KR100698577B1 - Room temperature control apparatus for independently controlling the temperature of the upper portion and the lower portion of a room - Google Patents

Abstract

An object of the present invention is to provide an indoor temperature control device that can independently control the temperature of the upper portion and the lower portion of the inner space,

In order to achieve this object, the present invention is a room temperature control device for controlling the temperature of the indoor space by using the working fluid introduced from the outside, the room temperature control device is disposed on the upper and lower sides of the indoor space, respectively And an upper heat exchanger and a lower heat exchanger configured to exchange heat with the upper and lower parts of the indoor space using the working fluid, respectively, and sense the temperature of the upper and lower parts of the indoor space. It provides a room temperature control device having a control device for independently controlling the working fluid flowing into the heat exchange unit.

Description

Room temperature control apparatus for independently controlling the temperature of the upper portion and the lower portion of a room

1 is a temperature distribution diagram schematically showing an example of a temperature distribution according to height when floor heating is performed.

Figure 2 is a block diagram showing the transmission of the electrical signal of the room temperature control apparatus according to an embodiment of the present invention.

3 is a schematic diagram of the room temperature control device of FIG. 2.

4 is a schematic diagram showing the flow of the working fluid and the flow of electrical signals in FIG.

5 is a flowchart illustrating a step of controlling temperatures of an upper portion and a lower portion of an indoor space in the indoor temperature controller of FIG. 2.

Explanation of symbols on the main parts of the drawings

90: indoor space

100: room temperature control unit 110: first temperature detection unit

120: second temperature detection unit 130: control device

131: upper valve 132: lower valve

135: control unit 160: upper heat exchanger

170: lower heat exchanger 173: first piping

174: second piping 178: third piping

179: fourth piping 190: absorption refrigeration unit

The present invention relates to an indoor temperature control device, and more particularly, to an indoor temperature control device capable of independently controlling the temperature of an upper portion and a lower portion of an indoor space.

Referring to FIG. 1, when floor heating such as underfloor heating is performed, an example of a temperature distribution according to height is schematically illustrated. In FIG. 1, the first temperature curve C1 is a temperature distribution according to the height during floor heating, and the second temperature curve C2 is an ideal temperature distribution in consideration of thermal conditions (comfort) of a person located in an indoor space. The first temperature curve C1 and the second temperature curve C2 intersect at the first point P, which is the height of the human knee, and at the position higher than the first point P, the first temperature curve C1. The temperature of the first temperature curve C1 is lower than the temperature of the second temperature curve C2 at a position where the temperature of the temperature is higher than the temperature of the second temperature curve C2 and lower than the first point. Therefore, the occupant living in the room feels chilly in the lower part of the knee, and heat is felt in the head part, and thus the actual comfort falls.

Therefore, while maintaining the advantages of floor heating, a control device that can control the temperature of the indoor space is required to maintain the ideal temperature distribution of the indoor temperature distribution. In particular, in the case of families with students, in order to improve the student's academic achievement, it is required to maintain a comfortable temperature conditions, the above room temperature control device is further required.

SUMMARY OF THE INVENTION An object of the present invention is to provide an indoor temperature control device capable of independently controlling the temperatures of the upper and lower portions of an indoor space.

In order to achieve the above object and other objects, the present invention is a room temperature control device for controlling the temperature of the indoor space using the working fluid flowing from the outside, the indoor temperature control device, the upper side of the indoor space And an upper side heat exchanger and a lower side heat exchanger, respectively disposed at the lower side and heat-exchanging with the upper portion and the lower portion of the indoor space using the working fluid, and sensing the temperature of the upper portion and the lower portion of the indoor space. It provides an indoor temperature control device having a control device for independently controlling the working fluid flowing into the upper heat exchanger and the lower heat exchanger.

In the present invention, the control device is an upper temperature sensing unit and a lower temperature sensing unit for sensing the temperature of the upper portion and the lower portion of the indoor space, the temperature received from the upper temperature detector and the lower temperature detector and the preset temperature A controller for comparing a temperature and outputting a predetermined electric signal, and an upper valve and a lower valve for simultaneously controlling the temperature or flow rate of the working fluid flowing into the upper heat exchange part and the lower heat exchange part or the temperature and the flow rate respectively according to the electrical signal. It is preferable to provide. At this time, it is preferable that the upper valve and the lower valve control the temperature by mixing the high temperature working fluid and the low temperature working fluid independently introduced from the outside, respectively. In addition, the high temperature working fluid and the low temperature working fluid supplied to the upper valve and the lower valve are preferably supplied using an absorption refrigeration apparatus.

In the present invention, the upper heat exchanger is disposed on the ceiling portion of the indoor space, the lower heat exchanger is preferably disposed on the bottom portion of the indoor space.

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

2 and 3, an indoor temperature control apparatus 100 according to an embodiment of the present invention is shown. 2 is a block diagram showing the transmission of an electrical signal of the room temperature control apparatus 100, and FIG. 3 is a schematic diagram of the room temperature control apparatus 100. As shown in FIG.

Room temperature control apparatus 100 according to an embodiment of the present invention is largely provided with an upper heat exchanger 160, a lower heat exchanger 170, the control device 130.

The upper heat exchanger 160 controls the temperature of the upper portion 91 of the indoor space by exchanging heat with air in the upper portion 91 of the indoor space by using the working fluid introduced from the first pipe 173. The upper heat exchanger 160 is disposed above the ceiling 90a or embedded in the ceiling wall.

As shown in FIG. 2, the upper heat exchanger 160 extends from the first pipe 173, includes a pipe 160a having a predetermined outer diameter, and is disposed on the pipe 160a to increase a heat transfer area. It may be further provided with a pin disposed in and having a predetermined shape. However, for the heating of a general room, it is preferable to use the pipe itself in terms of cost. In addition, the upper heat exchanger 160 may be formed using various materials, but is preferably formed using a copper tube or a plastic hose.

The working fluid introduced into the upper heat exchanger 160 through the first pipe 173 flows out through the second pipe 174 after heat exchange.

In addition, the lower heat exchanger 170 is disposed for temperature control of the indoor lower space 92. In the lower heat exchanger 170, the working fluid introduced from the third pipe 178 exchanges heat with air in the indoor lower space 92, thereby controlling the temperature of the indoor lower space 92. In this embodiment, the lower heat exchanger 170 is buried under the bottom 90b and includes a pipe 170a having a predetermined outer diameter. Similar to the upper heat exchanger 160, the lower heat exchanger 170 may further include fins having a predetermined shape to increase the heat exchange area. The working fluid introduced into the lower heat exchanger 170 through the third pipe 178 is discharged to the outside through the fourth pipe 179 after heat exchange.

The controller 130 that independently controls the flow rate and / or temperature of the working fluid supplied to the upper heat exchanger 160 and the lower heat exchanger 170 is largely the control unit 135, the upper valve 131, and the lower side. The valve 132, the first temperature sensing unit 110 and the second temperature sensing unit 120 are provided.

The controller 130 compares the temperature input from the first temperature sensing unit 110 disposed in the upper space 91 of the room with the preset temperature, and uses the upper valve 131 to the upper heat exchanger 160. Control the flow rate and / or temperature of the working fluid supplied. This will be described in more detail as follows.

First, the first temperature sensing unit 110 is disposed on the side of the upper space 91, preferably on the wall surface corresponding to the head position of the person using the space. The first temperature detection unit 110 is a component for measuring the temperature of the room using a thermocouple, etc., various types of thermometers may be used. The controller 135 includes a microprocessor 135 that compares an electrical signal of a temperature output from the first temperature detector 110 with a preset value, and a memory unit 136 that stores setting data. In addition, the display apparatus may further include a user input unit 137 that may change setting values by the user.

The controller compares the temperature of the indoor upper space 91 with the preset temperature and outputs a predetermined electrical signal to the upper valve 131. The inlet side of the upper valve 131 is connected to the high temperature working fluid pipe 171 and the low temperature working fluid pipe 172 respectively independently introduced from the absorption type refrigeration unit 190, and the outlet side of the upper valve is connected to the upper heat exchanger. It is connected to the first pipe 173 connected to the unit 160, the opening degree of the first valve 173 is adjusted by the electrical signal output from the control unit 135, flows to the first pipe 173 Control the temperature and / or flow rate of the working fluid. The temperature and / or flow rate control of the working fluid can be performed by using a high temperature working fluid and a low temperature working fluid by using independent valves, but using a single valve to promote efficient use of the indoor space and to reduce costs. It is preferable to control by. In addition, in the present embodiment, since only a low temperature working fluid can be sent to the upper heat exchanger 160, not only heating but also cooling is possible.

If the pressure of the high temperature working fluid and the low temperature working fluid flowing from the absorption refrigeration apparatus is not sufficient, a separate pressure pump may be further installed on the first pipe. In addition, various fluids may be used as the working fluid, but water is preferably used.

In addition, the controller 135 compares the temperature input from the second temperature sensing unit 120 disposed in the lower portion 92 of the indoor space with a preset temperature, and uses the lower valve 132 to exchange the lower heat exchanger. The flow rate and / or temperature of the working fluid supplied to 170 is controlled. That is, the second temperature sensing unit 120 is disposed on the side of the lower space 92, preferably on the wall surface corresponding to the foot position of the person using the space. In the present embodiment, the control unit 135 receives the temperature from the first temperature sensing unit 110 and the second temperature sensing unit 120, respectively, to control the upper valve 131 and the lower valve 132, respectively. do. However, the present invention is not limited thereto, and may include a controller that controls the temperature of the upper space 91 and a controller that controls the temperature of the lower space 92 independently. However, when the number of controllers is increased, there is an advantage that the independent controllability is increased, but the overall cost is increased.

Similar to the upper valve 131, the inlet side of the lower valve 132 is connected to the high temperature working fluid pipe 176 and the low temperature working fluid pipe 177 which are respectively independently introduced from the absorption type refrigeration apparatus 190. Is connected, the outlet side is connected to the third pipe 178 is connected to the lower heat exchange unit 170. The lower valve 170 controls the temperature by controlling the relative ratio of the high temperature working fluid and the low temperature working fluid, controls the flow rate of the mixed working fluid, or simultaneously controls the temperature and the flow rate. In addition, in the present embodiment, since only a low temperature working fluid can be sent to the lower heat exchanger 170, not only heating but also cooling is possible.

As described above, the high temperature working fluid and the low temperature working fluid flowing into the room temperature control apparatus 100 according to the embodiment of the present invention are supplied by the absorption refrigeration apparatus 190. In general, the absorption refrigeration unit is used in large-scale air conditioning equipment, such as a large building, in this embodiment, a small absorption refrigeration unit for home can be used. The domestic absorption refrigeration unit 190 is preferably a gas boiler as a heat source. A single-effect type or two-stage effective absorption type refrigeration apparatus may be used, and low temperature water of about 11 ° C. and high temperature water of 35 ° C. may be manufactured and supplied by the domestic absorption refrigeration apparatus. Absorption refrigeration equipment for home use, compared to the package air conditioner with outdoor unit, the noise is low, and the gas is used as a heat source is excellent energy efficiency. In addition, it has the advantage that both cold water and hot water can be produced regardless of the season.

4 and 5, let's look at the control method in the room temperature control apparatus 100 according to an embodiment of the present invention. 4 shows the flow of the working fluid and the flow of the control signal, and FIG. 5 is a flowchart of the control method.

First, when the indoor temperature control device 100 is operated (step S10), the first temperature sensing unit 110 and the second temperature sensing unit 120 are the air temperature of the upper space 91 and the lower space 92, respectively Measure (step S21, step S22). Then, the upper space air temperature is compared with the preset upper space air temperature (step S31), and the lower space air temperature is compared with the preset lower space air temperature (step S32). If the upper space air temperature is different from the preset value, the temperature and / or flow rate of the upper valve is controlled to change the upper space air temperature to match the preset value (step S41). For example, when the temperature of the upper space 91 is lower than the preset value, the temperature or flow rate of the working fluid flowing into the upper heat exchanger 160 is increased, or both the temperature and flow rate are increased. In addition, when the lower space air temperature is different from the preset value, the temperature and / or flow rate of the lower valve is controlled to change the upper space air temperature to match the preset value (step S42).

Thereafter, it is determined whether the indoor temperature control device is stopped (step S50). Although not shown in FIG. 5, the user may change the upper space temperature setting value and the lower space temperature setting value at any time by using the user input unit 138 during the operation of the indoor temperature controller.

Since the indoor temperature control apparatus according to the present invention can independently control the upper portion and the lower portion of the indoor space, it is possible to control the temperature according to the height of the indoor space. Therefore, temperature control is possible to maximize the comfort of the occupants. In particular, it is possible to create a temperature distribution of Duhan fever that keeps the foot of the occupant warm and the head cold.

In particular, since it is possible to manufacture a high temperature working fluid and a low temperature working fluid flowing into the room temperature control device using a small household absorption refrigeration apparatus, the overall energy efficiency is increased.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (5)

delete delete In the room temperature control device for controlling the temperature of the indoor space using the working fluid flowing from the outside, The room temperature control device, An upper heat exchanger and a lower heat exchanger, respectively disposed at an upper side and a lower side of an indoor space, and respectively heat-exchanging with upper and lower portions of the indoor space using the working fluid; And And a controller for sensing a temperature of an upper portion and a lower portion of the indoor space to independently control a working fluid flowing into the upper heat exchanger and the lower heat exchanger. The control device includes an upper temperature sensor and a lower temperature sensor for sensing the temperature of the upper portion and the lower portion of the indoor space; A controller for comparing a temperature received from the upper temperature sensor and the lower temperature sensor with a preset temperature and outputting a predetermined electrical signal; An upper valve and a lower valve configured to simultaneously control the temperature or flow rate of the working fluid flowing into the upper heat exchange part and the lower heat exchange part or the temperature and the flow rate according to the electrical signal, Each of the upper valve and the lower valve controls a temperature by mixing a high temperature working fluid and a low temperature working fluid independently introduced from the outside. The method of claim 3, The high temperature working fluid and the low temperature working fluid supplied to the upper valve and the lower valve are supplied using an absorption refrigeration apparatus. The method of claim 3, And the upper heat exchanger is disposed at a ceiling of the indoor space, and the lower heat exchanger is disposed at a bottom of the indoor space.

Images