KR20110051737A - Operation controlling apparatus for parallel boilers and its controlling method thereof - Google Patents

Abstract

PURPOSE: A device and a method for controlling the hot-water operation of parallely-connected boilers are provided to ensure smooth hot-water supply and extended life span of the boilers by operating the boilers according to priority considering the accumulated operating hours. CONSTITUTION: A device for controlling the hot-water operation of parallely-connected boilers comprises a total operating hour calculation unit(16), a heating hour calculation unit(17), central processing units(11,21), and a controller(2). The total operating hour calculation unit accumulates and calculates the total operating hours according to the heating and hot-water operations of boilers. The heating hour calculation unit calculates the duration of heating operation of the boilers. The central processing units receive output signals from the total operating hour calculation unit and the heating hour calculation unit in real time and stores the output signals in an EEPROM(15). The controller uses the output signal data for determining priority of the boilers for hot-water supply.

Description

Operation controlling apparatus for parallel boilers and its controlling method

The present invention relates to a hot water operation control device and a method of a parallel boiler, and more particularly, in a parallel boiler in which heating pipes and hot water discharge pipes of each room are jointly connected in parallel to several boilers, operating conditions of the respective boilers as usual. The priority is given to each boiler by inputting the information and the total operating time as the highest priority among the boilers with the lowest total operating time, but the highest priority among the boilers when there are no hot water and heating operation boilers. If one boiler is waiting for hot water operation and other boilers are waiting for heating operation, if the user requests hot water operation due to the use of hot water, the boiler is in hot water operation. Your hot water usage or operating temperature is higher than the current hot water supply If the amount of heat is higher than or equal to the maximum supply heat, the hot water boiler is operated with the highest priority among the boilers waiting for heating.If no boiler is waiting for heating, the boiler with the longest heating operation time is the By switching from heating operation mode to hot water operation mode, it is possible to supply hot water smoothly while maintaining optimal heating conditions. Also, when hot water is used, it is possible to supply hot water smoothly. It was invented to operate the equipment evenly according to the priorities considered, which can greatly extend the life of each boiler and to manage the life of the entire boiler evenly.

In general, a boiler uses oil, coal, and gas as fuel to burn water or heat water using combustion heat and heat generated by supplying electricity to a heater to supply hot water to various heating facilities. It refers to a facility for boiling water. In the case of a residential boiler, it is used to supply hot water to a pipe installed in the floor of a room to heat it, or to supply hot water through a water pipe.

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.

In such parallel boilers, hot water is usually connected in common, and heating pipes are connected in a 1: 1 manner for heating pipes in each room, and all heating and several boilers are connected in common, according to the amount of heat required for heating. There are cases where the number of operating boilers is different.

However, in a parallel boiler in which boilers are connected in a 1: 1 manner for heating pipes of conventional parallel boilers, when hot water is used, a flow rate is input from a flowmeter and converted into calories, and the boiler is converted according to the calories and predetermined priority. It selects and performs hot water operation, and opens the solenoid valve for hot water supply control of the selected boiler, closes the solenoid valve after a certain 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 of several parallel boilers connected to each other in a heating pipe according to a predetermined priority is not only adversely affecting the load of the boiler, but also frequently affecting the load of the boiler. In addition, it is possible to reduce the lifespan of hot water, and if the hot water is continuously used, the unheated cold water in the pipe flows in the process of turning off the boiler that has been operated so far and turning on the boiler of the next priority. Because it is provided to the user, the user may feel uncomfortable. Also, since all the boilers connected in parallel are not evenly heated and operated hot water, some boilers may have a very short lifespan and may not manage the lifespan of the entire boilers evenly. There is a problem.

The present invention has been made in order to solve such a conventional problem, in a parallel boiler in which heating pipes and hot water discharge pipes in each room are jointly connected in parallel to several boilers, operation status information and total operation of each boiler as usual Priority is given to each boiler with the highest priority on the boiler with the lowest total operating time.If no boiler is in the hot water and heating operation state, one boiler with the highest priority among the boilers is selected. When the user waits for hot water operation and other boilers are waiting for heating operation, if the user requests a hot water operation due to the use of hot water, the hot water operation is performed on the boiler that was waiting for hot water operation. Or the operating temperature is higher or higher than the maximum heat supply of hot water If the required heat is higher than or equal to the maximum supply heat, the boiler with the highest priority among the boilers waiting for heating is operated hot water.If there is no boiler waiting for heating, the boiler with the longest heating operation time among the boilers in heating operation is heated. By switching to the hot water operation mode in, hot water can be supplied smoothly when using hot water, and all boilers connected in parallel are operated evenly according to the priority determined in consideration of the total operating time. In addition, the purpose of the present invention is to provide a hot water operation control device and a method of parallel boilers that can evenly manage the life of the entire boiler.

In one embodiment of the present invention for achieving the above object, the heating pipe and hot water discharge pipe of each room is jointly connected to several boilers having a central processing unit, a temperature detector, a flow detector, a communication unit and EEPROM, each In the hot water operation control apparatus of a parallel boiler having a configuration in which the direct water supply pipe for hot water of the boiler is provided with 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. The total operation time calculation unit for calculating 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. 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.

In another embodiment of the present invention for achieving the above object, the heating pipe and hot water discharge pipe of each room is jointly connected to several boilers having a central processing unit, communication unit and EEPROM, and direct water supply pipe for hot water of each boiler In the hot water operation control device of a parallel boiler having a configuration in which the solenoid valve that is controlled to open and close by a controller having a central processing unit, a communication unit and a valve drive unit is installed, each of the boilers in the heating and heating A total operation time calculating unit for accumulating a total operation time according to the hot water operation; 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 for achieving the above object, the heating pipe and the hot water discharge pipe of each room is jointly connected to several boilers, the direct water supply pipe for hot water of each boiler is provided with a solenoid valve that is controlled by the controller In the hot water operation control method of each installed parallel boiler, the central processing unit in each boiler transfers the total operating time data and operating status (heating / hot water) information for each boiler stored in the EEPROM to the controller through the communication unit in real time. Making a step; 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; Determining whether there is a boiler in a hot water operation state; Determining whether there is a boiler in a heating operation state when there is no boiler in the hot water operation state as a result of the determination; If there is no boiler in the heating operation state, placing one boiler having the highest priority in the hot water standby state and leaving the other boilers in the heating standby state; Determining whether there is a user's hot water operation request; If the user requests hot water operation, the boiler in hot water operation is operated by hot water operation to provide hot water to the user, and at the same time, the central operation processing unit continuously calculates the total operation time for the corresponding boiler through the total operation time calculation unit. Steps to; characterized in that consisting of.

As a result of the above determination, when there is a boiler in a hot water operation state or hot water operation is performed in a boiler in hot water standby, the central processing unit in the controller determines whether the required heat amount according to the user's hot water consumption is greater than or equal to the maximum supply heat of the corresponding boilers. Steps; Judging whether the boiler is waiting for heating if the maximum supply heat of the corresponding boilers is less than the required heat as the result of the determination; As a result of the above judgment, if there are boilers waiting for heating, the hot water operation command is given to the boiler with the highest priority among them, and the total operation time for the corresponding boiler is continuously accumulated through the total operation time calculation unit in the central processing unit. Making a step; If there is no boiler waiting for heating, the hot water operation command is given to the boilers having the longest heating operation time among the boilers in the heating operation state, and the central operation processor within the internal operation unit calculates the total operation time for the corresponding boiler. Continuously calculating and accumulating the total driving time; As described above, it is determined whether the hot water operation stop signal is continuously input while specific boilers are performing hot water operation, and if there is no input of the stop signal, the process returns to the step of comparing and comparing the maximum supply heat quantity and the required heat amount, and stopping the hot water operation. When the signal is input, the step of returning to one of the boilers having the highest priority in the hot water standby state and the other boilers in the heating standby state;

In addition, if there is a boiler in the heating operation state in the absence of the boiler in the hot water operation state, the step of determining whether the hot water operation request by the user; If the hot water operation request is determined as a result of the above determination, go to the step of determining whether there is a boiler in the hot water standby state, and if there is no hot water operation request, returning to the step of determining whether there is a boiler in the heating operation state of the previous step; Characterized in that.

In addition, in the above, if the amount of heat required by the user desired hot water load is not greater than or equal to the maximum supply heat of the boilers currently in operation, determining whether there are two or more boilers in hot water operation; As a result of the above determination, if there are two or more boilers in hot water operation, the hot water operation of the boiler having the longest operating time is stopped and the heating is waited. Returning to the step; characterized in that the further implementation.

As described above, according to the present invention, in a parallel boiler in which heating pipes and hot water discharge pipes of each room are jointly connected in parallel to several boilers, a total operation is usually performed by receiving operation state information and total operating time of each boiler, etc. Priority is given to each boiler with the least time boiler as the highest priority.If there is no boiler in hot water and heating operation, one boiler with the highest priority among the boilers is waiting for hot water operation. If the user has a demand for hot water operation due to the use of hot water while the heating operation is on standby, the hot water operation is performed on the boiler that was waiting for hot water operation. The amount of heat required is higher than or higher than the maximum heat supply of hot water. If it is higher or equal, the hot water boiler is operated with the highest priority among the boilers waiting for heating, but if no boiler is waiting for heating, the boiler with the longest heating operation time among the boilers in heating operation is switched from heating operation mode to hot water operation mode. In this way, it is possible to supply hot water smoothly when using hot water, and the entire boilers connected in parallel are operated evenly according to the priority determined in consideration of the total operating time. It is a very useful invention such that the life can be managed 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 and the hot water discharge pipe 9 of each room have a central processing unit 11, a temperature detector 12, and a flow rate detector. (13) and jointly connected to several boilers (1) having a communication unit (14) and an EEPROM (15), and a central processing unit (21) and a communication unit in the direct water supply pipe (4) for hot water of each boiler (1). In the hot water operation control apparatus of the parallel boiler which has the structure which respectively provided the solenoid valve 5 whose opening and closing is controlled by the controller 2 provided with the 22 and the valve drive part 23,

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 Figures 2 and 4, the heating pipe 3 and the hot water discharge pipe (9) of each room is the central processing unit 11, the communication unit 14 and the EEPROM (15) It is jointly connected to several boilers (1) equipped with, and the direct water supply pipe (4) for hot water of each boiler (1) is provided with a central processing unit (21), a communication unit (22) and a valve driving unit (23). In the hot water operation control apparatus of the parallel boiler which has the structure which each provided the solenoid valve 5 whose opening and closing are controlled by the controller 2,

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 of 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 detection and the tapping temperature detection thermistor 8. ) Is additionally installed.

On the other hand, the method of the present invention, as shown in Figure 5, the heating pipe 3 and the hot water discharge pipe (9) of each room is jointly connected to several boilers 1, direct water supply pipe for hot water of each boiler (1) In (4), in the hot water operation control method of the parallel boiler provided with the solenoid valve 5 whose opening and closing is controlled by the controller 2,

In the central processing unit 11 in each boiler 1, total operating time data and operating state (heating / hot water) information for each boiler stored in the EEPROM 15 are communicated through the communication unit 14 and 22. Delivering to the controller 2 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);

Determining whether the boiler 1 in the hot water operation state is present (S3);

If there is no boiler in the hot water operation state as a result of the above determination step (S4) and whether there is a boiler in the heating operation state;

If there is no boiler in the heating operation state, one of the highest priority boilers is placed in the hot water standby state and the other boilers are placed in the heating standby state (S5);

Subsequently, receiving the output signal of the flow rate detection unit 13 or 25 in real time to determine whether there is a hot water operation request from the user (S6);

When the user requests for hot water operation, the boiler 1 that is waiting for hot water is operated by hot water operation to provide hot water to the user, and at the same time, the central operation processor 11 within the total operation time calculator 16 for the boiler. And continuously calculating and accumulating the total operating time (S7).

However, as a result of the above determination, when there is a boiler 1 in a hot water operation state or hot water operation is performed in the boiler 1 that is in the hot water standby state, the central processing unit 21 in the controller 2 according to the user's hot water usage amount. Determining whether the required heat is greater than or equal to the maximum supply heat of the corresponding boilers (S8);

Judging whether the boiler is waiting for heating if the maximum supply heat of the boilers 1 is less than the required heat as a result of the determination;

As a result of the above determination, if there are boilers waiting for heating, the hot water operation command is given to the boilers having the highest priority among them, and the total operation time for the corresponding boiler is calculated through the total operation time calculation unit 16 in the central processing unit 11 within itself. Continuously calculating and accumulating (S10);

If no boiler is waiting for heating, the hot water operation command is given to the boiler having the longest heating operation time among the boilers in the heating operation state, and the total operation time calculation unit 16 is executed by the central processing unit 11 in the self. Continuously calculating and accumulating the total operating time for the corresponding boiler through step S11;

As described above, it is determined whether the hot water operation stop signal is continuously input while specific boilers are performing hot water operation (S12), and when there is no input of the stop signal, comparing and determining the maximum supply heat quantity and the required heat quantity (S8). Returning to the hot water operation stop signal is input, the step of returning to the step (S5) of putting one of the boilers having the highest priority in the hot water standby state and other boilers in the heating standby state; .

In addition, if there is a boiler in the heating operation state in the absence of the boiler in the hot water operation state (No in S3) (Yes in S4), judging whether there is a hot water operation request by the user; As a result of the above determination, if there is a hot water operation request, the process goes to step S9 of determining whether there is a heating standby state, and if there is no hot water operation request, returning to the previous step of determining whether there is a heating operation state of the boiler (S4). It is characterized by carrying out;

In addition, in the above, if the amount of heat required by the user's desired hot water load is not greater than or equal to the maximum supply heat of currently operating boilers (No in S8), determining whether there are two or more boilers in hot water operation (S14). Wow;

As a result of the above determination, if there are two or more boilers in hot water operation (Yes in S14), the hot water operation of the boiler with the longest operating time is stopped (S15) and the heating is waited. As in the case of returning to the step of determining whether the hot water operation stop signal is input (S12); characterized in that the further implementation.

Referring to the effect of the hot water 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, the known parallel boiler system is the heating pipe 3 and the hot water discharge pipe (9) of each room as shown in Figs. 1 and 3, the central processing unit 11, the temperature detection unit 12, the flow rate detection unit 13, communication (14) and several boilers (1) integrally equipped with EEPROM (15) or several boilers provided with central processing unit (11), communication unit (14), and EEPROM (15) as shown in FIGS. 1) having a configuration connected in parallel to each other in parallel, the controller (2) basically provided with a central processing unit 21, the communication unit 22 and the valve drive unit 23 in the direct water supply pipe (4) for the hot water of each boiler (1) Has an arrangement in which solenoid valves 5 whose opening and closing are controlled are respectively provided.

On the other hand, the embodiment of the present invention illustrates that the user is provided with a flow rate detection unit 13 for detecting the use state of hot water, and the temperature detection unit 12 for detecting the amount of heat when using hot water integrally in the boiler itself. In contrast, another embodiment of the apparatus of the present invention further includes a flowmeter 6 and a water supply temperature detection thermistor 7 separately installed in the direct water supply pipe 4, and a tapping temperature detection thermistor 8 in the hot water discharge pipe 9. In addition, the controller 2 further includes a temperature detector 24 and a flow meter 6 for detecting direct water and hot water temperature from the water supply temperature detection thermistor 7 and the tapping temperature detection thermistor 8. By installing the flow rate detection unit 25 for detecting the amount of hot water received by receiving the output signal of the controller 2 by using them to detect whether the user using the hot water and the amount of heat when using the hot water to illustrate It is.

In the apparatus of the present invention having such a configuration, in the central processing unit 11 in each boiler 1, total operating time data and operating state (heating / hot water) information for each boiler accumulated and stored in the EEPROM 15 during normal times. To the controller 2 in real time (S1).

Therefore, the central processing unit 21 in the controller 2 continuously compares the total operation time data and the operation state (heating / hot water) information transmitted from each boiler 1 to each other so that the total operation time is small. The priority is determined (S2).

In this way, the controller 2, which sets the priority for each boiler 1, continuously receives data transmitted from each boiler in real time to determine whether there is a boiler in hot water operation state (S3). It is determined whether there is a boiler (S4).

As a result, if there is no boiler in the heating operation state (ie, all the boilers are in the idle state), the boiler with the highest priority is placed in the hot water standby state and all other boilers are in the heating standby state (S5).

Thereafter, the controller 2 determines whether there is a hot water operation request from the user in real time through the data transmitted from each boiler in real time or the flow rate detection unit 25 installed in itself (S6). If the hot water use is detected because the user opens the hot water faucet), the controller (2) gives a hot water operation command to the boiler which has already been set to the hot water standby state among several parallel boilers (1). It is carried out (S7).

At this time, the central processing unit 11 in the boiler 1 continuously calculates the total hot water operation time for the boiler 1 through the total operation time calculation unit 16 at the same time as the hot water operation of the boiler, and the EEPROM (15). ) To be used as total driving time data to determine future priorities.

In addition, as a result of the above determination, there is already a boiler 1 in a hot water operation state, or hot water operation is performed using a boiler that is waiting for hot water by a user's hot water operation request as described above. The central processing unit 21 receives the amount of hot water in real time and determines whether the required heat amount according to the user's hot water operation request is greater than or equal to the maximum supply heat amount of the corresponding boiler 1 (S8).

As a result, if the maximum supply heat of the boilers 1 is less than the required heat amount according to the user's use of hot water (that is, if the user does not meet the desired amount of hot water required by the hot water operation by only one boiler operating at the maximum supply heat). It is determined whether there is a boiler waiting for heating (S9).

As a result of this determination, if there are other boilers waiting to be heated, the hot water operation command is also given to the boiler with the highest priority among them, and the hot water operation is performed together with the boiler which is previously operated. In order to continuously calculate the total operating time for the boiler through the total operating time calculation unit 16 as well as cumulative integration (S10) in the EEPROM (15) to be used as the total operating time data to determine the future priority. do.

However, as a result of the above determination, if all the boilers are heating or hot water operation, and there is no boiler that is waiting for heating, the heating mode of the boiler with the longest heating operation time among the boilers currently in heating operation state is canceled. In addition, the hot water operation command is issued and the total operation time for the corresponding boiler is continuously calculated through the total operation time calculation unit 16 in the central processing unit 11 in the self, thereby accumulating and accumulating EEPROM 15 and DP (S11). ).

At this time, if all the boilers are running heating or hot water operation, and there is no boiler waiting for heating, the heating mode of the boiler with the longest heating operation time among the boilers currently in heating operation state is canceled and the hot water operation command is performed. The reason for this is that the boiler takes less load when the hot water operation is performed than when the heating operation is performed, and thus the heating of the boiler in which the heating operation time is the longest among the boilers currently in the heating operation state. If you release the mode and give the hot water operation command, the life of the boiler can be extended.

On the other hand, while the specific boilers are performing hot water operation as described above, the central processing unit 21 in the controller 2 continues to be transmitted in real time through data transmitted from each boiler in real time or the flow rate detection unit 25 installed in itself. It is determined whether the hot water operation stop signal is input (S12). When the stop signal is input, one of the boilers having the highest priority is placed in the hot water standby state, and the other boilers are returned to the step S5.

As a result of returning to the step S8 of comparing and comparing the maximum heat supply of the boilers with the required heat amount according to the user's use of hot water, or as a result of initially determining the maximum heat supply and the required heat, the maximum heat supply is required. If it is larger (No in S8), it is determined whether there are two or more boilers in hot water operation. If there are two or more boilers in hot water operation, the operation time is the longest among them in order to make the boilers operate evenly. It is determined whether the heating operation stop signal is input in the state of stopping the hot water operation of the boiler and the heating standby state, but in the case of less than two units (that is, in the case of one unit), it is determined whether the hot water operation stop signal is immediately input. Go back.

Further, in the above, if there is a result of judging whether there is a boiler in the heating operation state in the absence of the boiler in the hot water operation state (No in S3) (Yes in S4), it is determined again by the user whether there is a hot water operation request (S13). If there is a hot water operation request, go to step S9 to determine whether there is a heating standby condition, and if there is no hot water operation request, determine whether there is a boiler in a heating operation state as a previous step (S4) and according to the result This is followed by the steps.

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 (7)

The heating and hot water discharge pipes of each room are jointly connected to several boilers equipped with a central processing unit, a temperature detecting unit, a flow rate detecting unit, a communication unit, and an EEPROM. The hot water supply pipe for each boiler is provided with a central processing unit, a communication unit, and a valve driving unit. In the hot water operation control device of a parallel boiler having a configuration in which each of the solenoid valve is controlled by the controller 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 be used as the priority determination data when the hot water is used. The heating pipe and hot water discharge pipe of each room are jointly connected to several boilers equipped with central processing unit, communication unit and EEPROM, and the direct water supply pipe for each hot water of each boiler is controlled by a controller equipped with central processing unit, communication unit and valve driving unit. In the hot water operation control device of the parallel boiler having a configuration in which the solenoid valve is controlled to open and close, 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 Hot water operation control device of a parallel boiler, 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. In a heating method for controlling hot water operation of a parallel boiler in which heating pipes and hot water discharge pipes of each room are jointly connected to several boilers, and a solenoid valve for opening and closing the hot water supply pipe of each boiler is controlled by a controller. Transmitting the total operation time data and operation state (heating / hot water) information for each boiler in real time to the controller through the communication unit in the central processing unit in each boiler; Comparing the total operating time for each of the boilers in the central processing unit in the controller to determine priority in order of decreasing total operating time; Determining whether there is a boiler in a hot water operation state; Determining whether there is a boiler in a heating operation state when there is no boiler in the hot water operation state as a result of the determination; If there is no boiler in the heating operation state, placing one boiler having the highest priority in the hot water standby state and leaving the other boilers in the heating standby state; Determining whether there is a user's hot water operation request; Hot water operation control method of the parallel boiler, characterized in that consisting of; operating the boiler in the hot water standby when the user requests the hot water operation. The method of claim 3, Judging from the above, when there is a boiler in a hot water operation state or hot water operation is performed in the boiler in the hot water standby state, the controller determines whether the required heat amount according to the user's hot water consumption is greater than or equal to the maximum supply heat of the corresponding boilers; Judging whether the boiler is waiting for heating if the maximum supply heat of the corresponding boilers is less than the required heat as the result of the determination; As a result of the above determination, if there are boilers waiting for heating, giving a hot water operation command to the boiler having the highest priority; If there is no heating standby boiler, issuing 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 specific boilers are performing hot water operation, and if there is no input of the stop signal, the process returns to the step of comparing and comparing the maximum supply heat quantity and the required heat amount, and stopping the hot water operation. When the signal is input, the step of returning to the step of placing one of the highest priority boiler in the hot water standby state and other boilers in the heating standby state; hot water operation control method of a parallel boiler further comprising. The method of claim 3, Determining whether there is a hot water operation request by a user when there is a boiler in a heating operation state in a state where there is no boiler in a hot water operation state; If the hot water operation request is determined as a result of the above determination, go to the step of determining whether there is a heating standby state boiler, and if there is no hot water operation request, returning to the step of determining whether there is a boiler of the heating operation state of the previous step; Hot water operation control method of a parallel boiler characterized in that. The method according to claim 4, Judging from the above, if the amount of heat required by the user's desired hot water load is not greater than or equal to the maximum supply heat of currently operating boilers, determining whether there are two or more boilers in hot water operation; As a result of the above determination, if there are two or more boilers in hot water operation, the hot water operation of the boiler having the longest operating time is stopped and the heating is waited. Returning to the step; hot water operation control method of the parallel boiler further comprising. The method according to claim 3 or 4, When the boilers perform hot water operation by giving a hot water operation command to the boiler having the highest heating operation time among the boilers having high priority or the heating operation boiler among the hot water standby boilers or the heating standby boilers in the controller. The total operation time calculation unit in each boiler further performs the step of continuously calculating and accumulating the operation time according to the hot water operation of the corresponding boiler until the hot water operation stop signal is input and accumulating it in the EEPROM. Operation control method.

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