KR102216717B1 - Apparatus for controlling error of water flow in electric boiler and method thereof - Google Patents

Abstract

In the present invention, without installing a heating flow switch, it is possible to effectively detect and control an abnormality in circulation of the electric boiler by using the difference between the temperature measured by the temperature sensor installed in the heating tank of the electric boiler and the temperature sensor installed on the heating water supply line. The purpose of this is to provide a device for controlling circulation abnormalities of an electric boiler and a method for controlling the same.
In the circulating abnormality control apparatus of an electric boiler according to the present invention for achieving the above object, in the circulating abnormality control apparatus for detecting and controlling the circulation abnormality of the heating water of the electric boiler 100, A heating tank 110 in which a heating means 132 for storing water and heating the heating water is installed; A heating tank temperature sensor 115 mounted on the heating tank 110 and measuring the temperature of the heated water; A heating water supply line temperature sensor 190 mounted on a heating water supply line 141 that supplies the heating water from the heating tank 110 to the outside of the electric boiler 100 to measure the temperature of the circulating heating water. ); And a temperature difference between the heating tank temperature, which is the temperature of the heating water measured by the heating tank temperature sensor 115, and the heating water supply temperature, which is the temperature of the heating water measured by the heating water supply line temperature sensor 190, and , And a control unit 120 for turning on/off the operation of the heating means 132 according to the calculation result.

Description

Circulation abnormality control device of electric boiler and its control method {APPARATUS FOR CONTROLLING ERROR OF WATER FLOW IN ELECTRIC BOILER AND METHOD THEREOF}

The present invention relates to an apparatus for controlling a circulation abnormality of an electric boiler and a control method thereof, and more particularly, to effectively detect a circulation abnormality of the electric boiler by using the difference between the temperature of the heating tank of the electric boiler and the temperature on the heating water supply line. It relates to a device for controlling a circulation abnormality of an electric boiler that enables control and a control method thereof.

In general, a heating device such as a boiler circulates heating water to achieve heating, and using electricity as a heat source is called an electric boiler. The electric boiler is generally configured to heat by supplying electricity to a heater installed in a heating tank when water is circulated. As described above, the electric boiler generates hot water by supplying electricity to the heater to heat it when there is a flow of water, and is used for heating and hot water supply.

1 shows a circulation structure of a conventional electric boiler.

The electric boiler 100 includes a heating tank 110 configured to store water and heat it, and a control unit 120 that performs various controls required to operate the electric boiler 100, including the heating tank 110. ), a current is supplied from an external power source 131 and supplied as a current required by the heating means 132 installed in the heating tank 110, and the current supply is turned on/off by the control unit 120 The thyristor 130 configured to control the, a main supply line 140 for supplying hot water heated to a certain temperature to the outside of the heating tank 110, and a three-way valve installed on the main supply line 140 It includes a heating water supply line 141 and a bypass line 145 branched in two directions by the valve 150.

In addition, the heating water supply line 141 is connected to a heating water circulation line (not shown) arranged in each room, and the heating water circulation line is transferred to the heating tank 110 through the heating water return line 142. Connected. At this time, the heating water supply line temperature sensor 190 is installed at a predetermined position of the heating water supply line 141 to measure the heating water temperature of the heating water circulation line.

By such a circulation system, the heating water heated in the heating tank 110 circulates through each room as a heating object to perform heating. A heating water circulation pump 160 and a heating flow switch 165 are installed on the heating water return line 142. The heating flow switch 165 detects and informs the control unit 120 when an abnormal heating water circulation occurs. In addition, an expansion tank 170 filled with nitrogen is installed on the heating water return line 142 to perform a function of controlling a pressure change in the heating water line that may occur due to volume expansion generated when water is heated.

On the other hand, on the bypass line 145, a plate heat exchanger 180 is provided so that the heating water passing through the bypass line 145 crosses the water passing through the direct water supply line 144 and the hot water supply line 143. . Accordingly, the high-temperature heating water supplied to the bypass line 145 through the three-way valve 150 and the direct water at room temperature supplied through the direct water supply line 144 are heat-exchanged to generate direct water as hot water, The hot water generated in this way is supplied to the hot water supply line 143.

As described above, according to the circulation structure of the conventional electric boiler, the heating flow switch 165 installed on the heating water return line 142 is configured to detect an abnormal heating water circulation. When a heating water circulation abnormality occurs due to a heating water circulation pump failure, a bypass valve failure, a heating water circulation line blockage, etc., the heating flow switch 165 outputs a circulation abnormality detection signal to the control unit 120, The control unit 120 prevents overheating of the boiler by turning off the operation of the heating means 132 installed in the heating tank 110.

However, in the circulating process of the heating water, the heating water may contain various foreign substances such as rust components and lime in the pipe, and when such foreign substances adhere to the heating flow switch 165, there is a problem that the heating flow switch 165 is malfunctioning. Occurred. In other words, the device installed to prepare for the heating water circulation abnormality rather caused the main cause of the heating water circulation abnormality occurred. Therefore, there is a need to develop a new boiler overheating prevention means that does not use flow rate measuring equipment such as the heating flow switch 165 so as to reduce the frequency of failure due to abnormal heating water circulation.

The present invention was developed to meet these conventional needs, and does not install a heating flow switch, and uses the difference between the temperature measured by the temperature sensor installed in the heating tank of the electric boiler and the temperature sensor installed on the heating water supply line. Therefore, it is an object of the present invention to provide an electric boiler circulation abnormality control device and a control method that enable effective detection and control of the circulation abnormality of the electric boiler.

In the circulating abnormality control apparatus of an electric boiler according to the present invention for achieving the above object, in the circulating abnormality control apparatus for detecting and controlling the circulation abnormality of the heating water of the electric boiler 100, A heating tank 110 in which a heating means 132 for storing water and heating the heating water is installed; A heating tank temperature sensor 115 mounted on the heating tank 110 and measuring the temperature of the heated water; It is mounted on a heating water supply line 141 that supplies the heating water from the heating tank 110 to the outside of the electric boiler 100, and is located outside the electric boiler 100 and the electric boiler 100 ), a heating water supply line temperature sensor 190 mounted at a location close to the heating water to measure the temperature of the circulating heating water; And a temperature difference between the heating tank temperature, which is the temperature of the heating water measured by the heating tank temperature sensor 115, and the heating water supply temperature, which is the temperature of the heating water measured by the heating water supply line temperature sensor 190, and , And a control unit 120 for turning on/off the operation of the heating means 132 according to the calculation result.

In one embodiment, the control unit 120 determines the boiler circulation abnormality when the temperature difference between the heating tank temperature and the heating water supply temperature is equal to or greater than the first temperature difference continues for a first time or longer, and the heating means 132 ) Can be configured to turn off the operation.

The control unit 120 may be configured to turn on the operation of the heating means 132 again when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below the second temperature difference.

When the temperature difference between the heating tank temperature and the heating water supply temperature increases again above the first temperature difference and the number of times that the number of times of determining the circulation abnormality is repeated more than a certain number of times within a certain time, the control unit 120 is It can be configured to finalize.

In another embodiment, when the temperature difference between the heating tank temperature and the heating water supply temperature is greater than or equal to the first temperature difference continues for more than a first hour and the change in the heating water supply temperature is less than or equal to the first change amount, the control unit 120 It may be configured to determine the boiler circulation abnormality and turn off the operation of the heating means 132.

The control unit 120 includes the heating means 132 when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below a second temperature difference or when the change in the heating water supply temperature exceeds the first change amount. It can be configured to turn on again.

The control unit 120 determines the number of times that the temperature difference between the heating tank temperature and the heating water supply temperature increases again above the first temperature difference, and at the same time, the change in the heating water supply temperature decreases to be less than the first change amount and determines that the circulation abnormality is If is repeated more than a certain number of times within a certain period of time, it may be configured to finally determine the boiler circulation abnormality.

The method for controlling a circulation abnormality of an electric boiler according to the present invention is a method for controlling a circulation abnormality of an electric boiler that detects and controls a circulation abnormality of the heating water of the electric boiler 100, and stores the circulating heating water and Measuring the temperature of the heating water heated in the heating tank 110 through a heating tank temperature sensor 115 mounted on the heating tank 110 in which the heating means 132 for heating the heating unit 132 is installed; It is mounted on a heating water supply line 141 that supplies the heating water from the heating tank 110 to the outside of the electric boiler 100, and is located outside the electric boiler 100 and the electric boiler 100 Measuring the temperature of the heating water circulating through the heating water supply line temperature sensor 190 mounted at a position close to the ); And the control unit 120 installed on the electric boiler 100 is measured by the heating tank temperature, which is the temperature of the heating water measured by the heating tank temperature sensor 115, and the heating water supply line temperature sensor 190. And calculating a temperature difference between the heating water supply temperature, which is the temperature of the heated water, and turning on/off the operation of the heating means 132 according to the calculation result.

In one embodiment, in the step of turning on/off the operation of the heating means, when the temperature difference between the heating tank temperature and the heating water supply temperature is equal to or greater than the first temperature difference continues for more than a first time, it is determined as a boiler circulation abnormality, and , It may be configured to turn off the operation of the heating means 132 (OFF).

The step of turning on/off the operation of the heating means is configured to turn on the operation of the heating means 132 again when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below the second temperature difference. Can be.

In the step of turning on/off the operation of the heating means, the temperature difference between the heating tank temperature and the heating water supply temperature is increased again above the first temperature difference, so that the number of times the number of times of determining the circulation abnormality is repeated more than a predetermined number of times within a predetermined time. In this case, it may be configured to further include the step of finalizing the boiler circulation abnormality.

In another embodiment, in the step of turning on/off the operation of the heating means, a state in which the temperature difference between the heating tank temperature and the heating water supply temperature is equal to or greater than the first temperature difference continues for a first time or longer, and the amount of change in the heating water supply temperature is When the amount is less than the first change amount, it may be determined as an abnormality in boiler circulation, and may be configured to turn off the operation of the heating means 132.

Turning on/off the operation of the heating means may include, when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below a second temperature difference or when the change in the heating water supply temperature exceeds the first change amount. It may be configured to turn on the operation of the heating means 132 again.

In the step of turning on/off the operation of the heating means, the temperature difference between the heating tank temperature and the heating water supply temperature increases again above the first temperature difference, and the change in the heating water supply temperature is reduced to be less than the first change amount. When the number of times to determine the circulation abnormality is repeated more than a certain number of times within a certain time, the step of finally determining the boiler circulation abnormality may be further included.

According to the apparatus for controlling circulation abnormality of the electric boiler of the present invention and the control method thereof configured as described above, the electric boiler according to heating water circulation abnormality without using the heating flow switch installed on the heating water return line of the conventional electric boiler Can effectively prevent overheating.

In addition, by not using the heating flow switch, the problem of frequent malfunction of the heating flow switch due to foreign substances in heating water has been solved, and as a result, it is possible to reduce the number of occurrences of a circulation abnormality in the electric boiler.

In addition, by adding a relatively inexpensive temperature sensor instead of using a relatively expensive heating flow switch, it is possible to more economically install a device for preventing overheating of an electric boiler due to abnormal heating water circulation.

In addition, according to the method for controlling circulation abnormality of an electric boiler according to an embodiment of the present invention, the temperature difference between the heating tank temperature of the electric boiler and the heating water supply temperature is compared, and the temperature difference is maintained above the first temperature difference for a first hour or longer. It is determined as a circulating abnormality only when it occurs, and the heating of the heating water is stopped, so that even if an instantaneous temperature difference occurs, if it returns to the normal state immediately, it is not determined as a circulating abnormality, so that the circulating abnormality can be more accurately determined.

In addition, according to a method for controlling a circulation abnormality of an electric boiler according to another embodiment of the present invention, when the temperature difference between the heating tank temperature and the heating water supply temperature is compared and the heating water supply temperature change amount satisfies the condition that the first change amount or less If the temperature of the heating water in the heating water supply line rises and the temperature of the hot water tank is maintained for more than the first time for more than the first time, it is incorrectly judged that the circulation abnormality is not a circulation abnormality. It is possible to solve the problem, and thereby accurately determine whether the boiler is abnormal in circulation.

1 is a view showing a general electric boiler circulation structure.
2 is a view showing the electric boiler circulation structure according to the present invention.
3 is a graph showing the detection principle of an electric boiler circulation abnormality according to the present invention.
Figure 4 is a graph showing a specific method of the electric boiler circulation abnormality according to the present invention.
5 is a flowchart of a method for controlling a circulation abnormality of an electric boiler according to an embodiment of the present invention.
6 is a temperature graph when the heating tank temperature and the heating water supply temperature rise and are maintained for a certain time or more above a certain temperature difference.
7 is a flow chart of a method for controlling a circulation abnormality of an electric boiler according to another embodiment of the present invention.

Hereinafter, an apparatus for controlling a circulation abnormality of an electric boiler and a control method thereof according to the present invention will be described in more detail with reference to the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, only these embodiments are intended to complete the disclosure of the present invention, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. For reference, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

2 shows an apparatus for controlling a circulation abnormality of an electric boiler according to an embodiment of the present invention. Overall, it is similar to the basic configuration of the electric boiler described with reference to FIG. 1. Accordingly, hereinafter, the basic configuration of the electric boiler will be briefly described, and then the technical configuration according to an embodiment of the present invention will be described in detail.

The electric boiler 100 includes a heating tank 110 configured to store water and heat it, and a control unit 120 that performs various controls required to operate the electric boiler 100, including the heating tank 110. ), a current is supplied from an external power source 131 and supplied as a current required by the heating means 132 installed in the heating tank 110, and the current supply is turned on/off by the control unit 120 The thyristor 130 configured to control the, a main supply line 140 for supplying hot water heated to a certain temperature to the outside of the heating tank 110, and a three-way valve installed on the main supply line 140 It includes a heating water supply line 141 and a bypass line 145 branched in two directions by the valve 150.

In addition, the heating water supply line 141 is connected to a heating water circulation line (not shown) arranged in each room, and the heating water circulation line is transferred to the heating tank 110 through the heating water return line 142. Connected. At this time, the heating water supply line temperature sensor 190 is installed at a predetermined position of the heating water supply line 141 to measure the heating water temperature of the heating water circulation line.

By such a circulation system, the heating water heated in the heating tank 110 circulates through each room as a heating object to perform heating. A heating water circulation pump 160 is installed on the heating water return line 142 to provide circulation power of the heating water.

In addition, an expansion tank 170 filled with nitrogen is installed on the heating water return line 142 to perform a function of controlling a pressure change in the heating water line that may occur due to volume expansion generated when water is heated.

On the other hand, on the bypass line 145, a plate heat exchanger 180 is provided so that the heating water passing through the bypass line 145 crosses the water passing through the direct water supply line 144 and the hot water supply line 143. . Accordingly, the high-temperature heating water supplied to the bypass line 145 through the three-way valve 150 and the direct water at room temperature supplied through the direct water supply line 144 are heat-exchanged to generate direct water as hot water, The hot water generated in this way is supplied to the hot water supply line 143.

According to the present invention, only the heating water circulation pump 160 is installed on the heating water return line 142, and the heating flow switch 165 shown in FIG. 1 is not installed.

The heating flow switch 165 has a function of stopping the entire flow of heating water when an abnormality occurs in circulation of heating water due to a failure of the heating water circulation pump 160 or the like.

However, the heating flow switch 165 frequently malfunctions in the process of passing the heating water containing foreign substances, and acts as another cause of the circulation abnormality of the heating water. In consideration of this point, the present invention reduces the number of circulation abnormalities by not installing the heating flow switch 165, and stops heating water in the heating tank when heating water circulation abnormalities occur, thereby preventing overheating of the electric boiler. It is to help prevent it.

To this end, the electric boiler circulation abnormality control device according to the present invention is mounted on a heating tank 110 in which a heating means 132 for storing circulating heating water and heating the heating water is installed, and on the heating tank 110 It is mounted on a heating tank temperature sensor 115 that measures the temperature of heating water to be heated, and on a heating water supply line 141 that supplies the heating water to the outside of the electric boiler 100 from the heating tank 110 A heating water supply line temperature sensor 190 measuring the temperature of the circulating heating water, a heating tank temperature that is the temperature of the heating water measured by the heating tank temperature sensor 115, and the heating water supply line temperature sensor 190 And a control unit 120 that calculates a temperature difference between the heating water supply temperature, which is the temperature of the heating water measured by, and turns on/off the operation of the heating means 132 according to the calculation result.

The heating tank 110 temporarily stores water used in a heating system including an electric boiler, and heats it to a required temperature or higher to supply it. At this time, the water stored in the heating tank 110 includes both the heating water flowing along the heating water circulation line arranged in each room and the hot water used in the bathroom or sink. Since it is a device for controlling the heating water and hot water, only heating water will be described.

The heating tank temperature sensor 115 is installed inside the heating tank 110 to measure the temperature of the heating water stored and heated in the heating tank 110, and the measurement result is measured in real time by the control unit 120 Transfer to. Typically, the heating water stored in the heating tank 115 is heated to about 60 to 90° C. and then supplied to the outside through the main supply line 140. That is, the heating water heated to a high temperature by the heating means 132 in the heating tank 110 is discharged to the outside of the heating tank 110 and at the same time, heating at a relatively low temperature through the heating water return line 142 Water flows into the heating tank 110 again. Accordingly, in a normal state in which there is no abnormality in circulation of the heating water, the heating means 132 is turned on and continuously supplies heat, thereby reducing the temperature of the heating water stored in the heating tank 110 within a certain target temperature range. Keeps it

However, when an abnormal circulation of the heating water occurs due to a failure of the heating water circulation pump 160, the heating water stored in the heating tank 110 is continuously heated by the heating means 132 while not being discharged to the outside. The temperature increases rapidly. If left untreated, it may lead to fire or explosion due to overheating of the boiler.

According to an embodiment of the present invention, the heating tank temperature sensor 115 is additionally installed to prevent overheating of the boiler that occurs when the heating water circulation is abnormal, and the heating in the heating tank 110 measured therefrom Whether the temperature of the heating water stored in the heating tank 110 rises relatively rapidly by comparing the water temperature with the heating water temperature on the heating water supply line measured from the existing heating water supply line temperature sensor 190 It was made to be able to measure whether.

In this case, the heating water supply line temperature sensor 190 may be installed at a more suitable position to measure the temperature of the circulating heating water. In other words, when the heating water supply line temperature sensor 190 is installed at a location inside the electric boiler 100 among the heating water supply line 141, the heating tank temperature sensor is relatively short apart from the heating tank 110. Since the difference between the temperature of the heating water measured through 115 and the temperature of the heating water measured through the heating water supply line temperature sensor 190 is not large, it is difficult to establish a criterion required to detect a circulation abnormality based on this.

On the contrary, when the heating water supply line temperature sensor 190 is located outside the electric boiler 100 among the heating water supply lines 141 and is installed biased toward the heating water circulation line (not shown) connected to each room, the Since the distance from the heating tank 110 is long, the difference between the temperature of the heating water measured through the heating tank temperature sensor 115 and the temperature of the heating water measured through the heating water supply line temperature sensor 190 becomes large. There is a risk that it can be judged as a circulation abnormality even by overheating.

In consideration of this point, the heating water supply line temperature sensor 190 is located outside the electric boiler 100 among the heating water supply line 141, and a temperature difference between the temperature inside the heating tank 110 is appropriately generated. It is desirable to install it in a location that can most effectively determine the circulation abnormality of the heating water. The specific installation location cannot be uniformly determined, and should be determined by comprehensively considering the capacity of the electric boiler, the proper heating temperature range of the heating tank, the heating water supply temperature, and the criteria for determining circulation abnormalities.

According to an embodiment of the present invention, as shown in FIG. 3, the control unit 120 includes a heating tank temperature and a heating water supply line temperature, which is the temperature of the heating water measured by the heating tank temperature sensor 115. It is configured to calculate a temperature difference between the heating water supply temperature, which is the temperature of the heating water measured by the sensor 190, and turn on/off the operation of the heating means 132 according to the calculation result.

In one embodiment, the control unit 120 determines the boiler circulation abnormality when the temperature difference between the heating tank temperature and the heating water supply temperature is greater than or equal to the first temperature difference continues for more than a first hour, and the heating means ( 132) is configured to be turned off.

In other words, when the temperature difference between the heating tank temperature and the heating water supply temperature becomes larger than the first temperature difference, there is a possibility of determining this as a circulation abnormality. As shown in FIG. 3, when an abnormality in the circulation of heating water in the electric boiler occurs, the heating water on the heating water supply line 141 remains in one place, so that the temperature is maintained constant.

In contrast, the heating water in the heating tank 110 is continuously heated by the heating means 132 to increase the temperature. As a result, when the heating water is normally circulated, the temperature difference between the heating tank temperature and the heating water supply temperature, which had almost the same temperature curve, starts to widen from the time point t1 when the circulation abnormality occurs.

However, even if the temperature difference between the heating tank temperature and the heating water supply temperature occurs, the difference is insignificant, or if it returns to within the range of the temperature difference that can be regarded as a normal state immediately even if it exceeds a certain standard difference, it is not necessary to determine that it is a circulation abnormality. . Accordingly, as in an embodiment of the present invention, when the temperature difference between the heating tank temperature and the heating water supply temperature is equal to or greater than the first temperature difference continues for a first time or longer, it is determined as a boiler circulation abnormality, and the heating means 132 It is desirable to configure to turn off the operation of) (OFF). Further, the control unit 120 may be configured to turn on the operation of the heating means 132 again when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below the second temperature difference.

In one embodiment, the first temperature difference may be set to 10°C, the first time period may be set to 5 seconds, and the second temperature difference may be set to 5°C. In another embodiment, the first temperature difference may be set to 5°C, the first time period may be set to 5 seconds, and the second temperature difference may be set to 5°C or a temperature lower than 5°C. However, the first temperature difference, the first time, and the second temperature difference may be set to different values according to the purpose and state of the electric boiler.

The operation of the control unit 120 according to the above-described embodiment will be described in more detail with reference to FIG. 4.

First, when the electric boiler 100 is operated and the heating water is normally circulated, the difference between the heating tank temperature and the heating water supply temperature hardly occurs.

However, the temperature difference between the heating tank temperature and the heating water supply temperature starts to widen from the time t1 when the circulation abnormality of the heating water first occurs. The control unit 120 judges whether a circulation abnormality is likely to occur from a point when the temperature difference between the heating tank temperature and the heating water supply temperature becomes greater than or equal to the first temperature difference (t2).

The control unit 120 determines that a circulation abnormality has occurred in the electric boiler when the state in which the difference between the heating tank temperature and the heating water supply temperature is equal to or greater than the first temperature difference continues for a first time or longer (t3), and the heating means ( By turning off the operation of 132, the heating water in the heating tank 110 is prevented from overheating.

According to another embodiment of the present invention, as a more stable method for preventing overheating of an electric boiler, the control unit 120 includes the heating means from a time point t2 when the temperature of the heating tank and the heating water supply temperature become equal to or greater than the first temperature difference. It may be configured to turn off the operation of 132 (OFF).

Thereafter, when the heating water supply temperature rises and the difference from the heating tank temperature decreases below the second temperature difference (t4), it is determined that the circulation abnormality of the heating water has been resolved, and the operation of the heating means 132 is restarted. Heating water is heated by turning it on. In this case, as shown in FIG. 4, the increase in the heating water supply temperature after the point t3 can be interpreted as indicating that the high-temperature heating water in the heating tank has started to circulate again.

Therefore, for more precise control, the case where the temperature difference between the heating tank temperature and the heating water supply temperature is reduced to less than the second temperature difference is controlled by a decrease in the heating tank temperature and an increase in the heating water supply temperature. It can also be configured. For example, when the difference between the heating tank temperature and the heating water supply temperature is reduced to less than the second temperature difference, it is determined that the circulation abnormality is resolved only when the heating water supply temperature is increased, and the heating means 132 is operated. Can be turned on again.

Finally, when the difference between the heating tank temperature and the heating water supply temperature increases again above the first temperature difference and the number of times that the number of times of determining the circulation abnormality is repeated more than a certain number of times within a certain time, the control unit 120 It can be finally confirmed by an abnormality of circulation. According to a preferred embodiment, the control unit 120 determines the boiler circulation abnormality when the number of times that the number of times to determine the circulation abnormality is repeated three or more times within 30 minutes, and operates the boiler failure alarm function to repair the boiler Allows.

Meanwhile, referring to FIG. 6, the heating water supply temperature increases due to changes in external factors such as the opening and closing operation of the three-way valve 150 in the electric boiler 100, and the temperature difference between the heating tank temperature (T1, T2, T3). There may be a case where is maintained for more than a first time above the first temperature difference.

In this case, if the circulation abnormality is determined based on the temperature difference between the heating tank temperature and the heating water supply temperature as in the above-described embodiment, it is a problem that it is incorrectly judged as a circulation abnormality even though it is not actually a heating water circulation abnormality. have.

As a complementary measure for preventing such a problem, the control unit 120 according to another embodiment of the present invention supplies heating water while the state in which the difference between the heating tank temperature and the heating water supply temperature is equal to or greater than the first temperature difference continues for a first time or longer. When the amount of change in temperature is less than or equal to the first amount of change, it may be determined as an abnormality in boiler circulation and may be configured to turn off the operation of the heating means 132. The first change amount may be set as a temperature change amount of 0.5°C per second.

When the operation of the heating means 132 is turned off as described above, when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below the second temperature difference, or the change in the heating water supply temperature is the first change amount When exceeding, the control unit 120 is controlled to turn on the operation of the heating means (132).

In addition, the control unit 120 determines that the temperature difference between the heating tank temperature and the heating water supply temperature is increased again above the first temperature difference and at the same time the change in the heating water supply temperature is reduced to less than or equal to the first change amount, thereby determining the circulation abnormality. If the number of times is repeated more than a certain number of times within a certain time, it may be configured to finally determine the boiler circulation abnormality.

As described above, in the present embodiment, a condition in which the temperature difference between the heating tank temperature and the heating water supply temperature is detected as greater than or equal to the first temperature difference, and when the change in the heating water supply temperature is less than the first change amount, that is, the change in the heating water supply temperature It is configured to determine that there is a circulation abnormality only when it is detected as insignificant and the condition that the heating water is determined to be stagnant in the heating water supply line 141 is simultaneously satisfied, so that the circulation abnormality can be accurately determined even under the condition shown in FIG. I can.

Hereinafter, a method for controlling a circulation abnormality of an electric boiler according to an embodiment of the present invention will be described in detail with reference to FIG. 5.

First, when the electric boiler starts to operate, the control unit 120 heats the heating water of the heating tank 110 through the heating means 132 (S10). The control unit 120 measures the temperature of the heating water heated in the heating tank 110 through the heating tank temperature sensor 115 mounted on the heating tank 110. The temperature of the heating water circulated through the heating water supply line temperature sensor 190 mounted on the heating water supply line 141 for supplying heating water to the outside of the electric boiler 100 from the heating tank 110 Measure.

The control unit 120 includes a heating tank temperature, which is the temperature of the heating water measured by the heating tank temperature sensor 115, and a heating water supply temperature, which is the temperature of the heating water measured by the heating water supply line temperature sensor 190. The temperature difference is calculated (S20).

As a result of the calculation in step S20, if the difference between the heating tank temperature and the heating water supply temperature is less than the first temperature difference, the electric boiler determines that no circulation abnormality has occurred, and the measurement in step S20 while maintaining a normal operation state, and Continue the calculation.

As a result of the calculation in step S20, when the temperature difference between the heating tank temperature and the heating water supply temperature is greater than or equal to the first temperature difference, it is considered that there is a possibility that a circulation abnormality may occur, and a circulation abnormality is determined. That is, when the temperature difference between the heating tank temperature and the heating water supply temperature continues for more than a first hour, the control unit 120 determines that a circulation abnormality has occurred in the electric boiler (S40, S50), and the By turning off the operation of the heating means 132, the heating water in the heating tank 110 is prevented from being overheated (S60).

According to another embodiment of the present invention, as a more stable method for preventing overheating of an electric boiler, the control unit 120 immediately comprises the heating means 132 from a point when the temperature of the heating tank and the supply temperature of heating water become equal to or greater than the first temperature difference. As described above, it may be configured to turn off the operation of ).

After turning off the operation of the heating means 132, the control unit 120 continuously senses a temperature difference between the heating tank temperature and the heating water supply temperature. As a result, when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below the second temperature difference, it is determined that the circulation abnormality of the heating water has been resolved, and the operation of the heating means 132 is turned on again to The water is heated (S70, S80). In this case, as shown in FIG. 4, the increase in the heating water supply temperature after the point t3 can be interpreted as indicating that the high-temperature heating water in the heating tank has started to circulate again.

In this case, for more precise control, the temperature difference between the heating tank temperature and the heating water supply temperature is reduced to less than or equal to the second temperature difference, and the heating tank temperature decreases and the heating water supply temperature increases. It may be configured to be as described above. For example, only when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below the second temperature difference is determined by the increase in the heating water supply temperature, it is determined that the circulation abnormality is resolved, and the heating means 132 is operated. Can be turned on again.

Finally, when the temperature difference between the heating tank temperature and the heating water supply temperature increases again above the first temperature difference and the number of times that the number of times of determining a circulation abnormality is repeated more than a certain number of times within a certain time, the control unit 120 This can be finalized. According to a preferred embodiment, the control unit 120 determines a boiler circulation abnormality when the number of times the cycle is determined to be abnormal is repeated three or more times within 30 minutes, and activates a failure alarm function of the boiler to repair the boiler. Allows you to (S90, S100).

Hereinafter, a method for controlling a circulation abnormality of an electric boiler according to another embodiment of the present invention will be described with reference to FIG. 7, but the same reference numerals are assigned to the same steps as in the embodiment of FIG. 5, and overlapping content A detailed description of the description will be omitted, and the following will focus on a configuration different from the above-described embodiment.

In this embodiment, the operation of the electric boiler is started (S10), and the temperature difference between the heating tank temperature and the heating water supply temperature is measured and calculated (S20).

As a result of the calculation in step S20, when the temperature difference between the heating tank temperature and the heating water supply temperature is greater than or equal to the first temperature difference (S30), and the temperature difference is maintained for more than a first hour (S40), and the amount of change in the heating water supply temperature is first When all of the conditions (S45) less than the amount of change are satisfied, it is determined whether there is an abnormality in the boiler circulation (S50). If any one of the conditions of steps S30, S40, and S45 is not satisfied, the measurement and calculation of step S20 are continued as it is considered that there is no abnormality in circulation. The first change amount may be set as a temperature change amount of 0.5°C per second.

If it is determined that there is a circulation abnormality in the step S50, the operation of the heating means 132 is turned off to stop the heating operation of the heating tank 110 (S60).

After turning off the operation of the heating means 132, the control unit 120 continuously senses a temperature difference between the heating tank temperature and the heating water supply temperature. As a result, when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below the second temperature difference, or when the heating water supply temperature change amount exceeds the first change amount, it is determined that the circulation abnormality of the heating water has been resolved, and the above Heating the heating water is heated by turning on the operation of the heating means 132 again (S70-1, S80).

Finally, the control unit 120 determines the number of times that the temperature difference between the heating tank temperature and the heating water supply temperature increases again above the first temperature difference, and at the same time, the change in the heating water supply temperature decreases to be less than the first change amount and determines that the circulation abnormality is If is repeated more than a certain number of times within a certain time, it may be finally determined as a boiler circulation abnormality (S90, S100).

Although the embodiments of the present invention have been described with reference to the accompanying drawings above, those of ordinary skill in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. It will be understandable. Therefore, it should be understood that the embodiments described above are illustrative and non-limiting in all respects. The scope of the present invention is indicated by the claims to be described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and the concept of equivalents thereof should be interpreted as being included in the scope of the present invention do.

100: electric boiler 110: heating tank
115: heating tank temperature sensor 120: control unit
130: thyristor 131: external power
132: heating means 140: main supply line
141: heating water supply line 142: heating water return line
143: hot water supply line 144: direct water supply line
145: bypass line 150: three-way valve
160: circulation pump 165: heating flow switch
170: expansion tank 180: plate heat exchanger
190: Heating water supply line temperature sensor

Claims (14)

In the circulation abnormality control device of the electric boiler detecting and controlling the circulation abnormality of the heating water of the electric boiler 100,
A heating tank 110 in which a heating means 132 for storing circulating heating water and heating the heating water is installed;
A heating tank temperature sensor 115 mounted on the heating tank 110 and measuring the temperature of the heated water;
It is mounted on a heating water supply line 141 that supplies the heating water from the heating tank 110 to the outside of the electric boiler 100, and is located outside the electric boiler 100 and the electric boiler 100 ), a heating water supply line temperature sensor 190 mounted at a location close to the heating water to measure the temperature of the circulating heating water; And
A temperature difference between the heating tank temperature, which is the temperature of the heating water measured by the heating tank temperature sensor 115, and the heating water supply temperature, which is the temperature of the heating water measured by the heating water supply line temperature sensor 190, is calculated, Including; a control unit 120 for turning on / off the operation of the heating means 132 according to the calculation result,
When the temperature difference between the heating tank temperature and the heating water supply temperature continues for a first time or longer, the control unit 120 determines that the heating means 132 is turned off. (OFF) a circulation abnormality control device of an electric boiler, characterized in that. delete The method according to claim 1,
The control unit 120 turns on the operation of the heating means 132 again when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below the second temperature difference. Abnormal control device. The method of claim 3,
When the temperature difference between the heating tank temperature and the heating water supply temperature increases again above the first temperature difference and the number of times that the number of times of determining the circulation abnormality is repeated more than a certain number of times within a certain time, the control unit 120 is Circulation abnormality control device of the electric boiler, characterized in that final determination. In the circulation abnormality control device of the electric boiler detecting and controlling the circulation abnormality of the heating water of the electric boiler 100,
A heating tank 110 in which a heating means 132 for storing circulating heating water and heating the heating water is installed;
A heating tank temperature sensor 115 mounted on the heating tank 110 and measuring the temperature of the heated water;
It is mounted on a heating water supply line 141 that supplies the heating water from the heating tank 110 to the outside of the electric boiler 100, and is located outside the electric boiler 100 and the electric boiler 100 ), a heating water supply line temperature sensor 190 mounted at a location close to the heating water to measure the temperature of the circulating heating water; And
A temperature difference between the heating tank temperature, which is the temperature of the heating water measured by the heating tank temperature sensor 115, and the heating water supply temperature, which is the temperature of the heating water measured by the heating water supply line temperature sensor 190, is calculated, Including; a control unit 120 for turning on / off the operation of the heating means 132 according to the calculation result,
The control unit 120 determines that the temperature difference between the heating tank temperature and the heating water supply temperature is greater than or equal to the first temperature difference continues for a first time or longer and the change in the heating water supply temperature is less than or equal to the first change amount, the boiler circulation abnormality. And turning off the operation of the heating means (132). The method of claim 5,
The control unit 120 includes the heating means 132 when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below a second temperature difference or when the change in the heating water supply temperature exceeds the first change amount. Circulation abnormality control device of an electric boiler, characterized in that turning on the operation of (ON) again. The method of claim 6,
The control unit 120 determines the number of times that the temperature difference between the heating tank temperature and the heating water supply temperature increases again above the first temperature difference, and at the same time, the change in the heating water supply temperature decreases to be less than the first change amount and determines that the circulation abnormality is When is repeated more than a certain number of times within a certain time, the boiler circulation abnormality control device, characterized in that the final determination as a boiler circulation abnormality. In the circulation abnormality control method of the electric boiler for detecting and controlling the circulation abnormality of the heating water of the electric boiler 100,
The heating water heated in the heating tank 110 through the heating tank temperature sensor 115 installed in the heating tank 110 in which the heating means 132 for storing the circulating heating water and heating the heating water is installed. Measuring the temperature;
It is mounted on a heating water supply line 141 that supplies the heating water from the heating tank 110 to the outside of the electric boiler 100, and is located outside the electric boiler 100 and the electric boiler 100 ) Installed in a position close to Measuring the temperature of the heating water circulated through the heating water supply line temperature sensor 190; And
The control unit 120 installed on the electric boiler 100 is the temperature of the heating tank, which is the temperature of the heating water measured by the heating tank temperature sensor 115, and the heating water supply line temperature sensor 190. Calculating a temperature difference between the heating water supply temperature, which is the temperature of the heating water, and turning on/off the operation of the heating means (132) according to the calculation result;
Including,
In the step of turning on/off the operation of the heating means, when the temperature difference between the heating tank temperature and the heating water supply temperature is equal to or greater than the first temperature difference continues for a first time or longer, it is determined as a boiler circulation abnormality, and the heating means ( 132) Circulation abnormality control method of the electric boiler, characterized in that off (OFF). delete The method of claim 8,
The step of turning on/off the operation of the heating means is characterized in that when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below the second temperature difference, the operation of the heating means 132 is turned on again. Circulation abnormality control method of electric boiler. The method of claim 10,
In the step of turning on/off the operation of the heating means, the temperature difference between the heating tank temperature and the heating water supply temperature is increased again above the first temperature difference, so that the number of times that the number of times of determining the circulation abnormality is repeated more than a predetermined number of times within a predetermined time. In this case, the method of controlling a circulation abnormality of an electric boiler, further comprising the step of finally determining the boiler circulation abnormality. In the circulation abnormality control method of the electric boiler for detecting and controlling the circulation abnormality of the heating water of the electric boiler 100,
The heating water heated in the heating tank 110 through the heating tank temperature sensor 115 installed in the heating tank 110 in which the heating means 132 for storing the circulating heating water and heating the heating water is installed. Measuring the temperature;
It is mounted on a heating water supply line 141 that supplies the heating water from the heating tank 110 to the outside of the electric boiler 100, and is located outside the electric boiler 100 and the electric boiler 100 ) Installed in a position close to Measuring the temperature of the heating water circulated through the heating water supply line temperature sensor 190; And
The control unit 120 installed on the electric boiler 100 is the temperature of the heating tank, which is the temperature of the heating water measured by the heating tank temperature sensor 115, and the heating water supply line temperature sensor 190. Calculating a temperature difference between the heating water supply temperature, which is the temperature of the heating water, and turning on/off the operation of the heating means (132) according to the calculation result;
Including,
The step of turning on/off the operation of the heating means may include a case in which the temperature difference between the heating tank temperature and the heating water supply temperature is equal to or greater than the first temperature difference continues for a first time or longer and the change in the heating water supply temperature is less than or equal to the first change amount. The method of controlling a circulation abnormality of an electric boiler, characterized in that it is determined as a boiler circulation abnormality and the operation of the heating means (132) is turned off. The method of claim 12,
Turning on/off the operation of the heating means may include, when the temperature difference between the heating tank temperature and the heating water supply temperature decreases below a second temperature difference or when the change in the heating water supply temperature exceeds the first change amount. Circulation abnormality control method of an electric boiler, characterized in that the operation of the heating means (132) is turned on again. The method of claim 13,
In the step of turning on/off the operation of the heating means, the temperature difference between the heating tank temperature and the heating water supply temperature increases again above the first temperature difference, and the change in the heating water supply temperature is reduced to be less than the first change amount. The method of controlling a circulation abnormality of an electric boiler, further comprising the step of finally determining a boiler circulation abnormality when the number of times to determine the circulation abnormality is repeated more than a certain number of times within a predetermined time.

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