery management system (BMS; Battery Management System) to the HVAC control unit, the container room (Room Room measured in the HVAC system) Determining the operating conditions of the HVAC based on the temperature information of the battery module and the temperature information of the container room, and controlling the HVAC according to the determined operating conditions of the HVAC. Characterized in that it comprises a step.

The module temperature information of the battery and the temperature information of the room of the container are transmitted to the HVAC control unit through a Modbus program.

The HVAC control unit may further include receiving a fire alarm operation determined by the battery cooling system.

The operating conditions of the HVAC is characterized in that it includes components such as whether the HVAC is operating, the operation mode, the set temperature and the air flow rate.

The operation of the HVAC is set to OFF or ON, the operation mode is set to cooling, heating or blowing, characterized in that the air flow is set to strong, medium or weak.

The present invention provides the following effects by controlling the HVAC system of the container by receiving the temperature information of the inside of the container and the temperature information of the battery module from the HVAC system and the battery management system (BMS), respectively.

First, the battery life is extended by maintaining the module temperature inside the container within an appropriate range, it is possible to obtain the effect of maintaining the battery charge and discharge performance uniformly.

Second, it is possible to reduce the module temperature variation in the container, thereby reducing the life deterioration deviation between battery modules can be obtained.

Third, as the battery module temperature is controlled, it is possible to efficiently use the power consumption of the HVAC system.

1 is a block diagram showing an HVAC control system according to the present invention.
2 is a flowchart illustrating a control method using the HVAC control system according to the present invention.
3 shows an example of a screen displayed on the HVAC control system according to the present invention.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best describe their invention. On the basis of the principle that it can, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all of the technical idea of the present invention. It should be understood that there may be various equivalents and variations. In the description of the present invention, when it is determined that related well-known technologies and the like may obscure the gist of the present invention, detailed description thereof will be omitted.

Hereinafter, an HVAC control system and a control method of an HVAC system using the same according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing a heating ventilation and / or air coinditioning (HVAC) control system according to an embodiment of the present invention.

Referring to FIG. 1, an HVAC control system includes an HVAC controller 100, a battery management system (BMS) 200, and an HVAC system 300.

First, the battery management system 200 may include a plurality of battery modules 210 and a battery cooling system (BCS) 220. In FIG. 1, all of the battery modules 210 are not illustrated. However, in general, a plurality of battery modules 210 are connected in series between a negative electrode terminal and a positive electrode terminal of an adjacent battery module 210 to form a battery. Done.

The battery module 210 is equipped with a temperature sensor 220 for sensing the temperature of the battery module 210, it is possible to measure the temperature of the battery module 210 through the temperature sensor 220.

In addition, the battery cooling system 220 includes a detector (not shown) for detecting an emergency disaster and an alarm unit (not shown) for notifying an emergency disaster by transmitting an alarm signal when an emergency disaster is detected. When the alarm unit (not shown) receives an alarm signal indicating that an emergency disaster has occurred from the detection unit (not shown), the alarm is turned on (ON) to play an alarm.

In addition, the HVAC system 300 includes a temperature sensor 310 for sensing the temperature inside the container using the HVAC system 300. The HVAC system 300 can measure the temperature inside the container via this temperature sensor 310.

The HVAC system 300 may store time as well as temperature information inside the container, and may further store information related to humidity, wind, solar radiation, and the like.

The HVAC control system includes a battery management system 200 and an HVAC control unit 100 which receives temperature information of a battery module and temperature information inside a container measured by the HVAC system 300.

The HVAC control unit 100 includes a data storage unit 110, a comparison unit 120, and a setting unit 130. The data storage unit 110 stores battery module information and HVAC system information received from the battery management system 200 and the HVAC system 300.

More specifically, the battery management system 200 receives information on whether an emergency disaster alarm occurs, including temperature information of a battery module and whether a fire has occurred, and temperature information inside a container from the HVAC system 300. Receive information related to humidity, wind, solar radiation, etc. to be included.

The HVAC control unit 100, the battery management system 200, and the HVAC system 300 exchange information using a Modbus program.

The comparator 120 determines an operating condition of the HVAC system based on the HVAC system 300 information stored in the data storage 110 and the information of the battery module 210.

Information of the battery module 210 is received through the battery management system 200, and the average value (MT-averag), the maximum value (MT_max), the deviation (MT_deviation) and the temperature value of each of the plurality of battery modules 210 It may be configured as a fire alarm (OFF / ON).

In addition, the information of the HVAC system 300 received through the HVAC system 300 may be configured of the temperature inside the container and the HVAC operating time.

The operating conditions of the HVAC system determined based on the battery module information and the HVAC system information are set in the setting unit 130 of the HVAC control unit 100. The operating condition set in the setting unit 130 is transmitted to the HVAC system 300 again, and the HVAC system 300 is controlled according to the set operating condition.

As described above, by receiving the temperature information of the battery module and the container room temperature information of the HVAC from the battery management system and the HVAC system, respectively, setting operating conditions according to the situation, and controlling the HVAC system according to the operating conditions, It is possible to adjust the internal temperature to be maintained within an appropriate range.

FIG. 2 is a flowchart illustrating a HVAC system control method using the HVAC control system of FIG. 1.

Referring to Figure 2 describes the HVAC system control method as follows.

First, the temperature of the battery module and the temperature of the container room are measured (step S100).

The temperature of the battery module 210 may be measured by the battery management system 200.

The temperature sensor 220 mounted in the battery module 210 measures the temperature of the battery module 210 at predetermined time intervals, and the measured temperature controls a battery management system (BMS) 200 that controls driving of the battery. Data is collected and stored in the memory.

The battery management system may further include a battery cooling system 220. The battery cooling system includes a detector (not shown) for detecting an emergency disaster and a fire alarm 240 for notifying an emergency disaster by transmitting an alarm signal when an emergency disaster is detected. The fire alarm 240 serves to ring an alarm when the alarm signal from the detector (not shown) indicates that an emergency disaster has occurred.

The battery management system may collect and store information of the on / off state of the fire neck 240 of the battery cooling system 220 as data in a memory.

In addition, the temperature of the container room may be measured by the temperature sensor 310 of the HVAC system 300. The HVAC system 300 may store time as well as temperature information inside the container, and may further store information related to humidity, wind, solar radiation, and the like.

Next, the temperature and container room temperature information of the battery module measured by the battery management system 200 and the HVAC system 300 is transmitted to the HVAC system controller 100 (step S110).

At this time, the step of transmitting the temperature information of the battery module and the temperature information of the container room may proceed in any order. For example, the temperature information of the battery module and the container room temperature information may be simultaneously transmitted, and the temperature information of the battery module and the temperature information of the container room may be sequentially transmitted.

The HVAC system controller 100 stores the received temperature information of the battery module and the container room temperature information in the data storage 110.

The stored temperature information of the battery module and the temperature information of the container room are transmitted to the comparator 120, and the comparator 120 determines the operating conditions of the HVAC based on the temperature information of the battery module and the temperature information of the container room. (Step S120).

<Table 1> and <Table 2> are tables shown to explain the operating conditions of the HVAC control system of FIG. Referring to Figure 1, Table 1 and Table 2 will be described the steps for determining the operating conditions of the HVAC.

<Table 1>

First, (a) of <Table 1> indicates that the average temperature value (MT_averag) of the battery module exceeds a user-specified set value (MT_avg> xx ° C), and the fire alarm is turned off. The container room temperature (Temp_Room) also indicates the case where the user-specified setting value (Temp_Room> xx ° C) is exceeded.

In the case of (a), the operation of the HVAC system is started, and the operating mode of the HVAC system is set to the cooling mode. In addition, the air volume is set to light wind, and the operating conditions are set to a predetermined temperature set by the user.

(B) of <Table 1> shows that the average temperature value of the battery module is less than the user-specified setting value (MT_avg <xx ℃), and the container room temperature is also less than the user-specified setting value when the fire alarm is OFF (Temp_Room <xx ° C).

In the case of (b), the operation of the HVAC system is started, the operation mode of the HVAC system is set to the heating mode, the air volume is set to the strong wind, and the operating conditions are set to the set temperature set by the user.

(C) of <Table 1> is the setting value set by the user in the container room temperature when the average temperature value of the battery module exceeds the setting value set by the user (MT_avg> xx ℃) and the fire alarm is turned off. The case below (Temp_Room ≤ xx ° C) is shown.

In case of (c), the operation of the HVAC system is started, the operation mode of the HVAC system is set to the blowing mode, and the air volume is set to the mild wind. In blower mode, the container room temperature of the HVAC system is not set separately.

(D) of <Table 1> shows that the average temperature value of the battery module is lower than the set value set by the user (MT_avg ≤ xx ℃), and the container room temperature is higher than the set value set by the user in the state that the fire alarm is OFF. (Temp_Room ≥ xx ° C) appears.

In the case of (d), the operation of the HVAC system is started, and the operation mode of the HVAC system is set to the blowing mode and the air volume to the strong wind.

And (e) of <Table 1> shows a case where the average temperature value of the battery module is between two user-set values (xx ° C. ≤ MT_avg ≤ xx ° C.) and the fire alarm is in an OFF state. . At this time, if the average temperature value of the battery module falls within a predetermined range determined by the user, the information of the container room temperature through the HVAC system does not need to be transmitted.

In case of (e), the operation of the HVAC system is started, and the operation mode of the HVAC system is set to the blowing mode and the air volume to the strong wind.

<Table 2>

(A) of Table 2 shows that the maximum value (MT_max) of the battery module temperature exceeds the setting value set by the user (MT_max> xx ° C), and the deviation (MT_deviation) of the plurality of battery module temperatures is lower than the setting value (MT_deviation). <x ° C). Then, the fire alarm is in an OFF state, and the case where the container room temperature is equal to or greater than a user-specified set value (Temp_Room ≥ xx ° C) is shown.

In the case of (a), the operation of the HVAC system is started, and the operation mode of the HVAC system is set to the cooling mode, the air volume to the strong wind, and set to be maintained at the set temperature set by the user.

(B) of <Table 2> shows that the maximum value of the battery module temperature exceeds the setting value set by the user (MT_max> xx ° C), and the deviation of the plurality of battery module temperatures is higher than the setting value (MT_deviation ≥ x ° C), The fire alarm is in the OFF state, and the container room temperature indicates the case where the user-defined setting value is exceeded (Temp_Room> xx ° C).

In the case of (b), the operation of the HVAC system is started, the operation mode of the HVAC is set to the cooling mode, the air volume is set to mid-air, and set to be maintained at the set temperature set by the user.

(C) of <Table 2> indicates that the maximum value of the battery module temperature exceeds a user-specified set value (MT_max> xx ° C), and the deviation of a plurality of battery module temperatures is less than the set value (MT_deviation <x ° C). The fire alarm is in the OFF state, and the container room temperature indicates the case where the user set value is equal to or less than the set value (Temp_Room ≤ xx ° C).

In case of (c), the operation of the HVAC system is started, the operation mode of the HVAC is set to the blowing mode, and the air volume is set to the strong wind.

(D) of <Table 2> shows that the maximum value of battery module temperature exceeds the user-specified setting value (MT_max> xx ℃), and the deviation of many battery module temperature is more than user-specified setting value (MT_deviation ≥ x ℃) ), The fire alarm is in an OFF state, and the container room temperature is below a user-specified set value (Temp_Room ≤ xx ° C).

In the case of (d), the operation of the HVAC system is started, the operation mode of the HVAC is set to the blowing mode, and the air volume is set to the middle wind.

(E) of <Table 2> is when the fire alarm of the battery management system is ON, and in such a case, the HVAC system is set to stop.

As described above, the HVAC operating condition may be determined based on the temperature information of the battery module and the situation information of the HVAC system. Here, the setting values set by the user and the operating conditions of <Table 1> and <Table 2> are shown as examples, and may be changed according to circumstances.

The determined operating condition of the HVAC system is set in the setting unit 130 of the HVAC control unit 100. The HVAC controller 100 may be displayed on the screen as shown in FIG. 3.

Subsequently, the HVAC system is controlled according to the set operating condition (step S130).

As described above, by receiving the temperature information of the battery module and the container room temperature information of the HVAC from the battery management system and the HVAC system, respectively, setting operating conditions according to the situation, and controlling the HVAC system according to the operating conditions, By maintaining the module temperature of within the appropriate range, the life of the battery is prolonged, it is possible to obtain the effect of maintaining the battery charge and discharge performance uniformly.

In addition, it is possible to reduce the module temperature variation in the container, thereby reducing the life deterioration deviation between battery modules can be obtained.

In addition, as the battery module temperature is controlled, the power consumption of the HVAC system can be efficiently used.

The above description is merely illustrative of the technical idea of the present application, and those skilled in the art to which the present application pertains may various modifications and variations without departing from the essential characteristics of the present application.

Therefore, the embodiments disclosed in the present application are not intended to limit the technical spirit of the present application but to describe the present invention, and the scope of the technical spirit of the present application is not limited by these embodiments.

The scope of protection of the present application should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

Claims (11)

An HVAC system comprising a temperature sensor measuring the temperature of the container room;
A battery management system measuring a temperature of the battery module; And
Receiving the temperature of the container room measured in the HVAC system and the temperature of the battery module measured in the battery management system,
Compare the temperature of the container room with the first temperature, compare the temperature of the battery module with the second temperature and determine the operating conditions of the HVAC system as one of cooling, heating or blowing according to the combination of respective comparison values, In addition, the HVAC control unit controls the HVAC system by determining operating conditions for the set temperature and air flow.
HVAC control system comprising a. The method according to claim 1,
The battery management system further comprises a temperature sensor for measuring the temperature of the battery module. The method according to claim 2,
The battery management system HVAC control system, characterized in that for measuring a temperature of the battery module for a predetermined period from a temperature sensor installed in the battery module. The method according to claim 1,
The battery management system further comprises a battery cooling system (Battery Cooling System) for determining whether the operation of the fire alarm (HVAC control system). The method according to claim 1,
The operating condition of the HVAC further comprises whether the HVAC operation system. The method according to claim 5,
HVAC control system, characterized in that whether the operation of the HVAC is set to OFF or ON. Transmitting temperature information of a battery module measured in a battery management system (BMS) to an HVAC controller;
Delivering temperature information of the container room measured in the HVAC system to the HVAC control unit;
Compare the temperature of the container room with the first temperature, compare the temperature of the battery module with the second temperature and determine the operating conditions of the HVAC system as one of cooling, heating or blowing according to the combination of respective comparison values, Additionally determining operating conditions for a set temperature and air volume; And
Controlling the HVAC according to the determined operating condition of the HVAC
HVAC system control method comprising a. The method according to claim 7,
The module temperature information of the battery and the temperature information of the room of the container is transmitted to the HVAC control unit via a Modbus program. The method according to claim 7,
The HVAC control unit further comprises the step of receiving whether the fire alarm operation determined in the battery cooling system. The method according to claim 7,
The operating condition of the HVAC is HVAC system control method further comprises whether the operation of the HVAC. The method according to claim 10,
HVAC system control method characterized in that the operation of the HVAC is set to OFF or ON.

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