JP2005180772A - Indoor unit of air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an indoor unit of an air conditioner that allows enhancing of the performance of heat exchangers by keeping drain from dropping from above during cooling operation, and that allows reducing of the manufacturing cost of the heat exchangers. <P>SOLUTION: In the indoor unit, a front heat exchanger and a back heat exchanger have their respective portions near their opposite edges located oppositely to the upper surface of an indoor unit body. Cut and raised parts are provided at the portions near the opposite edges. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an indoor unit of an air conditioner, and more particularly to an indoor unit of an air conditioner having a heat exchanger provided with a cut and raised portion.

  In general, an indoor unit of an air conditioner is composed of a heat exchanger and a fan. In order to increase the surface area of the heat exchanger, it is folded or divided into a substantially inverted V shape at the top and installed on the back side. Yes.

  In a conventional heat exchanger, the bent portion (or divided portion) has a lower ventilation resistance than other portions, so that air can flow more easily, and further, the fin width in the airflow direction of the bent portion is smaller, so the bent portion is bent. More humid air is more likely to flow in from the section, and a lot of drain water is generated from these, and the fins of the heat exchanger cannot hold the drain water, and the drain water drops and becomes a problem. For this measure, a shielding plate is installed at the bent portion or divided portion of the heat exchanger to prevent dripping of drain water (Patent Document 1).

However, since the structure of Patent Document 1 uses a shielding plate, there is a problem that the cost increases, and the wind does not flow on the back surface of the shielding plate. On the contrary, it is counterproductive to preventing dripping.
JP 2001-280645 A (paragraph [0021], FIG. 1 and FIG. 3)

  The present invention has been made in consideration of the above-described circumstances. During cooling operation, it is possible to improve the performance of the heat exchanger by preventing dripping from the top of the drain water, and the manufacturing cost of the heat exchanger. It aims at providing the indoor unit of the air conditioner which can aim at.

  In order to achieve the above object, according to one aspect of the present invention, the front side heat exchanger and the rear side heat exchanger formed in a substantially inverted V shape by being folded or divided include a front suction port and In an indoor unit of an air conditioner housed in an indoor unit main body having an upper suction port, a portion near the opposing edge of the front side heat exchanger and the rear side heat exchanger is positioned facing the upper surface of the indoor unit main body, and An indoor unit for an air conditioner is provided in which a cut and raised portion is provided in each of the vicinity of the opposing edges.

  According to the indoor unit of an air conditioner according to the present invention, during cooling operation, the performance of the heat exchanger can be improved by preventing dripping from the top of the drain water, and the manufacturing cost of the heat exchanger can be reduced. An indoor unit of an air conditioner that can be reduced can be provided.

  Hereinafter, a first embodiment of an indoor unit of an air conditioner according to the present invention will be described with reference to the accompanying drawings.

  FIG. 1 is a longitudinal sectional view of a first embodiment of an indoor unit of an air conditioner according to the present invention.

  As shown in FIG. 1, an indoor unit 1 of an air conditioner according to the present invention has an indoor unit main body 2, and the indoor unit main body 2 is provided with a front panel 3 on the front surface thereof. A front suction port 3a formed of a grill is opened on the front side of the front panel 3, and an upper suction port 3b formed of a grill is opened on the upper surface. In the indoor unit body 2, a front side heat exchanger 4 and a back side heat exchanger 5 are arranged in a state of being bent or divided and formed in a substantially inverted V shape. 4 has a curved shape so as to protrude forward, and the rear heat exchanger 5 is connected to the front heat exchanger 4 and faces the upper surface or the rear surface, and is inclined downward toward the rear surface. It is installed.

  On the other hand, an air purifier 6 and a filter 7 are disposed in front of the front side heat exchanger 4 and behind the front suction port 3a, and an indoor fan 8 is disposed behind the front side heat exchanger 4. A conditioned air outlet 9 is formed below the indoor fan 8. The air outlet 9 is provided with a louver 10 that adjusts the direction in which the conditioned air is blown out.

  As shown in FIG. 2, the front side heat exchanger 4 is a fin tube type heat exchanger in which both side cuts 4x are provided over substantially the entire surface of the fin 4b to which the heat transfer tube 4a is fitted. As shown, the back side heat exchanger 5 is also a fin tube type heat exchanger in which both side cuts 5x are provided over substantially the entire surface of the fin 5b to which the heat transfer tube 5a is fitted. In addition, both sides cutting is cut | disconnected by the both longitudinal directions of cutting and protruded in the shape of a handle.

As shown in FIGS. 1 and 4, the front side fins 4b and the back side fins 5b are cut at the corners so that they do not overlap each other when they are folded, and are almost in contact with each other, and the direction of gravity Are curved, for example, arcuate edges 4a ₃ and 5a ₃ so as to be curved, or are formed as arcs or a continuation thereof. As a result, the flow path of the air flowing into the bent portion 11 (portion where the two are almost in contact) is lengthened, and during the cooling operation, high humidity air flows into the bent portion 11 through the upper suction port 3b. It can suppress and can prevent dripping of drain water. In FIG. 1, reference numeral 12 denotes an auxiliary heat exchanger that communicates with the front-side heat exchanger 4.

Moreover, as shown in FIG.4 and FIG.5, the opposing edge vicinity site | part (A part in FIG. 4) of the front side heat exchanger 4 and the back side heat exchanger 5, ie, the windward side of both heat exchangers 4 and 5 In the region surrounded by the row heat transfer tubes 4a ₁ , 5a ₁ and the uppermost heat transfer tubes 4a _1t , 5a _1t , 4a _2t , 5a _{2t of the} leeward side row heat transfer tubes 4a ₂ , 5a ₂ and the arcuate edges 4a ₃ , 5a ₃ Each side is provided with one-side cuts 4y, 5y, and these one-side cuts 4y, 5y are orthogonal to the air flow with both heat exchangers 4, 5 installed in the indoor unit body 2. Thus, the fins 4b and 5b are provided with an angle of approximately 45 ° with respect to the longitudinal direction. In addition, as shown in FIG. 5, the one-side cut is formed by cutting only the upper side in the longitudinal direction of the cut and providing an inclined surface.

  Thereby, since ventilation resistance becomes large, it can suppress that damp air flows into the opposing edge vicinity site | part 4A, 5A like the above, and can prevent dripping of drain water. Further, by forming the bent portion in a curved shape and providing a cut in the vicinity of the opposing edge, the amount of indoor air flowing therethrough can be suppressed without providing a separate heat insulating member or mold member, and the cost can be reduced. Can be reduced.

  Moreover, the hydrophilic process with a small contact angle of drain water and the fin 4b and the fin 5b is given to the surface of the fin 4b and the fin 5b, and drain water dripping is prevented. The cuts provided in the vicinity of the facing edge are not limited to the one-side cuts shown in FIG. 5, but may be simple cuts 4y and 5y formed on the fins 4b and 5b as shown in FIG. .

  Next, the operation of the indoor unit of the air conditioner according to the first embodiment will be described.

  As shown in FIG. 1, during cooling operation, the indoor air reaches the front heat exchanger 4 directly from the front suction port 3 a or partially through the air purifier 6 by the function of the indoor fan 8, and is cooled. Then, the air is again blown out from the air outlet 9 into the room.

  On the other hand, the room air sucked from the upper suction port 3b reaches the upper part of the front-side heat exchanger 4 and the rear-side heat exchanger 5, is cooled, and is blown out into the room from the outlet 9 again. In the cooling process of the room air sucked from the upper suction port 3b, a part of the room air is bent at the substantially inverted V-shaped top portion formed by the heat exchangers 4 and 5 and the opposite edge. Although it flows also in the vicinity parts 4A and 5A, as shown in FIG. 4, the flow path of the air which flows in into the bending part 11 (part where both both contact substantially) becomes long, and air with high humidity passes through this bending part 11 Since the one-side cuts 4y and 5y are provided in the opposing edge vicinity parts 4A and 5A, the ventilation resistance is increased, and high-humidity air is supplied to the opposing edge vicinity parts 4A and 5A. Inflow can be suppressed and dripping of drain water can be prevented. Therefore, the heat exchange of the heat exchangers 4 and 5 is not hindered by this drain water, and the performance of the heat exchanger can be improved.

  As described above, according to the present embodiment, during cooling operation, the performance of the heat exchanger can be improved by preventing dripping from the top of the drain water, and the manufacturing cost of the heat exchanger can be reduced. An indoor unit of an air conditioner that can be achieved can be provided.

  Moreover, 2nd Embodiment of the indoor unit of the air conditioner concerning this invention is described.

  As shown in FIG. 7, the heights of the one-side cuts 4y and 5y of the bent portions 11 of the heat exchangers 4 and 5 used in the indoor unit of the second embodiment are the heights of the adjacent one-side or both-side cuts. It is formed higher than the height of the cuts 4x and 5x and smaller than these fin pitches. Thereby, the ventilation resistance of the bending part 11 becomes larger than the ventilation resistance of another part, the air quantity which flows in into the bending part 11 can be reduced, dripping of drain water is prevented, and heat exchange is prevented. In addition, the performance of the heat exchanger can be improved. Since the other structure is not different from the both heat exchangers shown in FIG.

  Moreover, 3rd Embodiment of the indoor unit of the air conditioner which concerns on this invention is described.

  As shown in FIGS. 8 and 9, the openings 4y1 and 5y1 of the bent portions 11y and 4y of the heat exchangers 4 and 5 used in the indoor unit of the third embodiment are fins 4b and 5b. It is formed to be parallel to the longitudinal direction. As a result, the air passing through the bent portion 11 is dispersed and the local air volume is prevented from increasing, and the drain water generated at the bent portion 11 is more easily transmitted through the fins 4b and 5b and drained downward. In addition, it is possible to prevent the drain water from dripping from the bent portion 11.

  Moreover, 4th Embodiment of the indoor unit of the air conditioner which concerns on this invention is described.

As shown in FIG. 10, the one-side cuts 4 y and 5 y of the bent portion 11 of both the heat exchangers 4 and 5 used in the indoor unit of the fourth embodiment are as shown in FIG. The distance between the fin end portions 4b ₁ and 5b ₁ on the leeward side and the one-side cuts 4ya and 5ya on the leeward side is formed so as to increase as the distance from the bent portion 11 increases. Thereby, it becomes possible to smoothly flow the drain water flowing out to the wind lower end portion of the bent portion fins below the fins, and the exchange is not hindered, and the performance of the heat exchanger can be improved.

  Moreover, 5th Embodiment of the indoor unit of the air conditioner concerning this invention is described.

  As shown in FIG. 11, in addition to the formation of cuts 4 y and 5 y on the fins 4 b and 5 b of the heat exchangers 4 and 5 used in the indoor unit of the fifth embodiment, a portion C shown in FIG. 11 is shown. Thus, the one-side cut 4y1 is provided on the fin located between the windward side heat transfer tube row and the leeward side heat transfer tube row of the front side heat exchanger 4. Thereby, during the cooling operation, the amount of air flowing into the bent portion is reduced, and heat from the upstream side of the airflow to the bent portion can be cut off to prevent drain generation, and replacement is not hindered, The performance of the heat exchanger can be improved.

  Moreover, 6th Embodiment of the indoor unit of the air conditioner which concerns on this invention is described.

  As shown in FIG. 12, the fins 4b and 5b of the heat exchangers 4 and 5 used in the indoor unit of the sixth embodiment are formed with one-side cuts 4y and 5y, which are provided in the front-side heat exchanger 4. The number of the one-side cuts 4y is larger than the number of the one-side cuts 5y provided in the back side heat exchanger 5. Generally, since the drain water retention amount of the front fin 4b is larger than that of the rear fin 5b from the bent portion 11, drain water is likely to drip from the front fin 4b. The ventilation resistance of 4b becomes high, the production | generation of drain water can be reduced, drain dripping can be prevented, replacement | exchange is not prevented, and the performance of a heat exchanger can be improved.

The longitudinal cross-sectional view of 1st Embodiment of the indoor unit of the air conditioner concerning this invention. (A) is a top view which shows a part of front side heat exchanger of 1st Embodiment of the indoor unit of the air conditioner concerning this invention, (b) is sectional drawing of a pipe part, (c) is a fin part. Sectional drawing. (A) is a top view which shows a part of back side heat exchanger of 1st Embodiment of the indoor unit of the air conditioner concerning this invention, (b) is sectional drawing of a pipe part, (c) is a fin part. Sectional drawing. The top view which shows a part of front side heat exchanger and back side heat exchanger of 1st Embodiment of the indoor unit of the air conditioner concerning this invention. Sectional drawing in alignment with AA of FIG. (A) is sectional drawing of other embodiment of the one-side cut formed in the front edge side heat exchanger of the indoor unit of the air conditioner concerning this invention, and the opposing edge vicinity part of a back side heat exchanger, (b) FIG. 4 is a sectional view taken along line BB in FIG. The top view which shows a part of front side heat exchanger and back side heat exchanger of 2nd Embodiment of the indoor unit of the air conditioner concerning this invention. The top view which shows a part of front side heat exchanger and back side heat exchanger of 3rd Embodiment of the indoor unit of the air conditioner concerning this invention. Sectional drawing in alignment with CC of FIG. The top view which shows a part of front side heat exchanger and back side heat exchanger of 4th Embodiment of the indoor unit of the air conditioner concerning this invention. The top view which shows a part of front side heat exchanger and back side heat exchanger of 5th Embodiment of the indoor unit of the air conditioner concerning this invention. The top view which shows a part of front side heat exchanger and back side heat exchanger of 6th Embodiment of the indoor unit of the air conditioner concerning this invention.

Explanation of symbols

1 ... air conditioner indoor unit, 2 ... indoor unit body, 3 ... rear panel, 3a ... front inlet, 3b ... suction port, 4 ... side heat exchanger, 4a ... heat transfer tubes, 4a 3 _... arcuate Edge, 4b ... Fin, 4x ... One side cut and raised, 4y ... One side cut and raised, 5 ... Back side heat exchanger, 5a ... Heat transfer tube, 5a ₃ ... Arc-shaped edge, 5b ... Fin, 5x ... Cut and raised, 5y ... One side Kiki, 9 ... Blow out.

Claims (2)

A room of an air conditioner in which a front-side heat exchanger and a rear-side heat exchanger, which are bent or divided and formed in a substantially inverted V shape, are accommodated in an indoor unit body having a front suction port and an upper suction port In the machine, the portions near the opposing edges of the front-side heat exchanger and the back-side heat exchanger are positioned to face the upper surface of the indoor unit main body, and a cut is provided in each of the portions near the opposing edges. An air conditioner indoor unit. The indoor unit of the air conditioner according to claim 1, wherein opposing edges of the front side heat exchanger and the rear side heat exchanger are formed in a shape that is curved in the direction of gravity and substantially in contact with each other.

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