KR101079542B1 - Operation controlling apparatus for parallel boilers and its controlling method thereof - Google Patents

Abstract

The present invention relates to an operation control device and a method of a parallel boiler, and more particularly, in the known operation control device of a parallel boiler, in each boiler is a total calculation of the total operation time according to the heating and hot water operation of the boiler An operation time calculating unit; The heating operation time calculation unit is installed to calculate the time every time heating operation is performed in the boiler, and the central processing unit receives the output signals of the total operation time calculation unit and the heating operation time calculation unit in real time and stores them in the EEPROM. At the same time, the data is transmitted to the controller through the communication unit to be used as the priority determination data in the controller when using hot water, and if necessary, a flow meter and a water supply temperature detection thermistor are installed in the direct water supply pipe and the hot water discharge pipe is tapped. A temperature detecting thermistor is installed, but a temperature detector for detecting direct water and hot water temperature is input from the water supply temperature detection thermistor and the tapping temperature detection thermistor, and a flow detector for detecting hot water consumption by receiving an output signal from a flowmeter. It is characterized by the installation.

Therefore, it is possible to prevent the heating operation due to the use of hot water, smooth water supply is possible when using the hot water, and the life of each boiler is greatly increased because the entire boiler is operated evenly according to the priority determined in consideration of the total operating time. Not only can it be extended, but it can evenly manage the life of the entire boiler.

Parallel Boiler, Controller, Total Operating Time, Heating Operating Time, Priority, Idle

Description

Operation controlling apparatus for parallel boilers and its controlling method

The present invention relates to an operation control apparatus and a method of a parallel boiler, and more particularly, the heating pipe of each room is connected to each boiler in a 1: 1 manner and the hot water discharge pipe is jointly connected in parallel by the user. If there is a demand for hot water operation due to the use of hot water, the boiler inputs the status and total operating time of each boiler from the controller and the boiler with the lowest total operating time among the boilers without heating operation has the highest priority and the boiler performs hot water operation. In this way, the heating operation can be prevented due to the use of hot water, and if all the boilers are to be heated, the priority is given to the hot water operation according to the total heating duration. Call the old boiler in hot water operation mode to keep hot water running smoothly while maintaining optimal heating conditions. In addition, it is possible to supply hot water smoothly when using hot water, and to operate the whole boiler evenly according to the priority considering total operating time, which not only prolongs the life of each boiler, but also improves the life of the whole boiler. It is invented so that it can be managed evenly.

Generally, a boiler is used to heat water by using combustion heat and heat generated by burning it using fuel, coal or gas as fuel, or supplying electricity to a heater, and supplying hot water to various heating facilities In the case of a domestic boiler, hot water is supplied to the piping installed on the floor of the room or the like, and is used for supplying hot water through a water pipe or the like.

Parallel boilers are designed to have the capacity of a large boiler by connecting several small boilers in parallel to each other, and they are based on domestic boilers. Such parallel boilers do not require separate boiler management personnel, unlike large boilers. There is a manageable advantage.

In addition, by using a small boiler for home, it can be installed in a narrow space, and it is easy to maintain and manage, and it has the advantage of lower maintenance cost than a large boiler because the boiler is operated by the required amount of heat while some boilers are operated. have.

Such parallel boilers typically have hot water discharge pipes jointly connected in parallel to several boilers (i.e., when a common shower room is operated in a place such as a test source or the like, hot water discharge pipes are jointly connected in parallel to several boilers). In the heating pipe, boilers are connected in a 1: 1 manner for each heating pipe, and all the heating pipes and several boilers are jointly connected so that the number of operation of the boiler varies depending on the amount of heat required for heating.

However, in a parallel boiler in which boilers are connected in a 1: 1 manner for heating pipes in each conventional parallel boiler, when hot water is used, a flow rate is received from a flowmeter and converted into calories, and the boiler is based on the calories and a predetermined priority. It selects and performs hot water operation, opens the solenoid valve for hot water supply control of the selected boiler, closes the solenoid valve after a certain period of time, and adopts a control method to operate the hot water by sequentially rotating the next priority boiler. .

As such, the method of sequential hot water operation according to the priorities not only adversely affects the load of the boiler due to frequent operation of the boiler, but also shortens the life of the solenoid valve, and if hot water is continuously used, In the process of operating the boiler "off" and the boiler of the next priority "on", the unheated cold water in the pipe is introduced to the user and the user may feel uncomfortable.

The present invention has been made to solve such a conventional problem, the heating pipe of each room is connected to each boiler in a 1: 1 manner and the hot water discharge pipe is connected in parallel to several boilers in parallel boiler, when using hot water Among the boilers that do not perform heating operation, the priority of hot water operation is decided according to the total operating time initially read from each boiler's EEPROM so that the boiler with the least operating time performs hot water operation. If the hot water operation is required in the state of carrying out the hot water operation to ensure that the heating and hot water operation is evenly performed, the hot water operation is performed by the boiler with the longest heating duration to date, thereby preventing the heating operation interruption due to the use of hot water. When using hot water, it is possible to supply hot water smoothly. Is operated evenly according to the priority determined in consideration of the total operation time, so that it can not only extend the life of each boiler drastically but also manage the life of the entire boiler evenly and provide the operation control device and method of parallel boiler. Its purpose is to.

One embodiment of the present invention device for achieving the above object, the heating pipe of each room is connected 1: 1 to several boilers having a central processing unit, temperature detection unit, flow rate detection unit, communication unit and EEPROM, hot water discharge pipe Is connected in parallel to several boilers in parallel, but each boiler has a configuration in which a solenoid valve for opening and closing is controlled by a controller having a central processing unit, a communication unit, and a valve driving unit, respectively. An operation control apparatus, comprising: a total operation time calculation unit for accumulating and calculating a total operation time according to heating and hot water operation of a corresponding boiler in each of the boilers; The heating operation time calculation unit is installed to calculate the time each time the heating operation is performed in the boiler, and the central processing unit receives the output signals of the total operation time calculation unit and the heating operation time calculation unit in real time to the EEPROM. At the same time, the data is transferred to the controller through the communication unit so that the controller can be used as the priority determination data when the hot water is used.

According to another embodiment of the present invention device for achieving the above object, the heating pipe of each room is connected 1: 1 to several boilers having a central processing unit, a communication unit, and EEPROM, and the hot water discharge pipe is connected to several boilers. In the parallel connection, the operation of the parallel boiler operation control device having a configuration in which the solenoid valve for opening and closing is controlled by a controller having a central processing unit, a communication unit and a valve drive unit in the hot water supply pipe for each boiler, In each of the boilers and the total operation time calculation unit for accumulating the total operation time according to the heating and hot water operation of the boiler; The heating operation time calculation unit is installed to calculate the time every time heating operation is performed in the boiler, and the central processing unit receives the output signals of the total operation time calculation unit and the heating operation time calculation unit in real time and stores them in the EEPROM. At the same time, the data is transferred to the controller through the communication unit to be used as priority determination data by the controller when using hot water.

The direct water supply pipe is provided with a flow meter and a water supply temperature detection thermistor, and the hot water discharge pipe is installed with a tapping temperature detection thermistor, in the controller to detect the direct water and hot water temperature from the water supply temperature detection thermistor and tapping temperature detection thermistor Characterized in that the flow rate detection unit for detecting the hot water consumption by receiving the output signal of the temperature detector and the flow meter is installed.

On the other hand, the present invention method for achieving the above object, the heating pipe of each room is connected to a number of boilers 1: 1, the hot water discharge pipe is jointly connected in parallel to several boilers, direct water supply pipe for hot water of each boiler In a parallel boiler operation control method, each of which is provided with a solenoid valve whose opening and closing is controlled by a controller, the total operation time data of each boiler stored in the EEPROM from the central processing unit in each boiler is transferred to the controller through the communication unit. Delivering in real time; Determining the priority in order of decreasing total operating time by comparing the total operating time for each boiler in the central processing unit within the controller receiving the data; Performing a heating operation for the room by operating a boiler of the room when the user requests a heating operation; Continuously calculating the total heating operation time and the current heating operation time for each boiler through the total operation time calculating unit and the heating operation time calculating unit in the central processing unit in each boiler; Determining whether a hot water operation request is received by receiving an output signal of the flow rate detection unit in real time; Judging whether there is a boiler in the idle state as a result of the hot water operation request; As a result of the above determination, if there are boilers in the idle state, giving a hot water operation command to a boiler having a higher priority; If there is no boiler in the idle state, the step of giving a hot water operation command to the boiler in the current heating operation time of the boiler in the heating operation state the longest state; characterized in that consisting of.

In addition, when hot water operation is performed in a boiler having a high priority or the current heating operation time is the longest, the central processing unit in the controller requires that the amount of heat required by the user's hot water consumption is greater than that of the boilers. Determining whether or not the same; Judging whether there is another boiler in the idle state when the amount of heat supplied to the boilers is less than necessary; As a result of the above determination, if there are still boilers in the idle state, giving a hot water operation command to a boiler having a higher priority; If there is no boiler in another idle state, giving a hot water operation command to the boiler having the longest heating operation time among the boilers in the heating operation state; As described above, it is determined whether the hot water operation stop signal is continuously input while the specific boiler is performing hot water operation. If there is no input of the stop signal, the flow returns to the step of comparing and comparing the hot water supply heat quantity with the required heat quantity, and stopping the hot water operation. And returning to an initial stage when a signal is input.

As a result of determining whether the required heat amount according to the user's hot water consumption is greater than or equal to the hot water supply heat of the corresponding boilers, if the hot water supply heat of the corresponding boilers is more than the required heat, two or more boilers currently operating hot water are operated. Determining cognition; Stopping the hot water operation of the boiler having the longest operation time to date if there are two or more boilers in hot water operation as a result of the determination above; It is characterized by further performing.

When the boiler executes a hot water operation by giving an operation command to the boiler having the highest priority or the current heating operation time being the longest, when the hot water operation stop signal is input from the total operation time calculation unit in each boiler. Until further calculate the operation time according to the hot water operation of the boiler characterized in that the step of accumulating in the EEPROM further carried out.

As described above, according to the present invention, in a parallel boiler in which each heating pipe is connected to each boiler in a 1: 1 manner and the hot water discharge pipe is jointly connected in parallel to several boilers, heating operation is not performed when hot water is used. The priority of hot water operation is decided according to the total operating time initially read from the EEPROM of each boiler among the boilers so that the boiler with the shortest operating time runs the hot water operation. If there is a demand for operation, the boiler with the longest heating duration up to now has hot water operation so that the heating and hot water operation is evenly performed, which prevents the heating operation due to the use of hot water, and smoothly supplies hot water when using hot water. This is possible, and the entire boiler is determined in consideration of the total operating time. Since it operates evenly according to the set priorities, it is a very useful invention that can not only significantly extend the life of each boiler but also manage the life of the entire boiler evenly.

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

1 is a block diagram illustrating an entire hot water / heating system using a parallel boiler in which an embodiment of the present invention is implemented, and FIG. 2 shows a hot water / heating system using a parallel boiler in which another embodiment of the present invention is implemented. 3 is a block diagram illustrating an apparatus according to an embodiment of the present invention, FIG. 4 is a block diagram according to another embodiment of the present invention, and FIG. A flowchart for explaining the invention method is shown.

1 and 3, the heating pipe 3 of each room includes a central processing unit 11, a temperature detection unit 12, a flow rate detection unit 13, and a communication unit ( 14) and 1 to 1 boiler (1) with EEPROM (15), and the hot water discharge pipe (9) is jointly connected in parallel to several boiler (1), the ON of each boiler (1) The receiving direct water supply pipe 4 has a configuration in which a solenoid valve 5 whose opening and closing is controlled by a controller 2 having a central processing unit 21, a communication unit 22, and a valve driving unit 23 is provided. In the operation control apparatus of a parallel boiler,

In each of the boilers 1 and the total operating time calculation unit 16 for cumulatively calculating the total operating time according to the heating and hot water operation of the boiler; When the heating operation is performed in the boiler, a heating operation time calculation unit 17 for calculating the time is additionally installed, and the central processing unit 11 calculates the total operation time calculation unit 16 and the heating operation time. It receives the output signal of the unit 17 in real time and accumulates it in the EEPROM 15 and transfers the data to the controller 2 through the communication unit 14, 22 to give priority to the controller 2 when using hot water. Characterized in that it is used as the ranking data.

In another embodiment of the present invention, as shown in Figs. 2 and 4, each heating pipe 3 is provided with a central processing unit 11, a communication unit 14 and the EEPROM (15) The boiler 1 is connected 1: 1, and the hot water discharge pipe 9 is jointly connected in parallel to several boilers 1, but the central processing unit 21 is connected to the hot water supply pipe 4 for hot water of each boiler 1. In the parallel boiler operation control device having a configuration in which a solenoid valve 5 whose opening and closing is controlled by a controller 2 having a communication unit 22 and a valve driving unit 23 is provided, respectively,

In each of the boilers 1 and the total operating time calculation unit 16 for cumulatively calculating the total operating time according to the heating and hot water operation of the boiler; When the heating operation is performed in the boiler, a heating operation time calculation unit 17 is installed to calculate the time, and the central processing unit 11 causes the total operation time calculation unit 16 and the heating operation time calculation unit. The output signal of 17 is received in real time and stored in the EEPROM 15, and the data is transferred to the controller 2 through the communication unit 14, 22 to determine the priority in the controller 2 when using hot water. To use as data,

The direct flow water supply pipe 4 is provided with a flow meter 6 and a water supply temperature detection thermistor 7, and the hot water discharge pipe 9 is provided with a tapping temperature detection thermistor 8, but in the controller 2 Flow rate detection unit 25 for detecting the hot water consumption by receiving the output signal from the temperature detector 24 and the flow meter 6 for detecting direct water and hot water temperature from the thermistor 7 for water supply temperature and the thermistor 8 for tapping temperature. ) Is additionally installed.

On the other hand, the method of the present invention, as shown in Figure 5, the heating pipe 3 of each room is connected to one to one boiler (1), the hot water discharge pipe (9) is jointed to several boiler (1) In parallel connection, the operation of the parallel boiler operation control method is provided with a solenoid valve (5) which is opened and closed by the controller (2) in the direct water supply pipe (4) for the hot water of each boiler (1),

The central operation processor 11 in each boiler 1 transmits the total operating time data for each boiler stored in the EEPROM 15 to the controller 2 through the communication unit 14 and 22 in real time. (S1);

A step (S2) of comparing the total operating time for each of the boilers (1) in the central processing unit (21) in the controller (2) receiving the data (S2);

Step S3 of operating a boiler of the room when the user requests a heating operation to perform heating operation for the room;

The central operation processor 11 in each boiler 1 continuously accumulates the total heating operation time and the current heating operation time for each boiler through the total operation time calculation unit 16 and the heating operation time calculation unit 17. Calculating step S4;

Determining whether there is a hot water operation request by receiving the output signal of the flow rate detection unit 13 or 25 in real time (S5);

Judging whether there is a boiler in idle state as a result of the hot water operation request (S6);

If the boiler is in the idle state as a result of the determination step (S7) to give a hot water operation command to the boiler of the highest priority;

If there is no boiler in the idle state step (S8) to give a hot water operation command to the boiler in the current heating operation time of the boiler in the heating operation state the longest state;

In addition, when the boiler having the highest priority or the current heating operation time is the longest as described above, the hot water operation starts in response to the hot water operation command of the controller 2, the central processing unit 21 in the controller 2 is operated by the user. Determining whether the required amount of heat according to the amount of hot water used is greater than or equal to the amount of heat supplied to the corresponding boilers (S9);

Determining whether there is another boiler in the idle state when the amount of heat supplied to the boilers is less than the required amount of heat (S10);

If there is another boiler in the idle state as a result of the determination step of giving a hot water operation command to the boiler having a higher priority (S11);

If there is no boiler in the idle state in the above step of giving a hot water operation command to the boiler in the state of the longest heating operation time among the boilers in the heating operation state (S12);

As described above, it is determined whether the hot water operation stop signal is continuously input while the specific boiler having high priority is performing hot water operation, and if there is no input of the stop signal, comparing and determining the hot water supply heat quantity and the required heat quantity (S9). Returning to step S, the step S13 of returning to the initial step S1 when the hot water operation stop signal is inputted is further characterized.

As a result of determining whether the required heat amount according to the user's hot water consumption is greater than or equal to the hot water supply heat of the corresponding boilers in the central processing unit 21 in the controller 2 (S9), the hot water supply heat of the corresponding boilers is higher than the required heat amount. Back side (No in step S9) and determining whether there are two or more boilers currently running hot water (S14);

As a result of the above determination, if there are two or more boilers in hot water operation, stopping the hot water operation of the boiler having the longest operation time to date (S15);

In each of the steps S7, S8, S11, and S12, the controller 2 issues an operation command to the boiler having the highest priority or the current heating operation time being the longest. When the total operation time calculation unit 16 in each boiler further calculates the operation time according to the hot water operation of the boiler until the hot water operation stop signal is input and accumulates in the EEPROM (15) It is done.

Referring to the operation and effect of the operation control device and method of the present invention parallel boiler consisting of such a configuration and steps as follows.

First, the first and second embodiments of the apparatus of the present invention, in the operation control apparatus of a known parallel boiler, the total operation time calculation unit 16 and the heating operation time calculation unit 17 in each boiler 1 largely In addition, the central processing unit 11 accumulates and stores the total operation time and heating operation time for each boiler in the EEPROM 15, and the data is stored in the controller 2 through the communication unit 14, 22. ) To be used as the priority determination data in the controller 2 when using hot water as the main technical component.

At this time, in the known parallel boiler system, the heating pipe 3 of each room has several boilers including a central processing unit 11, a temperature detection unit 12, a flow rate detection unit 13, a communication unit 14, and an EEPROM 15. (1) has a configuration that is connected 1: 1, and the hot water pipe has a configuration that is jointly connected to each boiler (1), the hot water supply pipe (4) for each boiler (1) to the central processing unit 21 And a solenoid valve 5 whose opening and closing is controlled by the controller 2 basically provided with a communication unit 22 and a valve driving unit 23, respectively.

On the other hand, in one embodiment of the device of the present invention, the flow rate detection unit 25 installed in the boiler itself has a flow rate detection unit 25 for the user to detect the state of use of hot water, and a temperature detection unit 24 for detecting the amount of heat when hot water is used. While using the temperature detector 24 and the temperature detection unit 24, another embodiment is irrespective of the installed state of the flow rate detection unit 13 and the temperature detection unit 12 in the boiler, the water supply pipe 4, the flow meter 6 and the water supply The temperature detecting thermistor 7 is further installed, and the hot water discharge pipe 9 is further provided with a tapping temperature detecting thermistor 8, and the water supply temperature detecting thermistor 7 and the inside of the controller 2 are provided. The controller 2 further includes a temperature detector 24 for detecting direct water and hot water temperature from the tapping temperature detecting thermistor 8 and a flow rate detector 25 for detecting hot water consumption by receiving an output signal from the flowmeter 6. In these When using the use of a user using hot water and whether water it illustrates that the amount of heat that can be detected.

In the apparatus of the present invention having such a configuration, in the central processing unit 11 in each boiler 1, the total operating time data of each boiler accumulated in the EEPROM 15 is normally stored in the controller 2 in real time. Transfer (S1).

Therefore, the central processing unit 21 in the controller 2 continuously compares the total operating time data transmitted from each boiler 1 to each other in order of decreasing total operating time. Priority is determined (S2) to be implemented.

As such, the controller (2) that has set the priority to operate first when using hot water for each boiler (1) continuously receives data transmitted from each boiler in real time to determine whether the user has a heating operation request for a specific room, If there is a request for operation by heating the boiler connected to the heating pipe of the room to perform the heating operation for the room (S3).

In addition, when the heating operation is performed in a specific boiler as described above, the central processing unit 11 in the boiler 1 performs a total operation time calculation unit 16 and a heating operation time calculation unit 17 for each boiler. The total heating operation time and the current heating operation time are continuously accumulated and stored in the EEPROM 15 (S4).

On the other hand, in the state in which the heating operation is performed through a specific boiler among the several boilers as described above, the controller 2 in real time through the data transmitted from each boiler in real time or the flow rate detection unit 25 installed in itself in real time from the user It is determined whether there is a request (S5).

As a result, when there is a request for hot water operation (i.e., when hot water use is detected because the user opens the hot water faucet), the controller 2 does not perform heating operation among several parallel boilers 1. It is determined whether there is a boiler (S6).

As a result of this determination, if there are idle boilers among several parallel boilers, the hot water operation command is given to the highest priority boiler (ie, the boiler with the lowest cumulative operating time), so that the boiler performs hot water operation. In this case, the total operating time calculation unit 16 in the boiler 1 continuously calculates the time according to the hot water operation and accumulates the total operating time in the EEPROM 15 (S7).

However, as a result of the above judgment, when all the parallel boilers 1 perform heating operation for each room and there is no boiler in the idle state, the controller 2 has the current heating operation time among all boilers in the heating operation state. The boiler in the long state is determined as a priority, the heating operation of the boiler is stopped and a hot water operation command is issued (S8). At this time, the total operation time calculation unit 16 in the boiler 1 continuously calculates the time according to the hot water operation after the heating operation stops and accumulates the total operation time in the EEPROM 15.

At this time, since all parallel boilers 1 perform a heating operation for each room, there is a request for hot water operation, and among them, a priority is given to the boiler with the longest heating operation time to give a hot water operation command. This is because the heating time of the room is a little longer than that of other rooms, so that the user of the room may be relatively less damaged than the user of another room with heating for less time.

Meanwhile, the central operation in the controller 2 is performed in a state where hot water operation is performed by using a boiler having a high priority or a current heating operation time being the longest according to the user's request for using hot water as described above. The processor 21 receives the hot water supply heat in real time through the hot water temperature detection data transmitted in real time from the boiler in operation of the hot water or the temperature detector 24 installed in the self, and the required heat amount according to the user's hot water consumption is applied to the corresponding boiler ( It is determined whether or not greater than or equal to the amount of hot water supply heat of 1) (S9).

As a result, if the hot water supply heat of the boiler currently in hot water operation is less than the required heat which is changed according to the amount of hot water used by the user (that is, only one hot water operation by the boiler will not reach the desired hot water temperature and hot water quantity). In the case), it is determined whether there is another boiler in the rest state except the boiler which is currently operating hot water (S10).

As a result of this determination, if there are other idle boilers, the hot water operation command is issued to the highest priority boiler (ie, the boiler with the lowest total running time among them), so that the hot water operation is also performed. Of course, even at this time, the total operation time calculation unit 16 in the boiler 1 continuously calculates the time according to the hot water operation and accumulates the total operation time in the EEPROM 15 (S11).

However, as a result of the above determination, if there is no boiler in another idle state, priority is given to the boiler having the longest heating operation time among the boilers in the current heating operation state to stop the heating operation of the boiler and to provide hot water. The operation command is also given to the boiler to perform hot water operation. In this case, the total operation time calculation unit 16 in the boiler 1 continuously calculates the time according to the hot water operation after stopping the heating operation to the EEPROM 15. The total operation time is accumulated (S12).

In this way, when the hot water operation is completed and the hot water operation stop signal is input while the specific high priority boiler meets the user's hot water operation demand, the hot water operation of the boiler is stopped and the initial stage is started. When the flow returns to S1 and there is no input of the hot water operation stop signal, the flow returns to the step S9 of comparing and determining the amount of heat supplied to the hot water and the required amount of heat.

As described above, when the hot water supply calories are greater than the required calories, the hot water operation is continued through the two boilers. However, if the two boilers are in the hot water operation mode. If the hot water supply heat of the two boilers that are currently running hot water is less than the required heat which is changed according to the amount of hot water used by the user, there is another idle boiler among the boilers except for the hot water boiler. It is repeated after step S10 to determine the.

Of course, the hot water consumption during operation of the plurality of boilers in the hot water operation mode as described above is very small, that is, the amount of heat supplied hot water is much larger than the required heat, that is, the user's hot water in the central processing unit 21 in the controller (2) As a result of determining whether the required heat amount according to the usage amount is greater than or equal to the hot water supply calories of the corresponding boilers, if the hot water supply calories of the corresponding boilers is higher than the required calories (No in step S9), it is determined whether there are two or more boilers currently operating hot water ( S14) If the result is less than two (that is, one), go directly to the step (S13) to determine whether the hot water operation stop signal is input, and if there are two or more boilers in hot water operation, the operation of the boilers is In order to achieve evenness, stop the hot water operation of the boiler with the longest operation time so far (S15) and determine whether the hot water operation stop signal is input. It is moved to the step (S13) to.

In each of the steps S7, S8, S11, and S12, the controller 2 issues an operation command to the boiler having the highest priority or the current heating operation time being the longest. In this case, the total operation time calculation unit 16 in each boiler continuously calculates the operation time according to the hot water operation of the corresponding boiler until the hot water operation stop signal is input as described above, accumulates it in the EEPROM 15, and subsequently gives priority. It can be used as the total operation time data to determine.

It should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

1 is a block diagram of an entire hot water / heating system using a parallel boiler in which an embodiment of the present invention is carried out.

Figure 2 is a block diagram of the whole hot water / heating system using a parallel boiler in which another embodiment of the present invention is implemented.

3 is a block diagram according to an embodiment of the present invention.

Figure 4 is a block diagram according to another embodiment of the present invention.

5 is a flowchart for explaining the method of the present invention.

Explanation of symbols on the main parts of the drawings

1: boiler 11: central processing unit

12: temperature detection unit 13: flow rate detection unit

14: communication unit 15: EEPROM

16: total operating time calculation unit 17: heating operation time calculation unit

2 controller 21 central processing unit

22: communication unit 23: valve drive unit

24: temperature detector 25: flow rate detector

3: heating piping 4: hot water supply pipe

5: solenoid valve 6: flow meter

7: Thermistor for detecting the water supply temperature 8: Thermistor for detecting the tapping temperature

9: hot water discharge pipe

Claims (6)

The heating pipe of each room is connected 1: 1 to several boilers equipped with central processing unit, temperature detector, flow detector, communication unit and EEPROM, and the hot water discharge pipe is jointly connected to several boilers in parallel. In the direct water supply pipe, the operation control apparatus of a parallel boiler having a configuration in which a solenoid valve whose opening and closing is controlled by a controller having a central processing unit, a communication unit, and a valve driving unit, respectively, is provided. In each of the boilers and the total operation time calculation unit for accumulating the total operation time according to the heating and hot water operation of the boiler; The heating operation time calculation unit is installed to calculate the time each time the heating operation is performed in the boiler, and the central processing unit receives the output signals of the total operation time calculation unit and the heating operation time calculation unit in real time to the EEPROM. And storing the data and transmitting the data to the controller through the communication unit so that the controller can use the hot water as priority data in the controller. The heating piping of each room is connected 1: 1 to several boilers equipped with central processing unit, communication unit and EEPROM, and the hot water discharge pipe is jointly connected to several boilers in parallel. In the parallel boiler operation control device having a configuration provided with a solenoid valve whose opening and closing is controlled by a controller having a communication unit and a valve drive unit, In each of the boilers and the total operation time calculation unit for accumulating the total operation time according to the heating and hot water operation of the boiler; The heating operation time calculation unit is installed to calculate the time every time heating operation is performed in the boiler, and the central processing unit receives the output signals of the total operation time calculation unit and the heating operation time calculation unit in real time and stores them in the EEPROM. At the same time, the data is transferred to the controller through the communication unit to be used as priority determination data by the controller when using hot water. The direct water supply pipe is provided with a flow meter and a water supply temperature detection thermistor, and the hot water discharge pipe is installed with a tapping temperature detection thermistor, in the controller to detect the direct water and hot water temperature from the water supply temperature detection thermistor and tapping temperature detection thermistor And a flow rate detector for detecting hot water consumption by receiving an output signal from the temperature detector and the flow meter. Heating pipes in each room are connected 1: 1 to several boilers, and hot water discharge pipes are jointly connected to several boilers in parallel, and direct water supply pipes for hot water of each boiler are provided with solenoid valves whose opening and closing are controlled by a controller. In the operation control method of a parallel boiler, Transmitting, in each boiler, total operating time data for each boiler stored in the EEPROM to the controller in real time; Comparing the total operating time for each of the boilers in the controller to determine priority in order of decreasing total operating time; Performing a heating operation for the room by operating a boiler of the room when the user requests a heating operation; Continuously calculating the total heating operation time and the current heating operation time for each boiler by the central processing unit in each boiler; Determining whether there is a hot water operation request by the user; Judging whether there is a boiler in the idle state as a result of the hot water operation request; As a result of the above determination, if there are boilers in the idle state, giving a hot water operation command to a boiler having a higher priority; If there is no boiler in the idle state, issuing a hot water operation command to the boiler in the current heating operation time of the boiler in the heating operation state; The method of claim 3, When the hot water operation is performed in a boiler having a high priority or a current heating operation time being the longest, the controller determines whether the required heat amount according to the user's hot water usage is greater than or equal to the hot water supply heat of the corresponding boilers; Judging whether there is another boiler in the idle state when the amount of heat supplied to the boilers is less than necessary; As a result of the above determination, if there are still boilers in the idle state, giving a hot water operation command to a boiler having a higher priority; If there is no boiler in another idle state, giving a hot water operation command to the boiler having the longest heating operation time among the boilers in the heating operation state; As described above, it is determined whether the hot water operation stop signal is continuously input while the specific boiler is performing hot water operation. If there is no input of the stop signal, the flow returns to the step of comparing and comparing the hot water supply heat quantity with the required heat quantity, and stopping the hot water operation. And returning to an initial stage when a signal is input. The method according to claim 4, As a result of determining whether the required heat amount according to the user's hot water consumption is greater than or equal to the hot water supply heat of the corresponding boilers, if the hot water supply heat of the corresponding boilers is more than the required heat, two or more boilers currently operating hot water are operated. Determining cognition; And stopping the hot water operation of the boiler having the longest operating time to date if there are two or more boilers in hot water operation as a result of the determination as described above. The method according to claim 3 or 4, When the boiler executes a hot water operation by giving an operation command to the boiler having the highest priority or the current heating operation time, the hot water operation stop signal is input from the total operation time calculation unit in each boiler. Until the operation time according to the hot water operation of the boiler until the operation of the parallel boiler operation control method further comprising the step of accumulating in the EEPROM.

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