KR20200012320A - Control system and method for heating boiler with external hot water tank - Google Patents

Abstract

Disclosed are a control system and a method for a heating boiler having an external hot water tank. The present invention can include: a detection unit including a circulation return temperature sensor which detects a circulation return temperature, and a circulation hot water temperature sensor which detects a circulation hot water temperature; and a control unit which compares a difference (Δt) between the circulation return temperature detected by the circulation return temperature sensor and the circulation hot water temperature detected by the circulation hot water temperature sensor, detects water in the hot water tank according to a comparison result, and controls combustion of the boiler.

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 an external hot water tank for controlling the boiler by calorie limited combustion when the hot water tank detects no water in the heating boiler having an external hot water tank.

The method of controlling the water temperature of the hot water tank in the heating boiler having the hot water tank externally may be a method of controlling the combustion of the heating boiler on / off 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 externally, a water level sensor is installed in the hot water tank, and after the water level is judged on its own, the determined information is compared with the reference value set in the control unit. Since this information is not transmitted directly to the combustion control information of the boiler, the controller that controls the combustion of the boiler has no way to determine whether there is water in the hot water tank or to control it. Since it is not possible to determine or check whether the temperature is inputted in the air because there is no water or there is no water, there is a problem of instructing combustion of the boiler even when there is no water in the hot water tank. If the boiler continues to burn while there is no water in the hot water tank, normal heat exchange in the hot water tank will not be possible, and the temperature of the water continuously circulated to the boiler will rapidly increase, and if the water temperature continues to rise, the water will boil inside the boiler. Boiling may occur to reduce the durability of the boiler and the hot water tank, so a heating boiler having a hot water tank externally needs safety control. The tank temperature sensor is installed in the hot water tank of some manufacturers, but since the position varies depending on the manufacturer and is attached to the outside of the tank, the tank temperature sensor has a limitation in detecting or checking the condition of the water inside the tank.

Patent Literature 1. Korean Registered Patent Publication No. 10-1706176 (Publication date February 15, 2017)

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

One of the technical problems to be solved by the present invention is to control the boiler by caloric limit combustion when the water heater of the hot water tank is detected in a heating boiler having an external hot water tank. In addition, the boiler is controlled to maintain a normal hot water temperature even in the water replenishment process of the hot water tank.

According to the present invention, there is provided a control system for a heating boiler having a hot water tank in an external type, comprising: a detecting unit including a circulating return temperature sensor for detecting a circulating return temperature and a circulating tap water temperature sensor for detecting a circulating hot water temperature; And comparing the circulation return temperature detected by the circulation return temperature sensor with the circulation tapping temperature difference (Δt) detected by the circulation tapping temperature sensor and detecting water in the hot water tank according to the comparison result to control combustion of the boiler. It can be achieved from a control system of a heating boiler including a control unit, the 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 circulating tap water temperature sensor and the circulating return temperature sensor at intervals of the hot water temperature acquisition time T1 after boiler combustion. .

According to an embodiment of the present invention, if the amount of change of Δt obtained at intervals of the hot water temperature acquisition time T1 after the combustion of the boiler is less than the calorie limit temperature t1 during the calorie limit determination time T2, the calorie limit reference value s1 A) a 5 to 15% range, the calorie limit reference value determination unit for initializing the calorie limit determination time; may include.

According to an embodiment of the present invention, after the calorie restriction reference value determination unit lowers the calorie limit reference value s1 in a range of 5 to 15%, and the calorie limit temperature t1 is less than the calorie limit temperature t1 during the calorie limit determination time T2, The limit reference value s1 may be controlled to lower the range again from 5 to 15% and to initialize the calorie limit determination time.

According to an embodiment of the present invention, the control unit generates an error and stops combustion of the boiler when the calorie limit reference value s1 becomes lower than the calorie limit value while the calorie limit reference value determination unit continues the calorie limit operation. Can be controlled.

According to an embodiment of the present invention, the control unit lowers the heat limit limit value s1 of the boiler through the heat limit limit value determination unit, and then the temperature difference Δt detected from the circulating tap water temperature sensor and the circulating return temperature sensor is determined as the heat limit release temperature ( more than t2), it may be controlled to increase the calorie limit reference value s1 in the range of 5 to 15%.

According to the present invention, in the control method of a heating boiler having an external hot water tank, the circulating return temperature sensor for detecting the circulating return temperature, the circulating tap water temperature sensor for detecting the circulating hot water temperature via the boiler. Detecting the temperature of the water; And comparing the circulation return temperature detected by the circulation return temperature sensor with the circulation tapping temperature difference (Δt) detected by the circulation tapping temperature sensor and detecting water in the hot water tank according to the comparison result to control combustion of the boiler. It may be achieved from a control method of a heating boiler including a hot water tank, the control step;

According to an embodiment of the present invention, the control step may include a calorie limit reference value when the amount of change in Δt acquired at intervals of the hot water temperature acquisition time T1 after the combustion of the boiler is less than the calorie limit temperature t1 during the calorie limit determination time T2 has elapsed. and a calorie restriction reference value determining step of lowering s1) in a range of 5 to 15% and initiating a calorie limit determination time.

According to an exemplary embodiment of the present disclosure, the control step may include a calorie limit temperature t1 during the calorie limit determination time T2 after lowering the calorie limit reference value s1 within a range of 5 to 15% through a calorie limit reference value s1 adjusting step. Or less), lowering the calorie limit reference value s1 again in the range of 5 to 15% and initializing the calorie limit determination time.

According to an exemplary embodiment of the present invention, the control step may generate an error when the calorie limit reference value s1 is lower than the calorie limit value in the process of continuing the calorie limit operation of the boiler through the calorie limit reference value s1 determination step. 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 heat limit value (s1) of the boiler through the heat limit limit value determination step, the calorie restriction release If the temperature (t2) or more may include controlling to increase the calorie limit reference value (s1) in the range of 5 to 15%.

The present invention prevents boiling heat and overheating of the boiler by detecting no heating of the hot water tank in the heating boiler equipped with a hot water tank as an external type to ensure the durability of the boiler system and to improve the combustion efficiency and combustion safety of the boiler. It is effective to provide a boiler system.

1 is an illustration of a system diagram of a heating boiler system having an external hot water tank.
Figure 2 is an illustration of a comparison temperature graph of the circulating tap water temperature and the circulating return temperature during normal combustion of the heating boiler system having an external hot water tank.
3 is an illustration of a comparison temperature graph of the circulating tap water temperature and the circulating return temperature at the time of no water combustion of a heating boiler system having an external hot water tank.
Figure 4 is an illustration of a heating boiler control system block diagram having an external hot water tank according to an embodiment of the present invention.
5 is an illustration of a control flowchart of a heating boiler having an external hot water tank according to an embodiment of the present invention.

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

The present invention is proposed to control the boiler to control the boiler to calorie-limited combustion when detecting no water in the hot water tank in the heating boiler having a hot water tank as an external type and to maintain a normal hot water temperature even during the water replenishment process of the hot water tank.

1 is an illustration of a system diagram of a heating boiler system having an external hot water tank.

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

The circulating return temperature sensor 110 detects a temperature of 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 circulating tapping temperature sensor 120 which detects a temperature of water flowing into the heating supply pipe 210 of the heating circuit 200 and the hot water tapping tube 320 of the hot water tank 300 and sends the detected temperature to the controller 400. Can be.

The tank temperature sensor 130 may be installed in the hot water tank 300. The tank temperature sensor (TH3) is variable in position according to the manufacturer and is attached to the outside of the hot water tank, so the tank temperature sensor has a limit in accurately detecting or confirming the state of water inside the tank.

In FIG. 1, reference numeral 140 denotes a hot water supply nozzle, 150 denotes a valve, 160 denotes a pump, 141 denotes a hot water supply pipe, 170 denotes a three-sided valve, 180 denotes a controller for controlling the operation of the boiler, and an indicator indicating the operating state of the boiler. .

As shown in FIG. 1, a heating boiler system having an external hot water tank has no water in the hot water tank 300, and when the combustion operation of the boiler 100 is continued, normal heat exchange is not performed in the hot water tank 300. This may increase the temperature of the water circulated to the boiler (100).

Figure 2 is an illustration of a comparison temperature graph of the circulating tap water temperature and the circulating return temperature during normal combustion of the heating boiler system having an external hot water tank.

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

At this time, in case of supplying cold water using water in the hot water tank provided externally, the heating boiler system performs calorie control according to the temperature difference, and when the required calorie value is required more than the maximum output heat of the heating boiler system, The return temperature TH1 will be lower, and if less heat is required than the maximum output heat of the heating boiler system, the circulation return temperature TH1 can be kept high.

3 is an illustration of a comparison temperature graph of the circulating tap water temperature and the circulating return temperature at the time of no water combustion of a heating boiler system having an external hot water tank.

Referring to FIG. 3, when there is little water in the hot water tank 300 or the empty tank state, the circulating tap water temperature distribution line a1 and the circulating return temperature temperature distribution line a2 are circulated tap water after a certain time point P2 after boiler combustion. It appears as an equal distribution 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. If the circulating return temperature is high, boiling water may boil inside the boiler, which may reduce the durability of the boiler and hot water tank, and it is related to safety, so control is required.

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

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

More preferably, by comparing the difference Δt between the circulation return temperature TH1 and the circulation tapping temperature TH2, the amount of water in the hot water tank 300 and the temperature of the water may be detected according to the result.

The control unit 500 obtains the temperature difference Δt detected from the circulation tapping 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 the boiler combustion in the interval of 3 to 10s. Here, the range of the interval 3 to 10s of the hot water temperature acquisition time (T1) obtained through the counting after the boiler combustion may be a time to effectively calculate the temperature change state of the hot water. If it is less than 3s, the measurement frequency is increased, and the system management efficiency due to the overlapping check is reduced, and if it is more than 10s, it may be disadvantageous to accurately detect the temperature change state of hot water. Therefore, the interval of 3 to 10 s of the hot water temperature acquisition time T1 may be a time for effectively calculating the temperature change state of the hot water.

The control unit 500 sets the calorific value limit value s1 to 5 to 15 when the change amount of Δt acquired at intervals of the hot water temperature acquisition time T1 after the combustion of the boiler is equal to or lower than the calorie limit temperature t1 during the calorie limit determination time T2. It may be configured to include a calorie limit reference value determination unit 520 to fall in the range of% and initialize the calorie limit determination time.

Here, the calorie limit reference value s1 is a criterion for limiting the calorific value of the heating boiler system based on the current calorie value or the maximum output calorie value of the heating boiler system, and the calorie limit reference value s1 is the maximum calorific value of the current calorie or heating boiler system. When the calorie value is set to 100% and the calorie limit reference value s1 is lowered, the circulation pump flow rate is decreased or the temperature of the circulating tapping temperature TH2 is lowered so that the difference between the circulating return temperature TH1 and the circulating tapping temperature TH2 is reduced. It can be determined by reducing (Δt).

When the control unit 500 lowers the calorie limit reference value s1 in the range of 5 to 15% through the calorie limit reference value determination unit 520, and the calorie limit temperature t1 is lower than the calorie limit temperature t1 during the calorie limit determination time T2, the calorie limit is limited. The reference value s1 may be configured to be controlled by lowering the value again in the range of 5 to 15% and initializing the calorie limit time.

The control unit 500 generates an error when the calorie limit reference value s1 becomes lower than the calorie limit value in the process of continuing the calorie limit operation of the boiler through the calorie limit reference value determination unit 520 to stop and control the combustion of the boiler. Can be configured.

The control unit 500 lowers the heat limit value s1 of the boiler through the heat limit reference value determination unit 520, and then the temperature difference Δt detected from the circulating tap water temperature sensor 120 and the circulation return temperature sensor 110 is determined. When the calorie limit release temperature t2 or more, the calorie limit reference value s1 may be configured to increase by 5 to 15%.

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

Referring to the control method of the heating boiler having the hot water tank configured as described above in detail as follows.

In the control method of a heating boiler having an external hot water tank according to the present invention, first, the boiler (through a circulating return temperature sensor 110 for detecting a circulating return temperature and a circulating tap temperature sensor 120 for detecting a circulating tap water temperature) After the detection step of detecting the temperature of the water passing through 100), the circulating return temperature detected by the circulating return temperature sensor 110 and the circulating tapping temperature difference Δt detected by the circulating tapping temperature sensor 120 are compared and According to the comparison result, the heating boiler including the hot water tank as an external type may be controlled as a control step of detecting water in the hot water tank 300 and controlling combustion of the boiler 100.

Further, in the control step, the circulating return temperature detected by the circulating return temperature sensor 110 acquired at intervals of the hot water temperature acquisition time T1 after the combustion of the boiler and the circulating tapping temperature difference Δt detected by the circulating tap water temperature sensor 120 And a calorie limit reference value determining step of lowering the calorie limit reference value (s1) in a range of 5 to 15% and initiating a calorie limit determination time when the amount of change is less than the calorie limit temperature (t1) during the calorie limit determination time (T2). Can be.

Further, in the control step, after the calorie limit reference value s1 is lowered in the range of 5 to 15% through the calorie limit reference value determination step, and when the calorie limit temperature t1 is less than or equal to the calorie limit temperature t1 during the calorie limit determination time T2, the calorie limit reference value ( and lowering s1) again in the range of 5 to 15% and initializing the calorie limit determination time T2.

In the control step, when the calorie limit reference value s1 becomes lower than the calorie limit value in the process of continuing the calorie limit operation through the calorie limit reference value adjusting step, an error is generated and the combustion is stopped to stop the combustion. It may include.

In addition, in the control step, the temperature difference Δt detected from the circulating tap temperature sensor 120 and the circulating return temperature sensor 110 after lowering the calorie limit reference value s1 of the boiler by adjusting the calorie limit reference value is limited in calories. If the release temperature (t2) or more may include the step of controlling to increase the calorie limit reference value (s1) in the range of 5 to 15%.

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

When the calorie limit limit time T2 and the calorie limit temperature t1 are set through the control unit 500 (S110), the difference between the temperatures detected from the circulation tapping temperature sensor 120 and the circulation return temperature sensor 110 (Δt) ) And the calorie limit temperature t1 are compared (S120).

If the determination result Δt <t1 in step S120 continues to determine whether the calorie restriction time (T2) has elapsed (S130), if the determination result Δt ≥ t1 in step S120 circulating tapping temperature sensor 120 And the difference (Δt) of the temperature detected from the circulation return temperature sensor 110 and the calorie restriction release temperature t2 are compared and determined (S140).

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

In the step S150, when the calorie limit reference value s1> the minimum calorie limit value, the calorie limit reference value s1 is lowered to 5 to 15% from the initial calorie limit reference value s1 through the calorie limit reference value determination unit of the controller ( In step S110, the controller 110 is controlled to return to step S110 and initialized, and when it is determined in step S150 that the calorie limit value s1 is the minimum calorie limit value, it is determined that there is no water in the hot water tank 300 and no water is displayed. It is controlled to be (S170).

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

According to the present invention, in the heating boiler having a hot water tank as an external type, when the water is not detected in the hot water tank, the boiler is controlled by calorie-limited combustion and the boiler can be controlled to maintain the normal hot water temperature even in the water refilling process of the hot water tank. There is this.

In addition, according to the present invention in the heating boiler equipped with a hot water tank externally, while the hot water tank installation state (capacity, heat exchanger position, etc.) and changing hot water tank use state (usage, hot water temperature, etc.) while preventing overheating, the hot water temperature quickly The advantage is that the boiler can be controlled to be heated by

Although the present invention has been described with reference to the embodiments illustrated in the drawings, the present invention is not limited to the embodiments and may be modified and modified within the scope not departing from the gist of the present invention. Included.

100: boiler 110: circulating return temperature sensor
120: circulation 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 hot water pipe 320: hot water return pipe
400: detection unit 500: control unit
510: temperature difference determination unit 520: heat limit reference value determination unit
530: display unit

Claims (9)

In the control system of a heating boiler having an external hot water tank,
A detection unit including a circulation return temperature sensor for detecting a circulation return temperature and a circulation tapping temperature sensor for detecting a circulation tapping temperature; And comparing the circulation return temperature detected by the circulation return temperature sensor with the circulation tapping temperature difference (Δt) detected by the circulation tapping temperature sensor and detecting water in the hot water tank according to the comparison result to control combustion of the boiler. Control system of a heating boiler including a; hot water tank externally. The method of claim 1,
The control unit includes an external type hot water tank including a temperature difference determination unit for acquiring a temperature difference Δt detected from the circulating tap water temperature sensor and the circulating return temperature sensor at intervals of a hot water temperature acquisition time T1 after boiler combustion. Control system of heating boiler. The method of claim 1,
The control unit, when the amount of change of Δt obtained at intervals of the hot water temperature acquisition time (T1) after the combustion of the boiler is less than the calorie limit temperature (t1) during the calorie limit determination time (T2), 5 to 15%. A control system of a heating boiler including a hot water tank externally; The method of claim 3, wherein
The control unit may generate an error and control to stop the combustion of the boiler when the calorie limit reference value s1 becomes lower than the calorie limit value in the course of continuing the calorie limit operation of the boiler through the calorie limit reference value determination unit. Control system of a heating boiler with a tank externally. The method of claim 4, wherein
The control unit may lower the calorie limit reference value s1 of the boiler through the caloric limit reference value determination unit, and then, if the temperature difference Δt detected from the circulation tapping temperature sensor and the circulating return temperature sensor is equal to or higher than the calorie limit release temperature t2. A control system of a heating boiler having an external hot water tank, which controls the limit reference value s1 to be in a range of 5 to 15%. In the control method of the heating boiler provided with an external hot water tank,
Detecting a temperature of water passing through the boiler through a circulating return temperature sensor detecting a circulating return temperature and a circulating tap temperature sensor detecting a circulating tap temperature; And comparing the circulation return temperature detected by the circulation return temperature sensor with the circulation tapping temperature difference (Δt) detected by the circulation tapping temperature sensor and detecting water in the hot water tank according to the comparison result to control combustion of the boiler. Control method of a heating boiler comprising a; hot water tank external. The method of claim 6,
The control step is 5 to 15 when the change amount of Δt obtained at intervals of the hot water temperature acquisition time T1 after the combustion of the boiler is equal to or lower than the calorie limit temperature t1 during the calorie limit determination time T2. A control method of a heating boiler having a hot water tank externally comprising a; calorie limit reference value determination step of lowering in a% range and initializing a calorie limit determination time. The method of claim 6,
The control step may generate an error and stop combustion of the boiler when the calorie limit reference value s1 becomes lower than the calorie limit value in the process of continuing the calorie limit operation of the boiler through the calorie limit reference value s1 determination step. Control method of a heating boiler having a hot water tank externally, comprising the step of controlling. The method of claim 6,
In the controlling step, the temperature difference Δt detected from the circulating tap water temperature sensor and the circulating return temperature sensor after lowering the calorie limit reference value s1 of the boiler through the calorie limit reference value determination step is equal to or higher than the calorie limit release temperature t2. If the calorie restriction reference value (s1) comprising the step of controlling to increase in the range of 5 to 15%, the control method of a heating boiler having an external hot water tank.

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