RU2751685C2 - Device and method for control of impairment of water circulation for electric heater - Google Patents

Abstract

FIELD: control over the operation of energy-consuming installations.SUBSTANCE: group of inventions relates to ensuring control over the impairment of water circulation for an electric heater. The device to control the impairment of water circulation for an electric heater, which is designed to detect and control the abnormal circulation of heating water for the electric heater, contains: a heating tank designed to accumulate the circulating heating water and equipped with a heating means for water; a heating tank temperature sensor installed on the tank to measure the temperature of the water; temperature sensor for the heating water supply line from the heating tank outside the electric heater for measuring the temperature of the circulating heating water; and a control unit for calculating the temperature difference between the heating water temperature measured by the heating tank temperature sensor and the heating water supply temperature measured by the heating water supply line temperature sensor and turning the heating means on/off according to the calculation result. The control unit is designed to determine that the water circulation in the boiler is abnormal and to turn off the heating means when the temperature difference between the temperature of the heating tank and the temperature of the supplied heating water is greater than or equal to the first temperature difference during the first period of time or more.EFFECT: inventions are aimed at preventing boiler overheating.12 cl, 7 dwg

Description

The technical field to which the invention relates

The present invention relates generally to a device for monitoring water circulation disturbance in an electric boiler and a method for monitoring this, in particular, to a device for monitoring water circulation disturbance in an electric boiler, capable of effectively detecting and monitoring water circulation disturbance in an electric boiler using the difference between the temperature of the heating tank of the electric boiler and the temperature of the water in the heating water supply line, and a method for controlling this.

State of the art

Generally, a heating device such as a boiler is designed to effect heating by circulating heating water, and a boiler using electricity as a heat source is called an electric boiler. The electric boiler is designed in such a way that the heater installed in the heating tank is usually heated by the consumption of electricity by circulating water. As described above, an electric boiler can produce warm water by heating heating water by supplying electricity to the heater while water flows so that it can be used for heating and hot water supply.

Figure 1 shows a diagram of the circulation of water in a conventional electric boiler.

The electric boiler 100 includes a heating tank 110 configured to accumulate and heat water, a control unit 120 configured to perform various control, including control over the heating tank 110, which is necessary for the operation of the electric boiler 100, a thyristor 130 configured capable of receiving currents from an external power source 131 to supply currents as currents provided for the heating means 132 installed in the heating tank 110 and configured to control the on / off supply of current using the control unit 120, the main supply line 140 provided with the possibility of supplying warm water heated to a predetermined temperature outside the heating tank 110, and the heating water supply line 141 and the bypass line 145, divided into two directions by a three-way valve 150 installed in the main supply line 140.

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

With such a system, heating water heated in the heating tank 110 circulates in each room, which is the target of heating, to provide heating to the rooms. A heating water circulation pump 160 and a heat flow switch 165 are installed in the heating water return line 142. The heat flow switch 165 serves to detect the heating water circulation violation and further notify the control unit 120 of the heating water circulation violation when the heating water circulation violation occurs. In addition, an expansion tank 170 filled with nitrogen is installed in the heating water return line 142 and serves to control the pressure change in the heating water line, which may occur in accordance with the expansion of the volume that occurs when the water is heated.

Meanwhile, a plate heat exchanger 180 is provided in the bypass line 145 so that heating water passing through the bypass line 145 crosses water passing through the once-through water supply line 144 and the warm water supply line 143. Accordingly, the high-temperature heating water supplied to the bypass line 145 through the three-way valve 150 and the room temperature direct-flow water supplied through the direct-flow water supply line 144 perform heat exchange to generate warm water from the direct-flow water, and the generated warm water is supplied to the warm water supply line 143. water.

As described above, according to the water circulation pattern in the conventional electric boiler, the conventional electric boiler is configured so that the heating water circulation disturbance can be detected by the heat flow switch 165 installed in the heating water return line 142. When the heating water circulation is disturbed due to failure of the heating water circulation pump, failure of the bypass valve, blockage of the heating water circulation line, etc., the heat flow switch 165 sends a water circulation failure detection signal to the control unit 120, and the control unit 120 turns off the heating means 132 installed in the heating tank 110 to prevent the boiler from overheating.

However, various foreign substances, such as rust particles in the pipe, lime, and the like, may end up in the heating water during the heating water circulation, and when the foreign substances settle on the heat flow switch 165, there is often a problem that the normal operation is disturbed. heat flow switch 165. In other words, a problem arises in which the device installed for preventing the heating water circulation disturbance mainly causes the heating water circulation disturbance. Thus, there is a need to develop a new means for preventing overheating of the boiler without using a flow meter, such as a heat flow switch 165 or the like, in order to reduce the frequency of failures associated with disturbed heating water circulation.

The essence of the invention

Technical challenge

The present invention is directed to providing a water circulation disturbance monitoring device capable of effectively detecting and monitoring water circulation disturbances in an electric boiler using the difference between temperatures measured by a temperature sensor installed in a heating tank of an electric boiler and a temperature sensor installed in an electric boiler. heating water supply lines, without installing a heat flow switch, and a way to control this.

Solution of a technical problem

One aspect of the present invention provides a device for monitoring water circulation disturbance in an electric boiler, configured to detect and monitor heating water disturbance in an electric boiler (100), the water circulation disturbance monitoring device including: a heating tank (110 ), configured to accumulate circulating heating water and in which a heating means (132) is installed, configured to heat heating water; a heating tank temperature sensor (115) mounted on the heating tank (110) for measuring the temperature of the heating water to be heated; a temperature sensor (190) of the heating water supply line installed in the heating water supply line (141) configured to supply heating water from the heating tank (110) outside the electric boiler (100) to measure the temperature of the circulating heating water; and a control unit (120) configured to calculate the temperature difference between the temperature of the heating tank, which is the temperature of the heating water measured by the temperature sensor (115) of the heating tank, and the temperature of the supplied heating water, which is the temperature of the heating water measured by the sensor ( 190) the temperature of the heating water supply line, and turning on / off the heating means (132) in accordance with the result of calculating the temperature difference.

According to an embodiment, the control unit (120) can be configured to determine that the water circulation in the boiler is abnormal and to turn off the heating means (132) 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 in for the first period of time or more.

The control unit (120) can be configured to re-enable the operation of the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to a second temperature difference or less.

The control unit (120) can be configured to finally determine that the water circulation in the boiler is abnormal when the temperature difference between the heating tank temperature and the heating water supply temperature rises again to the first temperature difference or more, and thus the determination procedure, in case of circulation failure, it is repeated for a specified number of times or more within a specified period of time.

According to another embodiment, the control unit (120) can be configured to determine that the water circulation in the boiler is abnormal and turn off the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied is greater than or equal to the first temperature difference during the first period of time or more, and the amount of change in the temperature of the supplied heating water is less than or equal to the first amount of change.

The control unit (120) can be configured to reactivate the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to a second temperature difference or less, or the amount of change in the temperature of the heating water supplied is greater than the first change amount.

The control unit (120) can be configured to finally determine that the water circulation in the boiler is abnormal when the temperature difference between the heating tank temperature and the heating water supply temperature rises again to the first temperature difference or more, and the amount of change in the heating water supply temperature decreases to the first change value or less, and thus the determination procedure, in the event of a circulation failure, is repeated a predetermined number of times or more within a predetermined period of time.

Another aspect of the present invention provides a method for monitoring water circulation disturbance in an electric boiler, configured to detect and control a heating water circulation disturbance in an electric boiler (100), the method for controlling the circulation disturbance includes: measuring the temperature of heating water heated in a heating tank (110), by means of a heating tank temperature sensor (115) mounted on a heating tank (110) configured to accumulate circulating heating water and in which a heating means (132) configured to heat heating water is installed; measuring the temperature of the circulating heating water by means of a temperature sensor (190) of the heating water supply line installed in the heating water supply line (141), configured to supply heating water from the heating tank (110) outside the electric boiler (100); and calculating, by the control unit (120), installed on the electric boiler (100), the temperature difference between the temperature of the heating tank, which is the temperature of the heating water measured by the temperature sensor (115) of the heating tank, and the temperature of the supplied heating water, which is the temperature of the heating measured by the temperature sensor (190) of the heating water supply line, and turning on / off the heating means (132) in accordance with the result of calculating the temperature difference.

According to an embodiment, turning the heating means on / off may include determining that the water circulation in the boiler is abnormal and turning off the heating means (132) 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. for the first period of time or more.

Turning on / off the heating means may include re-enabling the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to a second temperature difference or less.

Turning on / off the heating means may further include finally determining that the water circulation in the boiler is abnormal when the temperature difference between the heating tank temperature and the heating water supply temperature rises again to the first temperature difference or more, and thus the determination procedure , in the event of a circulation failure, repeats a specified number of times or more within a specified period of time.

According to another embodiment, turning the heating means on / off may include determining that the water circulation in the boiler is abnormal and turning off the heating means (132) 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. during the first period of time or more, and the amount of change in the temperature of the supplied heating water is less than or equal to the first amount of change.

Turning on / off the heating means may include re-enabling the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to a second temperature difference or less, or the amount of change in the temperature of the heating water supplied is greater than the first change amount.

Turning on / off the heating means may further include finally determining that the water circulation in the boiler is abnormal when the temperature difference between the heating tank temperature and the heating water supply temperature rises again to the first temperature difference or more, and the amount of change in the heating water supply temperature decreases to the first change value or less, and thus, the determination procedure, in the event of a circulation failure, is repeated a predetermined number of times within a predetermined period of time.

Beneficial Effects

According to the apparatus for controlling water circulation disturbance in an electric boiler of the present invention and a control method for this as described above, overheating of an electric boiler due to a disturbed heating water circulation can be prevented without using a heat flow switch installed in the heating water return line of a conventional electric boiler. boiler.

In addition, considering the fact that the heat flow switch is not used, the problem of frequent malfunction of the heat flow switch due to the presence of foreign matter in the heating water is solved, and therefore, the number of cases of water circulation disturbance in the electric boiler can be reduced. ...

In addition, since a temperature sensor is added, which is relatively cheap, instead of using a heat flow switch, which is relatively expensive, a more economical device can be installed to prevent overheating when the heating water is not circulating.

In addition, in the method for monitoring water circulation disturbance in an electric boiler according to the present invention, since the temperature difference between the heating tank temperature of the electric boiler and the heating water supply temperature is compared, and as a result of the comparison, the circulation disturbance is detected, and heating of the heating water is stopped only then when the temperature difference is maintained at the first temperature difference or more for the first period of time or more, it is not determined that the circulation is disturbed in the case where the return to normal occurs even in the case where the instantaneous temperature difference occurs, and thus, it is possible to accurately determine the violation of circulation.

In addition, in the method for monitoring water circulation disturbance in an electric boiler according to another embodiment of the present invention, since the temperature difference between the temperature of the heating tank and the heating water supply temperature is compared, and as a result of the comparison, the circulation disturbance is determined only when the amount of temperature change of the supplied heating water is less than or equal to the first change value, the problem can be solved that a wrong decision is made regarding the circulation disturbance even if there is no circulation disturbance, in the case when the temperature of the heating water in the heating water supply line increases and the temperature difference between the temperature of the heating water and the temperature of warm water in the tank is maintained at the first temperature difference or more for the first period of time or more, and thus, it is possible to accurately determine whether or not there is a violation of the water circulation in the boiler e.

Brief Description of Drawings

Fig. 1 is a view illustrating a circulation diagram of a conventional electric boiler.

Fig. 2 is a view illustrating a circuit for circulating water in an electric boiler according to the present invention.

Fig. 3 is a graph illustrating the principle of detecting water circulation disturbance in an electric boiler according to the present invention.

Fig. 4 is a graph illustrating a specific method for controlling water disturbance in an electric boiler according to the present invention.

Fig. 5 is a flowchart illustrating a method for controlling water circulation disturbance in an electric boiler according to an embodiment of the present invention.

Fig. 6 is a graph of temperatures in the case where the temperature of the heating water in the tank and the temperature of the supplied heating water are increased and maintained at a predetermined temperature difference or more for a predetermined period of time or more.

FIG. 7 is a flowchart illustrating a method for controlling water circulation disturbance in an electric boiler according to another embodiment of the present invention.

Reference positions

100 - electric boiler

110 - heating tank

115 - heating tank temperature sensor

120 - control unit

130 - thyristor

131 - external power supply

132 - heating agent

140 - main feed line

141 - heating water supply line

142 - heating water return line

143 - warm water supply line

144 - direct-flow water supply line

145 - bypass line

150 - three-way valve

160 - circulation pump

165 - heat flow switch

170 - expansion tank

180 - plate heat exchanger

190 - temperature sensor of the heating water supply line

Detailed description of the invention

Next, with reference to the accompanying drawings, an apparatus for monitoring water circulation disturbance in an electric boiler according to the present invention and a control method will be described in more detail.

However, the present invention is not limited to the embodiments to be described below and may be implemented in a wide variety of forms, the embodiments are provided only to fully disclose the present invention and bring the scope of the present invention to those skilled in the art, and the present invention is limited only the scope of the claims. For information, the description of the present invention will omit detailed descriptions of the disclosed functions and configurations, which may unnecessarily obscure the spirit of the present invention.

Fig. 2 shows a device for controlling water circulation disturbance in an electric boiler according to an embodiment of the present invention. Typically, this arrangement is similar to the basic configurations of the electric boiler shown with reference to FIG. 1. Accordingly, in the following, basic configurations of an electric boiler will be simply described, and then technical configurations according to an embodiment of the present invention will be described in more detail below.

The electric boiler 100 includes a heating tank 110 configured to accumulate and heat water, a control unit 120 configured to perform various control, including control over the heating tank 110, which is necessary for the operation of the electric boiler 100, a thyristor 130 configured with the possibility of receiving currents from an external power source 131 for supplying currents as currents consumed by the heating means 132 installed in the heating tank 110 and configured to control current supply on / off using the control unit 120, the main supply line 140 configured supplying warm water heated to a predetermined temperature outside the heating tank 110, and the heating water supply line 141 and the bypass line 145, divided into two directions by a three-way valve 150 installed in the main supply line 140.

In addition, a heating water supply line 141 is connected to a heating water circulation line (not shown) located in each room, and a heating water circulation line is connected to a heating tank 110 through a heating water return line 142. In this case, the heating water supply line temperature sensor 190 is installed at a predetermined location on the heating water supply line 141 to measure the temperature of the heating water in the heating water circulation line.

The heating water heated in the heating tank 110 circulates in each room, that is, the purpose of heating is to provide heating with such a circulation system. A heating water circulation pump 160 is installed in the heating water return line 142 in order to provide the pressure of the heating water circulating.

In addition, an expansion tank 170 filled with nitrogen is installed in the heating water return line 142 and serves to control the pressure change in the heating water line, which can occur in accordance with the expansion of the volume that occurs when the water is heated.

Meanwhile, a plate heat exchanger 180 is provided on the bypass line 145 so that heating water passing through the bypass line 145 crosses water passing through the once-through water supply line 144 and the warm water supply line 143. Accordingly, high-temperature heating water supplied to the bypass line 145 through the three-way valve 150 and room temperature direct-flow water supplied through the direct-flow water supply line 144 perform heat exchange to generate warm water from the direct-flow water, and the generated warm water is supplied to the warm water supply line 143. water.

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

The heat flow switch 165 serves to stop the flow of all the heating water when the heating water circulation is disturbed due to the failure of the circulation pump 160 or the like.

However, the heat flow switch 165 causes frequent breakdowns in the process in which heating water containing foreign matter flows through it and thus becomes another cause of the heating water circulation disturbance. In view of the above, in the present invention, the heat flow switch 165 is not set to reduce the amount of circulation disturbance, and heating of the heating water in the heating tank can be stopped to prevent overheating of the electric boiler in the event that the heating water circulation is disturbed.

To this end, a device for monitoring water circulation disturbance in an electric boiler according to the present invention includes a heating tank 110 configured to accumulate circulating heating water and in which a heating means 132 configured to heat heating water is installed, a heating tank temperature sensor 115 installed on the heating tank 110 for measuring the temperature of the heated heating water, a temperature sensor 190 of the heating water supply line installed in the heating water supply line 141 configured to supply heating water from the heating tank 110 outside the electric boiler 100 to measure the temperature of the circulating heating water water and a control unit 120 configured to calculate the temperature difference between the temperature of the heating tank, which is the heating water temperature measured by the heating tank temperature sensor 115, and the heating water supply temperature, which is the heating water temperature measured by the heating water supply line temperature sensor 190, and turning the heating means 132 on / off according to the result of the calculation.

The heating tank 110 temporarily stores water used in a heating system including an electric boiler and supplies water when the water is heated to a desired temperature or more. In this case, although the water stored in the heating tank 110 includes heating water that flows along the heating water circulation line located in each room and warm water used in a bath or sink, since the present invention is a device, designed with the ability to control the violation of the circulation of heating water, only one heating water will be presented in the description, and not warm water and heating water.

The heating tank temperature sensor 115 is installed in the heating tank 110 to measure the temperature of the heating water stored in and heated by the heating tank 110, and transmits the measurement result to the control unit 120 in real time. Typically, the heating water stored in the heating tank 115 is heated to 60-90 ° C and then supplied to the outside through the main supply line 140. That is, heating water heated to a high temperature by the heating means 132 in the heating tank 110 is discharged outside the heating tank 110, and heating water having a relatively low temperature is introduced into the heating tank 110 through the heating water return line 142. Accordingly, in a normal state in which there is no disturbance in the circulation of the heating water, the heating means 132 continuously supplies heat while in the on state, so the temperature of the heating water stored in the heating tank 110 is kept within a predetermined target temperature range.

However, when the heating water circulation is disturbed due to the failure of the heating water circulation pump 160 and the like, since the heating water accumulated in the heating tank 110 is not discharged outside and is continuously heated by the heating means 132, the temperature of the heating water increases sharply. If this situation is neglected, a fire or explosion may occur 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 caused by disturbed heating water circulation, and the heating water temperature in the heating tank 110 measured by the heating tank temperature sensor 115 is compared with the heating water temperature in the heating water supply line. the temperature of the heating water supply line measured by the existing sensor 190, and thus it can be measured whether the temperature of the heating water in the heating tank 110 rises relatively abruptly.

In this case, the heating water supply line temperature sensor 190 can be installed at a more suitable location to measure the temperature of the circulating water. In other words, when the heating water supply line temperature sensor 190 is installed in the electric boiler 100 in the heating water supply line 141, since the distance between the hot water supply line temperature sensor 190 and the heating tank 110 is small, and thus the difference between the heating water temperature of water measured by the heating tank temperature sensor 115 and the heating water temperature measured by the heating water supply line temperature sensor 190 are not large, it is difficult to set the standard necessary to detect the circulation disturbance based on the above.

On the other hand, when the temperature sensor 190 of the heating water supply line is located outside the electric boiler 100 in the heating water supply lines 141 and is mounted to be offset towards the heating water circulation line (not shown) connected to each room, since the distance from the sensor 190 temperature of the heating water supply line to the heating tank 110 is quite large, and thus the difference between the heating water temperature measured by the heating tank temperature sensor 115 and the heating water temperature measured by the heating water supply line temperature sensor 190 is large, a violation can be detected circulation even when slight overheating occurs.

In accordance with the above, the heating water supply line temperature sensor 190 can be installed outside the electric boiler 100 in the heating water supply line 141 and at a place where the temperature difference taking into account the temperature in the heating tank 110 is suitable, and thus the most effectively determine the violation of the circulation of heating water. The specific place of installation cannot be determined according to a single principle and must be determined by joint consideration of the capacity of the electric boiler, the corresponding temperature range for heating the heating tank, the temperature of the heating water supplied, the standard for determining the disturbance of circulation, etc.

According to an embodiment of the present invention, as shown in Fig. 3, the control unit 120 is configured to calculate the temperature difference between the heating tank temperature, which is the heating water temperature measured by the heating tank temperature sensor 115, and the heating water supply temperature, which is the heating water temperature measured by the heating water supply line temperature sensor 190, and turning the heating means 132 on / off in accordance with the result of the calculation.

According to an embodiment, the control unit 120 is configured to determine that the water circulation in the boiler is abnormal and turn off the heating means 132 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 during the first time interval. or more.

In other words, when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied rises to the first temperature difference or more, there is a possibility that it will be determined as a circulation disturbance. As shown in Fig. 3, when there is a disturbance in the circulation of the heating water in the electric boiler, the heating water in the heating water supply line 141 continuously remains in the same position, and thus the temperature is uniformly maintained.

On the other hand, since the heating water in the heating tank 110 is continuously heated by the heating means 132, the temperature of the heating water rises. Accordingly, in a state in which heating water is generally circulated, the temperature difference between the temperature of the heating tank and the supply temperature of heating water having almost the same temperature curve increases after the time t1 when the circulation is disturbed.

However, in the case where the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied is small, or the temperature difference is in the range of the temperature difference, which is considered an abnormal state immediately after reaching a certain control difference, even when a temperature difference occurs between the temperature of the heating water. tank and the temperature of the heating water supplied, there is no need to determine the circulation disturbance. Accordingly, as in the embodiment of the present invention, in a state where the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied is maintained at the first temperature difference or more for the first period of time or more, the control unit 120 may be configured to determine whether that the circulation of water in the boiler is abnormal and the heating means 132 is turned off. In addition, the control unit 120 may be configured to re-turn on the heating means 132 when the temperature difference between the heating tank temperature and the heating water supply temperature decreases to a second temperature difference or less.

According to an embodiment, the first temperature difference can be set to 10 ° C, the first time period can be set to five seconds, and the second temperature difference can be set to 5 ° C. According to another embodiment, the first temperature difference can be set to 5 ° C, the first time period can be set to five seconds, and the second temperature difference can be set to 5 ° C or less. However, each of the first temperature difference, the first time span and the second temperature difference can be set to different values according to the use and condition 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, in a state in which the electric boiler 100 is operating and the heating water circulates normally, the temperature difference between the temperature of the heating tank and the supply temperature of the heating water is extremely small.

However, the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied begins to increase after the time t1 when the heating water circulation is disturbed for the first time. The control unit 120 determines that there is a possibility that the circulation disturbance occurs after a time t2 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, and then determines whether the circulation disturbance occurs.

The control unit 120 determines that a circulation disorder occurs in the electric boiler, and turns off the heating means 132 to prevent overheating of the heating water in the heating tank 110 at time t3 when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied is maintained at the first temperature difference, or more during the first period of time or more.

According to another embodiment of the present invention, in the case of a more stable method for preventing overheating of an electric boiler, the control unit 120 may be configured to turn off the operation of the heating means 132 after time t2 when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied becomes greater than or equal to first temperature difference.

In addition, it is determined that the disturbance in the circulation of the heating water has been repaired, and the heating means 132 is turned on again to heat the heating water at time t4 when the temperature of the heating water supplied, and thus the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to the second temperature difference or less. In this case, the increase in the temperature of the heating water supplied after the time t3, as shown in FIG. 4, can be regarded as a case where the high-temperature heating water starts to circulate in the heating tank again.

Accordingly, for more precise control, the control unit 120 may be configured to control the operation of the heating means 132 by discriminating a case where the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to a second temperature difference or less as the temperature of the heating tank falls. and a case where the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to a second temperature difference or less because the temperature of the supplied heating water rises. For example, it can be determined that the disturbance in the circulation of heating water has been repaired and the heating means 132 can only be turned on again when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to a second temperature difference or less as the temperature of the heating supply rises. water.

Finally, the control unit 120 can finally determine that the water circulation in the boiler is abnormal when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied rises again to the first temperature difference or more, and thus the determination procedure, in the event of a circulation failure , is repeated a specified number of times or more within a specified time interval. According to an exemplary embodiment, when the circulation failure detection procedure is repeated at least three times within 30 minutes, the control unit 120 determines that the water circulation in the boiler is abnormal and triggers the boiler failure alarm function so that it can be restored. boiler operability.

Meanwhile, as shown in Fig. 6, in the electric boiler 100, due to changes in external factors such as opening and closing of the three-way valve 150, a situation may arise where the heating water supply temperature rises and the temperature difference T1, T2 and T3 between the heating temperature tank and the temperature of the supplied heating water are maintained at the first temperature difference or more for the first period of time or more.

In this case, as described above, when the disturbance in circulation is determined based on the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied, it is erroneously judged to be a disturbance in circulation even when there is actually no disturbance in the circulation of the heating water.

In order to overcome this drawback, the control unit 120 according to another embodiment of the present invention can be configured to determine that the water circulation in the boiler is abnormal and turn off the heating means 132 when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied is greater. or equal to the first temperature difference during the first period of time or more, and the amount of change in the temperature of the supplied heating water is less than or equal to the first amount of change. The first change amount can be set to a temperature change amount of 0.5 ° C per second.

In a state in which the heating means 132 is turned off, as described above, when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases again to the second temperature difference or less, or the amount of change in the temperature of the heating water supplied is greater than the first change amount, the control unit 120 controls the heating means 132 to turn on the heating means 132.

In addition, the control unit 120 can be configured to finally determine that the water circulation in the boiler is abnormal when the temperature difference between the heating tank temperature and the heating water supply temperature rises again to the first temperature difference or more, and the amount of change in the heating water supply temperature decreases to the first change value or less, and thus, the determination procedure, in the event of a circulation failure, is repeated a predetermined number of times or more within a predetermined period of time.

As described above, in the embodiment, since the circulation disturbance is determined only when satisfied as a condition under which it is detected 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, and the case where the value the temperature change of the heating water supply is less than or equal to the first change value, that is, the condition under which it is detected that the change amount of the heating water supply temperature is small, and thus the heating water is in the heating water supply line 141, it can be correctly determined that whether circulation disturbance occurs even under the condition shown in FIG. 6.

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

First, the control unit 120 heats the heating water in the heating tank 110 by the heating means 132 when the electric boiler is in operation (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 circulating through the heating water supply line temperature sensor 190 installed in the heating water supply line 141 is measured. configured to supply heating water from the heating tank 110 outside the electric boiler 100.

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

According to the result of the calculation in step S20, when the difference between the temperature of the heating tank and the temperature of the heating water supplied becomes less than the first temperature difference, it is determined that the circulation deviation in the electric boiler does not occur, and in step S20, the control unit 120 continuously performs the measurement and computation, maintaining the normal working condition.

According to the result of the calculation in step S20, when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied is greater than or equal to the first temperature difference, it is determined that there is a possibility of a circulation disturbance occurring, and then it is determined whether the circulation disturbance occurs. That is, the control unit 120 determines that a circulation disorder occurs in the electric boiler when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied is maintained at the first temperature difference or more for the first time interval or more (S40 and S50), and turns off a heating means 132 for preventing overheating of the heating water in the heating tank 110 (S60).

According to another embodiment of the present invention, considering a more stable method of preventing overheating of an electric boiler, the control unit 120 may be configured to turn off the heating means 132 immediately after the temperature difference between the heating tank temperature and the heating water supply temperature is greater than or equal to the first difference temperatures.

The control unit 120 turns off the heating means 132 and then continuously measures the temperature difference between the temperature of the heating tank and the temperature of the supplied heating water. Accordingly, it is determined that the disturbance in the circulation of the heating water has been repaired and the heating means 132 is turned on again to heat the heating water when the temperature difference between the temperature of the heating tank and the temperature of the supplied heating water decreases to a second temperature difference or less (S70 and S80). In this case, the rise in the temperature of the heating water supplied after the time t3, as shown in FIG. 4, can be regarded as a case where the high-temperature heating water starts to circulate in the heating tank again.

In this case, for more precise control, the control unit 120 can be configured to control the operation of the heating means 132 by discriminating the case where the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to the second temperature difference or less as the temperature drops. heating tank, and a case where the temperature difference between the heating tank temperature and the heating water supply temperature decreases to a second temperature difference or less because the heating water supply temperature rises as described above. For example, it can be determined that the disturbance in circulation has been repaired and the heating means 132 can only be turned on again when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to a second temperature difference or less as the temperature of the heating water supplied rises.

Finally, the control unit 120 can finally determine that the water circulation in the boiler is abnormal when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied rises again to the first temperature difference or more, and thus the determination procedure, in the event of a circulation failure , is repeated for a specified number of times or more within a specified period of time. According to an exemplary embodiment, when the circulation failure detection procedure is repeated at least three times within 30 minutes, the control unit 120 judges that the water circulation in the boiler is abnormal and triggers the boiler failure alarm function so that it was possible to restore the functionality of the boiler (S90 and S100).

Next, with reference to Fig. 7, a method for controlling water circulation disorder in an electric boiler according to another embodiment of the present invention will be described, like reference numerals denote the same operations as described in the embodiment shown in Fig. 5, detailed re-description will be omitted, and configurations different from the above embodiment will be mainly described below.

In the embodiment, in step S10, the operation of the electric boiler is started, and in step S20, the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied is measured and calculated.

According to the result of the calculation performed in step S20, each of a case where the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied is greater than or equal to the first temperature difference (S30), and a case where the temperature difference is maintained during the first or more (S40), and when the condition is satisfied that the amount of change in the temperature of the heating water supplied is less than or equal to the first amount of change (S45), it is determined whether or not the heating water circulation in the boiler occurs (S50). When any of operations S30, S40, and S45 are not performed, it is determined that the circulation is not abnormal, and thus measurement and calculation are continuously performed in step S20. The first change amount can be set to a temperature change amount of 0.5 ° C per second.

When it is determined in step S50 that the circulation is abnormal, in step S60, the heating means 132 is turned off to stop heating the heating tank 110.

The control unit 120 turns off the heating means 132 and then continuously measures the temperature difference between the temperature of the heating tank and the temperature of the supplied heating water. Accordingly, it is determined that the disturbance in the circulation of the heating water has been repaired, and the heating means 132 is turned on again to heat the heating water when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to a second temperature difference or less, or the amount of change in the temperature of the heating water supplied greater than the first temperature difference (S70-1 and S80).

Finally, the control unit 120 can finally determine that the water circulation in the boiler is abnormal when the temperature difference between the heating tank temperature and the heating water supply temperature rises again to the first temperature difference or more, and the amount of change in the heating water supply temperature decreases to the first change amount. or less, and thus, the determination procedure, in the event of a circulation disorder, is repeated a predetermined number of times or more within a predetermined period of time (S90 and S100).

Although embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art will appreciate that the technical essence or essential characteristic of the present invention may be embodied without modification in other specific forms. Accordingly, the above-described embodiments are exemplary in all aspects and are not limiting. The scope of the present invention is presented in the claims, which will be described below, and not in the detailed description, and all changes or modifications resulting from the meaning and scope of the claims and their equivalents are included in the scope of the present invention.

Claims (30)

1. A device for monitoring a violation of the circulation of water in an electric boiler, made with the possibility of detecting and monitoring a violation of the circulation of heating water in an electric boiler (100), and the device for monitoring a violation of the circulation contains: a heating tank (110) configured to accumulate circulating heating water, and in which a heating means (132) is installed, configured to heat the heating water; a heating tank temperature sensor (115) mounted on the heating tank (110) for measuring the temperature of the heating water to be heated; a temperature sensor (190) of the heating water supply line installed in the heating water supply line (141) configured to supply heating water from the heating tank (110) outside the electric boiler (100) to measure the temperature of the circulating heating water; and a control unit (120) configured to calculate the temperature difference between the temperature of the heating tank, which is the temperature of the heating water measured by the temperature sensor (115) of the heating tank, and the temperature of the supplied heating water, which is the temperature of the heating water measured by the sensor (190 ) the temperature of the heating water supply line, and turning on / off the heating means (132) in accordance with the result of calculating the temperature difference, moreover, the control unit (120) is configured to determine that the water circulation in the boiler is abnormal and to turn off the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the supplied heating water is greater than or equal to the first temperature difference during the first time interval or more. 2. A device for monitoring the violation of water circulation in an electric boiler according to claim 1, in which the control unit (120) is configured to re-enable the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the supplied heating water decreases to a second temperature difference or less. 3. The device for monitoring the violation of water circulation in an electric boiler according to claim 2, in which the control unit (120) is configured to finally determine that the water circulation in the boiler is abnormal when the temperature difference between the temperature of the heating tank and the temperature of the supplied heating water rises again to the first temperature difference or more, and thus, in the event of a circulation failure, repeating the determination procedure a predetermined number of times or more within a predetermined period of time. 4. A device for monitoring the violation of the circulation of water in an electric boiler, made with the possibility of detecting and monitoring the violation of the circulation of heating water in an electric boiler (100), and the device for monitoring the violation of circulation, containing: a heating tank (110) configured to accumulate circulating heating water, and in which a heating means (132) is installed, configured to heat the heating water; a heating tank temperature sensor (115) mounted on the heating tank (110) for measuring the temperature of the heating water to be heated; a temperature sensor (190) of the heating water supply line installed in the heating water supply line (141) configured to supply heating water from the heating tank (110) outside the electric boiler (100) to measure the temperature of the circulating heating water; and a control unit (120) configured to calculate the temperature difference between the temperature of the heating tank, which is the temperature of the heating water measured by the temperature sensor (115) of the heating tank, and the temperature of the supplied heating water, which is the temperature of the heating water measured by the sensor (190 ) the temperature of the heating water supply line, and turning on / off the heating means (132) in accordance with the result of calculating the temperature difference, the control unit (120) is configured to determine that the water circulation in the boiler is abnormal and turn off the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the supplied heating water is greater than or equal to the first temperature difference during the first period of time or more , and the change amount of the heating water supply temperature is less than or equal to the first change amount. 5. A device for monitoring the violation of water circulation in an electric boiler according to claim 4, in which the control unit (120) is configured to reactivate the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the supplied heating water decreases to the second temperature difference or less, or the amount of change in the temperature of the supplied heating water is greater than the first change amount. 6. The device for monitoring the violation of water circulation in an electric boiler according to claim 5, in which the control unit (120) is configured to finally determine that the water circulation in the boiler is abnormal when the temperature difference between the temperature of the heating tank and the temperature of the supplied heating water rises again to the first temperature difference or more, and the amount of change in the temperature of the heating water supplied is reduced to the first change amount or less, and thus, in the event of a circulation failure, repeating the determination procedure a predetermined number of times or more within a predetermined period of time. 7. A method for monitoring the violation of water circulation in an electric boiler, performed with the possibility of detecting and monitoring a violation of the circulation of heating water in an electric boiler (100), moreover, a method for monitoring a violation of water circulation in an electric boiler, comprising: measuring the temperature of the heating water heated in the heating tank (110) by means of the temperature sensor (115) of the heating tank installed on the heating tank (110) configured to accumulate the circulating heating water and in which the heating means (132) is installed, configured to heating of heating water; measuring the temperature of the circulating heating water by means of a temperature sensor (190) of the heating water supply line installed in the heating water supply line (141), configured to supply heating water from the heating tank (110) outside the electric boiler (100); and the calculation by the control unit (120), installed on the electric boiler (100), the temperature difference between the temperature of the heating tank, which is the temperature of the heating water measured by the sensor (115) of the temperature of the heating tank, and the temperature of the supplied heating water, which is the temperature of the heating water measured by the temperature sensor (190) of the heating water supply line, and turning on / off the heating means (132) in accordance with the result of calculating the temperature difference, moreover, turning on / off the heating means includes determining that the water circulation in the boiler is abnormal and turns off the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied is greater than or equal to the first temperature difference during the first period time or more. 8. A method for controlling water circulation disturbance according to claim 7, wherein turning on / off the heating means includes re-enabling the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied decreases to a second temperature difference or less ... 9. The water circulation disturbance control method according to claim 8, wherein turning the heating means on / off further comprises finally determining that the water circulation in the boiler is abnormal when the temperature difference between the heating tank temperature and the heating water supply temperature rises again up to the first temperature difference or more, and, thus, the determination procedure, in the event of a circulation failure, is repeated a predetermined number of times within a predetermined period of time. 10. A method for monitoring the violation of water circulation in an electric boiler, performed with the possibility of detecting and monitoring a violation of the circulation of heating water in an electric boiler (100), moreover, a method for monitoring a violation of water circulation in an electric boiler, comprising: measuring the temperature of the heating water heated in the heating tank (110) by means of the temperature sensor (115) of the heating tank installed on the heating tank (110) configured to accumulate the circulating heating water and in which the heating means (132) is installed, configured to heating of heating water; measuring the temperature of the circulating heating water by means of a temperature sensor (190) of the heating water supply line installed in the heating water supply line (141), configured to supply heating water from the heating tank (110) outside the electric boiler (100); and the calculation by the control unit (120), installed on the electric boiler (100), the temperature difference between the temperature of the heating tank, which is the temperature of the heating water measured by the sensor (115) of the temperature of the heating tank, and the temperature of the supplied heating water, which is the temperature of the heating water measured by the temperature sensor (190) of the heating water supply line, and turning on / off the heating means (132) in accordance with the result of calculating the temperature difference, turning the heating means on / off includes determining that the water circulation in the boiler is abnormal and turning off the heating means (132) 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 during the first time interval or more, and the amount of change in the temperature of the heating water supplied is less than or equal to the first amount of change. 11. A method for controlling water circulation disturbance according to claim 10, wherein turning on / off the heating means includes re-enabling the heating means (132) when the temperature difference between the temperature of the heating tank and the temperature of the supplied heating water decreases to a second temperature difference or less , or the change amount of the heating water supply temperature is greater than the first change amount. 12. The method for controlling water circulation disturbance according to claim 11, wherein turning on / off the heating means further includes finally determining that the water circulation in the boiler is abnormal when the temperature difference between the temperature of the heating tank and the temperature of the heating water supplied rises again to the first temperature difference or more, and the amount of change in the temperature of the heating water supplied is reduced to the first change amount or less, and thus, the determination procedure, in the event of a circulation failure, is repeated a predetermined number of times within a predetermined period of time.

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