KR101782941B1 - Apparatus and method for controling driving of vacuum hot water boiler - Google Patents

Abstract

The present invention relates to an apparatus and method for controlling operations of a negative pressure-type hot water boiler, and more specifically, to an apparatus and method for driving and controlling a negative pressure-type hot water boiler, which is configured to detect the temperature of heating medium water of a steam room, and when the detected temperature is lower than a set value, turn on a boiler drive switch, detect the vacuum pressure of the steam room, read a pressure reference value and a pressure target value according to the detected temperature of the heating medium water, turn on an alarm unit for a set time when the detected vacuum pressure is lower than the pressure reference value, and then turn on the vacuum pump so as to increase the vacuum pressure of the steam chamber, and turn off the vacuum pump when reaching the pressure target value.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a boiler,

More particularly, the present invention relates to an apparatus and method for controlling the operation of a boiler, and more particularly, to a boiler control apparatus and method for controlling the boiler drive switch when the sensed temperature of the boiler reaches a preset value, The controller reads the pressure reference value and the pressure target value according to the detected temperature of the hot water, and when the detected vacuum pressure is equal to or lower than the pressure reference value, the alarm unit is turned on for the set time, To a drive control apparatus and method for a negative pressure type hot water boiler for increasing a vacuum pressure of a seal and detecting a vacuum pressure to turn off a vacuum pump when the pressure reaches a target value of the pressure.

In general, a vacuum pressure hot water boiler boils and evaporates at a temperature lower than 100 ° C in a vacuum state where a negative pressure is applied. The boiler is made into a vacuum, and a heat exchanger is installed therein to indirectly heat the boiler. Use the principle of generating and using hot water.

The conventional vacuum pressure hot water boiler can distinguish the vacuum drum 1 as the upper vacuum drum 1a and the lower vacuum drum 1b as shown in, for example, Japanese Patent Application Laid-Open No. 2000-0007654, And are welded to each other. A burner (4) is installed on the front surface of the combustion chamber surrounded by a plurality of water pipes (3). In this burner 4, air for combustion is fed by the blower 5, and fuel is supplied through the fuel pipe 6. An indirect heat exchanger 7 in the form of a coil is mounted on the steam chamber 2 inside the upper vacuum drum 1a. As the water is supplied from the inlet 8 of the heat exchanger 7, hot water can be obtained from the outlet 9 on the other side. During operation of the boiler, the pressure in the steam chamber 2 maintains a vacuum below atmospheric pressure. The exhaust gas from the combustion chamber is exhausted through the exhaust flue (see Fig. 2).

The vacuum boiler thus constructed uses two mechanical vacuum pressure switches. When the first vacuum pressure switch is set above the set pressure, an alarm is generated and stopped to stop the boiler, and a second vacuum pressure switch is set The vacuum pump is operated until the pressure drops below the negative pressure so that the boiler can maintain the negative pressure.

However, in the vacuum boiler constructed as described above, both of the two mechanical vacuum pressure switches monitor whether or not the current vacuum pressure has reached a set value, and output to the microcomputer. Therefore, the time variation of the vacuum pressure is monitored The vacuum pressure of the steam chamber is adjusted only considering the vacuum pressure of the steam chamber, that is, the system is controlled only considering the vacuum pressure of the steam chamber without considering the temperature of the hot water. Therefore, It is impossible to accurately maintain the pressure.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a vacuum pressure sensor which can precisely maintain a vacuum pressure in a steam chamber, And to provide a drive control apparatus and method for a boiler.

It is another object of the present invention to provide an apparatus and method for controlling the operation of a sonic hot water boiler, which enables a user to remotely monitor the state of a boiler through a mobile terminal.

In order to achieve the above object, a drive control apparatus for a negative pressure hot water boiler according to an embodiment of the present invention maintains a vacuum and is filled with a quantity of heat and a heat exchanger is installed to supply water to the inlet of the heat exchanger, A vacuum pressure sensor configured to detect a vacuum pressure of the steam chamber; and a controller for controlling the vacuum pressure sensor to detect a vacuum pressure in the steam chamber. A boiler water temperature sensor configured to sense a boiler water temperature of the steam room; A microcomputer configured to output a control signal by using a table of the internal temperature of the internal coolant temperature versus the vacuum pressure and a vacuum pressure target value table based on the vacuum pressure detected by the vacuum pressure sensor and the hot water temperature sensor; A boiler drive switch configured to receive a control signal from the microcomputer and to switch on and off operations of the fuel injection valve and the blower; An alarm unit driver configured to receive a control signal from the microcomputer and to control an on / off operation of the alarm unit by switching operation; And a vacuum pump driver configured to receive a control signal from the microcomputer and perform switching operation to control on / off operation of the vacuum pump.

The driving control device of the negative pressure type hot water boiler according to the above embodiment is capable of wirelessly communicating with the microcomputer and monitoring the time trend value of the vacuum pressure and the hot water temperature sensed by the vacuum pressure sensor and the hot water temperature sensor, The mobile terminal may further include a mobile terminal in which an application that can be used is stored.

In the drive control apparatus for a hot-water boiler according to the above embodiment, the vacuum pressure sensor may be a 4 to 20 mA vacuum pressure sensor.

In order to achieve the above object, a driving control method of a negative pressure hot water boiler according to another embodiment of the present invention includes a step of sensing a temperature of a hot water in which a hot water temperature of a steam room is detected by a hot water temperature sensor; Determining a number-of-fruits-water temperature that determines whether or not the number-of-fruits-water temperature detected in the number-of-fruits-water temperature sensing step is equal to or less than a first set value; Operating the boiler drive switch to turn on the boiler drive switch when the sensed heat energy temperature is lower than the first set value in the heat energy temperature determination step; A first vacuum pressure sensing step of sensing a vacuum pressure of the steam chamber by a vacuum pressure sensor; A reading step of reading a vacuum pressure reference value and a vacuum pressure target value in accordance with the sensed number-of-fruits water temperature from a fruit-water-temperature-versus-vacuum-pressure reference value and a vacuum pressure target value table based on the fruit- ; A first vacuum pressure determining step of determining whether the vacuum pressure detected in the first vacuum pressure sensing step is equal to or less than the vacuum pressure reference value; An alarm part operation step of turning on the alarm part for a set time if the sensed vacuum pressure is below the vacuum pressure reference value in the first vacuum pressure determination step; A vacuum pressure raising step for raising the vacuum pressure of the steam chamber by turning on the vacuum pump; A second vacuum pressure sensing step of sensing a vacuum pressure of the steam chamber by the vacuum pressure sensor; A second vacuum pressure determination step of determining whether the vacuum pressure sensed in the second vacuum pressure sensing step is the vacuum pressure target value; And turning off the vacuum pump when the detected vacuum pressure is the target value of the vacuum pressure in the second vacuum pressure determining step, and then proceeding to the step of sensing the temperature of the charged water, .

In the driving control method of the negative pressure type hot water boiler according to another embodiment of the present invention, if the sensed heat energy number is greater than the first predetermined value in the heat energy temperature determination step, the process may proceed to the heat energy temperature sensing step.

In the drive control method of the negative pressure type hot water boiler according to the another embodiment, if the detected vacuum pressure is greater than the vacuum pressure reference value in the first vacuum pressure determination step,

In the drive control method of the negative pressure type hot water boiler according to the another embodiment, in the second vacuum pressure determination step, if the detected vacuum pressure is not the target value of the vacuum pressure, the process may be advanced to the vacuum pressure rising step.

According to the apparatus and method for controlling the driving of the negative pressure type hot water boiler according to the embodiments of the present invention, the vacuum pressure of the steam chamber and the temperature of the hot water are detected by the vacuum pressure sensor and the hot water temperature sensor, It is configured to control the operation of the boiler drive switch, the alarm and the vacuum pump using the number of internally stored temperature versus the vacuum pressure reference value and the vacuum pressure target value table based on the water temperature, thereby maintaining the vacuum pressure of the steam room precisely So that it is possible to monitor the variation of the time with respect to the vacuum pressure value.

In addition, according to the drive control apparatus for a negative pressure hot water boiler according to the embodiment of the present invention, it is possible to wirelessly communicate with a microcomputer, and can measure a time trend value of a vacuum pressure and a hot water temperature sensed by a vacuum pressure sensor and a hot water temperature sensor, And a mobile terminal in which an application for monitoring the operation status is stored. Thus, the user can monitor the status of the boiler remotely through the mobile terminal.

1 is a block diagram of a drive control apparatus for a negative pressure hot water boiler according to an embodiment of the present invention.
FIG. 2 is a graph showing a relationship between a number of hot water gauge and a vacuum pressure applied to the embodiment of the present invention. FIG.
FIGS. 3A and 3B are operation flowcharts for explaining a drive control method of a negative pressure hot water boiler according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

1 is a block diagram of a drive control apparatus for a negative pressure hot water boiler according to an embodiment of the present invention.

Before describing an embodiment of the present invention, the construction of a sound pressure hot water boiler to be controlled by the present invention will be briefly described.

The negative pressure type hot water boiler includes a steam chamber, a vacuum pump 430, a burner, and an alarm unit 420.

The steam room maintains a vacuum, is filled with a number of heat, and a heat exchanger is installed to supply water to the inlet of the heat exchanger, heat exchange is performed by the number of the heat exchanger, and hot water is discharged through the outlet of the heat exchanger.

The vacuum pump 430 is an additional pump for increasing the vacuum pressure in the steam room. By operating the vacuum pump 430, the vacuum pressure in the steam chamber can be adjusted to a desired value.

The burner injects fuel and air through the fuel injection valve 400 and the blower 410 and burns the air to supply heat to the steam chamber.

The alarm unit 420 displays the operating state of the negative pressure type hot water boiler and displays a warning sound in an emergency (for example, when the pressure in the steam chamber falls below a set value or the operation of the fuel injection valve and the blower is stopped) Thereby causing the user to call attention.

1, a driving control apparatus for a negative pressure hot water boiler according to an embodiment of the present invention includes a vacuum pressure sensor 100, a hot water temperature sensor 110, a microcomputer 200, a boiler drive switch 300 An alarm part driving part 310, a vacuum pump driving part 320 and a mobile terminal M.

The vacuum pressure sensor 100 serves to sense the vacuum pressure of the vapor chamber and unlike the conventional mechanical vacuum pressure switch which monitors whether or not the vacuum pressure reaches a set value, It is a 4 ~ 20mA vacuum pressure sensor with different output current value.

The boiling water temperature sensor 110 is a temperature sensor for sensing the boiling water temperature of the vapor chamber.

The microcomputer 200 is a microcomputer that controls all components of the present invention. The microcomputer 200 is a microcomputer that controls the entire components of the present invention, And outputs a control signal to the boiler drive switch 300, the alarm part driving part 310, and the vacuum pump driving part 320 using the table of the number of temperature versus vacuum pressure and the vacuum pressure target value table.

FIG. 2 is a relation table of the number of hot water gauge and the vacuum pressure applied to the embodiment of the present invention, and is used as a reference when preparing the table of the number of hot water versus the vacuum pressure and the vacuum pressure target value.

The two-dot chain line is a reference line for comparing the current vacuum pressure when operating the vacuum pump according to the prior art, and operates the vacuum pump at a pressure lower than the reference line.

The dashed line represents a vacuum pump operating reference line according to the present invention in which the vacuum pressure is lowered in accordance with a rise in temperature and consists of vacuum pressure reference values for operating the vacuum pump 430 at a vacuum pressure lower than the broken line.

The solid line is a vacuum degree relative to an ideal temperature. When the vacuum pump 430 is operated, the vacuum pressure rises, and the target values of the vacuum pressure reachable at this time are formed.

The boiler drive switch 300 receives a control signal from the microcomputer 200 and performs a switching operation to control on / off operations of the fuel injection valve 400 and the blower 410.

The alarm part driving part 310 receives a control signal from the microcomputer 200 and performs a switching operation to control the on / off operation of the alarm part 420.

The vacuum pump driving unit 320 receives a control signal from the microcomputer 200 and performs a switching operation to control the on / off operation of the vacuum pump 430.

The mobile terminal M is capable of wirelessly communicating with the microcomputer 200 and monitors the time trend values of the vacuum pressure and the boiler water temperature sensed by the vacuum pressure sensor 100 and the boiler water temperature sensor 110, The application can be stored. The manner in which the mobile terminal M and the microcomputer 200 perform wireless communication may be, for example, GSM, CDMA2000, WiMAX, WiFi, Bluetooth, LTE, and the like.

Hereinafter, a driving control method of a negative pressure hot water boiler implemented by the driving control apparatus for a negative pressure hot water boiler according to an embodiment of the present invention will be described.

FIGS. 3A and 3B are operational flowcharts for explaining a drive control method of a negative pressure hot water boiler according to an embodiment of the present invention, wherein S represents a step.

First, the temperature of the hot water in the steam room is sensed by the hot water temperature sensor 110 (S10).

Then, the microcomputer 200 determines whether the temperature of the fruit detected in step S10 is lower than a first set value (S20).

The microcomputer 200 turns on the boiler drive switch 300 so that the fuel is supplied to the burner through the fuel injection valve 400. In this case, The blower 410 is operated to inject air (S30).

In step S40, the vacuum pressure sensor 100 detects the vacuum pressure in the vapor chamber.

In step S50, the microcomputer 200 calculates a vacuum pressure value corresponding to the sensed number of fruits temperature from the built-in number-of-fruits water temperature vs. vacuum pressure reference value and the vacuum pressure target value table based on the fruit- The reference value and the vacuum pressure target value are read.

In step S60, the microcomputer 200 determines whether or not the vacuum pressure detected in step S40 is equal to or lower than the vacuum pressure reference value.

If the detected vacuum pressure is less than the vacuum pressure reference value (YES) in step S60, the microcomputer 200 turns on the alarm unit 420 for the set time period (S70), and then the vacuum pump 430 And the vacuum pressure of the steam chamber is started to be increased (S80).

In step S90, the vacuum pressure sensor 100 detects the vacuum pressure in the vapor chamber.

Subsequently, the microcomputer 200 determines whether the vacuum pressure sensed in the step S90 is the vacuum pressure target value (S100).

If the detected vacuum pressure is the vacuum pressure target value (YES) in step S100, the microcomputer 200 turns off the vacuum pump 430 (S110), and proceeds to step S10.

On the other hand, if it is determined in step S20 that the sensed heat energy number is higher than the first set value (NO), the process proceeds to step S10.

On the other hand, if it is determined in step S60 that the detected vacuum pressure is greater than the reference vacuum pressure value N0, the process proceeds to step S10.

On the other hand, if it is determined in step S100 that the detected vacuum pressure is not the vacuum pressure target value (No), the process proceeds to step S80.

According to the apparatus and method for controlling the driving of the negative pressure hot water boiler according to the embodiment of the present invention, the vacuum pressure and the boiling water temperature of the steam chamber are detected by the vacuum pressure sensor and the boiler water temperature sensor, It is designed to control the operation of the boiler drive switch, the alarm and the vacuum pump by means of the number of internal water stored on the basis of the temperature, the temperature versus vacuum pressure reference value and the vacuum pressure target value table, so that the vacuum pressure of the vapor chamber can be precisely maintained And to monitor the time variation of the vacuum pressure value.

In addition, according to the drive control apparatus for the hot-water boiler according to the present invention, it is possible to wirelessly communicate with the microcomputer, and the vacuum pressure and the boiler water temperature detected by the vacuum pressure sensor and the boiler water temperature sensor, And a mobile terminal in which an application for monitoring the operation status is stored, thereby allowing a user to remotely monitor the status of the boiler through the mobile terminal.

Although the best mode has been shown and described in the drawings and specification, certain terminology has been used for the purpose of describing the embodiments of the invention and is not intended to be limiting or to limit the scope of the invention described in the claims. It is not. Therefore, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Vacuum pressure sensor
110: Fruit water temperature sensor
200: Microcomputer
300: boiler drive switch
310:
320: Vacuum pump driving part
400: Fuel injection valve
410: blower
420:
430: Vacuum pump
M: Mobile terminal

Claims (9)

delete delete delete A vacuum pump for increasing the vacuum pressure in the steam chamber, and a vacuum pump for supplying the negative pressure to the vacuum pump, As a drive control device for a hot water boiler,
A vacuum pressure sensor configured to sense a vacuum pressure of the steam chamber;
A boiler water temperature sensor configured to sense a boiler water temperature of the steam room;
A microcomputer configured to output a control signal by using a table of the internal temperature of the internal coolant temperature versus the vacuum pressure and a vacuum pressure target value table based on the vacuum pressure detected by the vacuum pressure sensor and the hot water temperature sensor;
A boiler drive switch configured to receive a control signal from the microcomputer and to switch on and off operations of the fuel injection valve and the blower;
An alarm unit driver configured to receive a control signal from the microcomputer and to control an on / off operation of the alarm unit by switching operation; And
And a vacuum pump driving unit configured to receive a control signal from the microcomputer and to control the on / off operation of the vacuum pump by switching operation, the driving control method of the negative pressure hot water boiler using the driving control apparatus of the negative pressure hot water boiler,
Number of berries Number of berries in the steam room by the temperature sensor Number of berries in which the temperature is sensed Temperature sensing step;
Determining a number-of-fruits-water temperature that determines whether or not the number-of-fruits-water temperature detected in the number-of-fruits-water temperature sensing step is equal to or less than a first set value;
Operating the boiler drive switch to turn on the boiler drive switch when the sensed heat energy temperature is lower than the first set value in the heat energy temperature determination step;
A first vacuum pressure sensing step of sensing a vacuum pressure of the steam chamber by a vacuum pressure sensor;
A reading step of reading a vacuum pressure reference value and a vacuum pressure target value in accordance with the sensed number-of-fruits water temperature from a fruit-water-temperature-versus-vacuum-pressure reference value and a vacuum pressure target value table based on the fruit- ;
A first vacuum pressure determining step of determining whether the vacuum pressure detected in the first vacuum pressure sensing step is equal to or less than the vacuum pressure reference value;
An alarm part operation step of turning on the alarm part for a set time if the sensed vacuum pressure is below the vacuum pressure reference value in the first vacuum pressure determination step;
A vacuum pressure raising step for raising the vacuum pressure of the steam chamber by turning on the vacuum pump;
A second vacuum pressure sensing step of sensing a vacuum pressure of the steam chamber by the vacuum pressure sensor;
A second vacuum pressure determination step of determining whether the vacuum pressure sensed in the second vacuum pressure sensing step is the vacuum pressure target value; And
And a vacuum pump-off operation step in which, when the detected vacuum pressure is the vacuum pressure target value in the second vacuum pressure determining step, the vacuum pump is turned off and then the heating water temperature sensing step is performed. . 5. The method of claim 4,
And if the sensed heat energy number is greater than the first predetermined value in the heat energy temperature determination step, the process proceeds to the heat energy temperature sensing step. 5. The method of claim 4,
And if the detected vacuum pressure is greater than the vacuum pressure reference value in the first vacuum pressure determination step, the flow proceeds to the temperature sensing step of the boiling water temperature. 5. The method of claim 4,
And in the second vacuum pressure determination step, if the detected vacuum pressure is not the vacuum pressure target value, the process proceeds to the vacuum pressure rising step. 5. The method of claim 4,
The driving control device of the negative pressure type hot water boiler is capable of wirelessly communicating with the microcomputer and is capable of monitoring the time trend value of the vacuum pressure and the hot water temperature sensed by the vacuum pressure sensor and the hot water temperature sensor, Further comprising the stored mobile terminal. 5. The method of claim 4,
Wherein the vacuum pressure sensor is a 4 to 20 mA vacuum pressure sensor.

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