KR100937987B1 - Underfloor heating system - Google Patents

Abstract

The present invention relates to an ondol heating system for maintaining a room at a temperature desired by a user, and more particularly, comprising: first heat generating means for heating a portion of a floor surface; Second heat generating means for heating a portion other than a portion of the bottom surface and generating heat lower than the first heat generating means; A first temperature sensor measuring a temperature of a portion of the bottom surface; A second temperature sensor measuring a temperature of the remaining portion of the bottom surface; A third temperature sensor measuring an air temperature of the upper layer part of the bottom surface; A thermostat capable of entering a desired temperature; And a control unit for adjusting the heating degree of the first heat generating means and the second heat generating means by comparing a temperature obtained from the first, second and third temperature sensors with a desired temperature.

First heat generating means, second heat generating means, first, second and third temperature sensors, control unit

Description

Underfloor heating system

The present invention relates to an ondol heating system, and more particularly, to an ondol heating system for heating the floor surface differentially to maintain a comfortable room.

A general ondol heating system is a heating system that warms the air in the upper layer as it heats the floor and makes people in the room feel warm. In particular, the ondol heating system ensures thermal comfort by keeping the average radiation temperature higher than the temperature by increasing the temperature of the floor surface when it is difficult to maintain proper room temperature due to excessive heat loss through the wall and heat loss due to gap wind. It is a heating method. The superiority of Ondol heating has been outstanding in traditional Hanok or conventional houses with low insulation performance and high breathability. Recently, the principle of heating such as Ondol is used in large spaces and indoor swimming pools that are difficult to solve by general convection.

However, in the recent housing, especially apartment buildings, which have excellent insulation and airtightness, there is little difference between the average radiation temperature and the indoor air temperature, which makes it difficult to find comfort in traditional ondol heating. That is, when the outside air temperature is 0 ~ -10 ℃, if the floor temperature is maintained at 32 ℃, which is comfortable for people to feel, the indoor air temperature rises to 24 ℃ ~ 28 ℃, you can not feel comfortable, the indoor air temperature If it is lowered to 22 ° C, which is comfortable for a person to feel, the temperature of the floor is lowered to 25.5-29.5 ° C, and the person sitting on the floor feels uncomfortable.

That is, in the conventional ondol heating system 100, as shown in FIG. 1, although the heating pipe 110 is spread over the entire floor surface and uses the heating system to cover the indoor air by warming the entire floor surface, In this way, there is a problem that it is difficult to maintain a comfortable indoor temperature of 22 ℃ while maintaining a comfortable temperature 32 ℃ that a person can feel on the floor.

In addition, in the prior art, only the air temperature of the room can be adjusted only through the temperature controller attached to the room, and there is a problem that it is difficult to adjust the temperature of the bottom surface separately because the temperature of the bottom surface cannot be adjusted separately.

The present invention was created in order to solve the above-described problems, it is possible to achieve the air temperature of the floor surface and the room to the user's desired comfort temperature, as well as the ondol heating system that can adjust the floor and room air temperature separately It aims to provide.

The ondol heating system of the present invention for solving the above problems, the ondol heating system for maintaining the room at a temperature desired by the user, the first heat generating means for heating a portion of the bottom surface; Second heat generating means for heating a portion other than a portion of the bottom surface and generating heat lower than the first heat generating means; A first temperature sensor measuring a temperature of a portion of the bottom surface; A second temperature sensor measuring a temperature of the remaining portion of the bottom surface; A third temperature sensor measuring an air temperature of the upper layer part of the bottom surface; A thermostat capable of entering a desired temperature; And a control unit for adjusting the degree of heating of the first heat generating means and the second heat generating means by comparing a temperature obtained from the first, second and third temperature sensors with a desired temperature.

In the ondol heating system, an area ratio of a portion of the bottom surface and the remaining portion of the bottom surface is preferably a ratio of 2-4: 6-8.

In the ondol heating system, the temperature controller includes a first input unit for setting a portion of the bottom surface to a desired temperature,

The control unit adjusts the remaining portion of the bottom surface and the air temperature according to a preset calculation value according to the temperature value input to the first input unit, and according to the adjusted value, the first heat generating means and the second heat generating means. It is preferable to adjust the degree of heating.

In the temperature heating system, the temperature controller includes a second input unit for setting the remaining portion of the bottom surface to a desired temperature, wherein the control unit is a portion of the bottom surface in accordance with the temperature value input to the second input unit; Preferably, the air temperature is adjusted in accordance with a predetermined calculated value, and the heating degree of the first heat generating means and the second heat generating means is adjusted in accordance with the adjusted value.

In the ondol heating system, the temperature controller includes a third input unit configured to set the air temperature to a desired temperature, and the control unit includes a portion of the bottom surface and the bottom surface according to a temperature value input to the third input unit. It is preferable to adjust the temperature of the remainder of the according to a preset calculation value and to adjust the heating degree of the first heat generating means and the second heat generating means in accordance with the adjusted value.

In the ondol heating system, the temperature controller includes a first input unit for setting a temperature of a portion of the bottom surface; A second input unit for setting a temperature of the remaining portion of the bottom surface; A third input unit configured to set the air temperature; A first automatic mode unit for automatically adjusting the temperature of the remaining part of the bottom surface and the air temperature when the temperature of the first input unit is set; A second automatic mode unit configured to automatically adjust a portion of the bottom surface and the air temperature constantly when the temperature of the second input unit is set; And a third automatic mode unit configured to automatically set a temperature of a portion of the bottom surface and the remaining portion of the bottom surface when the temperature of the third input unit is set.

The controller controls the degree of heating of the first heat generating means and the second heat generating means when the temperature setting of any one of the first, second and third input units and the first, second and third automatic mode units are selected. It is desirable to adjust.

In the ondol heating system, the temperature controller further includes a manual mode unit for manually setting the temperature of the first, second and third input units, and the control unit sets the temperature of the first, second and third input units. And adjusting the degree of heating of the first heat generating means and the second heat generating means in accordance with the selection of the manual mode portion.

In the ondol heating system, the control unit is such that the temperature difference between the portion of the bottom surface and the remaining portion of the bottom surface is preferably maintained below 10 ℃.

In the ondol heating system, the temperature difference is preferably in the range of 4 ~ 5 ℃.

In the ondol heating system, when the air temperature is 24 ~ 25 ℃, the temperature of a part of the bottom surface is in the range of 31 ~ 35 ℃, the temperature of the rest of the bottom surface is in the range of 27 ~ 30 ℃. desirable.

In the ondol heating system, the first heat generating means and the second heat generating means are preferably heat generated by water or electricity.

The ondol heating system of the present invention described above has a plurality of heat generating means capable of differentially heating the bottom surface, and has an advantage of allowing the floor surface and air temperature to be a comfortable temperature desired by the user.

In addition, the ondol heating system of the present invention has the advantage of being able to adjust the temperature of the air temperature and the bottom surface individually, to easily match the temperature of the desired floor or air.

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

2 is a schematic plan view of the ondol heating system according to the present embodiment, FIG. 3 is a schematic side view of the ondol heating system of FIG. 2, and FIG. 4 is a block diagram showing an electrical configuration of the ondol heating system according to the present embodiment. 5 is a view showing a temperature controller of the ondol heating system according to the present embodiment.

The ondol heating system according to the present embodiment is for maintaining each partitioned room or each office space at a desired temperature, and specifically, divides the bottom surface of each room into two parts and allows different heating piping to circulate for each part. This allows the concept of "top neck" and "bottom neck" used in older dwellings to be applied. That is, a part of the bottom surface corresponding to the "lower neck" is heated warmly, and the remainder of the bottom surface corresponding to the "top neck" is maintained at a lower temperature than a part of the floor surface, so that the air inside the room is naturally By circulating convection, the air in the room can be maintained to the degree of comfort desired by the user. That is, the lower neck is warm, and the upper part of the lower neck is characterized in that the air can be maintained at a temperature enough for the user to feel comfortable.

Such an ondol heating system according to the present embodiment can be used in both a hot water heating system using water and an electric heating system using electricity. Hereinafter, the hot water heating system will be mainly described.

First, the system using hot water in the ondol heating system 1 according to the present embodiment, as shown in Figures 2 to 5, the first and second heat generating means (10.11) and the first, second and third temperature sensors ( 20.21.22, a temperature controller 30, and a controller 40.

In addition, in the ondol heating system 1 according to the present embodiment, a boiler for heating the heating water, a distributor for distributing the heating water supplied from each boiler to each heating pipe, a control valve for adjusting the flow rate of the heating water, from the boiler Supply pipes for allowing the heated heating water to be supplied to the room or office, and a return pipe for returning the heating water deprived of the heat in the room or office, but may be included, but is a technique employed in the general ondol heating system (1) The illustration of the structure and the detailed description thereof will be omitted.

In the present embodiment, the first and second heat generating means 10.11 are first and second heating pipes circulating the bottom surface of the room. Specifically, the heating water supplied from the boiler circulates inside the heating pipe, thereby generating heat to the outside.

The first heat generating means 10 is configured to heat a portion 50 of the bottom surface. Specifically, the first heating pipe 10 is configured to heat the portion 50 of the bottom surface while circulating the heating water supplied from the boiler. do. A portion 50 of the bottom surface through which the first heat generating means 10 passes becomes a portion corresponding to the "lower neck" in the traditional house.

The second heat generating means 11 is to heat the remaining portion 60 of the bottom surface other than the portion 50 of the bottom surface, specifically, the inside of the second heating pipe while circulating the heating water supplied from the boiler And to heat the remainder 60 of the face. The second heat generating means 11 is such that the amount of heating water supplied from the boiler is supplied so that the heat generated lower than the first heat generating means (10). That is, the first heating pipe and the second heating pipe are connected to the boiler through different supply pipes and return pipes, and by adjusting the opening and closing degree of each control valve provided therebetween, The amount will be adjusted. The remaining part 60 of the bottom surface through which the second heat generating means 11 passes becomes a part corresponding to the "top neck" in the traditional house. On the other hand, the temperature difference between the portion 40 of the bottom surface heated from the first heat generating means 10 and the second heat generating means 11 and the remaining portion 50 of the bottom surface to maintain a range within 10 ℃ It is preferable to maintain the range of 4-5 degreeC more preferably. The reason why the temperature difference between the portion 50 of each bottom surface and the remaining portion 60 of the bottom surface is maintained in a constant range is that when a temperature difference of 10 ° C. or more occurs, the user may be offended. . In addition, it was shown that keeping the range of 4-5 degreeC among them gives the most comfortable feeling.

On the other hand, the area ratio of the portion 50 of the bottom surface and the remaining portion 60 of the bottom surface occupied by the first heat generating means 10 and the second heat generating means 11 is approximately 2-4: 6-8. It is preferable to occupy a ratio, More preferably, it is 3: 7. The reason for changing the area ratio in this way is to make the air convection easily occur. That is, as a result of the applicant's experiment, the convection of air is best when the area ratio of the warm portion (part 50 of the bottom surface) and the cold portion (the rest 60 of the bottom surface) is about 3: 7. It appeared to occur well and the air temperature was maintained at an appropriate level.

The first, second and third temperature sensors 20.21.22 are means for measuring the bottom surface and the air temperature. Specifically, the first temperature sensor 20 is for measuring the temperature of the portion 50 of the bottom surface, the second temperature sensor 21 is for measuring the temperature of the remaining portion 60 of the bottom surface , The third temperature sensor 22 is for measuring the air temperature of the upper layer of the bottom surface. The first and second temperature sensors 20.21.22 may be directly installed on the bottom surface, or may be installed on the return pipe. However, for accurate temperature control, it is preferable to be installed in the return pipe rather than being installed directly on the floor. This is because, in the case of the bottom surface, the temperature may appear differently depending on the position where the temperature sensor is installed. In addition, the third temperature sensor 22 is preferably installed inside the temperature controller 30 installed on the side wall of the room, but may also be installed on the side wall of the room. Meanwhile, the first, second and third temperature sensors 20.21.22 may be used as long as the temperature sensor used in the general ondol heating system 1 will be omitted.

The temperature controller 30 may input a temperature, and may individually input a portion 50 of the bottom surface, the remaining portion 60 of the bottom surface, and the air temperature to a desired value according to a user's manipulation. Specifically, the first input unit 31, which can be set so that the portion 50 of the bottom surface is a desired temperature, the second input unit 32, which can be set so that the remaining portion 60 of the bottom surface is the desired temperature, and the air temperature And a third input unit 33 which can be set to be as desired.

In addition, the first, second, and third automatic mode units 34, 35, and 36 and the manual mode unit 37 are included. The first automatic mode unit 34 is a button for automatically determining the remaining temperature when the user specifies only the temperature of the portion 50 of the bottom surface. Specifically, the button of the first automatic mode unit 34. After pressing and setting the temperature of the portion 50 of the bottom surface through the first input unit 31 as desired, the remaining portion 60 and the air temperature of the bottom surface are pre-calculated temperatures for the user to feel optimal comfort. Can be set automatically.

In addition, the second automatic mode unit 35 is a button for automatically determining the remaining temperature when the user specifies only the temperature of the remaining portion 60 of the bottom surface, specifically, the second automatic mode unit 35. After pressing the button and setting the temperature of the remaining portion 60 of the bottom surface through the second input unit 32, the remaining temperature can be automatically determined.

In addition, the third automatic mode unit 36 is a button for automatically determining the remaining temperature when the user specifies the air temperature. Specifically, after pressing the button of the third automatic mode unit 36, the third input unit Setting the air temperature through (33) allows the remaining temperature to be automatically determined.

The manual mode unit 37 allows the temperature of the first, second, and third input units 31, 32, and 33 to be set manually, respectively. , 3 If the temperature of the input unit 31, 32, 33 is set manually, each floor surface and air temperature can maintain the set temperature.

The controller 40 adjusts the degree of heating of the first and second heat generating means 10.11 by comparing the temperature obtained from the first, second and third temperature sensors 20.21.22 with a desired temperature. The control valve adjusts the heating degree of the first and second heat generating means (10.11) by controlling the opening and closing amount of the control valve for adjusting the flow rate of the heating water supplied from the boiler. That is, the control unit 40, as shown in Figure 4, using the data obtained from the first, second, third temperature sensor (20.21.22) and the temperature controller 30, the first, second heat generating means (10.11) It serves to control.

Specifically, when the first automatic mode unit 34 is selected in the temperature controller 30, and a predetermined temperature is set in the first input unit 31, the remaining portion 60 and the air temperature of the bottom surface are preset values. It adjusts to an optimum state according to, and performs a function which opens and closes a control valve according to the adjusted value. At this time, when the temperature of the portion 50 of the bottom surface is set within the range of 31 ~ 35 ℃, the temperature of the bottom surface is automatically adjusted within the range of 27 ~ 30 ℃, the air temperature is automatically adjusted to about 24 ~ 25 ℃ It is preferable to be. The temperature is an example of the most preferable temperature as the temperature that generally makes the user feel the most comfortable, but it is also possible to have a temperature range other than.

On the other hand, when the second automatic mode unit 35 is selected in the temperature controller 30 and the predetermined temperature is set in the second input unit 32, the portion 50 of the bottom surface and the air temperature are set in accordance with a preset calculation value. The amount of opening and closing of the control valve may be adjusted according to the adjusted value so that the heating degree of the first and second heat generating means 10.11 may be adjusted. In addition, when the third automatic mode unit 36 is selected in the temperature controller 30 and a predetermined temperature is set in the third input unit 33, the temperature of the portion 50 and the remaining portion 60 of the bottom surface is previously determined. It is adjusted in accordance with the set calculation value, the opening and closing amount of the control valve is adjusted in accordance with the adjusted value can be adjusted the heating degree of the first and second heat generating means (10.11).

The operation of this embodiment having such a configuration is as follows.

When the user selects the first automatic mode unit 34 through the temperature controller 30 and sets a predetermined temperature in the first input unit 31, the remaining portion 60 and the air temperature of the bottom surface are increased as described above. It is set automatically, and the control part 40 controls a control valve accordingly, and adjusts the heating degree of the 1st, 2nd heat generating means 10.11. If the user inputs a temperature of approximately 32 ° through the first input unit 31, the remaining portion 60 of the bottom portion is also adjusted to approximately 28 ° C (this temperature is one embodiment, so a different temperature may be specified). The air temperature is adjusted to about 24 ° C.

At this time, the control unit 40 compares the temperature obtained by the temperature measured by the first, second and third temperature sensors 20.21.22 and the temperature of the temperature controller 30, and the first and second heat generating means 10.11. To adjust the heating level. Accordingly, when the temperature of the portion 50 of the bottom surface and the remaining portion 60 of the bottom surface is heated to a desired degree, as shown in FIG. 3, the air warmed from the portion 50 of the bottom surface rises along the ceiling. The cooled and cooled air descends again toward the remainder 60 of the bottom surface, and the lowered air moves along the floor to warm up at the portion 50 of the bottom surface and repeats the air convection process of rising again. . By the convection of air, the air temperature is maintained at about 24 ° C. at which the user feels the most comfortable.

On the other hand, when the temperature of the air is lower than the 24 ° C by the third temperature sensor 22 because the external temperature is low, the control unit 40 is modified to increase the temperature of the remaining portion 60 of the predetermined bottom surface Ensure that the air temperature is maintained properly. In addition, when the temperature of the air is measured to be higher than 24 ° C. due to the high external temperature, the temperature of the remaining part 60 of the predetermined bottom surface is lowered so that the overall air temperature can be properly maintained.

Meanwhile, when the user selects the second automatic mode and sets the second input unit 32, and when the user sets the third automatic mode and sets the third input unit 33 proceeds similarly to the above-described operation, I will skip the description.

As described above, according to the present embodiment, the temperature of the floor surface on which the user is seated can be maintained at the warmth feeling the most comfort while the air temperature has the effect of maintaining the degree of comfort.

In addition, the degree of comfort can be different for each user, and for this purpose, by providing a separate manual mode and to set the temperature of the bottom surface, the temperature of the rest of the floor, and the air temperature separately, anyone can It has the effect of setting the desired air temperature and floor temperature appropriately.

Although the preferred embodiment of the present invention has been described above, the present invention may be modified as follows.

For example, in the above-described embodiment, the temperature controller includes the first, second and third automatic mode parts, the manual mode part, and the first, second and third input parts, but the first, second and third auto mode parts are described. And the manual mode unit is not provided to the temperature controller, and only one of the first, second, and third input units may be provided to the temperature controller. At this time, the remaining temperature will be adjusted automatically according to the preset calculation.

In addition, only the first, second and third automatic mode parts and the first, second and third input parts without the manual mode part are included in the temperature controller, or only the first, second and third input parts without the first, second and third auto mode parts are provided. It is also possible to set each temperature manually. Other combinations of configurations are possible.

In addition, in the above-described embodiment, the configuration in which the first and second heat generating means are provided is described. In addition, the third heat generating means and a plurality of other heat generating means may be provided.

In addition, in the above-described embodiment, a system for heating by water, that is, heating water, has been mainly described, but it has already been described that it can be used for a system for heating using electricity. In this case, the first heat generating means uses a first heating wire heated by electricity, and the second heat generating means uses a second heating wire heated by electricity, and other electricity supply means and a control unit are used as the first heat generating means. It may be connected to the heating wire and the second heating wire.

Although the present invention has been described in detail with reference to embodiments and various modifications, the present invention is not necessarily limited to these embodiments and modifications, and various modifications may be made without departing from the spirit of the present invention. Can be.

1 is a heating system according to the prior art.

2 is a schematic plan view of an ondol heating system according to the present embodiment

Figure 3 is a schematic side view of the ondol heating system of Figure 2

4 is a block diagram showing the electrical configuration of the ondol heating system according to the present embodiment

5 is a view showing a temperature controller of the ondol heating system according to the present embodiment.

<Detailed Description of Drawings>

1.Heating system 10 ... First heat generating means

11 ... 2nd heat generating means 20 ... 1st temperature sensor

21 ... 2nd temperature sensor 22 ... 3rd temperature sensor

30.Temperature controller 31 ... First input

32 ... second input unit 33 ... third input unit

34 ... 1st automatic mode unit 35 ... 2nd automatic mode unit

36.3rd automatic mode unit 37 ... Manual mode unit

40.Control part 50 ... Part of bottom

60 ... rest of floor

Claims (11)

In the ondol heating system for maintaining the room at the temperature desired by the user, First heat generating means for heating a portion of the bottom surface; Second heat generating means for heating a portion other than a portion of the bottom surface and generating heat lower than the first heat generating means; A first temperature sensor measuring a temperature of a portion of the bottom surface; A second temperature sensor measuring a temperature of the remaining portion of the bottom surface; A third temperature sensor measuring an air temperature of the upper layer part of the bottom surface; A thermostat capable of entering a desired temperature; And And a control unit for adjusting the heating degree of the first heat generating means and the second heat generating means by comparing a temperature obtained from the first, second and third temperature sensors with a desired temperature. The method of claim 1, The area ratio of the portion of the bottom surface and the rest of the bottom surface is an ondol heating system, characterized in that the ratio of 2 ~ 4: 6 ~ 8. The method of claim 1, The temperature controller includes a first input unit for setting a portion of the bottom surface to a desired temperature, The control unit adjusts the remaining portion of the bottom surface and the air temperature according to a preset calculation value according to the temperature value input to the first input unit, and according to the adjusted value, the first heat generating means and the second heat generating means. Ondol heating system, characterized in that for adjusting the degree of heating. The method of claim 1, The temperature controller includes a second input unit for setting the remaining portion of the bottom surface to the desired temperature, The control unit adjusts a portion of the bottom surface and the air temperature according to a preset calculation value according to the temperature value input to the second input unit, and according to the adjusted value of the first heat generating means and the second heat generating means. Ondol heating system, characterized in that for adjusting the degree of heating. The method of claim 1, The temperature controller includes a third input unit for setting the air temperature to a desired temperature, The control unit adjusts the temperature of a portion of the bottom surface and the remainder of the bottom surface according to a preset calculation value according to the temperature value input to the third input unit, and according to the adjusted value, the first heat generating means and the first heat generating means. Ondol heating system, characterized in that for adjusting the heating degree of the heat generating means. The method of claim 1, The temperature controller includes a first input unit for setting a temperature of a portion of the bottom surface; A second input unit for setting a temperature of the remaining portion of the bottom surface; A third input unit configured to set the air temperature; A first automatic mode unit for automatically adjusting the temperature of the remaining part of the bottom surface and the air temperature when the temperature of the first input unit is set; A second automatic mode unit configured to automatically adjust a portion of the bottom surface and the air temperature constantly when the temperature of the second input unit is set; And And a third automatic mode unit configured to automatically set a temperature of a portion of the bottom surface and the remaining portion of the bottom surface when the temperature of the third input unit is set. The control unit adjusts the heating degree of the first and second heat generating means when the temperature setting of any one of the first, second and third input units and the first, second and third automatic mode units are selected. Ondol heating system characterized in that. The method of claim 6, The temperature controller further includes a manual mode unit for manually setting the temperature of the first, second and third input units, respectively. The control unit adjusts the heating degree of the first heat generating means and the second heat generating means according to the temperature setting of the first, second, third input unit and the selection of the manual mode unit. The method according to any one of claims 1 to 7, The control unit ondol heating system of the heating space, characterized in that the temperature difference between the portion of the bottom surface and the remaining portion of the bottom surface to be maintained below 10 ℃. The method of claim 8, The temperature difference is ondol heating system, characterized in that the range of 4 ~ 5 ℃. The method of claim 8, When the air temperature is 24 ~ 25 ℃, the temperature of a portion of the bottom surface is in the range of 31 ~ 35 ℃, the temperature of the remaining portion of the bottom surface is 27 ~ 30 ℃ range of ondol heating system . The method of claim 1, Ondol heating system, characterized in that the first heat generating means and the second heat generating means heat is generated by water or electricity.

Images