KR100539000B1 - Control method of boiler and energy saving type boiler using the same - Google Patents

Abstract

The present invention relates to a control method of a low-boiling boiler employing an electronic controller and an energy-saving low-boiling boiler using the same, wherein the operation of the circulation pump for controlling the circulation of the heated water in the low-boiling boiler to substantially room heating It is characterized in that it is configured to be controlled by the temperature of the water to enable heating with high energy efficiency.

Description

CONTROL METHOD OF BOILER AND ENERGY SAVING TYPE BOILER USING THE SAME}

The present invention relates to a control method of a low-boiling boiler and a low-boiling boiler using the same, and more particularly, to the operation of the circulation pump for controlling the circulation of the heated water in the low-boiling boiler, The present invention relates to a control method of a low boiling water boiler, which is controlled by temperature, and to enable energy saving heating, and a low water heating boiler using the same.

As is well known, a low boiling water boiler realizes indoor heating by heating water stored in a water tank using electricity, gas, or oil as an energy source, and then circulating the heated water through a heating pipe. In addition, a circulation pump is provided on the heating pipe, and a forced circulation control of water is possible through the circulation pump. In such a low-boiling boiler, a temperature sensor installed indoors senses a room temperature and an electronic controller is used. It was configured to control the operation of the circulation pump by comparing the room temperature value sensed by the temperature sensor and the room temperature value set by the user. Here, the electronic controller is an interface means between the boiler and the user. The water temperature and the room temperature in the water tank are set through the electronic controller. The electronic controller measures the temperature and the indoor temperature of the water in the water tank and controls the operation of the heating means and the circulation motor through the water tank and the temperature sensor installed in the room. When the water temperature of the water tank is set to the highest 70 ℃, the minimum 60 ℃, the electronic controller measures the temperature of the water in the water tank through the temperature sensor, and if the detected water temperature is less than 60 ℃, The electronic controller raises the water temperature by operating the heating means, and stops the operation of the heating means when the temperature reaches 70 ° C. Also, if the user sets the room temperature to 23 ° C through the electronic controller, While the indoor temperature sensor is measuring the room temperature, if the measured temperature is less than 23 ℃, the electronic controller starts the circulation motor. It is, so that the water heated in the water tank is circulated through a heating pipe, therefore the temperature of the room through the heat exchange action is allowed to warm to 23 over ℃. At this time, the temperature sensor measures that the room temperature is 23 ℃ or more to provide to the electronic controller, and thus the circulation motor is stopped by the control of the electronic controller. That is, the control of the circulation pump in such a water-boiling boiler, It is not based on the temperature of the water that actually heats the room, but rather the temperature of the room, that is, the temperature of the air. When the cold outside air flows into the room, the temperature sensor installed in the room detects the cold air, and thus the circulation pump is frequently operated regardless of the temperature of the water remaining in the heating pipe. However, the temperature sensor is used to detect the room temperature. If the controller frequently operates the circulation pump, the frequency of operation of the circulation pump may increase, causing an abnormality in the apparatus. In addition, the amount of circulation of the warmed water may be unnecessarily increased by consuming energy such as electricity, gas, and oil. A large amount of heat loss occurs. Accordingly, the water of the heating pipe having a relatively low water temperature is deprived of heat to the outside water and is supplied to the water tank to lower the temperature of the water in the water tank to operate the heating means again, causing frequent operation of unnecessary heating means, resulting in a large amount of energy. There was a problem that consumed,

An object of the present invention devised to solve the above problems, the operation of the circulation pump is dependent on the temporary fluctuations in the room temperature to prevent the phenomenon of unnecessary operation, the circulation pump and the heating means only when heating is actually required By operating the circulation pump and the heating means, reducing the operating frequency and reducing the heat loss caused by unnecessary excessive circulation of the heated water to control the energy-efficient heating method of the low-floor type boiler and the low-temperature type using the same In providing a boiler.

The above object of the present invention is achieved by the following configuration.

First, the control method of the low-water boiler according to the present invention, a water tank having a water outlet and a return port, respectively, the heating means for heating the water in the water tank, and the outlet and the return port of the water tank in communication A heating pipe installed to be an external circulation path of water, a circulation pump installed on the heating pipe to control forced circulation of water, and an electronic controller to control the operation of the heating means and the circulation pump. A method of controlling the operation of a boiler, the method comprising: measuring the storage water temperature inside the water tank, and operating or stopping the heating means by a deviation of these temperatures against the temperature value of the storage water set in the electronic controller. To do so;

Measures the temperature of the return water inside the return pipe to the water outlet after the heating, and compares it with the temperature value of the return water set in the electronic controller, and operates or stops the circulation pump by the deviation of these temperatures. On the other hand, the energy-saving low-water boiler according to the present invention implemented using the method, the water tank is provided with the outlet and the water outlet of the water, respectively, the heating means for heating the water inside the water tank. And, a heating pipe installed in communication with the outlet and the return port of the water tank, the heating pipe being an external circulation path of the water, a circulation pump installed on the heating pipe to control forced circulation of the water, and the heating means and the circulation pump. Low type of oil boiler, gas boiler or electric boiler mode including electronic controller to control the operation of the A hot water boiler comprising: a first temperature sensor installed inside the water tank to measure the temperature of the storage water in the water tank and providing the electronic controller to the electronic controller, and installed on the heating pipe side of the water return port to finish heating. And a second temperature sensor for measuring the temperature of the return water returned to the electronic controller and providing the electronic controller to the electronic controller. The upper electronic controller includes an indoor electronic controller and a main electronic controller. It controls the operation and stop of the heating means and the circulation pump in accordance with the deviation between the measured temperature and the set temperature; The water tank is composed of a double wall is characterized in that the heat insulation is configured by a vacuum insulation structure. With reference to the drawings the control method of the water-type boiler according to the present invention and the energy using this control method Detailed Description of the Preferred Embodiments of the Low Cost Boiler Boiler Description of Embodiments Fig. 1 shows a configuration of an indoor electronic controller part of an electronic controller of an energy saving low type boiler according to the present invention, and Fig. 2 shows a configuration of a main electronic controller part. 3 to 5 are views showing in detail the configuration of the main body portion of the energy-saving low-water boiler according to some embodiments of the present invention, Figure 6 is a block diagram showing the overall configuration of the energy-saving low-water boiler according to the present invention In the heating system in which the energy-saving low-boiling boilers 1, 1 ', 1 "according to the present invention are used, as shown in Fig. 6, the outlet 11 and the return port 12 for entering and exiting the water are shown. A water tank 10 which is a storage space of the heated water provided with each; Heating means (20) for heating the water stored in the water tank (10); A heating pipe 30 installed in communication with the outlet 11 and the return port 12 of the water tank 10 and serving as an external circulation path of water stored in the water tank 10; A circulation pump 40 installed at one point on the heating pipe 30 to cause a forced circulation of warmed water; And a heating means controller 51 for controlling the operation of the heating means 20 and a circulation pump controller 52 for controlling the operation of the circulation pump 40 to control them and to allow an interface with a user. An electronic controller 50 is included. In the water tank 10, a first temperature sensor 61 associated with a heating means controller 51 of the electronic controller 50 includes a heating pipe 30. The second temperature sensor 62 is connected to the circulation pump control unit 51 of the electronic controller 50, respectively. In the above configuration, the heating means 20 burns heat by burning oil or gas. An oil burner 21 or a gas burner 22 to generate, or an electric heater 23 using a current resistance, etc. may be used. The oil-boiling oil boiler shown in FIG. 3 according to the type of the heating means 10 may be used. 1), the low boiling gas boiler 1 'shown in FIG. 4 or the low boiler shown in FIG. It takes the form of a type electric boiler (1 "). The present invention can be applied in common without regard to such a water type oil, gas or electric boiler. In particular, as shown in Figures 3 to 5 10) It is preferable to configure itself so as to save energy by vacuum-insulating, and the case wall 13 of the water tank 10 is formed to be spaced apart from the double wall of the outer wall 13a and the inner wall 13b, and the separation The space between the walls 13a and 13b is the vacuum layer 13c, so that the water stored in the water tank 10 is not easily cooled by the external environment. In the present invention, the second temperature sensor ( 62 is circulated through the heating pipe 30 to finish the heating and to measure the temperature of the return water returned to the water tank 10, the return port 12 of the water tank 10 of the heating pipe 30 In this way, the boiling water according to the present invention is installed. The boilers 1, 1 ', 1 "do not control the operation of the circulation motor by setting and measuring the room temperature value as before, but the temperature of the return water returned after the heating is completed through the heating pipe 30. On the basis of the value, it is possible to control the operation of the circulation motor 40. That is, according to the present invention, through the water temperature value in the water tank 40 measured by the first temperature sensor 61 The operation of the heating means 20 is controlled, and the operation of the circulation motor 40 is controlled through the temperature value of the water in the heating pipe 30 measured by the second temperature sensor 62. In Fig. 5, reference numeral 71 denotes a supplementary tank, 72 denotes a distributor. The electronic controller 50 used in the water type boilers 1, 1 ', 1 "according to the present invention is as shown in FIG. Interface device installed indoors to allow users to operate the boiler or set the temperature Control the temperature measurement of the indoor electronic controller 50A and the first and second temperature sensors 61 and 62, and start and stop the heating means 20 and the circulation pump 40 according to the measurement result. It is provided with a main electronic controller 50B portion of FIG. Although they may be formed integrally, the main electronic controller 50B is usually installed at the boiler body part, and the indoor electronic controller 50A is installed in a room convenient for the user to operate, such as a living room or a room, so that transmission and reception of signals between each other is performed. Looking at the configuration of the indoor electronic controller 50A, a temperature display window 51a for controlling the heating means 20 and a plurality of temperature control buttons (see FIG. 1). 51b) and a heating means controller 51 including a setting lamp 51c, etc., on the right side, a temperature display window 52a for controlling the circulation motor 40, a temperature control switch 52b, and an operation lamp 52c. Each of the circulation pump controllers 52 is provided. The configuration of the main electronic controller 50B is as follows. As shown in FIG. 2, the power cord 50a, the reset switch 50b, and the power switch 50c are provided. ), Circulation motor The slot 50d, the heating means control slot 50e, the first temperature sensor slot 50f, the second temperature sensor slot 50g, the overheat prevention sensor slot 50h, the low water level prevention sensor slot 50i, and the like are formed. On the other hand, inside the electronic controller 50, a circuit configuration of a conventional electronic controller including an MPU (micro processor unit) is provided, where a circuit of a conventional electronic controller including an MPU (micro processor unit) is provided. Since the configuration can be easily implemented in a form commonly used in the art, the detailed description of this part and the related drawings are omitted in the present specification. When the temperature of the water in the water tank 10 is set through the heating means control unit 51 of 50A, the first temperature sensor slot 50f is measured by the first temperature sensor 1. The temperature of the water stored in the water tank 10 to be delivered is compared with the set temperature to transmit a command to start or stop the heating means 20 through the heating means control slot 50e. When the temperature of the return water causing the operation of the circulation motor 40 is set to 40 ° C. through the circulation pump control unit 52 of the electronic controller 50A, the second temperature sensor 62 is measured by the second temperature sensor 62. The temperature of the water returned to the heating pipe 30 delivered through the slot (50g) compared to the set temperature, when the temperature of the water is less than 40 ℃ to operate the circulation motor 40 to make the heating, When the temperature rises to 40 ° C., the circulation motor control slot 50d is controlled to stop the operation of the circulation motor 40.

As described above, in the control method of the water-type boiler according to the present invention and the energy-saving water-type boiler using the same, the circulation pump is operated on the basis of the temperature of the indoor atmosphere with a relatively low specific heat and rapid circulation resulting in a high temperature change. It does not stop or stop, and the circulation pump is started or stopped based on the temperature of the water which is relatively heated and the heat change is not so severe and the heat is relatively low.

In this configuration, since the operation of the circulation pump and the heat loss due to the instantaneous change in the room temperature are significantly reduced, the heating of the water by the heating means is also reduced so that the energy required to operate the fuel and the circulation pump is reduced. We can save, and energy saving heating is enabled.

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1 and 2 show an example of the external configuration of the electronic controller in the energy-saving low-water boiler according to the present invention, Figure 1 is an indoor electronic controller, Figure 2 is a main electronic controller,

3 to 5 is a view showing the configuration of the body portion of the energy-saving low-water boiler according to some embodiments of the present invention,

Figure 6 is a block diagram briefly showing the overall configuration of the water type boiler according to the present invention.

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*** Explanation of symbols for main parts of drawing ***

1., 1 ', 1 ". Water Boiler 10. Water Tank

11.outlet 12.return

13. Case wall 13a. inside wall

13b. Outer wall 13c. Vacuum layer

20. Heating means 21. Oil burner

22. Gas Burner 23. Electric Heater

30. Heating piping 40. Circulating pump

50. Electronic controller 50A. Indoor electronic controller

50B. Main electronic controller 51. Heating means control

52. Circulating pump control unit 61. First temperature sensor

62. Second Temperature Sensor

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Claims (3)

A water tank provided with an outlet and a return port of the water, a heating means for heating the water in the water tank, and a heating pipe installed in communication with the outlet and the return port of the water tank to become an external circulation path of the water, and the heating A method for controlling the operation of a low-boiling boiler comprising a circulation pump installed on a pipe to control forced circulation of water, and an electronic controller for controlling the operation of the heating means and the circulation pump; Measuring the storage water temperature inside the water tank, and comparing the temperature with the temperature value of the storage water set in the electronic controller so that the heating means is activated or stopped by the deviation of these temperatures; Measures the temperature of the return water inside the heating pipe side returning to the water tank after the heating, and compared with the temperature value of the return water set in the electronic controller, the circulation pump is operated or stopped by the deviation of these temperatures Control method of a low-boiling boiler, characterized in that. delete A water tank provided with an outlet and a return port of the water, a heating means for heating the water in the water tank, and a heating pipe installed in communication with the outlet and the return port of the water tank to become an external circulation path of the water, and the heating An oil boiler, a gas boiler or an electric boiler, comprising: a circulation pump installed on a pipe to control forced circulation of water, and an electronic controller for controlling the operation of the heating means and the circulation pump; A first temperature sensor installed inside the water tank and measuring the temperature of the storage water in the water tank and providing the electronic controller to the electronic controller, and the water returned to the water tank after completion of heating and returning to the water tank A second temperature sensor for measuring the temperature of the sensor and providing the measured temperature to the electronic controller; The electronic controller includes an indoor electronic controller and a main electronic controller, and controls the operation and stop of the heating means and the circulation pump according to the deviation between the temperature measured by the first and second temperature sensor and the set temperature; The water tank is made of a double wall energy-saving low-temperature boiler, characterized in that configured to be kept warm in a vacuum insulation structure.