KR20180133710A - Air dryer to prevent condensate from entering - Google Patents

Abstract

The present invention relates to an air dryer for preventing inflow of condensed water, comprising: a pre-cooler having a plurality of copper pipes installed inside a first housing, a plurality of partitions installed at predetermined intervals in the longitudinal direction of the copper pipes, an inlet formed on one side to supply air, and an outlet formed on the other side to discharge dehumidified air; and an evaporator having a plurality of heat radiating plates installed in a second housing to be spaced apart from each other, a refrigerant tube vertically penetrating the heat radiating plates, a plurality of partitions installed at predetermined intervals between the heat radiating plates, and a plurality of partitions connected to the first housing of the pre-cooler through a first connecting pipe and a second connecting pipe. The present invention comprises: a horizontal plate installed in the second housing and horizontally installed between an inlet of a drain pipe and an inlet of a first connection pipe; and a vertical plate installed at a right angle to the rear of the horizontal plate at a predetermined height, and installed to be located at the rear side of the first connection pipe.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air dryer,

The present disclosure relates to an air dryer in which condensed water is prevented from being inflowed so as to prevent some moisture of condensed water generated in the evaporator from moving to the precooler together with dehumidified air.

Firstly, the following background art is to help understand an air dryer in which condensate inflow is prevented, which will be described later, and the contents mentioned in the background of this background do not need to be construed as prior art.

The air dryer system is an air supply system for dehumidifying compressed air generated from a compressor, and for use in a system requiring clean compressed air in electric, electronic, medical, pharmaceutical, food, chemical, and semiconductor processing.

Such an air dryer system includes a compressor for generating compressed air, a filter for filtering foreign substances in the compressed air generated by such a compressor, an air dryer for removing moisture in the air, and the like.

On the other hand, the compressor sucks air in the air and compresses it to a high pressure and then discharges the compressed air to an industrial site. When the air is compressed to a high pressure, the temperature rises to a high temperature. The life and function of the production line and various pneumatic devices may be deteriorated, which may result in fatal consequences for productivity and quality.

Accordingly, it is necessary to lower the air temperature of the compressor to condense and dissolve it, to remove moisture and to dry the air, and the condensed water generated in this process is discharged to the outside through an air dryer or a filter drain device.

As shown in FIG. 1, in the case of the refrigeration type, the compressed air is cooled through the aftercooler 10, and then the dust and the like are passed through the pre-filter 21 The water is removed through the heat exchanger and then the foreign matter and moisture are additionally removed through the line filter 22 and the coreless filter 23 to be made into clean air and then supplied to the necessary system.

The heat exchanger includes a compressor 50 for compressing gas refrigerant, a hot gas bypass valve 60 for controlling the load, a filter dryer 70 for removing impurities, a liquid refrigerant A heat exchanger (30) for dehumidifying the compressed air due to heat exchange between hot and humid compressed air passing through the evaporation latent heat of the refrigerant by evaporating the expanded refrigerant, and a heat exchanger And a drain device 90 for discharging the condensed water generated through the cooling of the compressed air.

Here, the heat exchanger 30 is composed of a pre-cooler 31 and an evaporator 32, both sides of which communicate with each other. The pre-cooler 31 is provided with a plurality of copper pipes inside the housing. A plurality of diaphragms spaced apart from each other to form a flow path, an inlet through which air is supplied to one side, and an outlet through which the dehumidified air is discharged to the other side.

A plurality of heat dissipating plates are vertically installed in the housing, and the refrigerant tubes are arranged in a zigzag shape while vertically penetrating the heat dissipating plates. A plurality of diaphragms are spaced apart from the heat dissipating plates, A flow path is formed so that air can be moved while being in contact with the heat sink. Both sides of the housing of the precooler 31 and the housing of the evaporator 32 communicate with each other through the connection pipes 33 and 34.

Accordingly, when the air flows through the aftercooler 10 and then flows into the inlet formed on one side of the housing of the pre-cooler 31 in a purified state through the pre-filter 21, And then is moved to the inside of the housing of the evaporator 32 through one connecting pipe 34 connecting the housing of the pre-cooler 31 and the housing of the evaporator 32 to each other, (33) through which the housing of the evaporator (32) and the housing of the precooler (31) are connected to each other while the dehumidifier passes through between the diaphragms installed along the longitudinal direction of the tube, And the dehumidified air passes through the copper pipe and is discharged through the outlet formed on the other side of the housing of the precooler 31. Then the dehumidified air is passed through the line filter 22 and the coreless filter 23 Need System.

However, such an air dryer has the following problems.

That is, the air moved from the housing of the pre-cooler 31 to the housing of the evaporator 32 via the one connecting pipe 34 is guided by the diaphragm to be in contact with the heat sink, When the heat exchanger is brought into contact with the air in the process of moving back to the housing of the pre-cooler 31, moisture, which is separated from the air, is moved along the lower portion of the interior of the housing of the evaporator 32, do.

In this case, when the dehumidified air moves alternately between the upper side and the lower side of the heat sink due to the induction of the diaphragm in the past, the air flows into the cover closing the housing of the evaporator (32) In this process, the water scattered from the condensed water moving from the lower part of the housing of the evaporator 32 to the drain pipe and the water produced by the condensation phenomenon escape to the other side connection pipe 33 together with the air, The piping 22 and 23 are damaged in the course of passing through the precooler 31 and passing through the filters 22 and 23, There is a problem that the efficiency of dehumidification is lowered due to the contained moisture.

Korean Utility Model Registration No. 20-0234358 (published on September 26, 2001)

Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a pre-cooler which can prevent the dehumidified air from flowing into the precooler, An object of the present invention is to provide an air dryer in which a condensed water inflow is prevented so as to effectively solve the problem of deteriorating efficiency of breakage and dehumidification.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are not intended to limit the invention to the precise form disclosed. It will be understood clearly.

According to a preferred embodiment of the present invention, a plurality of copper tubes are installed in a first housing, a plurality of partition plates are installed at predetermined intervals along the longitudinal direction of the copper tubes, an inlet for supplying air to one side is formed, A pre-cooler having an outlet formed therein for discharging the dehumidified air to the other side, and a plurality of heat radiating plates spaced from each other into the second housing, a refrigerant tube vertically penetrating the heat radiating plate is installed, And an evaporator communicating with the first housing of the precooler through a first connection pipe and a second connection pipe on one side and the other side opposite to the evaporator,

A horizontal plate installed inside the second housing and horizontally installed between an inlet of the drain pipe and an inlet of the first connection pipe, and a second connection pipe provided at a predetermined height at right angles to the rear of the horizontal plate, And a vertical plate provided so as to be located further rearward than the vertical plate.

More preferably, the horizontal plate has a front end connected to the inner surface of the cover of the second housing, and both sides of the horizontal plate may be spaced apart from the longitudinal inner surface of the second housing.

More preferably, the horizontal plate may further include a pair of extending portions vertically upward and having predetermined heights on both sides thereof.

More preferably, the horizontal plate may be provided with a wing portion so that a portion of the upper end of the extending portion is bent outwardly.

More preferably, the horizontal plate may be formed in a curved shape while being recessed in the direction of the central portion toward the first connection pipe.

More preferably, the vertical plate has a lower end coupled to a rear end of the horizontal plate, and both sides of the vertical plate can be spaced apart from a longitudinal inner surface of the second housing.

More preferably, the vertical plate may be formed in a curved shape while being depressed in the direction of the central portion toward the first connection pipe.

More preferably, the width of the horizontal plate and the width of the vertical plate may be larger than one width of the other.

More preferably, the horizontal plate and the vertical plate may be detachably assembled or welded to each other.

More preferably, the bottom surface of the horizontal plate and the vertical plate may further include a plurality of protrusions on the rear surface or a concavo-convex portion in which an apex and a valley are formed in the longitudinal direction.

Preferably, the auxiliary diaphragm is disposed between the heat sinks located behind the vertical plate, and the auxiliary diaphragm has a curved bottom portion that contacts the lower surface of the inner surface of the second housing, and an upper portion of the auxiliary diaphragm has a fitting groove And a pair of horizontal cut-off portions which are bent and extended horizontally toward the cover of the second housing may be provided on opposite sides.

More preferably, one side surface of the horizontal blocking portion may be respectively in contact with the inner surface of the second housing.

More preferably, the installation positions of the horizontal cut-off portion and the horizontal plate may be formed so as to be linear or step-by-step.

An air dryer in which the inflow of condensed water according to the contents described is prevented has the following effects.

That is, in order to prevent the air that has been dehumidified through the evaporator from being transferred to the precooler because some of the moisture is contained in the dehumidified air due to the vortex phenomenon in the process of moving the dehumidified air through the connection pipe to the precooler, By installing the plate, the air dehumidified through the evaporator is moved to the precooler without containing moisture, so that the efficiency of dehumidification can be further improved.

Here, since the effect of the contents described above is expected to be exercised by the constitution of the contents described irrespective of whether or not the inventor perceives it, the above-mentioned effects are only some effects according to the contents described, It should not be recognized that it is described.

It should also be understood that the effect of the described disclosure should be further understood by reference to the overall description of the specification and that, although not explicitly described, a person having ordinary skill in the art will appreciate It should be seen as an effect described in this specification.

1 is a configuration diagram showing a configuration of a conventional air dryer.
2 is a perspective view illustrating a heat exchanger of an air dryer according to an embodiment of the present invention.
Fig. 3 is an enlarged perspective view of Fig. 2; Fig.
4A is a perspective view illustrating a horizontal plate and a vertical plate installed in an evaporator according to an embodiment of the present invention.
FIG. 4B is a side elevational view illustrating a horizontal plate and a vertical plate installed in an evaporator according to an embodiment of the present invention. FIG.
4C is a perspective view illustrating another embodiment of the horizontal plate installed in the evaporator according to an embodiment of the present invention.
5 is a perspective view illustrating an auxiliary diaphragm installed in an evaporator according to an embodiment of the present invention.
6 is a front sectional view illustrating an installation state of a subsidiary diaphragm installed in an evaporator according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

In addition, the sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms defined specifically in consideration of the structure and operation of the contents described may vary depending on the intention or custom of the user or the operator And the definitions of these terms should be based on the contents throughout this specification.

Referring to FIG. 2, there is shown a heat exchanger including a precooler 200 and an evaporator 100 connected to each other. The evaporator 100 includes a horizontal plate (not shown) installed in the evaporator 100, 150 and a vertical plate 160. Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

First, the precooler (200)

As shown in FIGS. 2 and 3, a plurality of copper tubes 220 having a predetermined length along a longitudinal direction and having a predetermined diameter are installed at predetermined intervals in a first housing 210 having a predetermined length of a cylindrical shape And a plurality of diaphragms 230 are installed at predetermined intervals along the longitudinal direction of the copper tube 220.

The diaphragm 230 is a circular plate having the same outer diameter as the inner diameter of the first housing 210 in the case of the diaphragms 230a and 230b of the front end portion and the rear end portion and has a diaphragm 230c positioned therebetween. Are alternately staggered in a state in which a part of the upper side is removed or a part of the lower side is removed.

An inlet 211 is formed at one side of the first housing 210 to allow air to be dehumidified to flow therein and an outlet 212 is formed at the other side to discharge dehumidified air.

Here, the inlet 211 is formed on the side located inside the partition 230a located at the front end, and the outlet 212 is formed on the side located outside the partition 230b located at the rear end.

The evaporator (100)

As shown in FIGS. 2 and 3, a plurality of heat sinks 120 are installed at predetermined intervals along the longitudinal direction in a second housing 110 having a predetermined length of a cylindrical shape, A plurality of diaphragms 140 are installed between the heat sinks 120 at regular intervals.

The diaphragm 140 is staggered alternately in a state where a part of the upper side is removed or a part of the lower side is removed.

The evaporator 100 is spaced apart from the lower portion of the precooler 200 and communicates with the inside through the first connection pipe 111 and the second connection pipe 112.

The first connection pipe 111 is connected to the lower surface located on the outer side of the partition 230a located at the front end of the first housing 210 and the upper surface of one side of the second housing 110, 112 are connected to penetrate through the bottom surface located inside the partition 230b located at the rear end portion of the first housing 210 and the other top surface of the second housing 110. [

Therefore, the air required to be dehumidified is introduced into the inlet 211 provided in the first housing 210 of the pre-cooler 200, and then the partially removed portions are sequentially arranged in the upward or downward direction, And then flows into the second housing 110 of the evaporator 100 through the second connection pipe 112. [

The air introduced into the second housing 110 of the evaporator 100 through the second connection pipe 112 is sequentially disposed so that the partially removed portions are directed upwardly or downwardly to form diagonal plates 140, and then moved to the first connection pipe 111.

At this time, in the process of passing the dehumidification air through the inside of the second housing 110 of the evaporator 100, heat exchange is performed by the refrigerant flowing in the refrigerant tube 130, so that moisture is separated from the air The moisture generated in the process of dehumidification is moved along the inner bottom surface of the second housing 110 and the drain pipe 113 located in front of the second housing 110 .

Meanwhile, the low-temperature air that has been dehumidified and moved to the first connection pipe is discharged through the copper pipe 220, thereby cooling the copper pipe 220. This is because the air supplied to the first housing 210 of the pre- The dehumidified air exiting through the copper pipe 220 is provided to the corresponding system through the outlet 212. The dehumidified air passes through the outlet 212,

In this process, the air introduced through the second housing 110 of the evaporator 100 and dehumidified is introduced into the first housing 210 of the pre-cooler 200 through the first connection pipe 111 In order to prevent the dehumidification efficiency from being reduced due to the movement of the moisture floating on the peripheral parts due to the moisture or condensation phenomenon scattered from the condensed water in the moving process together with the dehumidified air moving to the first connection pipe 111 will be.

Accordingly, the horizontal plate 150 and the vertical plate 160 are installed at the positions where the first connection pipe 111 and the drain pipe 113 are located in the second housing 110 of the evaporator 100 And dehumidified in the process of being interfered with the vertical plate 160 and the horizontal plate 150 by the air that passes through between the diaphragms 140 of the second housing 110 and is dehumidified and then moves to the first connection pipe 111, It is possible to prevent moisture from being included in the air.

Here, the configurations of the horizontal plate 150 and the vertical plate 160 will be described in detail.

First, the horizontal plate 150,

And has a predetermined length in the front-rear direction and a predetermined length in the left-right direction and has a substantially rectangular shape with a predetermined thickness, as shown in FIGS. 3 and 4A, between the inlet of the drain pipe 113 and the inlet of the first connection pipe 111 The upper surface and the lower surface of the horizontal plate 150 are spaced apart from the drain pipe 113 and the first connection pipe 111 and are horizontally installed in the second housing 110.

Here, the horizontal plate 150 may be installed horizontally along the longitudinal direction of the second housing 110 in the second housing 110, but may have a predetermined inclination along the longitudinal direction of the second housing 110 And may be modified into various shapes such as a curved shape, a wave shape, a concavo-convex shape, and the like, which are not straight shapes in the longitudinal direction.

The front end of the horizontal plate 150 may be assembled through fastening means having sealing function on the inner surface of the cover 110a of the second housing 110, or may be coupled through welding or the like.

The horizontal plate 150 can be engaged with the inner surface of the cover 110a at the same position as the center of the cover when horizontally coupled to the inner surface of the cover 110a, And can be engaged with the inner surface of the cover 110a below the center of the cover 110a.

The horizontal plate 150 is disposed at the lower side of the horizontal plate 150 as the opposite side surfaces facing the longitudinal inner surface of the second housing 110 are spaced apart from the longitudinal inner surface of the second housing 110 by a predetermined distance. The air that is moved toward the first connection pipe 111 is moved to both sides of the bottom of the horizontal plate 150 and then moved to the spaced portion between the both sides of the horizontal plate 150 and the inner surface of the second housing 110 And then exits to the first connection pipe 111.

In this process, even if the dehumidified air moved downward of the horizontal plate 150 contains moisture separated from the condensed water flowing under the inner surface of the second housing, such moisture is separated in the course of contact with the bottom of the horizontal plate 150 Only the air that has been dehumidified is moved to the spaced portion between the both sides of the horizontal plate 150 and the inner surface of the second housing and then exits to the first connection pipe 111.

In other embodiments, the horizontal plate 150 may be formed by vertically extending vertically extending portions 151 having a predetermined height upward from both opposite side ends of the horizontal plate 150 as shown in FIG. 4C, The height of the vertical plate 160 may be equal to or lower than the height of the top of the vertical plate 160 which will be described later provided on the rear side of the horizontal plate 150. In another embodiment, And a wing 152 may be formed by horizontally bending a part of the wing 151 toward the outside.

Such extensions 151 and wings 152 contain moisture in the dehumidified air and are separated during the process of contacting the bottom of the horizontal plate 150, 150, the water remaining in the air can be effectively separated while being continuously contacted with the extended portions 151 and the wing portions 152. [

The horizontal plate 150 may be formed in a flat shape, but may be formed in a curved shape in which the center portion is recessed toward the first connection pipe 111. Such a curved shape relieves the impact with air, And the contact area between the air and the horizontal plate 150 can be increased, thereby effectively separating moisture from the air.

And the vertical plate 160,

3 and 4B. The horizontal plate 150 has a predetermined length in the vertical direction and a predetermined length in the horizontal direction. The horizontal plate 150 has a substantially rectangular shape with a predetermined thickness. And the mounting position thereof is disposed at the rear of the inlet of the first connection pipe 111 toward the heat sink 120.

The rear end of the horizontal plate 150 may be connected to the lower end of the vertical plate 160 and the rear end of the horizontal plate 150 may be connected to a point between the upper end and the lower end of the vertical plate 160.

The vertical plate 160 is disposed on the rear side of the vertical plate 160 as the opposite side faces facing the longitudinal inner surface of the second housing 110 are spaced apart from the longitudinal inner surface of the second housing 110 by a predetermined distance The air that is moved toward the first connection pipe 111 is moved to both sides of the rear surface of the vertical plate 160 and then moved to the spaced portion between the both sides of the vertical plate 160 and the inner surface of the second housing 110 And then exits to the first connection pipe 111.

Even if some moisture contained in the heat sink 120 is included in the dehumidified air due to the condensation phenomenon, such moisture is separated from the air during the contact with the rear surface of the vertical plate 160, The second connector 110 is moved to the spaced apart portion between the opposite side surfaces of the first housing 160 and the inner surface of the second housing 110,

The vertical plate 160 may be formed in a curved shape such that the central portion is recessed toward the cover 110a of the second housing 110 as well as the flat shape as the horizontal plate 150 described above, The occurrence of vortex can be suppressed by reducing the impact with the air, and the contact area between the air and the vertical plate 160 can be increased, thereby making it possible to more effectively separate moisture from the air.

The vertical plate 160 and the horizontal plate 150 described above may be constructed in the form of an interference fit or an assembly capable of being detached using a fastening means such as a bolt and a nut, (150) may be configured in the form of a bond through welding.

The horizontal length of the vertical plate 160 and the horizontal length of the horizontal plate 150 are determined in consideration of the amount of air flowing from the rear side of the vertical plate 160 and the amount of air flowing from the lower side of the horizontal plate 150 The horizontal length of the vertical plate 160 may be longer or shorter than the horizontal length of the horizontal plate 150.

The auxiliary diaphragm 170 may further include an auxiliary diaphragm 170 disposed on the rear side of the vertical plate 160. The auxiliary diaphragm 170 may be formed of a plurality of diaphragms 140, The dehumidifying effect can be enhanced by directing the condensed water toward the vertical plate 160 after being sufficiently contacted with the heat sink 120 without being moved directly from the inner surface of the second housing 110 where the condensed water is formed to the horizontal plate 150 Minimizing contact of the air with the water scattered from the condensate flowing underneath the inner surface of the second housing 110 and allowing the air to sufficiently contact the vertical plate 160 and the horizontal plate 150 to be included in the dehumidified air So that the water can be effectively removed.

As shown in FIGS. 5 and 6, the auxiliary diaphragm 170 is formed in a curved shape having a curvature corresponding to the inner curvature of the second housing 110, and the upper portion is sandwiched between the heat sinks 120 A plurality of fitting grooves 171 are formed in order to prevent interference with the refrigerant tube 130 in the process of being assembled and a discharge groove 173 having an inverted triangle for discharging condensed water may be provided at the center of the lower portion.

It is preferable that the fitting grooves 171 have different depths depending on the through positions of the refrigerant tubes 130 vertically penetrating the heat sinks 120.

A pair of horizontal blocking portions 172 are formed on opposite sides of the auxiliary partition 170 so as to bend horizontally toward the cover 110a of the second housing 110 and extend to a predetermined width and length, One side of the horizontal blocking portion 172 is in contact with the inner surface of the second housing 110 and the other side of the horizontal blocking portion 172 is spaced apart from both sides of the horizontal plate 150.

Here, the horizontal plate 150 and the horizontal blocking unit 172, which are installed horizontally to each other, may have the same height, or may be configured such that the horizontal blocking unit 172 is positioned higher than the horizontal plate 150 However, by making the horizontal plate 150 and the horizontal cut-off portion 172 to be stepped with each other, the horizontal cut-off portion 172 is positioned lower than the horizontal plate 150, When the air moved to the first housing 111 first comes into contact with the bottom surface of the horizontal plate 150 and then exits between both sides of the horizontal plate 150 and the inner surface of the second housing 110, It is possible to more effectively separate the moisture that may be contained in the dehumidified air as it passes through between the opposite side surfaces of the horizontal plate 150 and the opposite side surfaces of the horizontal blocking portion 172 after one more contact.

The process of blocking moisture through the horizontal plate 150 and the vertical plate 160 in the process of moving the dehumidified air passing through the evaporator 100 to the precooler 200 according to the above- .

That is, when the dehumidifying air flows through the inlet 211 of the pre-cooler 200, the dehumidifying air moves along the circumference of the copper tube 220 along the flow path formed by the diaphragm 230, To the lower evaporator (100).

The air moved into the evaporator 100 moves along the flow path formed by the diaphragm 140 while being in surface contact with the heat sink 120 and then flows through the first connection pipe 111 to the upper precooler 200, As shown in FIG.

Here, the heat sink 120 located inside the evaporator 100 maintains a low temperature state by the refrigerant moving along the refrigerant tube 130, and the air passing through the inside of the evaporator 100 is dehumidified while performing heat exchange The water separated from the air becomes condensed water and is collected below the inner surface of the second housing 110 of the evaporator 100 and then flows into the drain pipe 113 in front of the second housing 110, .

The dehumidified air that has exited through the first connection pipe 111 is then introduced into the copper pipe 220 located inside the precooler 200 and then moved along the copper pipe 220 to the outlet of the precooler 200 212 and then to a system that requires dehumidified air.

Here, since the dehumidified air moving along the copper pipe 220 maintains the cooled state in the previous heat exchange process, the copper pipe 220 also becomes a low temperature, and the condition of the copper pipe 220 is that the air The temperature is lowered to an appropriate temperature in the process of flowing through the inlet 211 of the precooler 200 and then moving around the copper tube 220. Thereafter, the efficiency of dehumidification in the dehumidification process of the air can be improved.

The air that is introduced into the evaporator 100 through the second connection pipe 112 and then flows toward the first connection pipe 111 through the heat sink 120 is heat exchanged in surface contact with the heat sink 120 Dehumidification is performed, and at this time, only the dehumidified air not containing moisture is moved to the precooler 200.

However, when the dehumidified air escapes from the second housing 110 of the evaporator 100 to the first connection pipe 111, the cover 110a of the second housing 110, which constitutes the evaporator 100, When the air is brought into contact with the air at a predetermined pressure and speed, vortex is easily generated and moisture scattered from the condensed water moving downward from the second housing 110 is condensed on the heat sink 120 or the diaphragm 140 Some moisture may escape to the first connection pipe 111 together with the dehumidified air.

However, if the horizontal plate 150 and the vertical plate 160 are provided according to the description, the dehumidified air moved toward the first connection pipe 111 first contacts the curved rear surface of the vertical plate 160, The air can be smoothly moved to both sides of the rear surface of the vertical plate 160 to prevent the vortex phenomenon. Even if moisture is contained in the dehumidified air, in the process of contacting the rear surface of the vertical plate 160, So that it can escape through the connecting pipe 111.

A part of the dehumidified air can be moved to the lower side of the horizontal plate 150 and then to the first connection pipe 111. The condensed water flowing downward from the inner surface of the second housing 110 of the evaporator 100 Even if some moisture scattered from the first connection pipe 111 is included in the dehumidified air to be moved toward the first connection pipe 111, the moisture can be separated from the air in the process of being moved to both sides after contacting the bottom surface of the horizontal plate 150, Only the separated air can be moved to the first connection pipe 111. [

The rear surface of the vertical plate 160 and the bottom surface of the horizontal plate 150 are provided with a plurality of protrusions and recesses and protrusions repeated in the longitudinal direction so that moisture can be more effectively separated from the air contacted with the air, The area may be configured to be larger.

In addition, when the horizontal plate 150 further includes extension portions 151 and wings 152 on both sides of the horizontal plate 150, moisture can be more effectively separated from the dehumidified air, The dehumidified air passing through the evaporator 100 is guided toward the vertical plate 160 so that the contact between the air and the condensed water moving downward from the inner surface of the evaporator 100 can be minimized, 172 to the first connection pipe 111 through the horizontal plate 150. The water contained in the air flowing into the first connection pipe 111 can be more effectively separated.

Further, instead of using the horizontal plate 150 according to the design requirement, the angular pipe fixing both sides of the diaphragm 140 may be further extended and used instead of the horizontal blocking portion 172 of the horizontal plate 150 It is possible.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

100: evaporator 110: second housing
111: first connector 112: second connector
113: drain pipe 120: heat sink
130: refrigerant tube 140: diaphragm
150: Horizontal plate 151: Extension
152: wing portion 160: vertical plate
170: auxiliary diaphragm 170: fitting groove
172: horizontal cut-off portion 173: discharge groove
200: pre-cooler 210: first housing
211: inlet 212: outlet
220: copper tube 230, 230a, 230b: diaphragm

Claims (13)

A plurality of copper tubes are installed in the first housing, a plurality of diaphragms are installed at predetermined intervals along the longitudinal direction of the copper tubes, an inlet for supplying air to one side is formed, and dehumidified air is discharged to the other side A precooler having an outlet formed therein; And
A plurality of heat dissipation plates are installed in the second housing so as to be spaced apart from each other, a refrigerant tube vertically penetrating the heat dissipation plate is installed, a plurality of diaphragms are provided at predetermined intervals between the heat dissipation plates, And an evaporator communicating with the first housing of the precooler through a connection pipe and a second connection pipe,
A horizontal plate installed inside the second housing and horizontally installed between an inlet of the drain pipe and an inlet of the first connection pipe; And
A vertical plate installed at a predetermined height at a right angle to the rear of the horizontal plate, the vertical plate being positioned behind the first connection pipe;
Wherein the condensed water is prevented from flowing into the condenser. The method according to claim 1,
Wherein the horizontal plate comprises:
Wherein a front end portion is coupled to an inner surface of the cover of the second housing, and both side surfaces are spaced apart from a longitudinal inner surface of the second housing. 3. The method of claim 2,
Wherein the horizontal plate comprises:
Further comprising: a pair of extension portions vertically upwardly and vertically upwardly formed on both side surfaces of the air dryer. The method of claim 3,
Wherein the horizontal plate comprises:
Wherein the wing portion is provided so that a portion of an upper end of the extended portion is bent outwardly. The method according to claim 1,
Wherein the horizontal plate comprises:
Wherein the center portion is curved in a direction toward the first connection pipe. The method according to claim 1,
Wherein the vertical plate comprises:
And a lower end thereof is coupled to a rear end portion of the horizontal plate, and both side surfaces thereof are spaced apart from a longitudinal inner surface of the second housing. The method according to claim 1,
Wherein the vertical plate comprises:
Wherein the center portion is curved in a direction toward the first connection pipe. The method according to claim 1,
Wherein the width of the horizontal plate and the width of the vertical plate are configured so that one of the widths is larger than the other width. The method according to claim 1,
Wherein the horizontal plate and the vertical plate are detachably assembled or welded to each other. The method according to claim 1,
Wherein the bottom surface of the horizontal plate and the vertical plate are further provided with a plurality of projections or concavities and convexities in which mountains and valleys are formed in the longitudinal direction. The method according to claim 1,
The auxiliary partition is provided between the heat sinks located behind the vertical plate, the auxiliary partition has a curved lower portion which is in contact with the lower surface of the inner surface of the second housing, and an upper portion of the auxiliary partition is provided with a fitting groove, And a pair of horizontal cut-off portions which are bent and extended horizontally toward the cover of the second housing are provided on opposite sides of the air dryer. 12. The method of claim 11,
Wherein one side of the horizontal cut-off portion is in contact with the inner surface of the second housing, respectively. 12. The method of claim 11,
Wherein an installation position of the horizontal cut-off portion and the horizontal plate are formed so as to be aligned with each other or stepped with respect to each other.

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