KR20130008864A - Evaporator with heatpipe for dehumidifiers - Google Patents

Abstract

PURPOSE: An evaporator for a dehumidifier with a heat pipe is provided to improve efficiency by firstly cooling air at the inflow side of a horizontal heat pipe. CONSTITUTION: An evaporator for a dehumidifier with a heat pipe comprises a plurality of radiant pins(120), an evaporation pipe(140), horizontal heat pipes(160,170), and a connecting pipe(180). The plurality of radiant pins is horizontally formed. The evaporation pipe horizontally penetrates the center of the radiant pin. The horizontal heat pipe penetrates both edges of the radiant pin at each height, and placed at the air inflow and outflow sides. The connecting pipe horizontally connects side ends of the horizontal heat pipe to each other. A vertical heat pipe is placed at the other end of the horizontal heat pipe. [Reference numerals] (AA) Air

Description

Evaporator with heatpipe for dehumidifiers

The present invention relates to an evaporator for a dehumidifier, and relates to a dehumidifier evaporator having a heat pipe that can increase the efficiency of the evaporator by integrating a heat pipe on the air inlet and outlet sides of the evaporator for cooling.

Typically, the dehumidifier is composed of a compressor, a condenser expansion valve, and an evaporator to remove moisture from the air in the room, and the introduced air passes through the evaporator to remove moisture.

It is disclosed in Figure 2 of the 'Page 9 of the multi-purpose drying device with improved drying efficiency.

1 is a flow chart illustrating a heat pump system and a heat transfer system unit employed in a conventional multipurpose drying apparatus having improved drying efficiency.

Referring to Figure 1, first, the heat pump system is a compressor installed in each of the air circulation path of the drying body 31 and the condenser 32, the compressor installed between the evaporator and the condenser to compress the working fluid coming from the evaporator 33 and an expansion valve 34 installed between the condenser and the evaporator to expand the working fluid from the condenser.

In addition, the heat transfer system unit connects the heat absorption heat exchanger (51) installed in the evaporator (31), the heat dissipation heat exchanger (52) installed in the condenser (32), and the heat absorption heat exchanger and the heat dissipation heat exchanger. The connecting pipe 53 is provided with a heat pipe system.

Therefore, it is possible to improve the drying efficiency by lowering the manufacturing cost and energy consumption by using the heat pump system and the heat transfer system unit.

However, in the related art, a heat pipe is arranged to be connected to each of the evaporator and the condenser, and this structure is divided into a heat absorption heat exchanger and a heat dissipation heat exchanger in the evaporator. As the length of the pipe is increased, heat exchange of the heat pipe is not performed well, and as a result, the efficiency of the condenser has been reduced.

In addition, since the heat pipe is separated and manufactured in each of the evaporator and the condenser, there has been a problem in that the standardization process is difficult and the size thereof is also increased.

In addition, the refrigerant of the heat pipe system circulates through each pipe connected from the evaporator to the condenser and from the condenser to the evaporator, and the heat pipe is connected because the heat pipe is applied as an alternative technology of the pump to circulate the fluid. It is natural for the piping to have a gradient, so that the vaporized gas in the heat-absorbing heat exchanger and the liquid condensed in the heat-dissipating heat exchanger must be replaced.

This structure requires the heat pipe to be connected in a vertical direction and connected to the connection pipe, and the fins of the heat exchanger connected to the heat pipe are arranged horizontally to condense the water passing through the heat exchanger into water (liquid). Since the water condensed on the fin of the pool becomes a problem that the efficiency of the heat exchanger is lowered.

The present invention has been made to solve the above problems, the horizontal heat pipe is integrally formed on the air inlet side and the outlet side of the evaporator to increase the efficiency of the evaporator to be compact, further improve the efficiency of the evaporator It is an object of the present invention to provide an evaporator for a dehumidifier equipped with a heat pipe.

In addition, an object of the present invention is to provide an evaporator for a dehumidifier having a heat pipe capable of charging a refrigerant at a time with the horizontal heat pipe provided in the evaporator.

In order to achieve the above object, the present invention provides a dehumidifier evaporator in which air is introduced and exchanged with a refrigerant to flow out, a plurality of heat radiation fins provided in a vertical direction; An evaporation tube provided through a central portion in a horizontal direction at a predetermined height of the heat dissipation fins; Horizontal heat pipes are provided on the air inlet side and the outlet side of the evaporator tube by passing through the both edges in the horizontal direction at a predetermined height of the heat radiation fins; And a connection pipe for horizontally connecting each one end of the inflow and outflow side horizontal heat pipes in communication with each other.

Here, the other end of the inlet or outlet side horizontal heat pipe, characterized in that the vertical heat pipe is further provided so that each of the horizontal heat pipe is in communication.

According to the present invention having the above-described configuration, the following effects can be expected.

First, horizontal heat pipes are installed horizontally on the air inlet and outlet sides of the evaporator to reduce the volume by integrating them, and the cooling is performed first on the inlet horizontal heat pipes before the air entering the evaporator is cooled. Efficiency can be increased.

In addition, the vertical heat pipe is connected in communication with a plurality of horizontal heat pipe ends provided on the inlet or outlet side of the evaporator, the refrigerant can be injected into the vertical heat pipe to be circulated, it is also possible to fill all the vertical heat pipe Will be.

1 is a flow chart of the heat pump system and the heat transfer system employed in the conventional multi-purpose drying apparatus with improved drying efficiency.
2 is a perspective view of an evaporator for a dehumidifier equipped with a heat pipe according to an embodiment of the present invention.
3 is a perspective view of an evaporator for a dehumidifier equipped with a heat pipe according to another embodiment of the present invention.
4 is a diagram of a dehumidifier in which an evaporator for a dehumidifier with a heat pipe of FIG. 2 is used.

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

2 is a perspective view of an evaporator for a dehumidifier equipped with a heat pipe according to an embodiment of the present invention.

Referring to FIG. 2, the present invention is a dehumidifier evaporator in which air is introduced and heat exchanged with a refrigerant, and largely includes a heat radiating fin 120, an evaporation tube 140, an inlet side, and an outlet side horizontal heat pipe 160 and 170. The connection pipe 180 is included to be configured to increase the efficiency of the evaporator.

Here, the evaporator generally means a fin type heat exchanger. In the present invention, the heat dissipation fin 120 and the evaporator tube 140 are combined to form a structure of the evaporator 100. And, hereinafter 'evaporator' will be understood to be the same as the heat radiation fin 120 and the evaporation tube 140 is combined.

First, the heat dissipation fins 120 are provided in a vertical direction, and a plurality of evaporation tubes 140 are provided at a central portion thereof, and horizontal inlet pipes 160 and 170 are provided at both inlet and outlet sides.

In addition, the evaporator tube 140 is a refrigerant that flows inside to cool the outside air, and is provided to penetrate a central portion in a horizontal direction at a predetermined height of the heat dissipation fin 120.

Here, it is preferable that the evaporation tube 140 has a U-shaped tube shape which is commonly used, and the evaporation tube 140 may be further disposed in a horizontal direction in order to increase heat exchange efficiency. It can be performed suitably by.

The inlet side and the outlet side horizontal heat pipes 160 and 170 may be provided at the air inlet side and the outlet side of the evaporation tube 140 by penetrating both edges in a horizontal direction at a predetermined height of the heat dissipation fin 120.

Here, considering that the present invention is used as a dehumidifier for removing indoor moisture, the air inlet side of the evaporation tube 140 is where the high temperature and high humidity air is introduced, and the air outflow of the evaporation tube 140. The side means a place where the indoor high temperature and high humidity air becomes the low temperature and low temperature air through the evaporation tube 140.

The inlet side horizontal heat pipe 160 may cool the introduced air, and the outlet side horizontal heat pipe 170 may exchange heat with the inlet side horizontal heat pipe 160 by a connection pipe 180 to evaporate the evaporation. The air passing through the tube 140 is heated.

Here, the inlet and outlet side horizontal heat pipes 160 and 170 are arranged in a horizontal direction, which is provided by the heat sink 120 vertically, so that the inlet and outlet side horizontal heat pipes 160 and 170 can be easily installed. There is an advantage to be there.

The connection pipe 180 horizontally connects one end portion of each of the inflow side horizontal heat pipe 160 and the outflow side horizontal heat pipe 170 to communicate with the inflow side horizontal heat pipe 160 and the outflow side horizontal heat pipe 160. The refrigerant of 170 serves as a passage for mutual heat exchange.

Thus, the inlet side, the outlet side horizontal heat pipes (160, 170) and the connecting pipe 180 is a U-shape surrounding the outer surface of the evaporator, the inlet side and the outlet side horizontal heat pipes (160, 170) and the connection pipe 180 The refrigerant flows inside the heat exchange.

Here, the inlet side and the outlet side horizontal heat pipes 160 and 170 and the connection pipe 180 become one 'heat pipe', and of course, the efficiency of the evaporator can be further increased by being arranged in the horizontal direction. .

Meanwhile, the refrigerant flowing in the evaporator is circulated by a compressor, a condenser, and an expansion valve by a refrigeration cycle.

Thus, by integrating the heat pipe to the heat sink fin of the evaporator to increase the efficiency of the evaporator to a compact configuration as a whole, a standardization process can be achieved and the heat exchange of the evaporator can be improved.

3 is a perspective view of an evaporator for a dehumidifier equipped with a heat pipe according to another embodiment of the present invention.

Referring to FIG. 3, the heat dissipation fin 120, the evaporation tube 140, the inlet side, and the outlet side horizontal heat pipes 160 and 170, and the connection pipe 180, which are basic components of the evaporator for a dehumidifier equipped with the heat pipes illustrated in FIG. 2, are provided. Is the same and the vertical heat pipe 190 is further provided here.

The vertical heat pipe 190 is characterized in that it is provided so that each of the horizontal heat pipe is in communication with the other end of the inlet side horizontal heat pipe 160 or the outlet side horizontal heat pipe 170.

Here, the vertical heat pipe 190 may be installed anywhere, but in the present invention, considering that the inlet side horizontal heat pipe 160 serves as a cooling role and the outlet side horizontal heat pipe 170 serves as a heating role, The heat exchange is preferably performed by connecting the vertical heat pipe 190 to the inflow side horizontal heat pipe 160.

Thus, a vertical heat pipe is connected to the evaporator coupled to the heat dissipation fin 120 and the evaporator tube 140, that is, the plurality of horizontal heat pipe ends provided at the inlet side and the outlet side of the evaporator tube, whereby the refrigerant is connected to the vertical heat pipe. When injected into the cycle, there is also an advantage that can be filled in all heat pipes.

4 is a diagram of a dehumidifier in which an evaporator for a dehumidifier equipped with the heat pipe of FIG. 2 is used.

As shown, a conventional dehumidifier is composed of an evaporator 100, a compressor 200, a condenser 300 and an expansion valve 400. At this time, the high temperature and high humidity air is cooled through the evaporator 100 to become low temperature and low humidity air, and the low temperature and low temperature air becomes high temperature and low humidity air through the condenser 300 and exits to the blowing fan 500.

Here, in the present invention, the inlet side and the outlet side horizontal heat pipes 170 and 180 are installed on the inlet side and the outlet side of the evaporator 100, respectively.

That is, the high temperature and high humidity air is supplied to the evaporator 100 through the air precooling by the inflow-side horizontal heat pipe 160 to further increase the efficiency of the evaporator 100.

Here, the outflow side horizontal heat pipe 170 is circulated by heat exchange with the inflow side horizontal heat pipe 160 and the connection pipe 180.

As described above, it can be seen that the present invention provides the technical idea of providing an evaporator for a dehumidifier equipped with a heat pipe, and within the scope of the basic idea of the present invention, those skilled in the art Of course, many other variations are possible.

120: heat sink fin 140: evaporation tube
160: inlet side horizontal heat pipe 170: inlet side horizontal heat pipe
180: connection pipe 190: vertical heat pipe
100: evaporator 200: compressor
300: condenser 400: expansion valve
500: blower

Claims (2)

In the dehumidifier evaporator in which air flows in and exchanges heat with the refrigerant,
A plurality of heat dissipation fins 120 provided in a vertical direction;
An evaporation tube 140 provided through a central portion in a horizontal direction at a predetermined height of the heat dissipation fin 120;
Horizontal heat pipes 160 and 170 are provided on the air inlet side and the outlet side of the evaporator tube by penetrating both edges in a horizontal direction at a predetermined height of the heat dissipation fin 120; And
Evaporator for a dehumidifier with a heat pipe is characterized in that it comprises a connection pipe 180 for horizontally connecting each one end of the inlet side and the outlet side horizontal heat pipe in communication. The method of claim 1,
At the other end of the inlet or outlet side horizontal heat pipe,
Evaporator for a dehumidifier with a heat pipe further comprises a vertical heat pipe (190) so that each of the horizontal heat pipe is in communication.

Images