KR20120009549A - An operation control system of hot/cold water supply system using heat pump and the control method thereof - Google Patents

Abstract

PURPOSE: An operation control system of a hot/cold water supply system and a control method thereof are provided to efficiently control the operation of a hot/cold water supply system. CONSTITUTION: An operation control system of a hot/cold water supply system comprises a sensor(100), an information receiving part(200), database(300), an operation control part(500), and a microprocessor(400). The sensor senses the temperature and amount of water stored in a storage tank. The information receiving part receives electricity bill information and weather prediction information. The database stores various information received through the sensor and information receiving part. The operation control part controls the operation of hot/cold water supply system. The microprocessor controls the operation of hot/cold water supply system through the operation control part.

Description

An operation control system of hot / cold water supply system using heat pump and the control method

The present invention relates to an operation control system and an operation control method of a heat pump type cold and hot water machine, and more particularly, based on weather forecast information including power consumption information and temperature information of a user and power rate information for each power use time zone. Based on the cold and hot water usage pattern information of the user, after calculating the target reservoir amount to be stored in the reservoir, the optimal operation of the cold and hot water machine that can meet the target reservoir volume at the lowest cost based on the weather forecast information and the power rate information for each time zone. By deriving a time zone and operating a cold / hot water machine, it is possible to efficiently control the operation of the cold / hot water machine to reduce power consumption, and accordingly, the present invention relates to an operation control system of a heat pump type cold / hot water machine.

In general, a heat pump is a cooling and heating device that transfers a low temperature heat source to a high temperature or a high temperature heat source to a low temperature by using heat of a refrigerant or condensation heat, and is applied to a cold water heater system recently to obtain a heat source through combustion of a conventional fuel. It is attracting attention as an alternative technology.

At this time, the cold and hot water using the heat pump, as shown in Figure 1, the compressor 10 for compressing the refrigerant, the four-way valve 20 for changing the flow direction of the refrigerant, the heat exchanger 30 for exchanging heat between the refrigerant and hot and cold water ), An outdoor unit 40 for exchanging heat between the refrigerant and the outside air, an expansion valve 50 for converting the pressure state of the refrigerant, a storage tank 60 for storing cold and hot water, and a circulation pump 70 for circulating cold and hot water. .

Cold and hot water using the heat pump of the above-described configuration performs the function of cold water production or hot water production according to the flow direction of the refrigerant, the solid line shown in Figure 1 is the hot water supply mode, the dotted line indicates the flow direction of the refrigerant in the cold water supply mode Indicates.

When the cold and hot water using the heat pump as described above is in the cold water supply mode, the refrigerant is first converted into a high temperature and high pressure refrigerant through the compressor 10, and is moved to the outdoor unit 40 through the refrigerant passage.

In this case, in the outdoor unit 40, the refrigerant is converted from high temperature to low temperature through heat exchange with air of the outside air, and then is converted into a low temperature low pressure state while passing through the expansion valve 50.

Therefore, the low temperature low pressure refrigerant is transferred to the heat exchanger 30 to exchange heat with water flowing through the pipe in the heat exchanger 30 to cool the water, and the cooled water is stored as cold water in the water storage tank 60. .

At this time, the low-temperature low-pressure refrigerant is converted to high temperature while heat-exchanging with water, and then transferred to the compressor 10 again to repeat the above-described process.

On the other hand, in the case of operating the cold / hot water machine using the heat pump as described above in the hot water supply mode, the flow of the flow path through the four-way valve 20 to switch the high-temperature, high-pressure refrigerant passing through the compressor 10 to the heat exchanger ( To 30).

Accordingly, the water flowing through the pipe in the heat exchanger 30 is heated through heat exchange with a refrigerant having a high temperature and high pressure is stored as hot water in the water storage tank (60).

At this time, the high temperature and high pressure refrigerant is converted to low temperature while heat-exchanging with water, and then circulated in a reverse process of the refrigerant circulation process in the cold water supply operation mode.

On the other hand, as described above, the cold and hot water using the heat pump performs a cold and hot water supply process by exchanging the heat of the refrigerant and the outside air through the outdoor unit 40, for this reason the cold and hot water using the heat pump according to the ambient temperature operating efficiency This varies greatly.

That is, when performing the hot water supply mode operation in winter, it is difficult to obtain enough heat for hot water production or hot water supply from the external cold air, and also in the case of performing cold water production in the summer when the outside temperature is high There is a problem that it is difficult to release sufficient heat to the outside through heat exchange with the outside air.

As described above, the cold / hot water machine using the heat pump has a close relationship with the outside air temperature. If the outside air temperature is not harmonized with the cold / hot water supply mode conditions of the cold / hot water machine, the cold / hot water machine must be extended for the production of the target cold water of the cold / hot water. Therefore, there is a problem that the power consumption is increased and thus the power bill is also increased.

The present invention is to solve the above problems according to the prior art. That is, an object of the present invention is to calculate the amount of cold and hot water to be stored in the storage tank through weather forecast information including the cold and hot water usage pattern information and temperature information of the user and the power rate information for each time of use, and to derive the optimal operating time of the cold and hot water machine. Thus, by operating the cold water heater in the derived operating time zone to produce the calculated amount of cold and hot water, it is not only to reduce the power consumption of the cold or hot water machine, but also to reduce the power bill according to the power usage.

The present invention as a technical concept for achieving the above object, receiving a weather forecasting information including the temperature and low temperature of the cold and hot water stored in the storage tank, temperature information and power bill information for each time of use of power received A database for storing various information received through the information receiving unit, the sensing unit and the information receiving unit, an operation control unit connected to the cold / hot water controller to control the operation of the cold / hot water machine according to a control signal from a microprocessor, and the information stored in the database. The target cold water amount of the cold / hot water to be stored in the water storage basin is calculated, and the optimum operating time and operating time of the cold / hot water machine for producing the calculated cold water of the target cold water amount are calculated based on the calculated result. Configuration including a microprocessor to control the driving of The.

The operation control system of the heat-pumped cold water heater according to the present invention calculates the amount of cold and hot water to be stored in the reservoir by using weather forecast information and power rate information for each time of use of electricity, including hot and cold water usage pattern information and temperature information. By deriving the optimum operating time of the cold and hot water machine, by controlling the operation of the cold and hot water machine effectively, there is an effect that can reduce the power consumption and power bills.

1 is a view showing the configuration of a typical heat pump type hot and cold water heater.
Figure 2 is a system diagram showing the configuration of the operation control system of the heat pump type cold and hot water heater according to an embodiment of the present invention.
Figure 3 is a graph showing an example of extracting the optimal operating time zone and the operating time of the cold and hot water in the operating control system of the heat pump type cold and hot water heater according to an embodiment of the present invention.
Figure 4 is a flow chart showing the operation method of the operation control system of the heat pump cold water heater according to an embodiment of the present invention in sequence.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a system diagram showing a configuration of an operation control system of a heat pump type cold / hot water heater according to an embodiment of the present invention.

As shown in Figure 2, the operation control system of the heat pump type cold and hot water heater according to an embodiment of the present invention includes a sensing unit 100 for detecting the temperature and the amount of cold water stored in the water storage tank, including the temperature (기온) information It is connected to the cold and hot water database 300 for storing various information received through the information receiving unit 200, the sensing unit 100 and the information receiving unit 200 for receiving weather forecast information and power bill information for each time of use Based on the information stored in the operation control unit 500 and the database 300 for controlling the operation of the cold / hot water machine according to the control signal from the microprocessor 400, a target low-temperature amount of cold / hot water to be stored in the water storage tank is calculated, and calculated Micro to control the operation of the cold / hot water machine through the operation control unit 500 by calculating the optimal operating time and operating time of the cold / hot water machine to produce the target cold water It consists of a processor (400).

The sensing unit 100 is connected to the reservoir and detects the temperature and the temperature of the cold / hot water stored in the reservoir through a detection sensor, and serves to provide the microprocessor 400 with the detected cold / hot water information in the reservoir. To perform.

The information receiver 200 includes a weather information receiver 210 for receiving weather forecast information including temperature information and a power bill information receiver 220 for receiving power bill information for each time of use of power.

The weather information receiver 210 receives weather information of the day and weather forecast information within a predetermined period of time through a communication network such as an internet network such as a meteorological office network, an external telecommunication data network, and a broadcasting network.

In this case, the weather information received through the weather information receiver 210 may include temperature and humidity information, as well as weather information such as air pressure, precipitation, and snow cover.

In addition, the weather information receiver 210 may receive predictable weather forecast information for one week or one month or far away within one year depending on the user's period setting.

The power bill information receiving unit 220 receives time-based power bill information and section information of a progressive agent for power usage provided by a power company through a communication network.

Here, in Korea's electric power market, the electricity rate system is implemented as a collective rate plan or a progressive system according to the purpose.Therefore, there is no electricity rate plan for each time period.However, in Europe and some developed countries, the electricity rate plan is being used through the smart grid. However, this time-based electricity tariff system may be applied to Korea in the future.

Accordingly, in the process of calculating the optimal operating time zone and the operating time of the cold / hot water machine using the temperature information and the power rate information in the operation control system of the heat pump type cold / hot water machine according to the embodiment of the present invention described below, The description will be made by applying the electric power rate information for each unit.

Meanwhile, the cold and hot water information, the weather information, and the power bill information received through the sensing unit 100 and the information receiving unit 200 as described above are stored in the database 300, and the various information stored in the database 300 is It can be updated with newly received information.

The microprocessor 400 determines the daily cold / hot water usage of the user by measuring the amount of cold / hot water used by the user through the sensing unit 100 as described above, and derives the user's cold / hot water usage pattern based on this.

Here, the user's cold and hot water usage pattern according to the user's cold and hot water usage information can be derived through various data processing techniques using a numerical table, fuzzy logic, neural network, etc. obtained through simulation.

In addition, the microprocessor 400 calculates a target low-temperature amount of cold / hot water to be finally stored in the low-temperature tank on the day based on the cold and hot water usage pattern information of the user, wherein the target low-temperature amount is a basic low volume amount and additional low It is divided into quantity of water.

That is, the basic low temperature water amount is derived from the cold and hot water expected to be used on the day based on the derived cold and hot water pattern information of the user, by measuring the remaining amount of the cold and hot water remaining in the current hot water tank, and subtracts the remaining amount from the estimated usage of the day It can calculate by making it.

In other words, the basic amount of cold water is the amount of cold and hot water to be stored in the water storage tank in consideration of the remaining amount in the water storage tank so that the amount of cold and hot water expected to be used by the user on the day is stored.

At this time, in calculating the basic amount of cold water, in consideration of occurrence of a temporary change in the amount of cold and hot water used by the user, it is preferable to further secure a margin amount of margin water in the expected amount of used water.

The amount of reserve water can be adjusted and set according to the user's cold and hot water usage pattern, and it is generally good to set it in the range of 10-50% of the expected usage.

On the other hand, the additional storage amount is supplemented for pre-storing a certain amount of cold and hot water in advance when the operating efficiency of the cold and hot water heater is high, in order to prevent the cold water production or hot water production efficiency of the cold and hot water heater is lowered from the rise or fall of the outside air temperature in the future due to weather changes. It is cold and hot water.

Accordingly, it is determined whether the additional storage amount is calculated according to the weather forecast information for a predetermined period of time received through the weather information receiver 210.

That is, for example, when hot water is heated in winter, the maximum temperature of the day is 7 degrees Celsius, the maximum temperature of tomorrow is -2 degrees Celsius, and the maximum temperature of the day after tomorrow is -7 degrees Celsius. In this case, since the efficiency of the hot water supply mode of the cold / hot water heater is lowered in the future, it is required to additionally perform the hot water supply mode operation of the system on the same day having a mild climate of 7 ° C. to secure an additional amount of cold water.

On the other hand, when cold water is stored under the above-described weather conditions (when the outdoor air temperature gradually decreases), since the outdoor air temperature is lower than the outdoor air temperature of the day or the day after tomorrow, the cold water supply mode operation of the cold / hot water heater is additionally performed on the same day. There is no need.

In contrast, when operating in the cold water supply mode, when the outside temperature gradually rises, for example, when the maximum temperature of the day is 24, the maximum temperature of tomorrow is 26, and the maximum temperature of the day after tomorrow is expected to be 30, the maximum temperature is relative. As a result, additional cold water storage is required by additionally performing cold water supply mode operation of the system on a low day.

As described above, the microprocessor 400 determines whether the additional storage amount is secured according to the weather forecast information, and when it is not necessary to secure the additional storage amount, the microprocessor 400 sets the basic storage amount as the target storage amount, If it is necessary to secure the additional storage amount is calculated, the target storage amount is calculated by adding the basic storage amount and the calculated additional storage amount.

In this case, the determination of the additional low water amount may be calculated through various preset experiment tables, fuzzy logic, neural networks, and / or empirical curves.

On the other hand, as described above, when the target amount of cold water to be stored in the water storage tank is calculated, the microprocessor 400 measures the optimum operating time of the cold and hot water machine and the operating time of the cold and hot water machine that can operate the cold and hot water machine most efficiently.

That is, the microprocessor 400 produces cold water in a cold / hot water machine in consideration of changes in outside temperature and power rates for each time zone based on weather information and power rate information obtained through the weather information receiver 210 and the power rate information receiver 220. Extract operating hours and operating hours to maximize the efficiency of hot water production.

Derivation of the optimized operating time and operating time for improving the operating efficiency of the cold and hot water purifier may also be applied to various methods through a pre-experimental table, fuzzy logic or neural network, and the description of FIG. 3 illustrates one example.

As shown in the graph of FIG. 3, when the temperature (▲) and the power rate (■) of the outside air are changed for each time zone, the microprocessor 400 achieves the target water storage amount through the built-in fuzzy logic circuit. We find the operating time zone that can achieve the target low flow rate at the most efficient, that is, the lowest cost, and as a result, the interval (A) where the outside air temperature is above 0 ℃ and the electricity rate below 130 won / kWh "B section" common to each other is derived as the optimum operating time zone and operating time of the cold and hot water machine.

When the cold / hot water target low temperature of the day, the optimum operating time of the cold / hot water machine and the operating time of the cold / hot water machine are derived through the above-described process, the microprocessor 400 uses the cold / hot water machine through the operation control unit 500 according to the derived operating information of the cold / hot water machine. To control the driving.

Figure 4 is a flow chart showing the operation method of the operation control system of the heat pump type hot and cold water heater according to an embodiment of the present invention in sequence.

As shown in Figure 4, the operation control system of the heat pump type cold and hot water heater according to an embodiment of the present invention first checks the temperature and the amount of cold water remaining in the current storage tank through a sensor provided in the sensing unit ( S100).

Thereafter, the day temperature information and future weather forecast information are received through the weather information receiving unit of the information receiving unit (S110), and the power rate information for each time zone is received through the power rate information receiving unit (S110).

Each information received through the sensor and the information receiver is stored in the database (S120).

Thereafter, the microprocessor measures the amount of cold / hot water used by the user through the sensing unit 100 to determine the daily cold / hot water usage of the user, and derives the user's cold / hot water usage pattern based on this (S130).

When the user's cold and hot water pattern is derived, the cold and hot water is expected to be used on the day based on the user's derived cold and hot water pattern information, and the remaining amount of cold and hot water remaining in the current reservoir is measured, and then the By subtracting the remaining amount, the basic low water amount is calculated (S140).

Subsequently, in cold water production or hot water production operation of the cold / hot water machine, it is determined whether the additional low water amount is secured according to the outside air temperature predicted through the weather information receiver (S150).

In this case, when it is determined that the additional low water amount is required, the additional low water amount is calculated by using various judgment logic such as various pre-experimental tables, fuzzy logic, neural network, or empirical curve based on the predicted future weather information. (S160).

When the additional low water amount is calculated as described above, the basic low water amount and the additional low water amount are added to calculate a target low water amount to be stored in the water tank on the same day (S170).

On the other hand, in determining whether to secure the additional storage amount, if it is determined that it is unnecessary to secure the additional storage amount, the basic storage amount is calculated as the target storage amount (S171).

Thereafter, the microprocessor derives the optimal operating time zone and the operating time of the cold / hot water machine for generating the cold / hot water of the target low-temperature water calculated through the above-described process (S180).

That is, the microprocessor is based on the weather information and power bill information obtained from the weather information receiver and the power bill information receiver, and the optimal time zone and operation of the cold and hot water heater considering the change of outside air temperature and power bill by time zone through fuzzy logic or neural network. Time is extracted (S180).

As described above, when the target storage temperature of the cold / hot water to be stored in the storage tank and the operating time of the cold / hot water machine for optimizing the cold / hot water of the target low-temperature water and the optimum operating time of the cold / hot water machine for optimizing the operating efficiency of the cold / hot water machine are derived, the microprocessor calculates the calculation. According to the operation information of the cold and hot water heater to control the operation of the cold and hot water heater through the operation control unit (S190).

As described above, the operation control system of the heat pump type cold and hot water heater according to the present invention, the amount of cold and hot water to be stored in the low temperature tank through weather forecast information including the cold and hot water usage pattern information and temperature information of the user and power rate information for each time of use of electricity. By calculating the, and deriving the optimum operating time and operating time of the cold and hot water machine to operate the cold and hot water machine, it is possible to efficiently control the operation of the cold and hot water machine to reduce the power consumption and power bill.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be clear to those who have knowledge of God.

100: detection unit 200: information receiving unit
210: weather information receiver 220: power bill information receiver
300: database 400: microprocessor
500: operation control unit

Claims (8)

In an operation control system connected to a heat pump type hot and cold water heater comprising a compressor, a heat exchanger, an outdoor unit, an expansion valve and a water storage tank, and controls the operation of the cold and hot water heater for the production of cold or hot water.
Detecting unit for detecting the temperature and the amount of cold water stored in the storage tank;
An information receiver configured to receive weather forecast information including temperature information and power rate information for each time of use of power;
A database storing various types of information received through the sensing unit and the information receiving unit;
An operation controller connected to the cold / hot water controller to control an operation of the cold / hot water heater according to a control signal from a microprocessor; And
Based on the information stored in the database, the target storage amount of cold / hot water to be stored in the storage tank is calculated, and the optimum operating time and operating time of the cold / hot water machine for producing the calculated cold / cold water of the target storage water amount are calculated. A microprocessor controlling the operation of the cold / hot water machine according to the operation control unit;
Operation control system of a heat pump type cold and hot water heater, characterized in that comprising a. The method of claim 1,
The information receiver includes a weather information receiver for receiving weather forecast information including temperature information and a power bill information receiver for receiving power bill information for each time zone according to power usage. Control system. The method of claim 1,
The microprocessor includes a neural network circuit to which fuzzy logic is applied.
The operation control system of the heat pump type cold and hot water heater, characterized in that for calculating the optimum operating time and operating time of the cold and hot water machine through the neural network. In the operation control method of the operation control system connected to a heat pump type cold and hot water heater comprising a compressor, a heat exchanger, an outdoor unit, an expansion valve and a water storage tank, and controls the operation of the cold and hot water heater for the production of cold water or hot water,
Sensing the temperature and the amount of cold water remaining in the cold water tank in real time through a detector to measure the amount of cold and hot water used by the user, and detecting the temperature and the amount of cold water remaining in the water bath;
Receiving weather forecast information and time-based power bill information including temperature information of a predetermined period through the information receiver;
Storing data received through the sensor and the information receiver in a database;
Deriving, by a microprocessor, a user's cold / hot water usage pattern based on the user's cold / hot water usage information stored in the database;
Calculate the amount of cold and hot water expected to be used on the day based on the derived cold and hot water usage pattern information, and measure the remaining amount of cold and hot water remaining in the current reservoir, and calculates the basic low-flow water by subtracting the remaining amount from the expected usage on the day Making;
Determining whether to secure additional storage amount of cold / hot water to be further stored in the storage tank, in consideration of a change in operating efficiency of the cold / hot water heater according to a change in outside air temperature in the future based on the weather forecast information received through the information receiving unit;
Calculating a target storage amount of cold / hot water according to determining whether the additional storage amount is secured;
Extracting an optimum operating time zone and an operating time of the cold / hot water machine for producing the calculated target cold water amount; And
Controlling the operation of the cold / hot water machine through an operation controller according to the optimal operating time zone and the operating time of the extracted cold / hot water machine;
Operation control method of the operation control system of the heat pump type cold and hot water heater, characterized in that comprising a. The method of claim 4, wherein
In the step of calculating the target amount of cold water of the cold and hot water,
If it is determined that the securement of the additional storage amount is necessary, calculating the additional storage amount based on the weather forecast information stored in the database, and calculating the additional storage amount by calculating the target storage amount by adding the calculated additional storage amount An operation control method for an operation control system of a heat pump cold / hot water heater. The method of claim 4, wherein
In the step of calculating the target low water amount,
And if it is determined that the additional low water amount is not necessary, the basic low water amount is calculated as the target low water amount. The method of claim 4, wherein
In the step of calculating the basic low water amount,
In calculating the amount of cold / hot water that is expected to be used on the day based on the user's cold / hot water usage pattern information, a margin of 10 to 50% of the expected usage is allowed to be expected in the cold / hot water usage pattern in consideration of the temporary change of the user's cold / hot water usage pattern. (margin) Operation control method of the operation control system of the heat pump type cold and hot water heater, characterized in that to calculate the expected consumption of the day by adding the low water amount. The method of claim 4, wherein
Extracting the optimum operating time zone and the operating time of the cold and hot water machine,
The operation control method of the operation control system of the heat pump type cold and hot water heater, characterized in that carried out through the neural network to which the fuzzy logic provided in the microprocessor is applied.

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