KR20140125531A - Air-conditioner - Google Patents

Abstract

The present invention relates to an air conditioner. The air conditioner of the present invention includes: a plurality of heat exchangers which are arranged to be spaced apart from each other in the vertical direction to overlap each other on an end or both ends; guide members which are respectively arranged on the heat exchangers to seal the gap between the overlapping ends of different heat exchangers; and a water collecting member which is coupled to the guide members to collect the condensed water on the surfaces of the heat exchangers. The present invention can reduce the pressure loss of the air while widening heat exchange areas by arranging the heat exchangers to be spaced apart from each other while having overlapping areas. The present invention can also prevent the condensed water from falling onto a different heat exchanger through the water collecting member to prevent the heat exchange performance from decreasing.

Description

Air-conditioner

The present invention relates to an air conditioner improved in heat exchange performance.

The air conditioner is a device for cooling / heating the room or purifying the air to create a more comfortable indoor environment for the user.

Such an air conditioner can be divided into a separate type air conditioner in which the indoor unit and the outdoor unit are separated from each other, and an integrated type air conditioner in which the indoor unit and the outdoor unit are combined into one unit. In addition, a single type air conditioner configured to be used in a narrow place with a capacity capable of driving one indoor unit according to the capacity of the air conditioner, a large-sized air conditioner configured with a very large capacity for use in a company or a restaurant, And a multi-air conditioner configured to sufficiently drive an indoor unit.

Here, the separate type air conditioner is composed of an indoor unit installed in the indoor space to supply warm air or cold air to the inside of the air conditioning space, and an outdoor unit that compresses and expands the refrigerant so that a sufficient heat exchange operation can be performed in the indoor unit.

The air conditioner has a cycle in which the refrigerant circulating in the inside circulates heat in the order of compression, condensation, expansion and evaporation. According to the cycle, the air conditioner operates as a cooling cycle for discharging the heat in the room to the outside during the summer, and as a heating cycle for heating the heat pump to circulate heat to the room in the opposite direction to the cooling cycle during the winter season.

The air conditioner limits the heat exchanging area of the heat exchanger within the case specifications of the product. There is a problem that the smaller the heat exchanging area is, the smaller the amount of air due to the pressure loss is.

Conventionally, the number of heat exchangers is increased to increase the heat exchange area within a limited case size. However, this method has a limitation in reducing the pressure loss of the air because the inflowing air passes through the plurality of heat exchangers sequentially.

Also, when the heat exchanger is operated as an evaporator, the condensed water generated on the surface of the heat exchanger flows downward. Accordingly, since the condensed water becomes thicker at the lower part of the heat exchanger, there is a problem that the heat transfer is interrupted and the airflow is reduced at the same time.

It is an object of the present invention to provide an air conditioning system capable of increasing the heat exchange area while reducing loss of air pressure and also capable of preventing the deterioration of heat exchange performance by condensed water, .

In order to achieve the above object, an air conditioner according to an embodiment of the present invention includes a plurality of heat exchangers arranged vertically apart from each other so that one end or both ends of the heat exchanger are overlapped with each other, And a water collecting member including a guide member for shielding a gap between the overlapped ends of the plurality of heat exchangers and collecting the generated condensed water on the surfaces of the plurality of heat exchangers.

The present invention is characterized in that the water collecting member is located in the direction of the condensed water drop of the heat exchanger located above the different heat exchangers.

Further, in the present invention, the water collecting member is provided with a receiving space for collecting the condensed water, and the lower end of the heat exchanger located at the upper portion is located inside the receiving space.

Further, the present invention is characterized in that the water collecting member includes a blocking portion protruding from the bottom surface of the accommodation space.

The guide member may include a first engaging portion and a second engaging portion which are in close contact with the overlapped ends of the heat exchangers, And the water collecting member is coupled to the second engaging portion.

In addition, the present invention is characterized in that one side of the water collecting member is coupled to the second engaging portion, and the other side of the water collecting member includes a guide portion inclined upwardly.

Further, the present invention includes a case for forming an appearance of an air conditioner, and a blocking member provided on both sides of the guide member, the blocking member positioned between both sides of the plurality of heat exchangers and the inner surface of the case .

Further, in the present invention, the guide member, the water collecting member, and the blocking member are integrally formed, and the blocking member is coupled to the case, and the guide member and the water collecting member are fixed in the case.

In addition, the present invention is characterized in that the guide member and the water collecting member are provided with a heat insulating material.

Further, the present invention is characterized in that the water collecting member is formed in a streamlined shape.

Further, the present invention is characterized in that the plurality of heat exchangers are installed in an inclined manner.

An air conditioner according to another embodiment of the present invention includes a plurality of heat exchangers arranged vertically apart from each other so as to overlap one or both ends thereof and a plurality of heat exchangers disposed between the plurality of heat exchangers, Wherein the guide member includes a first engaging portion and a second engaging portion which are in close contact with the overlapped one ends of the different heat exchangers and are positioned up and down, And a collecting space for collecting condensed water of the heat exchanger located at an upper portion of the different heat exchangers is provided in the compartment.

Here, the bottom of the housing groove is positioned lower than the second engaging portion.

In addition, the present invention is characterized in that the second coupling portion is closely attached so as to surround the lower end of the heat exchanger located above the other heat exchangers.

In addition, the present invention is characterized in that the guide member includes a guide portion which is inclined upward from the second engaging portion.

According to the present invention, a plurality of heat exchangers are vertically spaced apart from each other so that one end or both ends of the heat exchanger are overlapped, and between the plurality of heat exchangers, a guide member for blocking the air bypassing the heat exchanger and guiding the air flow is provided The heat exchange area of the air conditioner can be increased while reducing the pressure loss of the inflow air.

According to the present invention, since the condensed water generated on the surface of the heat exchanger is collected by the water collecting members provided in the guide members, it is possible to prevent the condensed water from falling into the other heat exchangers and deteriorating the heat exchange performance.

Further, according to the present invention, the water collecting member includes a blocking portion protruding from the bottom of the receiving space of the condensed water, so as to block the air bypassing the heat exchanger through the receiving space.

In addition, according to the present invention, the water collecting member includes a guide portion which is inclined upwardly, so that condensed water scattered by the inflow air can be collected into the receiving space.

In addition, according to the present invention, the water collecting member is made streamlined to reduce the pressure loss of the inflow air.

In addition, according to the present invention, the guide member and the water collecting member are provided with a heat insulating material to prevent heat exchange between the air flowing into the different heat exchangers and heat exchange with the condensed water, thereby preventing heat exchange performance deterioration.

1 is a sectional view of an air conditioner according to an embodiment of the present invention.
2 is a perspective view of a guide member and a water collecting member according to an embodiment of the present invention.
3 (a) is a cross-sectional view of a heat exchanger disposed at a front side with respect to an air inflow direction according to an embodiment of the present invention, and FIG. 3 (b) to be.
4 (a) is a sectional view of a guide member and a water collecting member provided with a heat insulating material according to an embodiment of the present invention, and FIG. 4 (b) is a sectional view of a water collecting member formed in a streamlined form.
5 is a perspective view of a guide member, a water collecting member, and a blocking member integrally provided according to an embodiment of the present invention.
6 is a cross-sectional view illustrating a space between a case of the air conditioner and a heat exchanger according to an embodiment of the present invention.
FIG. 7 is a cross-sectional view illustrating three or more heat exchangers according to an embodiment of the present invention and a guide member installed in each of the heat exchangers.
Figure 8 is a cross-sectional view of an inclined heat exchanger according to an embodiment of the present invention.
FIG. 9 is a perspective view illustrating a heat exchanger, a guide member, and a water collecting member bent in a '?' Shape according to an embodiment of the present invention.
FIG. 10 is a perspective view illustrating a heat exchanger, a guide member, and a water collecting member bent in a '?' Shape according to an embodiment of the present invention.
11 is a sectional view of a duct type air conditioner according to an embodiment of the present invention.
12 is a sectional view of a guide member provided with a collection groove according to another embodiment of the present invention.
FIG. 13 (a) is a cross-sectional view of a guide member provided with a water collecting groove according to another embodiment of the present invention, and FIG. 13 (b) And FIG.

Hereinafter, an air conditioner according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

In addition, the same or corresponding components are denoted by the same reference numerals regardless of the reference numerals, and redundant description thereof will be omitted. For convenience of explanation, the size and shape of each constituent member shown may be exaggerated or reduced have.

On the other hand, terms including an ordinal number such as a first or a second may be used to describe various elements, but the constituent elements are not limited by the terms, and the terms may refer to a constituent element from another constituent element It is used only for the purpose of discrimination.

FIG. 1 is a cross-sectional view of an air conditioner according to an embodiment of the present invention, and FIG. 2 is a perspective view of a guide member and a water collecting member according to an embodiment of the present invention.

The air conditioner according to the present invention includes a case 110, a plurality of heat exchangers 120 provided in the case 110, a guide member 210 provided between the plurality of heat exchangers 120, And a water collecting member 220 provided in the heat exchanger 210 and collecting condensed water of the heat exchanger 120.

Hereinafter, the components of the air conditioner will be described with reference to the drawings. Hereinafter, the air conditioner can be used as a concept including both an outdoor unit and an indoor unit.

First, the case 110 forms an outer appearance of the air conditioner, and an air inlet 111 and an air outlet 113 are provided. Air is introduced into the air intake port 111 by the air blowing fan 130 provided inside the case 110 and is heated or cooled and is then discharged back to the outside through the air discharge port 113. [

Next, the plurality of heat exchangers 120 are vertically spaced apart from each other and disposed inside the case 110. That is, a heat exchanger 121 located in the upper part of the case 110 and a heat exchanger 123 located in the lower part of the case 110 are provided.

At this time, the plurality of heat exchangers 120 are disposed so as to overlap one or both ends. That is, the lower end of the upper heat exchanger 121 overlaps the upper end of the lower heat exchanger 123. Here, it means that the upper end of the lower heat exchanger 123 is positioned apart from the lower end of the upper heat exchanger 121 by being overlapped.

The maximum length of the heat exchange area of the heat exchanger 120 is limited to the height Hc of the heat exchange installation space of the case 110. [ However, since the heat exchange area corresponding to the overlapped area between the heat exchangers 120 is increased as compared with the conventional art, the length of the entire heat exchange area is increased as compared with the related art. Accordingly, the heat exchange capacity of the air conditioner can be increased.

In addition, the lengths L1 and L2 of each of the heat exchangers 120 can be reduced by dividing the heat exchangers 120 into a plurality of heat exchangers 120. Therefore, the total amount of condensed water generated on the surface of each heat exchanger 120 is reduced. The thickness of the condensed water generated on the surface of each of the heat exchangers 120 and interfering with the heat exchange is reduced so that the heat exchange obstruction due to the condensed water between the incoming air and each of the heat exchangers 120 is reduced.

The plurality of heat exchangers 120 may be a fin-tube heat exchanger 120.

Next, the guide member 210 is provided between the plurality of heat exchangers 120, respectively. The guide member 210 shields the gap between the overlapped ends of the different heat exchangers 120 to block the intake air from bypassing the heat exchanger 120. [ The air introduced into the air intake port 111 is guided by the guide member 210 and is divided into the heat exchanger 120 disposed in the upper and lower parts and is heat-exchanged, so that the pressure loss of the air can be reduced.

At this time, the guide members 210 are provided in close contact with the overlapped ends of the different heat exchangers 120, respectively. Thus, air can be prevented from bypassing through the gap between the guide member 210 and the overlapped one end of the heat exchanger 120. Further, the guide member 210 has a shape extending vertically and diagonally.

In one embodiment, the guide member 210 includes a first coupling portion 211 and a second coupling portion 213 that are in close contact with the overlapped ends of the heat exchangers 120, And a partition 215 extending between the first coupling part 211 and the second coupling part 213.

The first coupling part 211 is in close contact with the upper end of the heat exchanger 123 located at the lower part and the second coupling part 213 is in close contact with the lower end of the heat exchanger 121 located in the upper part. At this time, the first coupling portion 211 is closely contacted to cover the upper surface of the lower heat exchanger 123, so that the contact area between the first coupling portion 211 and the heat exchanger 123 can be increased. Accordingly, it is possible to prevent the guide member 210 from being shaken by the air flow.

The partition 215 extends between the first engaging portion 211 and the second engaging portion 213 and extends in a diagonal direction.

Next, the water collecting member 220 is coupled to the guide member 210 to collect the generated condensed water on the surfaces of the plurality of heat exchangers 120. When the heat exchanger 120 operates as an evaporator, the condensed water generated on the surface of each heat exchanger 120 flows downward and is collected on the lower surface of the heat exchanger 120.

The present invention can collect condensed water falling from the lower surface of each heat exchanger 120 through the water collecting member 220. Accordingly, it is possible to prevent the condensed water in the upper heat exchanger (121) from falling by the other heat exchanger (123) located at the lower part, and to prevent the heat exchange performance from being deteriorated by the condensed water.

The water collecting member 220 is provided in the guide member 210 and is positioned in the direction of the condensed water drop of the heat exchanger 121 located at the upper one of the two heat exchangers 120 having one end overlapped with each other. The water collecting member 220 may be coupled to the second coupling portion 213 of the guide member 210 which is in close contact with the lower end of the upper heat exchanger 121. Accordingly, the water collecting member 220 collects the condensed water of the heat exchanger 121 located in the upper part of the different heat exchangers 120 having the overlapped one end.

The water collecting member 220 is provided with an accommodation space S for collecting condensed water and the lower end of the heat exchanger 120 located at the upper portion may be located inside the accommodation space S. Accordingly, it is possible to prevent the condensed water dropping from the lower end of the heat exchanger 120 from falling out of the water collecting member 220. On the other hand, the water collecting member 220 is provided in a box shape with its top surface opened, and the receiving space S is provided by its surrounding surface.

The guide member 210 and the water collecting member 220 extend in the longitudinal direction of the heat exchanger 120. The guide member 210 and the water collecting member 220 have the same length as the longitudinal direction of the heat exchanger 120. Accordingly, the condensed water falling down from the lower portion of the heat exchanger 120 can be collected in the water collecting member 220.

3, the water collecting member 220 may include a blocking portion 221 protruding from the bottom surface of the accommodation space S. The blocking portion 221 can block the air bypassing the heat exchanger 120 through the accommodation space S, thereby preventing the heat exchange performance from deteriorating. That is, the air that is bypassed into the accommodation space S through the gap between the second engaging portion 213 of the guide member 210 and the lower end of the upper heat exchanger 121 is guided upward by the blocking portion 221 May be introduced into the heat exchanger (120).

At this time, the blocking portion 221 has a height Hp that extends perpendicularly to the bottom surface of the accommodation space S and touches the lower end of the upper heat exchanger 121. Accordingly, the blocking portion 221 can guide all of the air introduced into the accommodation space S to the heat exchanger 120 by bypassing the heat exchanger 120.

Also, as shown in FIG. 3 (b), the water collecting member 220 may include a guide portion 223 which is inclined upward. One side of the water collecting member 220 is coupled to the second coupling portion 213 and a guide portion 223 is provided on the other side of the water collecting member 220. The guide portion 223 guides the condensed water scattered in the air flow direction from the surface of the heat exchanger 120 into the accommodation space S by the inflow air. At this time, the upper end of the guide portion 223 may be inclined upward to be higher than the lower end of the upper heat exchanger 121.

The guide portion 223 may be provided in the water collecting member 220 when the upper heat exchanger 121 is positioned behind the lower heat exchanger 123 with respect to the air inflow direction as shown in FIG. have. 3 (a), when the upper heat exchanger 121 is positioned ahead of the lower heat exchanger 123 with respect to the air inflow direction, the condensed water that is scattered is blocked by the partition 215, (S). ≪ / RTI >

As shown in FIG. 4 (a), the water collecting member 220 and the guide member 210 may be provided with a heat insulating material 230. The heat insulating material 230 provided in the water collecting member 220 can prevent heat exchange between the condensed water collected in the receiving space S and the air passing through the lower heat exchanger 123 to prevent the heat exchange performance from deteriorating.

The heat insulating material 230 provided on the guide member 210 prevents the heat exchange between the air passing through the lower heat exchanger 123 and the air flowing into the upper heat exchanger 121 through the guide member 210, Thereby preventing degradation.

The first engaging portion 211 of the guide member 210 may be in close contact with the lower heat exchanger 123 to cover only a part of the upper surface of the lower heat exchanger 123. When the guide member 210 is installed inside the air conditioner, first, a plurality of heat exchangers 120 are installed, and then the guide member 210 is inserted into the gap between the plurality of heat exchangers 120 Fix it inside. That is, when the first coupling portion 211 is formed to be in close contact with only a part of the upper surface of the lower heat exchanger 123, the length of the first coupling portion 211 is reduced, It is easy to insert the member 210.

Also, as shown in FIG. 4 (b), the water collecting member 220 may be made streamlined. Accordingly, the flowing air can smoothly be guided while being in contact with the lower surface of the water collecting member 220, thereby reducing the flow resistance of the air. Preferably, only the lower surface of the water collecting member 220 is made streamlined. Likewise, the guide portion 223 may also be streamlined to reduce the flow resistance of the air.

The water collecting member 220 may further include an auxiliary blocking part 225 between the blocking part 221 and the guide part 223. The auxiliary blocking portion 225 may extend vertically from the bottom surface of the water collecting member 220 so as to be in close contact with the lower side surface of the upper heat exchanger 121. The auxiliary shutoff unit 225 blocks the air bypassing the heat exchanger 120 through the accommodation space S, like the shutoff unit 221. In addition, since the auxiliary blocking portion 225 increases the contact area with the upper heat exchanger 121, it is possible to prevent the water collecting member 220 from swinging due to the air flow.

And may include a blocking member 240 provided in the guide member 210, as shown in FIGS. The blocking member 240 is disposed on both sides of the guide member 210 and is positioned between the opposite sides of the plurality of heat exchangers 120 and the inner surface of the case 110. The blocking member 240 may block both sides of the overlapped one end of each heat exchanger 120 to block the air bypassing both sides of the heat exchanger 120.

At this time, the guide member 210, the water collecting member 220, and the blocking member 240 may be integrally formed. Accordingly, the guide member 210, the water collecting member 220, and the blocking member 240 can be manufactured through a single process without having to separately fabricate them and join them again.

The blocking member 240 is coupled to the case 110 so that the guide member 210 and the water collecting member 220 can be fixed inside the case 110. That is, the guide member 210, the water collecting member 220, and the blocking member 240 are integrally formed, so that the guide member 210 and the water collecting member 220 are fixed by fixing the blocking member 240 to the case 110. [ And can be fixed to the inside of the heat exchanger 120 or the case 110 without being coupled to the heat exchanger 120 or the case 110 separately.

The above-described air conditioner will be described as follows. A first heat exchanger 121 and a second heat exchanger 123 provided in the case 110 and a second heat exchanger 123 provided between the first heat exchanger 121 and the second heat exchanger 123, A guide member 210 for shielding a gap between the guide member 210 and the water collecting member 220 provided on the guide member 210; At this time, the second heat exchanger 123 is disposed below the first heat exchanger 121, and the upper end of the second heat exchanger 123 overlaps the lower end of the first heat exchanger 121.

That is, the first heat exchanger 121 refers to the above-mentioned upper heat exchanger 121, and the second heat exchanger 123 refers to the lower heat exchanger 123. [

The guide member 210 extends from the upper end of the second heat exchanger 123 to the lower end of the first heat exchanger 121 so that the gap between the lower end of the first heat exchanger 121 and the upper end of the second heat exchanger 123 Shield the gap.

The water collecting member 220 is provided on the guide member 210 so as to be positioned at the lower end of the first heat exchanger 121 so that condensed water generated in the first heat exchanger 121 is collected. The water collecting member 220 is provided with a receiving space S in which condensed water is collected and the lower end of the first heat exchanger 121 may be located inside the receiving space S. [

The water collecting member 220 includes a blocking portion 221 that protrudes from the bottom surface of the accommodation space S and blocks air that bypasses the first heat exchanger 121 through the accommodation space S, It is possible to prevent degradation.

In addition, the water collecting member 220 may include a guide portion 223 for guiding the condensed water scattered from the first heat exchanger 121 by the air flow.

However, the present invention is not limited thereto. As shown in FIG. 7, three or more heat exchangers 120a, 120b, 120c, and 120d may be provided in the case 110. FIG. Can be referred to as a first heat exchanger 120a, a second heat exchanger 120b, a third heat exchanger 120c and a fourth heat exchanger 120d from the upper part inside the case 110. [ The first heat exchanger 120a and the fourth heat exchanger 120d overlap only one end, but the second heat exchanger 120b and the third heat exchanger 120c located at the middle are overlapped with the adjacent heat exchangers at both ends.

At this time, the guide member 210 may be provided between the plurality of heat exchangers 120, respectively. Similarly, the water collecting member 220 is provided in each of the plurality of guide members 210, and a plurality of water collecting members 220 are provided. The water collecting member 220 collects the condensed water generated in the heat exchanger located at an upper portion among the adjacent heat exchangers 120 positioned adjacent to each other.

In addition, as shown in FIG. 8, the plurality of heat exchangers 120 may be inclined. When the heat exchanger 120 is installed in an inclined manner, a space between the air inlet 111 of the case 110 and the heat exchanger 120 is secured, thereby increasing the flow resistance and air volume of the air.

9 and 10, the heat exchanger 120 has a curved shape, and the guide member 210 and the water collecting member 220 also have a bent shape corresponding to the shape of the heat exchanger 120 Lt; / RTI > When the air inlet 111 is provided on the side of the case 110 as well as on the front side of the case 110, the heat exchanger 120 is positioned behind the air inlet 111, (See FIG. 10), and the like.

In addition, the present invention can be applied not only to a stand type air conditioner but also to a duct type air conditioner as shown in FIG. The case 110 of the duct-type air conditioner includes an air inlet 111 and an air outlet 113. A duct 117 is coupled to the air inlet 111 and the air outlet 113, respectively. Likewise, the plurality of heat exchangers 120 are disposed so that one ends of the heat exchangers 120 overlap with each other within the case 110, and the guide members 210 are provided between the plurality of heat exchangers 120. The guide member 210 may include a water collecting member 220 to collect the condensed water of the upper heat exchanger 121.

12, the air conditioner according to another embodiment of the present invention includes a plurality of heat exchangers 120 and guide members 310 provided between the plurality of heat exchangers 120, The guide member 310 may be provided with a collection groove 317 through which the condensed water of the heat exchanger 120 is collected. Hereinafter, an air conditioner according to another embodiment of the present invention will be described with reference to the drawings. The contents overlapping with those described above will be omitted or briefly explained.

The plurality of heat exchangers 120 are vertically spaced apart from each other so as to overlap one or both ends. The guide member 310 is provided to shield the gap between the overlapped ends of the different heat exchangers 120. [ The guide member 310 includes a first coupling portion 311 and a second coupling portion 313 which are in close contact with the overlapped ends of the heat exchangers 120 and are vertically positioned, And a partition 315 extending between the first and second coupling parts 313.

In the present invention, a collection groove 317 is formed in the partition 315 of the guide member 310. The bottom surface of the collection groove 317 is positioned lower than the second engagement portion 313. Accordingly, the condensed water generated in the heat exchanger 121 located at the upper portion of the different heat exchangers 120 falls into the second coupling portion 313, (317). Since the condensed water in the upper heat exchanger 121 is prevented from falling down to the other heat exchanger 123 located in the lower portion through the collecting groove 317, the heat exchange performance of the other heat exchanger 120 due to the condensed water can be prevented .

At this time, the second engaging portion 313 is closely attached so as to surround the lower end of the heat exchanger 121 located at the upper one of the different heat exchangers 120. Thus, it is possible to prevent the air from bypassing the heat exchanger 121 through the space between the lower end of the upper heat exchanger 121 and the second coupling portion 313. [

13 (a), the guide member 310 may include a guide portion 319 extending upward from the second engaging portion 313 in an inclined manner. The guide portion 319 prevents the condensed water scattered from the surface of the heat exchanger 120 in the direction of the air flow by the inflow air to fall outside the second engaging portion 313. The height of the upper end of the guide portion 319 may be extended from the second engaging portion 313 to be higher than the lower end of the upper heat exchanger 121.

The guide member 310 may be provided with a heat insulating material 320. The heat insulating material 320 prevents heat exchange between the condensed water collected in the collecting grooves 317 and the air passing through the lower heat exchanger 123 to prevent deterioration of heat exchange performance. The heat insulating material 320 prevents the heat exchange between the heat exchanged air passing through the lower heat exchanger 123 and the air flowing into the upper heat exchanger 121 through the guide member 310 to prevent the heat exchange performance from deteriorating .

In addition, the guide member 310 may be formed in a streamlined shape. Accordingly, the resistance of air flowing in contact with the guide member 310 can be reduced.

Another embodiment of the present invention is advantageous in that it is easy to manufacture since the collecting grooves 317 are formed in the guide member 310 without the separate collecting members being assembled in comparison with the above-described embodiment. However, there is a disadvantage in that the horizontal length of the partition 315 becomes longer to enlarge the horizontal distance T between the heat exchangers 120 in order to prepare the collection grooves 317.

13 (b), the upper heat exchanger 121 is moved forward by the predetermined length d, and only a part of the lower surface of the upper heat exchanger 121 is moved to the second engagement portion 313 As shown in Fig. That is, the second coupling portion 313 is provided to support only a part of the upper heat exchanger 121. Accordingly, the horizontal interval T 'between the upper heat exchanger 121 and the lower heat exchanger 123 can be reduced.

It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. And additions should be considered as falling within the scope of the following claims.

120: heat exchanger 210, 310: guide member
211, 311: first coupling portion 213, 313: second coupling portion
215, 315: partition 220: water collecting member
221: blocking portion 223, 319: guide portion
225: auxiliary breaker 230, 320: insulation
240: blocking member

Claims (20)

A plurality of heat exchangers disposed one above the other or vertically spaced from each other so as to overlap each other; And
And a guide member provided between the plurality of heat exchangers and shielding a gap between the overlapped ends of the different heat exchangers,
And a water collecting member coupled to the guide member and collecting condensed water generated on a surface of the plurality of heat exchangers. The method according to claim 1,
Wherein the water collecting member is located in a direction in which the condensed water falls in the heat exchanger located above the different heat exchangers. 3. The method of claim 2,
Wherein the water collecting member is provided with a receiving space in which the condensed water is collected,
And the lower end of the heat exchanger located at the upper portion is located inside the accommodation space. The method of claim 3,
Wherein the water collecting member includes a blocking portion protruding from a bottom surface of the accommodating space. 3. The method of claim 2,
The guide member includes a first engaging portion and a second engaging portion which are respectively in close contact with the overlapped ends of the heat exchangers and are vertically positioned, and a partition extending between the first engaging portion and the second engaging portion, ,
And the water collecting member is coupled to the second engaging portion. 6. The method of claim 5,
One side of the water collecting member is coupled to the second engaging portion,
Wherein the water collecting member includes a guide portion extending obliquely upward at the other side of the water collecting member. The method according to claim 1,
And a case which forms an appearance of the air conditioner,
And a blocking member provided on both sides of the guide member and positioned between both sides of the plurality of heat exchangers and the inner surface of the case. 8. The method of claim 7,
The guide member, the water collecting member, and the blocking member are integrally formed,
Wherein the blocking member is coupled to the case so that the guide member and the water collecting member are fixed inside the case. The method according to claim 1,
Wherein the guide member and the water collecting member are provided with a heat insulating material. The method according to claim 1,
Wherein the water collecting member is formed in a streamlined shape. The method according to claim 1,
Wherein the plurality of heat exchangers are installed in an inclined manner. A plurality of heat exchangers disposed one above the other or vertically spaced from each other so as to overlap each other; And
And a guide member provided between the plurality of heat exchangers and shielding a gap between the overlapped ends of the different heat exchangers,
The guide member includes a first engaging portion and a second engaging portion which are respectively in close contact with the overlapped ends of the heat exchangers and are vertically positioned, and a partition extending between the first engaging portion and the second engaging portion, ,
Wherein the compartment is provided with a collecting groove for collecting condensed water of a heat exchanger located at an upper portion of the different heat exchangers. 13. The method of claim 12,
And the bottom surface of the water collecting groove is positioned lower than the second coupling portion. 14. The method of claim 13,
Wherein the second coupling portion is closely attached so as to surround the lower end of the heat exchanger located at the upper one of the different heat exchangers. 14. The method of claim 13,
Wherein the guide member includes a guide portion extending obliquely upward from the second engaging portion. 13. The method of claim 12,
Wherein the guide member is formed in a streamlined shape. case;
A first heat exchanger provided inside the case;
A second heat exchanger disposed at a lower portion of the first heat exchanger and having an upper end overlapped with a lower end of the first heat exchanger; And
And a guide member extending from an upper end of the second heat exchanger to a lower end of the first heat exchanger and shielding a gap between a lower end of the first heat exchanger and an upper end of the second heat exchanger,
And a water collecting member provided on the guide member to be positioned at a lower end of the first heat exchanger and collecting condensed water generated in the first heat exchanger. 18. The method of claim 17,
Wherein the water collecting member is provided with a receiving space in which the condensed water is collected,
And the lower end of the first heat exchanger is located inside the accommodation space. 19. The method of claim 18,
Wherein the water collecting member includes a blocking portion protruding from a bottom surface of the accommodation space and blocking air that bypasses the first heat exchanger through the accommodation space. 19. The method of claim 18,
Wherein the water collecting member includes a guide portion for guiding the condensed water scattered from the first heat exchanger to the accommodating space by an air flow.

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