KR102104677B1 - Control system and method for heating boiler with external hot water tank - Google Patents

Abstract

Disclosed is a control system and method for a heating boiler having a hot water tank externally. The present invention is a hot water return pipe and a hot water hot water pipe, which connects the hot water tank to the heating boiler so that water can be circulated, and is installed at the right place of the hot water return pipe, and a circulation return temperature sensor for detecting the return temperature of the hot water and the hot water hot water pipe. A detection unit installed in place and including a circulating hot water temperature sensor for detecting a circulating hot water temperature; And calculating the temperature difference (Δt) between the circulating return temperature detected by the circulating return temperature sensor and the circulating hot water temperature detected by the circulating hot water temperature sensor, and detecting the presence or absence of water in the hot water tank according to the temperature difference (Δt). It may include; a control unit for controlling the combustion.

Description

Control system and method for heating boiler with external hot water tank}

The present invention relates to a control system and method for a heating boiler having a hot water tank externally controlling the boiler by heat-limited combustion when detecting no water in the hot water tank in a heating boiler having a hot water tank externally.

The method of controlling the water temperature of the hot water tank in the heating boiler equipped with the hot water tank externally may be a method of controlling on / off combustion of the heating boiler by checking the temperature of the thermistor or the input signal of the thermostat. have. In a heating boiler equipped with a hot water tank as an external type, a water level sensor is installed in the hot water tank, and the water level sensor is judged by itself, and the determined information is compared with the reference value set in the control unit to open the valve to replenish water when water is needed. Since this information is not directly transferred to the combustion control information of the boiler, the control unit for controlling the combustion of the boiler has no way to determine whether or not there is water in the hot water tank and control it. Since it was not possible to judge or check whether the temperature value in the atmosphere was input because there was no water or there was no water, there was a problem that the combustion of the boiler was instructed even in the absence of water in the hot water tank. If there is no water in the hot water tank and the combustion of the boiler continues, the heat exchange in the hot water tank cannot be performed normally, and the temperature of the water continuously circulated to the boiler rapidly increases. Since boiling can reduce the durability of the boiler and the hot water tank, safety control is required in a heating boiler equipped with a hot water tank as an external type. The tank temperature sensor is installed in the hot water tank of some manufacturers, but since the position is variable and attached to the outside of the tank according to the manufacturer, the tank temperature sensor has limitations in detecting or checking the state of the water inside the tank.

Patent Literature 1. Domestic Registered Patent Publication No. 10-1706176 (published on February 15, 2017)

Patent Document 2. Domestic Publication Patent Publication No. 10-2005-0120844 (published on December 26, 2005)

One of the technical problems to be solved in the present invention is to control the boiler by heat-limited combustion when detecting no water in the hot water tank in a heating boiler having a hot water tank as an external type. In addition, in the process of replenishing the water in the hot water tank, the boiler is controlled to maintain a normal hot water temperature.

According to the present invention, according to the present invention, in a control system of a heating boiler having a hot water tank externally, a hot water return pipe and a hot water discharge pipe connecting the hot water tank with the heating boiler to enable circulation of water, the hot water return pipe A detection unit including a circulation return temperature sensor installed at a suitable location of the pipe to detect a circulation return temperature, and a circulation supply temperature sensor installed at a suitable location of the hot water supply pipe to detect a circulation return temperature; And calculating the temperature difference (Δt) between the circulating return temperature detected by the circulating return temperature sensor and the circulating hot water temperature detected by the circulating hot water temperature sensor, and detecting the presence or absence of water in the hot water tank according to the temperature difference (Δt). Control unit for controlling combustion; can be achieved from a control system of a heating boiler having a hot water tank externally.

According to an embodiment of the present invention, the control unit may include a temperature difference determination unit for acquiring the temperature difference Δt detected from the circulation hot water temperature sensor and the circulation return temperature sensor at intervals of the hot water temperature acquisition time T1 after boiler combustion. .

According to an embodiment of the present invention, the control unit, if the Δt obtained by obtaining the hot water temperature acquisition time (T1) at intervals after the boiler combustion is less than the heat limit temperature (t1) during the elapse of the heat limit determination time (T2), the heat limit limit reference value (s1) It may include a; to fall in the range of 5 to 15%, and the heat limit reference value determination unit for initializing the heat limit determination time.

According to an embodiment of the present invention, the control unit, after lowering the caloric limit reference value (s1) in the range of 5 to 15% through the caloric limit reference value determination unit, if the caloric limit temperature (t1) or less during the heat limit determination time (T2), the amount of heat It can be controlled to lower the limit reference value s1 again in the range of 5 to 15% and reset the heat amount limit determination time.

According to an embodiment of the present invention, the control unit displays an error and stops the combustion of the boiler when the heat limit limit value s1 becomes lower than the minimum heat limit limit in the process of continuing the heat limit operation of the boiler through the heat limit limit value determination unit Can be controlled.

According to an embodiment of the present invention, after the control unit lowers the reference value (s1) of the heat amount of the boiler through the heat value limit reference value determination unit, the temperature difference (Δt) detected from the circulation hot water temperature sensor and the circulation temperature sensor detects the temperature limit release temperature ( If t2) or more, it can be controlled to increase the calorific limit reference value s1 to a range of 5 to 15%.

According to the present invention, according to the present invention, in a control method of a heating boiler having a hot water tank as an external type, a hot water return pipe and a hot water discharge pipe connecting the hot water tank with the heating boiler to enable circulation of water, and the hot water return Detecting a temperature of water passing through a boiler through a circulation return temperature sensor installed at a proper place in the pipe to detect a circulation return temperature and a circulation supply temperature sensor installed at a proper place in the hot water supply pipe to detect a circulation hot water temperature; And calculating the temperature difference (Δt) between the circulating return temperature detected by the circulating return temperature sensor and the circulating hot water temperature detected by the circulating hot water temperature sensor, and detecting the presence or absence of water in the hot water tank according to the temperature difference (Δt). Controlling combustion; can be achieved from a control method of a heating boiler having a hot water tank externally.

According to an embodiment of the present invention, the control step, if the Δt obtained at a hot water temperature acquisition time (T1) after the boiler combustion at intervals is less than the heat limit temperature (t1) during the elapse of the heat limit limit time (T2), the heat limit limit value (s1) It may include; lowering in the range of 5 to 15% and determining the heat limit reference value to initialize the heat limit determination time.

According to an embodiment of the present invention, the control step, after lowering the caloric limit reference value (s1) in the range of 5 to 15% through the caloric limit reference value (s1) adjustment step, the caloric limit temperature (t1) If it is less than, it may include the step of lowering the calorific limit reference value (s1) again in the range of 5 to 15% and initializing the calorific limit limit time.

According to an embodiment of the present invention, the control step displays an error when the heat limit limit value s1 is lower than the minimum heat limit limit in the process of continuing the heat limit operation of the boiler through the heat limit limit value s1 determination step. And controlling to stop combustion.

According to an embodiment of the present invention, the control step, the temperature difference (Δt) detected from the circulating hot water temperature sensor and the circulating return temperature sensor after lowering the boiler's calorific value limit value s1 through the determination step of the calorific value limit is released. When the temperature is t2 or more, the method may include controlling to increase the calorific limit value s1 to a range of 5 to 15%.

The present invention prevents the boiling and overheating of the boiler by preventing air heating when detecting no water in the hot water tank in a heating boiler equipped with a hot water tank as an external type, thereby ensuring the durability of the boiler system and improving the combustion efficiency and combustion safety of the boiler. It has the effect of providing a boiler system.

1 is an example of a system diagram of a heating boiler system having a hot water tank externally.
2 is an example of a comparison temperature graph of the circulating hot water temperature and the circulating return temperature during normal combustion of a heating boiler system having a hot water tank externally.
3 is an example of a comparison temperature graph of the circulation hot water temperature and the circulating return temperature during waterless combustion of a heating boiler system having a hot water tank externally.
4 is an example of a block diagram of a heating boiler control system having a hot water tank externally according to an embodiment of the present invention.
5 is an example of a control flow diagram of a heating boiler having a hot water tank externally according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail 'the control device and method of a heating boiler having a hot water tank as an external type' according to a preferred embodiment of the present invention.

The present invention is proposed to control the boiler to control the amount of heat of the hot water tank in the heating boiler having a hot water tank as an external type, and to control the boiler to maintain a normal hot water temperature even in the process of replenishing the water in the hot water tank.

1 is an example of a system diagram of a heating boiler system having a hot water tank externally.

As shown in FIG. 1, the heating boiler system having the hot water tank as an external type is connected to the heating circuit 200 by the heating supply pipe 210 and the heating return pipe 220 based on the heat source side boiler 100. The tank 300 is connected to each of the hot water hot water pipe 310 and the hot water return pipe 320 to be circulated.

And the circulation return temperature sensor 110 that detects the temperature of the water flowing into the heating return pipe 220 of the heating circuit 200 and the hot water return pipe 320 of the hot water tank 300 and sends a detection signal to the control unit 400 And a circulation supply temperature sensor 120 that detects the temperature of water flowing to the heating supply pipe 210 of the heating circuit 200 and the hot water tapping pipe 320 of the hot water tank 300 and sends it to the control unit 400. Can be.

In addition, a tank temperature sensor 130 may be installed in the hot water tank 300. Since the tank temperature sensor TH3 has a variable position and is attached to the outside of the hot water tank according to the manufacturer, the tank temperature sensor has a structure for accurately detecting or checking the state of the water inside the tank.

In FIG. 1, reference numeral 140 is a hot water supply nozzle, 150 is a valve, 160 is a pump, 141 is a hot water supply pipe, 170 is a three-sided valve, 180 is a controller that controls the operation of the boiler, an indicator that displays the operating state of the boiler, etc. .

As shown in FIG. 1, a heating boiler system having a hot water tank as an external type is in a state in which the heat exchange is not normally performed in the hot water tank 300 when the combustion operation of the boiler 100 continues while there is no water in the hot water tank 300. And the temperature of the water circulated to the boiler 100 may be increased.

2 is an example of a comparison temperature graph of the circulating hot water temperature and the circulating return temperature during normal combustion of a heating boiler system having a hot water tank externally.

Referring to Figure 2, when the hot water tank 300 is normally filled with water or not in an empty tank, the circulation hot water distribution line (a1) and the circulation return temperature distribution line (a2) circulate at a certain point (P1) after boiler combustion. The tapping temperature (TH2) is stably maintained at about 20 ° C or higher compared to the circulating return temperature (TH1).

At this time, when cold water is supplied using the water in the hot water tank provided as an external type, the heating boiler system performs heat control according to the temperature difference, and if more heat is required than the maximum output heat of the heating boiler system, circulation is performed. The return temperature TH1 will be lowered, and if less heat is required than the maximum output heat of the heating boiler system, the circulation return temperature TH1 can be maintained high.

3 is an example of a comparison temperature graph of the circulation hot water temperature and the circulating return temperature during waterless combustion of a heating boiler system having a hot water tank externally.

Referring to FIG. 3, when there is little water in the hot water tank 300 or when it is in an empty tank, the circulation hot water temperature distribution line a1 and the circulation hot water temperature distribution line a2 are circulated hot water after a certain time point P2 after combustion of the boiler. It appears as an equidistribution line with no difference between the temperature TH2 and the circulation return temperature TH1, indicating an unstable temperature distribution in which the circulation return temperature TH1 is too high. When the circulating return temperature is high, boiling of water boils inside the boiler, which may degrade the durability of the boiler and the hot water tank and is related to safety, so control is required.

4 is an example of a block diagram of a heating boiler control system having a hot water tank externally according to an embodiment of the present invention.

The heating boiler control system having the hot water tank of the present invention as an external type includes a circulation return temperature sensor 110 for detecting the circulation return temperature, and a circulation water temperature sensor 120 for detecting the circulation hot water temperature, as shown in FIG. 4. The difference (Δt) between the circulating return temperature (TH1) detected from the detecting unit 400 and the circulating return temperature sensor (110) and the circulating hot water temperature (TH2) detected from the circulating hot water temperature sensor (120) is compared, and the result is compared. Depending on the water may be configured to include a control unit 500 for detecting the water in the tank 300 to control the combustion of the boiler 100.

More preferably, the difference Δt between the circulating return temperature TH1 and the circulating hot water temperature TH2 may be compared, and accordingly, the amount of water in the hot water tank 300 and the temperature of the water may be detected.

The control unit 500 is a temperature difference determination unit 510 for acquiring the temperature difference Δt detected from the circulation hot water temperature sensor 120 and the circulation return temperature sensor 110 at intervals of the hot water temperature acquisition time T1 after boiler combustion. It may be configured to include.

The control unit 500 may be configured to count the interval of the hot water temperature acquisition time T1 after boiler combustion at intervals of 3 to 10s. Here, the range of the interval 3 to 10s of the hot water temperature acquisition time T1 obtained through counting after boiler combustion may be a time for effectively calculating the temperature change state of the hot water. If it is less than 3 s, the measurement frequency increases, and system management efficiency is reduced due to overlapping check. Therefore, the range of the interval 3 to 10s of the hot water temperature acquisition time T1 may be a time for effectively calculating the temperature change state of the hot water.

If the Δt obtained at intervals of the hot water temperature acquisition time (T1) after combustion of the boiler is equal to or less than the heat limit temperature (t1) during the elapse of the heat limit determination time (T2), the control unit 500 ranges from 5 to 15%. It may be configured to include a calorie limit reference value determination unit 520 to lower the in and initialize the calorie limit determination time.

Here, the reference value (s1) for the amount of heat is based on the current amount of heat or the maximum output heat of the heating boiler system, and is a criterion for limiting the amount of heat for the heating boiler system, and the value for the amount of heat restriction (s1) is the maximum amount of heat for the current amount or the heating boiler system. When the heat amount is set to 100% and the heat amount limit reference value (s1) is lowered, the flow rate of the circulation pump is decreased, or the temperature of the circulation hot water temperature (TH2) is lowered to decrease the difference between the circulation hot water temperature (TH1) and the hot water temperature (TH2). It can be determined by reducing (Δt).

The control unit 500 lowers the heat amount limit reference value s1 through the heat amount limit reference value determination unit 520 in the range of 5 to 15%, and if the heat amount limit temperature t1 is lower than the heat amount limit determination time T2, the heat amount limit The reference value s1 may be configured to be controlled again by lowering the range from 5 to 15% and initializing the heat-limiting determination time.

The controller 500 generates an error and stops and controls the combustion of the boiler when the heat limit limit value s1 is lower than the minimum heat limit limit in the process of continuing the heat limit operation of the boiler through the heat limit limit value determination unit 520 Can be configured.

The controller 500 lowers the reference value s1 of the heat amount of the boiler through the heat amount limit reference value determination unit 520, and then the temperature difference Δt detected from the circulation hot water temperature sensor 120 and the circulation temperature sensor 110 is reduced. When the calorific limit is higher than the release temperature t2, the caloric limit reference value s1 may be increased to a range of 5 to 15% to be controlled.

Various control information including input / output information of the control unit 500 may be displayed on the display unit 530. For example, the display unit 530 includes various types of control information controlled by the control unit 500, including error display information indicating 'no water' of the hot water tank and setting information of a current boiler's heat limit reference value. Input control information can be displayed.

The control method of the heating boiler provided with the hot water tank configured as described above will be described in detail as follows.

The control method of a heating boiler having a hot water tank according to the present invention as an external type is first, through a circulation return temperature sensor 110 for detecting the circulation return temperature and a circulation water temperature sensor 120 for detecting the circulation hot water temperature. 100) through a detection step of detecting the temperature of water passing through, comparing the difference between the circulation return temperature detected by the circulation return temperature sensor 110 and the temperature of the circulation return temperature detected by the circulation hot water temperature sensor 120 (Δt), and As a control step of detecting water in the hot water tank 300 and controlling combustion of the boiler 100 according to the comparison result, a heating boiler having a hot water tank as an external type may be controlled.

In addition, in the control step, the difference between the circulation return temperature detected by the circulation return temperature sensor 110 and the circulation hot water temperature detected from the circulation hot water temperature sensor 120 obtained by obtaining the hot water temperature acquisition time T1 after the boiler combustion at an interval (Δt) ) If the amount of change is less than or equal to the calorific limit temperature (t1) during the elapse of the calorific limit limit time (T2), the caloric limit criterion value determination step of lowering the caloric limit reference value s1 in the range of 5 to 15% and initializing the caloric limit determination time may be included. You can.

In addition, in the control step, after lowering the caloric limit reference value s1 in the range of 5 to 15% through the caloric limit reference value determination step, if the caloric limit temperature t1 is less than or equal to the calorific limit limit value t It may include the step of lowering the s1) again in the range of 5 to 15% and initializing the calorie limit determination time T2.

In addition, in the control step, in the process of continuing the heat amount limiting operation of the boiler through the heat amount limiting reference value adjustment step, when the heat amount limiting reference value s1 becomes lower than the minimum value of heat limiting, an error is generated and the boiler is controlled to stop combustion. It may include.

In addition, in the control step, the temperature difference (Δt) detected from the circulating hot water temperature sensor 120 and the circulating return temperature sensor 110 is lowered after the reference value s1 of the boiler is lowered through the step of adjusting the heat amount limiting reference value. If the release temperature (t2) or more may include the step of controlling to increase the calorific limit reference value (s1) to a range of 5 to 15%.

Figure 5 is an example of a flow chart illustrating a method for controlling by controlling the amount of heat of the boiler in the control of the heating boiler having an external hot water tank according to an embodiment of the present invention.

If the time limit for the heat amount limit T2 and the heat amount limit temperature t1 are set through the control unit 500 (S110), the difference (Δt) between the temperatures detected from the circulation hot water temperature sensor 120 and the circulation return temperature sensor 110 is set. ) And the heat limit temperature t1 are compared (S120).

If the determination result in step S120 is Δt <t1, it is determined whether or not the time limit for determining the heat limit T2 has elapsed (S130), and when the determination result in step S120 is Δt ≥ t1, the circulating hot water temperature sensor 120 And the difference (Δt) of the temperature detected by the circulating return temperature sensor 110 and the temperature limit release temperature (t2) are compared and judged (S140).

On the other hand, if it is determined in step S130 that the heat limit limit determination time T2 has elapsed, the heat limit limit value s1 and the heat limit limit minimum value set in the control unit are compared and determined (S150), and the heat limit limit determination time ( If T2) has not elapsed, it is controlled to wait in the previous step of step S120.

As a result of the determination in step S150, when the calorie limit reference value s1 is the minimum value of the calorie limit, the heat limit limit value s1 is lowered from the initial heat limit limit value s1 to 5 to 15% through the heat limit limit value determination unit of the control unit ( S160) It is continuously controlled to return to the step S110 and is initialized, and when the determination result in step S150 indicates that the heat limit limit value (s1) ≤ the minimum heat limit limit, it is determined that there is no water in the hot water tank 300 and displayed as an error of no water. It is controlled as possible (S170).

In addition, when the determination result in step S120 is Δt ≥ t1, the difference (Δt) between the temperature detected by the circulating hot water temperature sensor 120 and the circulating return temperature sensor 110 and the temperature limit release temperature t2 are compared and judged ( S140). When the determination result in step S140 is Δt> t2, when the calorie limit reference value (s1) = the target value (100%) is reached (S180), the control returns to the step S110 to be initialized, and the calorie limit reference value (s1) In the case of the target value (100%), the heat amount limit reference value s1 may be controlled to increase the heat amount limit reference value s1 until the target value (100%) is reached (S190).

Advantageous Advantages According to the present invention, in the heating boiler having the hot water tank as an external type, when detecting no water in the hot water tank, the boiler is controlled by heat-limited combustion and the boiler can be controlled to maintain a normal hot water temperature even in the process of replenishing the hot water tank. There is this.

In addition, according to the present invention, the hot water temperature is quickly prevented while preventing overheating in the installation state (capacity, location of the heat exchange part, etc.) and the changing use of the hot water tank in the heating boiler having the hot water tank as an external type (capacity, hot water temperature, etc.). It has the advantage of being able to control the boiler so that it can be heated to

The present invention has been described with reference to the embodiments shown in the drawings, but is not limited to the embodiments, and can be modified and modified within a range not departing from the gist of the present invention. Is included.

100: boiler 110: circulation return temperature sensor
120: circulating hot water temperature sensor 130: hot water tank temperature sensor
200: heating circuit 210: heating supply pipe
220: heating return pipe 300: hot water tank
310: hot water outlet tube 320: hot water return pipe
400: detection unit 500: control unit
510: temperature difference determination unit 520: heat amount limit reference value determination unit
530: display

Claims (9)

In the control system of a heating boiler having a hot water tank as an external type, the hot water return pipe, the hot water hot water pipe, and the hot water return pipe connecting the hot water tank to the heating boiler to enable circulation of water are installed in place at a suitable circulation temperature. A detection unit including a circulation return temperature sensor for detecting a, a circulation water supply temperature sensor installed in a place in the hot water hot water pipe to detect the circulation hot water temperature; And calculating the temperature difference (Δt) between the circulating return temperature detected by the circulating return temperature sensor and the circulating hot water temperature detected by the circulating hot water temperature sensor, and detecting the presence or absence of water in the hot water tank according to the temperature difference (Δt). The control unit for controlling combustion; and includes, the control unit, Δt obtained at intervals of the hot water temperature acquisition time (T1) after combustion of the boiler is less than the heat limit temperature (t1) during the elapse of the heat limit determination time (T2) A control system of a heating boiler having a hot water tank externally, including; a heat limit limit value determination unit that lowers the limit reference value s1 in a range of 5 to 15% and initializes a heat limit limit determination time. According to claim 1,
The control unit includes a temperature difference determination unit for acquiring the temperature difference (Δt) detected by the circulation hot water temperature sensor and the circulation return temperature sensor at intervals of the hot water temperature acquisition time (T1) after combustion of the boiler. The control system of the heating boiler. delete According to claim 1,
The control unit controls the heating amount of the hot water to be displayed as an error and to stop the combustion of the boiler when the heat amount limit reference value s1 becomes lower than the minimum heat amount limit in the process of continuing the heat amount limit operation of the boiler through the heat amount limit reference value determination unit. Control system of a heating boiler equipped with an external tank. The method of claim 4,
The control unit, after lowering the heat limit value (s1) of the boiler through the heat limit limit value determination unit and the temperature difference (Δt) detected from the circulation hot water temperature sensor and the circulation return temperature sensor is greater than the heat limit limit release temperature (t2) A control system for a heating boiler equipped with a hot water tank externally, which is controlled to increase the limit reference value s1 to a range of 5 to 15%. In a control method of a heating boiler having a hot water tank as an external type, the hot water return pipe, the hot water hot water pipe, and the hot water return pipe connecting the hot water tank to the heating boiler to enable circulation of water are installed in place at a suitable circulation temperature. Detecting the temperature of the water passing through the boiler through a circulation return temperature sensor for detecting the and a circulation water temperature sensor installed in place of the hot water hot water pipe to detect the circulation hot water temperature; And calculating the temperature difference (Δt) between the circulating return temperature detected by the circulating return temperature sensor and the circulating hot water temperature detected by the circulating hot water temperature sensor, and detecting the presence or absence of water in the hot water tank according to the temperature difference (Δt). Controlling combustion; wherein the control step includes: when Δt obtained at a hot water temperature acquisition time (T1) after boiler combustion at an interval is equal to or lower than the heat limit temperature (t1) during the elapse of the time limit determination time (T2). A method of controlling a heating boiler having a hot water tank externally, including a determination step of a heat amount limit reference value for lowering a heat amount limit reference value s1 in a range of 5 to 15% and initializing a heat amount limit determination time. delete The method of claim 6,
In the controlling step, when the heat amount limit reference value s1 is lower than the minimum heat amount limit in the process of continuing the heat amount limit operation of the boiler through the determination step of the heat amount limit reference value s1, an error is displayed and the combustion of the boiler is stopped. Control method of a heating boiler having a hot water tank as an external type, including the step of controlling the temperature. The method of claim 6,
In the controlling step, the temperature difference (Δt) detected from the circulation hot water temperature sensor and the circulating return temperature sensor is lowered after lowering the boiler heat limit reference value s1 through the determination step of the heat amount limit reference value t2. The control method of the heating boiler having a hot water tank as an external type, comprising the step of controlling to increase the reference value s1 of the heat amount to a range of 5 to 15%.

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