KR20070032563A - System and Method For Heating Control - Google Patents

Abstract

Heating control system and method are provided to enhance the driving efficiency of a boiler by flowing necessary quantity of flow to keep the present recycling temperature of heating water. A heating control system comprises a first temperature sensor(12) sensing the supply temperature of heating water in the heating space; a second temperature sensor(16) detecting the recycling temperature of heating water in the heating space; a flow rate controller(18) controlling the recycling quantity of heating water in the heating space; a key input unit inputting the necessary temperature difference to obtain a set value of the recycling temperature; and a controller regulating the flow rate controller to conform the recycling temperature of heating water sensed by the second temperature sensor with the set value of the recycling temperature computed by deducting the temperature difference from the supplying temperature, and controlling the flow rate controller to guide the necessary quantity of flow to flow a heating water recycling pipe(20) so as to keep the recycling temperature when the sensed recycling temperature of heating water conforms with the set value of recycling temperature.

Description

Heating Control System and Heating Control {System and Method For Heating Control}

1 is an exemplary pipe structure for explaining a heating water circulation structure of a general gas boiler;

2 is an exemplary view showing the configuration of a heating control system according to an embodiment of the present invention,

Figure 3 is an exemplary view of the appearance of the heating water recovery pipe for the boiler according to an embodiment of the present invention in Figure 2,

4 is a view for explaining the configuration of the flow regulating valve 18b that is driven up and down by the valve driver 18a in the flow regulator 18. As shown in FIG.

<Brief Description of Drawings>

10: heating water distribution pipe 12, 16: temperature sensor

18: flow regulator

18a: valve driving portion 18b: flow control valve

20: heating water recovery pipe 41: through

42: valve body 43: valve rod

The present invention relates to a heating system, and more particularly, to a heating control system and a method of controlling a room temperature in conjunction with a boiler.

In general, a gas boiler for heating and hot water uses gas as a fuel to heat water circulating in the main heat exchanger to circulate the heated water to a heating pipe to obtain a heating output, and to provide a separate hot water heat exchanger. It is to circulate to obtain the hot water output selectively.

In other words, the water heated in the heat exchanger is divided into heating use and hot water use through a hot water circulation circuit so that heat exchange can be selectively performed to serve both heating and hot water use. Various methods have been proposed and used for the hot water circulation circuit of the combined heating and hot water gas boiler, an example of which is shown in FIG. 1.

1 schematically shows a piping structure for circulating the heating water of a gas boiler. When water is replenished in the heating pipe of the gas boiler, the air filled in the heating pipe is connected to the water tank through the heating water return pipe (1). 3) Heated water in the heating pipe 4, which is discharged to the pumping pipe P, and is supplied with a pumping force by driving the circulation pump P, is returned and passed through the heat exchanger 6 heated by the burner 5. After that, the hot water heat exchanger 8 is circulated to the heating pipe 4 through the heating water supply pipe 7 under the guidance of the three-way side 2 to be branched.

A general gas boiler having a piping structure as described above is controlled by a controller built in a control box, which extinguishes a combustion boiler when the room temperature (or the return water temperature of heating water) reaches a set temperature, and then returns to the room temperature ( Alternatively, if the heating water return temperature is lower than the set temperature, the driving is controlled by burning the boiler.

In such a boiler system, the combustion and extinguishing of the boiler occurs according to the change in the room temperature, and thus, the boiler is frequently burned and extinguished according to the temperature change, which is inefficient in fuel consumption and heating efficiency.

Accordingly, an object of the present invention to provide a heating control system that can maximize the boiler operating efficiency by reducing the combustion and digestion of the boiler in controlling the indoor heating temperature,

Furthermore, it is to provide a heating water recovery pipe for a boiler used in a heating control system that can maximize the boiler driving efficiency.

Heating control system according to an embodiment of the present invention for achieving the above object,

A first temperature sensor for sensing a heating water supply temperature of the heating space;

A second temperature sensor for sensing a heating water return temperature of the heating space;

A flow rate controller for adjusting a heating water return amount of the heating space;

A key input unit for inputting a temperature difference [Delta] T necessary to obtain a return temperature set value;

The flow controller is controlled so that the heating water return temperature detected by the second temperature sensor is equal to the return temperature set value calculated by subtracting the temperature difference ΔT from the supply temperature, and the detected heating water return temperature is And a controller for controlling the flow controller so that the flow rate required to maintain the return temperature flows through the heating water return pipe if it matches the return temperature set value.

According to the embodiment of the present invention, after setting the heating water return temperature by inputting the temperature difference (ΔT) necessary to maintain the heating water supply temperature and the heating water return temperature to maintain the ideal temperature difference (10 degrees to 15 degrees) In order to achieve the ideal heating operation by controlling the heating water flow rate so that the set heating water return temperature and the heating water return temperature led through the sensing unit coincide.

The foregoing and further aspects of the present invention will become more apparent through preferred embodiments to be practiced with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail to enable those skilled in the art to easily understand and reproduce the present invention.

2 is an exemplary view showing the configuration of a heating control system according to an embodiment of the present invention. The heating control system according to the present invention is a heating water distribution pipe 10 for connecting the heating water supply pipe 7 with the indoor heating pipe and a heating water recovery pipe 20 for connecting the indoor heating pipe with the heating water return pipe 1. A system comprising: at least one first temperature sensor 12 for detecting a heating water supply temperature of the heating space, and at least one second temperature sensor 16 for detecting a heating water return temperature of the heating space. ), A plurality of flow controllers 18 for adjusting the amount of return water for each heating space, a key input for setting a temperature difference ΔT between the supply temperature of the heating water and the return temperature of the heating water, and a second temperature detection. The flow controller controls the flow controller so that the heating water return temperature detected by the sensor 16 matches the heating water return temperature set value calculated by subtracting the temperature difference ΔT from the heating water supply temperature. Sensed heating And if the water return temperature and the heating water return temperature set point coincide (or fall within an error range), a controller for controlling the flow controller to flow the heating water return pipe to maintain the set point. The controller and the key input unit are included in the room temperature controller 14.

For reference, the first temperature sensor 12 detects the heating water supply temperature of the heating space and transmits the value to the room temperature controller 14. In one embodiment, the first temperature sensor 12 is mounted to the heating water distribution pipe 10, as shown in Figure 3, it is mounted to each of the distribution port is connected to the indoor heating pipe. 2 illustrates a case where the first temperature sensor 12 is mounted in each distribution port. In another embodiment, the first temperature sensor 12 may be mounted only on the heating water supply pipe 7.

The second temperature sensor 16 detects the heating water return temperature of the heating space and transmits the temperature to the room temperature controller 14. The second temperature sensor 16 is mounted to the heating water recovery pipe 20, as shown in Figure 3, it is mounted to each recovery port to which the indoor heating pipe is connected. FIG. 2 illustrates a case in which the second temperature sensor 16 is mounted only in one recovery port of the recovery pipe 20. In the embodiment of the present invention, the largest room is set as the reference room. The second water temperature sensor 16 located in the recovery port connected to the heating pipe of the room is used to check the heating water return temperature.

On the other hand, a flow controller 18 for controlling the amount of heating water return flowing through each indoor heating pipe is also mounted to the heating water recovery pipe 20 as shown in FIG. One or more such flow regulators 18 may be installed depending on the number of indoor heating pipes connected to the recovery port, that is, the number of spaces to be heated.

The above-described flow regulator 18 may be divided into a valve driving unit 18a and a flow regulating valve 18b. The flow regulator 18 may use a heating valve disclosed in Korean Patent Application No. 10-2003-6714 filed by the applicant of the present application, more specifically, as shown in Figure 4 and the heating water inlet 44 The through hole 41 for communicating the heating water outlet 45, the valve rod 43 which flows up and down in the inward direction from the outside of the body, and is coupled to the end of the valve rod 43 to open and close the through hole 41 The valve rod 43 is caused to flow up and down by a motor driven under the control of a controller included in the valve body 42 and a controller included in the room temperature controller 14 and by driving the motor. A valve drive 18a comprising gears.

In addition to the above-described flow regulator 18, the heating control system according to an embodiment of the present invention is a heating water return for detecting the return amount of the heating water flowing through the heating water return pipe 1 (or introduced into the heating water return pipe). The apparatus may further include a quantity detector 22. The heating water return amount detecting unit 22 is mounted on the heating water supply outlet side of the heating water return pipe 20 as shown in FIG. 3, and is provided to the heating water flowing out of the heating water return pipe 1. A propeller 24 which rotates by a propeller, a rotating shaft connected to the propeller 24, a magnet 28 mounted on a predetermined portion of the propeller 24, and a magnet which rotates together by the rotation of the propeller 24. And a Hall sensor 26 mounted at a position capable of sensing the magnetic field of 28.

In FIG. 3, the heating water return amount detecting unit 22 is installed at the heating water outlet side of the heating water return pipe 20, but the heating water of the heating water return pipe 1 and the heating water recovery pipe 20 are illustrated. It may be implemented in a configuration that is coupled as a separate member between the outlet side.

Hereinafter, the operation of the heating control system having the above-described configuration will be described in detail. In the following description, it is assumed that the supply temperature of the heating water supplied to the heating space is 80 ° C and the temperature difference ΔT is 15 ° C. This heating water supply temperature may vary depending on the season.

First, as a first step, a boiler builder or a boiler user inputs a temperature difference ΔT necessary for calculating a heating water return temperature set value through a key input unit to a controller through a key input unit provided in the indoor temperature controller 14.

The temperature difference ΔT is a value required to set the heating water return temperature as mentioned above. According to an experiment, heating efficiency and energy are maintained when the heating water supply temperature and the heating water return temperature maintain a difference of 10 ° C to 15 ° C. The efficiency was found to be the best. Thus, in the embodiment of the present invention, in order to maintain the difference between the heating water supply temperature and the heating water return temperature is 10 ℃ to 15 ℃, the user inputs the temperature difference (ΔT) value in advance to induce efficient heating is achieved. There are features of it.

When the temperature difference ΔT is input by the user or the like, the controller returns the heating water by subtracting the temperature difference ΔT from the heating water supply temperature read through the first temperature sensor 12 corresponding to the sensing unit as a second step. Calculate the temperature setpoint. In the embodiment of the present invention, since the supply temperature of the heating water is assumed to be 80 ° C. and the temperature difference ΔT is 15 ° C., the heating water return temperature setting value will be 65 ° C.

When the heating water return temperature setting value is calculated, the controller adjusts the flow rate control unit so that the heating water return completion rate read through the second temperature sensor 16 matches the heating water return temperature setting value (or within an error range) as a third step. (18).

If the room temperature rises due to the control of the flow regulator 18, and thus the heating water return temperature also rises to coincide with (or within an error range of) the heating water return temperature setting, the controller may adjust the temperature as a fourth step. The flow regulator 18 is controlled so that only the flow rate necessary to maintain flows through the heating water return tube. At this time, the flow rate required to maintain the heating water return temperature set value will have a flow rate value less than the maximum heating water return amount in the case of district heating, and in the case of individual heating has a value larger than the minimum return amount required for boiler operation. Will have to be set. In addition, the flow rate required to maintain the heating water return temperature set point should be obtained by experiment and stored in the internal memory of the controller in advance, and the values will have different values according to the heating water return temperature set point.

As described above, when the heating water return temperature is set using the temperature difference ΔT input by the user, the flow rate controller 18 may flow the heating water return pipe 1 so that the flow rate required to maintain the heating water return temperature is maintained. As a result, the return temperature of the heating water is continuously maintained within a certain range without significant increase and decrease, and the room temperature is also gradually increased.

Therefore, the present invention has the effect of blocking unnecessary waste of starting energy in advance in comparison with a general boiler system that controls the operation of the boiler by comparing only the heating water return temperature with the target value without controlling the flow rate of the heating water. The invention is to obtain a result that the boiler driving efficiency is increased.

As described above, in the present invention, the heating water return temperature is set based on the temperature difference ΔT information input by the user, and when the actual heating water return temperature reaches the set heating water return temperature, only the flow rate required to maintain the temperature is shown. The flow of the boiler keeps the current of the heating water return temperature constant, which keeps the boiler running. In other words, compared to the heating control system of the general boiler that controls the operation of the boiler by simply comparing the heating water return temperature with the target value without controlling the flow rate of the heating water, it has the effect of preventing unnecessary waste of starting energy in advance. As a result, the boiler driving efficiency is increased.

Although the present invention has been described with reference to the preferred embodiments described with reference to the accompanying drawings, it is not limited thereto, and various modifications may be made without departing from the spirit of the present invention. Accordingly, the invention should be construed by the appended claims, which are intended to cover such obvious variations.

Claims (6)

In the heating control system, A first temperature sensor for sensing a heating water supply temperature of the heating space; A second temperature sensor for sensing a heating water return temperature of the heating space; A flow rate controller for adjusting a heating water return amount of the heating space; A key input unit for inputting a temperature difference [Delta] T necessary to obtain a return temperature set value; The flow controller is controlled so that the heating water return temperature detected by the second temperature sensor is equal to the return temperature set value calculated by subtracting the temperature difference ΔT from the supply temperature, and the detected heating water return temperature is And a controller for controlling the flow controller so that the flow rate required to maintain the return temperature is in line with the return temperature set value if the flow rate is maintained. The method of claim 1, wherein the controller is: And controlling the flow controller so that a flow rate less than the maximum heating water return amount is maintained to maintain the return temperature set point. The heating control of claim 1, wherein the controller controls the flow rate to be greater than at least the set minimum amount of return water for controlling the flow controller so that the flow rate required to maintain the return temperature set value flows. system. The heating control system according to claim 1, wherein the temperature difference ΔT has a value between 10 ° C. and 15 ° C. 5. 4. The controller according to any one of claims 1 to 3, wherein the controller stores a value of a flow rate necessary for maintaining the return temperature set point in an internal memory, and the value of the flow rate is different depending on the return temperature set point. Heating control system, characterized in that having. Receiving a temperature difference ΔT necessary to calculate a heating water return temperature set value; Calculating a heating water return temperature set value by subtracting the temperature difference ΔT from the heating water supply temperature read through the sensing unit; Controlling the flow controller so that the heating water return completion rate read through the sensing unit matches the heating water return temperature setting value; And controlling the flow controller so that the flow rate required to maintain the temperature flows through the heating water return pipe when the heating water return completion rate coincides with the heating water return temperature setting value.

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