KR20190047166A - Method for controlling heating to deviation by controlling to redemption temperature - Google Patents

Abstract

The present invention relates to a method for controlling a deviation heating by controlling a redemption temperature. According to the present invention, the method for controlling the deviation heating by controlling the redemption temperature comprises: a first step of collecting a heating water redemption temperature of a main heating pipe installed by corresponding to a main heating district mainly used by a resident, and collecting a heating water redemption temperature of an auxiliary heating pipe installed by corresponding to an auxiliary heating district used by the resident temporarily; a second step of receiving an input of a target temperature of the set main heating district in accordance with a key operation by a user; a third step of calculating a flow rate of the set main heating district corresponding to a difference value between the heating water redemption temperature of the main heating district and the target temperature; a fourth step of calculating a temperature deviation value between a set required heating input quantity and the set main/auxiliary heating districts, which correspond to the difference value between the heating water redemption temperature of the main heating district and the target temperature, and a flow rate in the auxiliary heating district in accordance with an area ration between the set main/auxiliary heating districts and a compensation coefficient rate of a pipe length ratio; and a fifth step of supplying heating water differently for each of the main/auxiliary heating districts in accordance with the calculated flow rate. The present invention is able to, when heating a house for different heating districts, provide an efficient, easy construction system, to reduce an error rate, to prevent energy from being wasted, and to satisfy thermal comfort.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for controlling heating of a vehicle,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of controlling heating by controlling a temperature of a circulating water for individual heating used in an apartment such as a Korean region.

Unless otherwise indicated herein, the contents set forth in this section are not prior art to the claims of this application and are not to be construed as prior art to be included in this section.

Generally, floor heating heating system is used for heating of houses. In this type of heating system, a heating pipe is installed in a space to be heated, a control valve for controlling the amount of heating water flowing through the heating pipe, It is possible to install a controllable thermostat in parallel.

In recent years, there has been a demand for a method of heating the respective heating zones differently according to the purpose of use of the heating zone or the warmth feeling of the occupant.

In order to satisfy such a demand, the above-mentioned systems should be installed separately for each heating zone, so that the object can be achieved. This is complicated due to complicated construction, troublesome construction cost increases, and relatively high system failure rate due to complicated system construction. In addition, when each heating zone is constructed by one system in order to save the construction cost, there is a problem in that it does not satisfy the needs of the residents by supplying more energy than necessary to the less used heating zone, hindering the warm feeling of energy wasting and heating .

It is an object of the present invention to provide an efficient and easy construction system and a variation heating control method by reducing the failure occurrence rate, preventing energy waste, and warming comfort when the house is heated in different heating zones.

In the deviation heating control method according to the embodiment,

Each room is divided into a main heating area, which is mainly occupied by residents, and a subordinate heating area, which is temporarily used by residents. Then, at the time of heating, the flow rate of the main heating zone is calculated corresponding to the temperature difference between the main heating zone heating water and the target temperature. The dependent heating zone flow rate is the temperature deviation value between the set required heating input heat corresponding to the main heating zone heating water return water temperature and the target temperature difference value, the temperature deviation value between the set main / subordinate heating zone, the area ratio between the set main / Non-compensating coefficient ratio. Thus, the heating water is supplied through this.

Embodiments provide an efficient and easy construction system. And, by lowering the failure rate and reaching the temperature that the residents are satisfied with, it achieves saving, satisfying the feeling of warmth comfort, and saving energy.

1 is a view showing a system configuration to which a deviation heating control method based on a water temperature control according to an embodiment is applied;
FIG. 2 is a flow chart showing an operation of the deviation heating control method according to an embodiment,

FIG. 1 is a diagram illustrating a system configuration using a deviation heating control method according to an embodiment of the present invention.

As shown in FIG. 1, the system according to an embodiment includes heating water temperature sensors 101-1 and 101-2 in a main heating zone and a dependent heating zone, a target temperature controller 102 in a main heating zone, And includes a flow control unit 103 and flow control valves 104-1 and 104-2 for each heating zone and a dependent heating zone.

The temperature sensors 101-1 and 101-2 are installed at one end of each heating pipe according to a main heating zone mainly used by a resident and a dependent heating zone temporarily used by a resident, will be. The main heating zone is, for example, a bed where the bed is located and the dependent heating zone is where the bed is not located.

The temperature controller 102 sets the target temperature of the main heating zone according to the user's key operation. This temperature regulator 102 is installed only in the main heating zone, for example, and is electrically connected to the temperature sensors 101-1 and 101-2 of the main heating pipe and the subsidiary heating pipe and the temperature regulator 102, Set the target temperature of the heating zone.

The control unit 103 calculates the set main heating zone flow rate corresponding to the temperature difference between the main heating zone water heating water and the target temperature. Also, the control unit 103 calculates the temperature difference between the main heating zone water and the target temperature. Therefore, the control unit 103 determines whether or not the dependent heating value corresponding to the difference between the set required heating heat input amount corresponding to the difference value and the temperature deviation value between the set main / dependent heating zone, the area ratio between the set main / Calculate the area flow rate.

Under the control of the control unit 103, the control valves 104-1 and 104-2 adjust the opening degree in accordance with the calculated flow rate, so that the heating water flowing into each heating pipe differently for each main / .

FIG. 2 is a flowchart sequentially showing the operation of the deviation heating control method by the water temperature control according to the embodiment.

As shown in FIG. 2, in the differential heating control method according to the present embodiment, first, the temperature of heating water of the main heating pipe installed in correspondence with the main heating zone, (S201), the heating water return temperature of the subordinate heating pipe installed in correspondence with the subordinate heating zone temporarily used by the resident.

Then, the target temperature of the set main heating zone according to the user key operation is inputted (S202).

Next, the main heating zone flow rate corresponding to the main heating zone water heating water temperature and the target temperature difference value is calculated (S203).

Further, a temperature deviation value between the set required heating heat input amount corresponding to the main heating zone water heating water recirculation water temperature and the target temperature difference value, an area ratio between the set main / dependent heating zone and the pipe length ratio compensation coefficient ratio (S204). ≪ / RTI >

More specifically, the flow rate of the dependent heating zone is calculated according to the following formula 1.

[Formula 1]

Dependent heating zone operation flow rate = (flow maximum value - flow minimum value) * (correction factor * temperature deviation value coefficient * required heating heat input coefficient) + flow minimum value

Here, the correction coefficient is a value obtained by calculating the area ratio ^ (X) * offset as a percentage, and the offset is the factor for converting the area ratio into the unit of the flow dimension according to the consideration of the volume effect

For example, the ratio of the area ratio ^ (X) considering the volume effect is determined by weighting the required heat quantity for operation in the heating operation of only a certain area according to the change of the simultaneous use rate for each zone.

In this case, the area ratio is a total area of heating / total heating area, and X is a variable corresponding to a certain range in inverse proportion to the simultaneous use rate of each zone.

That is, considering the volume effect, the amount of heat required for operation of only a part of the area is increased.

More specifically, the amount of heat per unit area during heating operation of only a partial area is higher than the amount of heat per unit area during heating operation of the whole of the room.

Therefore, the amount of heat is weighted by considering the volume effect according to the formula of the cubic knoving with respect to the area ratio as compared with the heating operation of the whole room.

Specifically, a calorie weighting ratio of the area ratio ^ (X) considering the volume effect of the portion to be heated depending on the simultaneous use rate of each zone is mapped and stored in a table as a correction coefficient calculated as a percentage. Here, X is a variable according to the simultaneous use rate of each room,

Specifically, a correction coefficient, which is calculated as a percentage of the calorie weighting ratio of the area ratio ^ (X) in consideration of the volume effect of the portion to be heated according to the simultaneous use rate of each zone, by a table is mapped to the simultaneous use rate of each zone do.

The amount of heat required for heating operation of only a part of the zones is corrected by using a correction coefficient corresponding to the simultaneous use ratio of each zone at the time of partial zone heating operation.

In determining these correction factors, the correction factor should be lowered if the ratio of the chambers that are in operation in each zone is high. On the other hand, if the concurrent use rate is low, the correction coefficient is increased.

In this case, the higher the correction coefficient, the lower the simultaneous use rate of each zone, and the other zone is cooled, so that additional heat loss occurs. Therefore, the correction factor is determined to be higher when the concurrent usage rate is lower.

In addition, the correction coefficient is additionally controlled in association with the simultaneous use rate of each zone in which the user sets and uses the actual use and, if necessary, the heating corresponding to the user set heating information.

Therefore, when the required heat quantity is calculated at the heating operation for only a part of the zones as described above, the dependent heating zone operation flow rate is calculated according to the following expression (2).

[Formula 2]

Dependent heating zone operation flow rate = (flow maximum value - flow minimum value) * (correction factor * temperature deviation value coefficient * required heating heat input coefficient) + flow minimum value

Here, the correction coefficient is a value obtained by calculating the area ratio ^ (X) * offset as a percentage, and the offset is the factor for converting the area ratio into the unit of the flow dimension according to the consideration of the volume effect

Then, the heating water is supplied differently for the main / dependent heating zone according to the calculated flow rate (S205).

This allows the occupant to control the temperature of the desired zone.

As described above, one embodiment separates each room into a main heating zone, which is mainly used by occupants, and a subordinate heating zone, which the resident uses temporarily. Then, at the time of heating, the flow rate of the main heating zone is calculated corresponding to the temperature difference between the main heating zone heating water and the target temperature. The dependent heating zone flow rate is the temperature deviation value between the set required heating input heat corresponding to the main heating zone heating water return water temperature and the target temperature difference value, the temperature deviation value between the set main / subordinate heating zone, the area ratio between the set main / So as to provide an efficient and easy construction system by supplying the heating water through this. And, by lowering the failure rate and reaching the temperature that the residents are satisfied with, it achieves saving, satisfying the feeling of warmth comfort, and saving energy.

Description of the Related Art [0002]
101-1, 101-2: Temperature sensor 102: Temperature controller
103: Control section 104-1, 104-2:

Claims (2)

A system that collects the heating water return temperature of the main heating piping installed in response to the main heating area that is mainly used by residents and collects the heating water return temperature of the dependent heating piping installed in response to the dependent heating area temporarily occupied by the occupants Stage 1;
A second step of inputting a target temperature of the main heating zone in accordance with the user key operation;
A third step of calculating a preset main heating zone flow rate corresponding to the temperature difference between the main heating zone heating water and the target temperature;
The temperature difference value between the set main heating / subordinate heating zone and the set required heating input amount corresponding to the main heating zone water heating water temperature and the target temperature difference value, the area ratio between the set main / subordinate heating zone and the pipe length ratio, A fourth step of calculating the dependent heating zone flow rate; And
And a fifth step of supplying heating water differently for each of the main / dependent heating zones according to the calculated flow rate. The method according to claim 1,
In the fourth step,
Wherein the dependent heating zone flow rate is calculated in accordance with the following expression (3).
[Formula 3]
Dependent heating zone operation flow rate = (flow maximum value - flow minimum value) * (correction factor * temperature deviation value coefficient * required heating heat input coefficient) + flow minimum value
Here, the correction coefficient is a value obtained by calculating the area ratio ^ (X) * offset as a percentage, and the offset is the factor for converting the area ratio into the unit of the flow dimension according to the consideration of the volume effect

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