KR20180089069A - Air conditioning and heating bed - Google Patents

Abstract

According to one embodiment, a cooling and heating bed can comprise: a frame; and a heat exchanger transferring heat to the frame or receiving the heat from the frame. Moreover, the heat exchanger comprises: a first heat exchanger evaporating a refrigerant circulated in the first heat exchanger to cool air and allowing the cold air to flow into the frame; a second heat exchanger condensing the refrigerant to heat air and allowing the hot air to flow into the frame; and a compressor receiving the refrigerant from the first heat exchanger and the second heat exchanger to compress the refrigerant and transferring the compressed refrigerant to the first heat exchanger and the second heat exchanger.

Description

AIR CONDITIONING AND HEATING BED

Hereinafter, embodiments relate to a heating / cooling bed.

Recently, as people have been interested in health care, beds with heating devices have been developed as one of the bedtime cultures that should rest comfortably after a day's work.

For example, Korean Patent Registration No. 10-0686601 discloses a hot water heating bed using a small electric boiler.

An object of an embodiment is to provide a cooling / heating bed in which a user can comfortably sleep by supplying cooled air or heated air to a frame on which a mattress of a bed is placed.

An air conditioning and heating bed according to one embodiment includes a frame; And a heat exchange unit that transfers heat to the frame or receives heat from the frame, wherein the heat exchange unit evaporates the refrigerant circulated inside and cools the air, and the first heat exchanger ; A second heat exchanger in which the refrigerant circulating inside is condensed and heats the air and heated air flows into the frame; And a compressor that is supplied with refrigerant from the first heat exchanger and the second heat exchanger to compress the refrigerant and transfer the compressed refrigerant to the first heat exchanger and the second heat exchanger.

The heat exchanger may further include a drier installed on a flow path connecting the first heat exchanger and the second heat exchanger and removing moisture from the refrigerant.

The heat exchanging unit may further include a valve disposed between the flow paths connecting the dryer and the compressor and controlling a flow direction of the refrigerant flowing between the dryer and the compressor.

The valve may be controlled to supply the refrigerant supplied from the compressor to the valve in accordance with the cooling mode or the heating mode to the compressor, or to supply the refrigerant to the first heat exchanger or the second heat exchanger.

The heat exchanging unit may further include a pressure sensing member installed on the flow path connecting the compressor and the valve and measuring a pressure of the refrigerant flowing between the compressor and the valve.

The heat exchanging unit is disposed on a flow path connecting the first heat exchanger, the second heat exchanger, and the compressor, and includes a fluid for exchanging a refrigerant flowing between the first heat exchanger, the second heat exchanger, And may further include an expansion member.

The frame may have a plurality of air discharge holes through which air flowing from the first heat exchanger or the second heat exchanger to the frame is discharged to the outside.

The heating and cooling bed may further include a temperature sensing member installed in the frame and sensing a temperature outside the frame to control the operation of the heat exchanging unit.

The heating / cooling bed according to one embodiment can help the user to sleep comfortably.

The cooling / heating bed according to one embodiment can miniaturize the heat exchanger and provide cooling / heating to the frame with less energy.

The effects of the heating and cooling bed according to one embodiment are not limited to those mentioned above, and other effects not mentioned may be clearly understood by those skilled in the art from the following description.

1 is a block diagram schematically showing a configuration of a heating / cooling bed according to an embodiment.
2 is a perspective view schematically showing a heating / cooling bed according to an embodiment.
3 is a circuit diagram schematically showing a heat exchanger according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the embodiments, detailed description of known functions and configurations incorporated herein will be omitted when it may make the best of an understanding clear.

In describing the components of the embodiment, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

The components included in any one embodiment and the components including common functions will be described using the same names in other embodiments. Unless otherwise stated, the description of any one embodiment may be applied to other embodiments, and a detailed description thereof will be omitted in the overlapping scope.

Referring to FIGS. 1 and 2, the heating / cooling bed 1 according to an embodiment may provide cooling or heating to a mattress (not shown) used by a user as a bed. The heating / cooling bed 1 may include a frame 11 and a heat exchanging part 12. [

The frame 11 may be provided with a mattress which the user uses as a bed. The frame 11 may include a body 111, a support 112, and an air vent 113.

The body 111 may have a mattress on its upper surface. An air flow passage (not shown) through which air can flow may be provided inside the body 111. The temperature of the body 111 can be determined according to the temperature of the air flowing into the air flow passage and heat is transferred from the air flowing into the air flow passage to the mattress lying on the body 111 or from the mattress to the air flow passage Heat can be transferred to the flowing air.

The support base 112 can support the body 111. The support 112 is coupled to the underside of the body 111 and can be placed on the ground. The support base 112 may have a shape that widens from the lower surface of the body 111 to which the support base 112 is coupled, toward the ground. A base may be provided under the support 112 for structural stability of the support 112.

The air discharge hole 113 is formed on one side of the body 111 and connected to an air flow passage provided inside the body 111 to discharge air flowing into the air flow passage. According to such a structure, cooled air or heated air can be supplied to the mattress placed on the upper surface of the body 111 through the air vent 113 to provide cooling or heating to the mattress.

The heat exchanging part 12 may heat or cool the air to supply heated air or cooled air to the frame 11. [ The heat exchange unit 12 includes an air transmission passage 120, a first heat exchanger 121, a second heat exchanger 122, a compressor 123, a dryer 124, a valve 125, a fluid expansion member 126, And a pressure sensing member 127.

The air heated in the heat exchanging part 12 or the cooled air can be transferred to the air flow path provided in the frame 11. [ The air transfer passage 120 may be connected to the first heat exchanger 121 and / or the second heat exchanger 122 and may be connected to the first heat exchanger 121 and / or the second heat exchanger 122, And / or the cooled air can be delivered to the frame 11 through a fan (not shown).

The first heat exchanger 121 may include a refrigerant therein. The refrigerant is circulated and the air passing through the first heat exchanger 121 may be cooled by the heat of vaporization during evaporation. The cooled air can be transferred to the frame (11) through the air transmission passage (120).

The second heat exchanger 122 may include a refrigerant therein. The refrigerant is circulated and the air passing through the second heat exchanger 122 may be heated by the condensation heat during the condensation. The heated air can be delivered to the frame 11 through the air transmission passage 120.

The compressor 123 can be supplied with the refrigerant from the first heat exchanger 121 and / or the second heat exchanger 122, and the compressor 123 compresses the supplied refrigerant, and the compressed refrigerant is returned to the first heat exchanger (121) and / or the second heat exchanger (122).

The dryer 124 is installed on the flow path connecting the first heat exchanger 121 and the second heat exchanger 122 and is provided between the first heat exchanger 121, the second heat exchanger 122 and the compressor 123 It is possible to remove the moisture contained in the flowing refrigerant. For example, a silica gel may be provided inside the dryer 124. According to this structure, the moisture contained in the refrigerant flowing between the first heat exchanger 121, the second heat exchanger 122, and the compressor 123 is removed, whereby the first heat exchanger 121, the second heat exchanger It is possible to prevent the flow path between the compressor 122 and the compressor 123 from being cut off.

The valve 125 can control the flow direction of the refrigerant flowing between the dryer 124 and the compressor 123. The valve 125 may be installed on the flow path connecting the dryer 124 and the compressor 123. For example, the valve 125 may be a four-way valve. In this case, the valve 125 is opened and closed by a flow path from the compressor 123 to the valve 125, a flow path from the valve 125 to the compressor 123, and a flow path from the valve 125 to the first heat exchanger 121 And a flow path from the valve 125 to the second heat exchanger 122 may be respectively connected. According to this structure, the valve 125 is opened and closed according to the fluid conditions (for example, pressure, temperature, etc.) of the refrigerant flowing between the first heat exchanger 121, the second heat exchanger 122, The second heat exchanger 122 and the compressor 123 or the direction in which the refrigerant flows from the compressor 123 to the valve 125 to the first heat exchanger 121, the second heat exchanger 122 and the compressor 123, Air heated or cooled from the heat exchange unit 12 to the frame 11 can be selectively supplied according to a predetermined control method.

Specifically, in the cooling mode, the valve 125 can supply the compressed refrigerant, which is conveyed from the compressor 123 to the valve 125, to the first heat exchanger 121. In the heating mode, the valve 125 may supply the compressed refrigerant delivered from the compressor 123 to the valve 125 to the second heat exchanger 122. In addition, the valve 125 can supply the refrigerant evaporated or condensed from the first heat exchanger 121 and the second heat exchanger 122 and supply the refrigerant to the compressor 123 to change the refrigerant into a high pressure state. The valve 125 may also deliver the refrigerant back to the compressor 125 if the compressed refrigerant delivered from the compressor 125 to the valve 125 does not meet a predetermined fluid condition.

The fluid expansion member 126 can throttle the refrigerant flowing between the first heat exchanger 121, the second heat exchanger 122 and the compressor 123. For example, the fluid expansion member 126 may be an expansion valve that reduces the pressure of the refrigerant in a high-temperature and high-pressure state, which is condensed and liquefied in the second heat exchanger 122, to a pressure capable of causing evaporation by throttling action. In this case, the fluid expanding member 126 may supply the first heat exchanger 121 with an appropriate amount of the refrigerant so that the first heat exchanger 121 can sufficiently absorb heat from the refrigerant. For this purpose, the fluid expanding member 126 may be installed on the flow path connecting the first heat exchanger 121, the second heat exchanger 122, and the compressor 123.

The pressure sensing member 127 is capable of measuring the pressure of the refrigerant flowing between the compressor 123 and the valve 125. For example, the pressure sensing member 127 may be a fluid pressure sensor that measures the pressure of the flowing fluid. The pressure sensing member 127 includes a first pressure sensing element 127a mounted on the flow path leading from the valve 125 to the compressor 123 and a second pressure sensing element 127b mounted on the flow path from the compressor 123 to the valve 125. [ And may include a pressure sensing element 127b. By controlling the direction of the refrigerant flowing into or out of the valve 125 by measuring the pressure of the refrigerant flowing between the compressor 123 and the valve 125 in real time, It is possible to provide cooling or heating to the frame 11 according to the circumstances.

The heating / cooling bed 1 may further include a temperature sensing member (not shown). The temperature sensing member can measure the ambient temperature of the frame 11 and can control the operation of the heat exchanger 12 according to the measured temperature. Specifically, the temperature of the air flowing from the heat exchange unit 12 to the frame 11 can be controlled by controlling the operation of the heat exchange unit 12 according to a predetermined control method according to the temperature of the temperature sensing member. For example, if the ambient temperature of the frame 11 is lowered by the temperature sensing member, the heated air from the heat exchange unit 12 to the frame 11 can flow. According to such a structure, the cooling / heating bed 1 can automatically provide a comfortable sleeping environment to the user in accordance with the environment of the user.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

1: Air-conditioner bed
11: Frame
12: Heat exchanger
121: first heat exchanger
122: second heat exchanger
123: Compressor

Claims (8)

frame; And
And a heat exchange unit for transferring heat to or from the frame,
The heat-
A first heat exchanger in which refrigerant circulating inside evaporates and cools the air and cooled air flows to the frame;
A second heat exchanger in which the refrigerant circulating inside is condensed and heats the air and heated air flows into the frame; And
And a compressor which is supplied with the refrigerant from the first heat exchanger and the second heat exchanger to compress the refrigerant and deliver the compressed refrigerant to the first heat exchanger and the second heat exchanger. The method according to claim 1,
Wherein the heat exchanger further comprises a dryer installed on a flow path connecting the first heat exchanger and the second heat exchanger and removing moisture from the refrigerant. 3. The method of claim 2,
Wherein the heat exchanger further comprises a valve disposed on a flow path connecting the dryer and the compressor and controlling a flow direction of the refrigerant flowing between the dryer and the compressor. The method of claim 3,
Wherein the valve is controlled to supply the refrigerant supplied from the compressor to the valve in accordance with the cooling mode or the heating mode to the compressor or to supply the refrigerant to the first heat exchanger or the second heat exchanger. The method of claim 3,
Wherein the heat exchanger further comprises a pressure sensing member installed on a flow path connecting the compressor and the valve and measuring a pressure of the refrigerant flowing between the compressor and the valve. The method according to claim 1,
The heat exchanging unit is disposed on a flow path connecting the first heat exchanger, the second heat exchanger, and the compressor, and includes a fluid for exchanging a refrigerant flowing between the first heat exchanger, the second heat exchanger, The heating / cooling bed further comprising an expansion member. The method according to claim 1,
Wherein the frame has a plurality of air discharge holes through which air flowing from the first heat exchanger or the second heat exchanger to the frame is discharged to the outside. The method according to claim 1,
And a temperature sensing member installed in the frame and sensing a temperature outside the frame to control operation of the heat exchanging unit.

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