KR101577054B1 - Warm or cool water supplying unit with dehumidification function - Google Patents

Abstract

The present invention relates to a cold / hot water supply unit having a dehumidifying function, comprising: a housing provided with first and second flow spaces therein; and both side surfaces opposed to each other by a power source applied from a power supply unit are heated and cooled, At least one thermoelectric element provided inside the housing so as to be exposed to the first flow space and the second flow space, a heat exchange unit installed at one side of both sides of the thermoelectric element to exchange heat between either side of the thermoelectric element and the heat medium, And an outside air circulation unit installed in the housing and circulating outside air to the first and second flow spaces so as to dehumidify the outside air and discharging the outside air to the outside of the housing.
The cold / hot water supply unit having a dehumidifying function according to the present invention separates and separates the moisture contained in the outside air by passing both sides of the thermoelectric element that cools or generates the outside air, so that a separate dehumidifier is not required for controlling the humidity, Can be saved.

Description

[0001] The present invention relates to a cold / hot water supplying unit having a dehumidifying function,

The present invention relates to a cold / hot water supply unit having a dehumidifying function, and more particularly, to a cold / hot water supply unit having a dehumidifying function for heating or cooling a heating medium using a thermoelectric element and dehumidifying ambient air.

In general, bedding mats using hot water are heated by a heater in a water storage tank of a boiler using a portable boiler composed of a main body, a water storage tank, a hot water circulation pump, and a heater, and circulating hot water through a circulation pump If the temperature of the hot water in the water storage tank is lower than the preset heating temperature after a predetermined time has elapsed, So that the heating temperature can be kept constant by repeating the process of heating the hot water while the power supply is restarted. This is because when the water in the water storage tank is heated by the heater located in the water storage tank of the boiler, the hot water is circulated through the hose of the mat by the circulation pump to release heat, The high temperature water is used for heating the mat, so that it is used to solve the problems of the conventional electric mat, that is, the risk of harmful electromagnetic wave emission, fire due to electric hot wire, and electric shock.

However, the mat for bedding using the hot water having the above-mentioned structure is constructed such that when the heater is overheated by supplying power to the heater in a state where the water in the water storage tank of the boiler is insufficient, or by the high temperature heat of the heater and hot water, Electrical components in the main body are overheated, which not only lowers the durability of the boiler but also poses a risk of safety accidents such as short circuit and fire. Korean Patent Registration No. 10-0769694 discloses a cold / hot water circulating apparatus using a thermoelectric element.

Wherein the cold / hot water circulation device circulates and supplies water formed by heating water injected into a water storage tank of a main body to a water circulation passage inside a mat for bedding connected with a connection hose through a mat circulation pump, A thermoelectric element provided on the bottom surface for converting electric energy into thermal energy to heat and cool the water injected into the water storage tank; and a cooling / heating device installed on the top surface of the thermoelectric element, A cold and warm transfer plate for transferring water into the tank; A heat sink circulation pump installed in the water storage tank on the other side of the mat circulation pump for circulating water injected into the water storage tank to the water circulation passage of the heat sink; A connection hose for connecting the water circulation passage of the heat sink to the heat sink circulation pump, and a fan installed on the heat sink for discharging heat from the heat sink and heat inside the body through the through hole of the body .

However, since the cold / hot water circulating apparatus does not have a separate dehumidifying unit for cooling and heating, it is difficult to control the humidity of the installation target space, and a separate dehumidifier is required for dehumidification.

It is an object of the present invention to provide a cold / hot water supply unit having a dehumidifying function so as to cool or heat a heating medium as well as to adjust the humidity of a space to be installed.

In order to achieve the above object, according to the present invention, there is provided a cold / hot water supply unit having a dehumidifying function, comprising: a housing provided with first and second flow spaces therein; and both side surfaces opposed to each other are heated and cooled by a power source At least one thermoelectric element provided on the inside of the housing so that both side surfaces are respectively exposed in the first and second flow spaces; and at least one side surface of the thermoelectric element, And an outside air circulation unit installed in the housing and circulating outside air to the first and second flow spaces so as to dehumidify the outside air and discharging the outside air to the outside of the housing.

Wherein the heat exchange unit comprises: a storage tank installed in the housing so as to be in contact with any one side surface of the thermoelectric element, the storage tank having a storage space for storing the heating medium therein; And a heat medium circulation unit for discharging the heat medium to the outside or supplying the heat medium to the accommodation space.

The heat exchanging unit may further include a first radiating fin formed on one side of one side of the thermoelectric element and a second radiating fin formed on the other side of the heat exchanger to be drawn into the storage tank.

The heat exchange unit may further include a second radiating fin installed on an outer circumferential surface of the storage tank so as to expand the thermal contact area of the storage tank with respect to the outside air introduced into the housing.

On the other hand, the cold / hot water supply unit having a dehumidifying function according to the present invention is installed in the housing at a position spaced apart from the thermoelectric element in the direction crossing the flow direction of the ambient air, And at least one auxiliary thermoelectric element provided on both sides of the first and second flow spaces, both side surfaces of which are opposed to each other to be heated and cooled, and which are independently operated on the thermoelectric elements.

The cold / hot water supply unit having a dehumidifying function according to the present invention is installed on both side surfaces of the auxiliary thermoelectric element, and the other side is protruded from the auxiliary thermoelectric element so as to extend the contact area with the outside air drawn into the housing. And further includes a plurality of third radiating fins formed to be flat.

Wherein the housing is provided with a communication path with both ends communicating with the first and second flow spaces, an outside air inlet is provided to communicate with any one of the first and second flow spaces, and the first and second The air circulation unit is installed in the housing and has a blowing fan for forcibly blowing the outside air so that the outside air flows through the outside air inlet and is discharged through the outside air outlet. .

On the other hand, the cold / hot water supply unit having a dehumidifying function according to the present invention is installed in a space in which one side of the thermoelectric element cooled by the power source among the first and second flow spaces is exposed, And a condensed water container provided with an internal space for receiving the condensed water cooled by the thermoelectric element and condensed therein.

The communication path is formed at a position spaced upward from the outside air outlet and the outside air inlet so that the outside air flowing into the inside of the housing can be raised and lowered.

The cold / hot water supply unit having a dehumidifying function according to the present invention separates and separates the moisture contained in the outside air by passing both sides of the thermoelectric element that cools or generates the outside air, so that a separate dehumidifier is not required for controlling the humidity, Can be saved.

1 is a perspective view of a cold / hot water supply unit having a dehumidifying function according to an embodiment of the present invention,
FIG. 2 is a sectional view of the cold / hot water supply unit having the dehumidifying function of FIG. 1,
3 is a perspective view of a cold / hot water supply unit having a dehumidifying function according to another embodiment of the present invention,
FIG. 4 is a plan sectional view of the cold / hot water supply unit having the dehumidifying function of FIG. 3,
5 is a side sectional view of the cold / hot water supply unit having the dehumidifying function of FIG.

Hereinafter, a cold-on supplying unit having a dehumidifying function according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, a cold-on supplying unit 100 having a dehumidifying function according to an embodiment of the present invention will be described in more detail.

Referring to FIG. 1, a cold water supply unit 100 having a dehumidifying function includes a housing 110 having first and second flow spaces 111 and 112 therein, and two side surfaces opposed to each other by a power source At least one thermoelectric element 120 installed inside the housing 110 such that both sides thereof are exposed and exposed to the first and second flow spaces 111 and 112 and at least one of both sides of the thermoelectric element 120 A heat exchange unit 130 installed on one side of the housing 110 for exchanging heat between any one side surface of the thermoelectric element 120 and the heating medium; And an outside air circulation unit 140 circulating outside air into the flow spaces 111 and 112 and discharging the outside air to the outside of the housing 110.

The housing 110 is formed with first and second flow spaces 111 and 112 partitioned by barrier ribs 114 therein. The housing 110 includes a communication passage 113 through which the first and second flow spaces 111 and 112 are sequentially arranged in the forward and backward directions and both ends thereof communicate with the upper portions of the first and second flow spaces 111 and 112 Respectively. The communication path 113 is formed to be convexly curved upward so that the outside air can easily flow.

The housing 110 is formed at its rear surface with an outside air inlet through which the outside air can flow into the second flow space 112 and has an outside air outlet for discharging air from the first flowing space 111 to the outside . At this time, it is preferable that the outside air inlet and the outside air outlet are formed to be located below the communication passage 113.

A plurality of thermoelectric elements 120 are installed on the barrier ribs 114 so that their front and rear surfaces are exposed to the first and second flow spaces 111 and 112, respectively. The thermoelectric element 120 may also be referred to as a Peltier element. When two different N and P type semiconductors are connected in series, current flows through the junction of the two metals to generate heat at the junction or to absorb the peltier effect ). This can generate heat or absorb heat according to the current direction, and the amount of heat and heat absorbed can be controlled according to the amount of current. That is, when a current is flowed in one direction, the rear surface radiates heat to perform a heating action, and the front surface absorbs heat to perform a cooling function. On the other hand, when a current is flowed in a reverse direction, there is a characteristic that the surface emitting and absorbing heat is changed.

The heat exchanging unit 130 includes a storage tank 131 installed in the housing 110 to contact the front surface of the thermoelectric element 120 and having an accommodation space for accommodating the heating medium therein, And a heating medium circulation unit 132 installed in the accommodation space for discharging the heating medium to the outside or supplying the heating medium to the accommodation space.

The storage tank 131 is formed to have an area corresponding to the partition wall 114, and an accommodation space in which the heat medium is accommodated is provided. It is preferable that the storage tank 131 is formed on the front surface of the partition wall 114 and is formed of a metallic material having an excellent thermal conductivity. In the illustrated example, the storage tank 131 is installed on the front surface of the partition wall 114. However, the storage tank 131 is not limited to the illustrated example but may be installed on the rear surface of the partition wall 114 .

The heating medium circulation unit 132 supplies the heating medium stored in the storage tank 131 to a heat exchange object (not shown) or the heating medium discharged from the heat exchange object into the storage tank 131. The heating medium circulation unit 132 includes first and second circulation pipes 133 and 134 connected to the storage tank 131 and the heat exchange object at both ends thereof and a first circulation pipe 133 and a second circulation pipe 133 installed in the first circulation pipe 133, And a supply pump 135 for pumping the heat medium to supply heat to the heat exchange object. It is preferable that the end of the first circulation pipe 133 connected to the storage tank 131 is installed above the end of the second circulation pipe 134 connected to the storage tank 131. At this time, the object to be heat-exchanged may be any mechanism that performs heat exchange with a high-temperature or low-temperature heat medium including a heating means such as a mat provided with a flow path through which the heat medium flows.

The heat exchange unit 130 includes a first radiating fin 136 installed on the front surface of the thermoelectric transducer 120 and a second radiating fin 136 formed on the other side of the heat exchanging unit 130 so as to be drawn into the storage tank 131, And a second radiating fin 137 installed on an outer circumferential surface of the storage tank 131 so as to enlarge a thermal contact area of the storage tank 131 with respect to the introduced outside air. The first and second radiating fins 136 and 137 are formed of a metallic material having excellent thermal conductivity. The second radiating fins 137 are installed on the front surface of the storage tank 131 exposed in the first flow space 111 and are formed to protrude forward with respect to the storage tank 131.

The outside air circulation unit 140 includes a plurality of blowing fans 141 installed in the housing 110 for forcibly blowing the outside air so that outside air flows through the outside air inlet and is discharged through the outside air outlet. Each of the blowing fans 141 is installed in the second flow space 112 of the housing 110 so as to communicate with the outside air inlet, and has a cross flow fan structure. In the illustrated example, the structure in which the blowing fan 141 is installed in the second flow space 112 has been described. However, the installation position of the blowing fan 141 is not limited to the illustrated example, As shown in FIG.

On the other hand, the cold / hot water supply unit 100 having a dehumidifying function according to the present invention is installed in the first flow space 111, and the moisture contained in the ambient air is cooled and condensed by the other side of the thermoelectric element 120 And a condensed water container 150 having an internal space for receiving condensed water.

The condensate container 150 is installed in the first flow space 111 below the storage tank 131 and has an inflow hopper installed on the upper surface thereof so that condensed water can be easily introduced into the internal space. The inflow hopper is formed such that its upper surface covers the first flow space 111 and the lower portion of the storage tank 131. Although not shown in the drawing, the rear end portion is formed so as to communicate with the second flow space 112 desirable. At this time, the front surface of the housing 110 is formed with a discharge port for drawing the condensate container 150 into and out of the housing 110.

The supply unit 100 having a dehumidifying function according to the present invention further includes an auxiliary radiating fin 138 installed on the front surface of the thermoelectric element 120. [ The auxiliary radiating fin 138 is formed of a metallic material having excellent thermal conductivity and is formed such that an end thereof protrudes inside the second flow space 112. The auxiliary radiating fin 138 expands the heat-contact area with the outside air flowing into the second flow space 112 to enhance heat transfer efficiency.

When the heating medium is cooled, a current is applied to the thermoelectric element 120 so that the front surface of the thermoelectric element 120 is cooled. When the heating medium is heated, the current is applied to the thermoelectric element 120 in the reverse direction . At this time, when the outside air introduced through the outside air inlet port is condensed in the first and second flow spaces 111 and 112, the moisture is condensed and separated from the outside air, so that the humidity around the housing 110 is lowered.

The cold / hot water supply unit 100 having the dehumidification function according to the present invention configured as described above passes through both sides of the thermoelectric element 120 that cools or generates the outside air, condenses and separates the moisture contained in the outside air, And there is no need of a separate dehumidifier to save installation and maintenance costs.

3 to 5 show a cold / hot water supply unit 200 having a dehumidifying function according to another embodiment of the present invention.

Elements having the same functions as those in the previous drawings are denoted by the same reference numerals.

Referring to the drawings, a cold / hot water supply unit 200 having a dehumidifying function is installed in the housing 210 at a position spaced apart from the thermoelectric element 120 in a direction crossing the flow direction of the ambient air, At least one auxiliary thermoelectric element 221 installed on both sides of the first and second flow spaces 111 and 112 so that both side surfaces thereof are heated and cooled by the power supplied from the power supply unit and both sides thereof are respectively exposed in the first and second flow spaces 111 and 112, And a plurality of third radiating fins 222 protruding from the auxiliary thermoelectric element 221 so as to extend the contact area with the outside air drawn into the housing 210. [ ).

At this time, the housing 210 is provided with an outside air inlet and an outside air outlet at the lower portion of the front and rear sides, and a single blower fan 141 is installed in the second flow space 112 adjacent to the outside air inlet. Also, the outside air discharge port is formed on the front surface of the housing 210 facing the third radiating fin 222.

The blowing fan 141 is preferably formed as a cross flow fan structure. In addition, the condensate container 150 is installed in the first flow space 111 on the lower side of the outside air outlet, and has a top surface opened. Guide fins 211 are provided on the front and rear end edges of the ceiling of the housing 210, respectively. The guide vanes 211 are formed concavely curved with respect to the center of the communication passage 113.

The auxiliary thermoelectric elements 221 are installed such that the front and rear surfaces of the auxiliary thermoelements 221 are exposed through the first and second flow spaces 111 and 112 to the partition 114 located at the right side of the thermoelectric elements 120. The auxiliary thermoelectric element 221 is also referred to as a Peltier element. When two different N and P type semiconductors are connected in series, current flows through the junction of the two metals, and heat is generated or absorbed at the junction. effect. This can generate heat or absorb heat according to the current direction, and the amount of heat and heat absorbed can be controlled according to the amount of current. That is, when a current is flowed in one direction, the rear surface radiates heat to perform a heating action, and the front surface absorbs heat to perform a cooling function.

At this time, the auxiliary thermoelectric element 221 operates independently with respect to the thermoelectric element 120, the front surface opposed to the first flow space 111 is cooled, and the rear surface opposite to the second flow space 112 is heated . That is, the side of the thermoelectric element 120 which is heated and cooled by the control unit (not shown) is changed according to the user's need, while the auxiliary thermoelectric element 221 is set such that the front surface is cooled and the rear surface is heated. As described above, since the front thermoelectric element 221 is cooled, the outside air flowing into the first flow space 111 is cooled so that the condensed water flows into the condensed water container 150.

A plurality of third radiating fins 222 are provided on the front and rear surfaces of the partition wall 114 and extend in the direction away from the auxiliary thermoelectric element 221, respectively. The third radiating fin 222 is preferably formed of a metallic material having a high thermal conductivity. At this time, the third radiating fin 222 provided on the rear surface of the auxiliary thermoelectric element 221 has a length protruding from the partition wall 114 so that the outside air flowing into the second flow space 112 can flow smoothly. 137) of the partition wall (114).

The third radiating fins 222 provided on the front surface of the auxiliary thermoelectric element 221 are arranged such that one end of the upper end portion adjacent to the partition wall 114 is located above the other end of the first flow space 111 so as not to interfere with the flow of the outside air flowing into the first flow space 111 As shown in Fig.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

100: a cold / hot water supply unit having a dehumidifying function
110: Housing
111: first flow space
112: second flow space
113:
114:
120: thermoelectric element
130: Heat exchange unit
131: Storage tank
132: heat medium circulation part
133: First circulation pipe
134: second circulation pipe
135: Feed pump
136: first radiating fin
137: the second radiating fin
140:
141: blowing fan

Claims (9)

A housing having first and second flow spaces formed therein;
At least one thermoelectric element installed inside the housing such that both side surfaces opposed to each other by the power supplied from the power supply unit are heated and cooled and both side surfaces are respectively exposed in the first and second flow spaces;
A heat exchange unit installed at one side of both sides of the thermoelectric element to exchange heat between any one side of the thermoelectric element and the heat medium;
An outside air circulation unit installed in the housing and circulating outside air to the first and second flow spaces so as to dehumidify the outside air and discharging the outside air to the outside of the housing;
Wherein the first and second heating elements are installed in the housing at positions spaced apart from each other in a direction intersecting with the flow direction of the ambient air from the thermoelectric element, And at least one auxiliary thermoelectric element provided so as to be respectively exposed in the second flow space and operating independently of the thermoelectric elements,
The heat exchange unit
A storage tank installed in the housing so as to be in contact with any one side surface of the thermoelectric element and having a housing space in which the heating medium is accommodated;
And a heating medium circulation unit installed in the storage tank for discharging the heating medium to the outside or supplying the heating medium to the accommodation space in the accommodation space.
delete The method according to claim 1,
The heat-
Wherein one side is provided on one side of both sides of the thermoelectric element and the other side is further provided with a first radiating fin formed to be drawn into the storage tank.
The method according to claim 1,
The heat exchange unit
Further comprising a second radiating fins disposed on an outer circumferential surface of the storage tank so as to expand the thermal contact area of the storage tank with respect to the outside air flowing into the housing.
delete The method according to claim 1,
And a plurality of third radiating fins provided on both side surfaces of the auxiliary thermoelectric element and protruding from the auxiliary thermoelectric element on the other side so as to enlarge a contact area with the outside air drawn into the housing The hot / cold water supply unit having a dehumidifying function.
The method according to claim 1,
Wherein the housing is provided with a communication path with both ends communicating with the first and second flow spaces, an outside air inlet is provided to communicate with any one of the first and second flow spaces, and the first and second An outer air discharge port is formed so as to communicate with another space of the flow space,
Wherein the outside air circulation unit includes a blowing fan installed in the housing and for blowing the outside air through the outside air inlet so that the outside air is discharged through the outside air outlet.
8. The method of claim 7,
Wherein one side of the first and second flow spaces cooled by a power source is installed in one of exposed spaces, and the moisture contained in the outside air is cooled by the thermoelectric element to receive the condensed water And a condensed water container provided with an internal space therein so as to be able to cool and dehumidify the cold and hot water.
8. The method of claim 7,
Wherein the communication path is formed at a position spaced upward from the outdoor air outlet and the outdoor air inlet so that the outdoor air flowing into the housing can be lifted and lowered.

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