JP2008224200A - Heat exchanger - Google Patents

Abstract

An object of the present invention is to promote the flow down of condensed water in heat transfer fins and cut-and-raised pieces in an air heat exchanger such as an indoor unit for an air conditioner, thereby preventing water splashing or spraying.
A plurality of heat transfer tubes are arranged side by side in a state of crossing the heat transfer tubes, 12,..., 12,. The heat transfer fins 13a, 13a ..., 13b, 13b ... and the cut-and-raised pieces 14, 14 provided on the heat transfer surfaces of the heat transfer fins 13a, 13a ..., 13b, 13b ... .., 14, 14..., 14, 14... In the horizontal direction when the heat exchanger is installed. In order to make it easy for the condensed water to flow down, it extends in the vertical direction according to the inclination angle.
[Selection] Figure 3

Description

  The present invention relates to the structure of a heat exchanger such as an indoor unit for an air conditioner.

  For example, as a heat exchanger for an air conditioner indoor unit, a cross fin coil type air heat exchanger is generally adopted, and the condensed water generated on the surface of the heat exchanger (evaporator) during cooling operation is caused by gravity. The heat flows down along the heat transfer fin surface of the heat exchanger, is collected in a drain pan portion provided below the heat transfer fin, and is discharged outside the room (see, for example, the configuration of Patent Document 1).

  FIG. 5 and FIG. 6 show a first configuration of a conventional indoor unit for an air conditioner configured with such a heat exchanger.

  That is, in this conventional example, a so-called lambda-shaped air heat exchanger 32 bent from the upper side to the lower side and a cross flow fan 31 are used to suck the upper surface side and the front surface side, and slant downward blow wall hanging. The indoor unit 1 for type | mold air conditioners is comprised, and the code | symbol 20 is the cassette-type main body casing of the said indoor unit 1 for wall-mounted type air conditioners. The main body casing 20 is installed on the wall surface such that the back panel portion is in contact with the wall surface of the room.

  An air inlet 25 is provided from the front side to the upper side of the main body casing 20, and a lambda type air heat exchanger 32 and a cross flow fan 31 are provided inside the air inlet 25. The lambda type air heat exchanger 32 includes a front side heat exchange part 32a and a rear side heat exchange part 32b, and is provided with a cross flow fan 31 provided below the inside thereof. The cross-flow fan 31 blows temperature-controlled air obliquely downward from an air outlet 29 at the bottom of the front surface of the main body casing 20 through a temperature-control air passage 30 having a scroll structure.

  The air heat exchanger 32 is supported by fixing the lower ends of the front-side heat exchanger 32a and the rear-side heat exchanger 32b in the drain pans 28a and 28b, respectively.

  For example, as shown in FIG. 6, the heat exchangers 32 a and 32 b of the air heat exchanger 32 are arranged in two rows in the front-rear direction from the upstream side to the downstream side of the air flow F so as to be alternately displaced. .., 12, 12... And a large number of the heat transfer tubes 12, 12..., 12, 12. The heat transfer fins 13a, 13a ..., 13b, 13b ... provided, and the heat transfer tubes 12, 12 on the heat transfer surfaces of the heat transfer fins 13a, 13a ..., 13b, 13b ... .., 12, 12..., A plurality of front and rear rows of slits (or louvers) provided in the upper and lower space region, 14, 14..., 14, 14. Heat transfer fins 13a, 13a ..., 13b, 13b ... provided on both ends in the juxtaposed direction And a not-shown tube plate.

  And the cut and raised pieces 14, 14,..., 14, 14... Between the upper and lower heat transfer tubes 12, 12 are, for example, both ends from the upstream side to the downstream side (left side to right side in the figure) of the air flow F. The side ones 14a, 14a are long, and the middle ones 14b, 14b are short, and are composed of slits (or louvers) having a four-row structure.

  Therefore, in the case of this configuration, for example, during the cooling or heating operation, when the cross flow fan 31 as the air blowing means is driven, indoor air is sucked from the air suction port 25, and the overall heat of the Λ shape is obtained. Temperature-controlled air (cold air or warm air) that has been exchanged heat uniformly and effectively with low-pressure loss through the air heat exchanger 32 as described above has a large intersection area and a wide air suction area. A comfortable cooling or heating air-conditioning environment for the user is realized by blowing out from the air outlet 29 and the temperature-controlled air descending downward.

  In the air heat exchanger 32 applied to such a wall-hanging indoor unit for an air conditioner, the heat transfer fins 13a and 13a are used particularly in the cooling operation in which the heat exchanger 32 serves as an evaporator. ... water in the air condenses on the fin surfaces (heat transfer surfaces) of 13b, 13b, and a lot of dew condensation occurs on the fin surfaces, and these are between the fins and the slits (or louvers). ) 14a, 14b, 14b, 14a made of cut and raised pieces 14, 14,..., 14, 14.

  For this reason, when the air volume is large, there is a possibility that water jumping or spraying from the air outlet may occur. In addition, the condensed water generated on the surface of the heat exchanger during the cooling operation stays between the fins and the raised pieces 14, 14,..., 14, 14. These stagnation and residual water cause adhesion of environmental suspended matters on the fin surface, bacterial growth, and fin corrosion, which may cause deterioration of hydrophilicity and generation of odor.

  Of course, in the case of the same configuration, the front and rear heat exchange portions 32a and 32b of the air heat exchanger 32 have an extremely small inclination angle close to a substantially vertical state (maximum in the horizontal direction), as is apparent from FIG. It is installed at.

Accordingly, the condensed water is caused to flow downward along the fin surface as much as possible by gravity, and is collected in the drain pans 28a and 28b.
JP 2004-353914 A (Specifications page 1-13, FIG. 1-4)

  However, in reality, the heat exchanger itself is nearly vertical due to the narrow fin pitch of the heat transfer fins 13a, 13a... 13b, 13b. Even when it is installed in the standing state as shown in the figure, the actual situation is that the condensed water tends to stay between the fins and between the cut and raised pieces, and is difficult to flow down.

  Depending on the type of indoor unit for the air conditioner, as shown in FIG. 7, for example, as shown in FIG. 7, the air heat exchanger 42 inclines the main portion 42a from the vertical direction to the horizontal direction. In the case of the heat exchanger 42 having such a configuration, as shown in FIG. 8 (see the inclination angle θ in the figure), the action of gravity is caused by the vertical direction of the heat transfer fins (see FIG. (Longitudinal direction) and the up-and-down direction (longitudinal direction) of the cut and raised pieces, in addition, the direction of gravity and the direction of the wind are reversed as understood from the arrows in FIG. There is a problem in that the behavior of the condensed water described above becomes unstable, and water splashing from the air outlet 49 and spraying are more likely to occur.

  In FIG. 7, reference numeral 1 is an air conditioner indoor unit, 3 is a ceiling, 40 is a ventilation passage, 41 is a cross-flow fan, and 42a is installed at a predetermined angle or more in the horizontal direction of the heat exchanger 42. The main part, 42b is an upper end side locking part with a small inclination angle in the horizontal direction of the heat exchanger 42, 44 is a ceiling panel, 45 is an air inlet, 49 is an air outlet, 50 is a main body casing, 48c is the 1st-3rd drain pan installed in the downward side corresponding to the upper end side latching | locking part 42b from the main part 42a of the said heat exchanger 42. FIG.

  These problems are that the slits (or louvers) 14a, 14a at the front and rear ends of the above-described cut-and-raised pieces 14, 14,... Are divided into upper and lower divided slits (or, for example, as shown in FIG. The same applies to the cases of the louvers 14a, 14a, 14a, 14a.

  The present invention has been made to solve such problems, and the longitudinal direction of the cut and raised pieces such as slits or louvers provided between the upper and lower heat transfer tubes is the horizontal direction when the heat exchanger is installed. The purpose of the present invention is to provide a heat exchanger suitable for an indoor unit for an air conditioner that effectively promotes the flow of water by extending in the vertical direction according to the inclination angle to Is.

  In order to achieve the above object, the present invention is configured with the following problem solving means.

(1) Invention of Claim 1 The heat exchanger of this invention is the heat exchanger tube 12,12 ..., 12,12 ... and this heat exchanger tube 12,12 ..., 12, 12, ... The heat transfer fins 13a, 13a,..., 13b, 13b,..., And the heat transfer fins 13a, 13a,. It is a heat exchanger composed of cut and raised pieces 14, 14,..., 14, 14 ... provided on the surface, and the cut and raised pieces 14, 14,. Is characterized in that it extends in a vertical direction according to the inclination angle in the horizontal direction when the heat exchanger is installed.

  According to such a configuration, when installing the heat exchanger, the heat transfer fins 13a, 13a, ..., 13b, 13b ... The extending longitudinal direction coincides with the flow-down direction due to the gravity of the condensed water, and the condensed water generated on the surfaces of the heat transfer fins 13a, 13a... 13b, 13b. , 13b, 13b..., Especially between the heat transfer fins 13a, 13a..., 13b, 13b. Without stagnation, and smoothly flows downward through each of the cut and raised pieces 14, 14,...

  This makes it difficult for water splashing and spraying to occur due to stagnation of condensate with unstable behavior as in the prior art, and adhesion of environmental suspended matter to the surface of the heat transfer fins 13a, 13a, ..., 13b, 13b ... It is possible to prevent the propagation of bacteria and the corrosion of fins as much as possible.

  Further, since the water drainage during the cooling operation is improved, the heat transfer performance of the fin surface is improved, and the ventilation resistance is reduced and the air blowing performance is improved, so that the cooling performance itself is also improved.

(2) Invention of Claim 2 In the heat exchanger of this invention, in the configuration of the invention of Claim 1, the raised pieces 14, 14,..., 14, 14. It is a feature.

  According to such a configuration, the condensed water flows between the fin surfaces of the heat transfer fins 13a, 13a,..., 13b, 13b..., Particularly the heat transfer fins 13a, 13a. .., 14, 14,..., And so on, and smoothly flows downward through the slits.

(3) Invention of Claim 3 In the heat exchanger of this invention, in the configuration of the invention of Claim 1, the raised pieces 14, 14,..., 14, 14,. It is characterized by.

  According to such a configuration, the condensed water flows between the fin surfaces of the heat transfer fins 13a, 13a,..., 13b, 13b..., Particularly the heat transfer fins 13a, 13a. .., 14, 14, 14, and so on, and smoothly flows downward through each louver.

(4) Invention of Claim 4 The heat exchanger of this invention is the structure of the said invention of Claim 1, 2, or 3, and each upper and lower of cut-and-raised piece 14,14 ..., 14,14 ... The end portions are provided with linear portions a, b..., A, b.

  According to such a configuration, the condensed water generated on the fin surfaces of the heat transfer fins 13a, 13a,..., 13b, 13b. .. are smoothly introduced into the cut and raised pieces 14, 14..., 14, 14... and cut and raised pieces 14, 14. .. smoothly flows downward from the inside of the heat transfer fins 13a, 13a..., 13b, 13b.

  Therefore, the draining effect of the condensed water in the cut and raised pieces 14, 14,..., 14, 14,.

  And since the said condensed water guide part is a mere linear part a, b ..., a, b ..., the ventilation resistance like the case where a groove | channel is formed does not arise.

(5) Invention of Claim 5 In the heat exchanger of this invention, in the configuration of the invention of Claim 4, the linear portions a, b..., A, b. The incisions a, b..., A, b... Are characterized by communicating with the cut and raised pieces 14, 14.

  According to such a configuration, the condensed water generated on the fin surfaces of the heat transfer fins 13a, 13a,..., 13b, 13b. ... Stay between the fin surfaces of the heat transfer fins 13a, 13a..., 13b, 13b. Rather, the upper and lower end portions are smoothly introduced and led out via the linear portions a, b,..., A, b. As a result, it flows down toward the lower edge.

(6) Invention of Claim 6 The heat exchanger of this invention is the heat exchanger of the indoor unit for air conditioners in the structure of the invention of the said Claim 1, 2, 3, 4 or 5 said heat exchanger. It is characterized by being.

  According to the heat exchanger having the configuration of each of the above inventions, the heat exchanger is likely to cause condensation on the surface of the heat transfer fin during cooling operation, for example, a heat exchanger for an indoor unit for an air conditioner such as a ceiling-embedded type In the cooling operation of the indoor unit, the condensed water generated between the heat transfer fins of the heat exchanger and the cut and raised pieces is smoothly discharged to the drain pan side.

  In addition, the water drainage during the cooling operation is thereby improved, so that the heat transfer performance of the fin surface is improved and the ventilation resistance is reduced and the air blowing performance is improved, so that the cooling performance itself is also improved.

  As a result of the above, according to the present invention, the water drainage during cooling operation is good, can prevent water splashing or spraying, etc., and adheres to environmental suspended matter on the surface of the heat transfer fin, the propagation of bacteria, It is possible to provide a high-performance heat exchanger suitable for an indoor unit for an air conditioner that can effectively improve the cooling capacity without causing fin corrosion or the like, and can be provided easily and at low cost.

(Best Embodiment 1)
First, FIGS. 1 to 3 show air heat suitable for an air conditioner indoor unit according to the first embodiment of the present invention (for example, see the indoor unit for ceiling-embedded air conditioner in FIG. 7 as an example). The structure and operation of the exchanger are shown.

  That is, the air heat exchanger 42 (42a) is, for example, arranged in two rows in the front-rear direction from the upstream side to the downstream side of the air flow F, and the heat transfer tubes 12, 12. , 12, 12... And a plurality of heat transfer fins arranged in parallel in the cross direction while maintaining a predetermined pitch with respect to each of the heat transfer tubes 12, 12. 13a, 13a ..., 13b, 13b ... and heat transfer tubes 12, 12 ..., 12, 12 on the heat transfer surfaces of the heat transfer fins 13a, 13a ..., 13b, 13b ... ... cut-and-raised pieces 14, 14 ..., 14, 14 ... composed of a plurality of rows of slits 14a to 14h, 14a to 14h, ... arranged in a diagonal direction in the space region between them. The heat transfer fins 13a, 13a,. It is composed of a tube sheet (not shown) provided on the direction both ends.

  In the case of the present embodiment, the plurality of rows of slits 14a to 14h, 14a to 14h,... Of the cut and raised pieces 14, 14,. The diagonally upper and lower ends 14a, 14b and 14g, 14h are short, and the middle ones 14c, 14e are long.

  And the up-and-down diagonal of each cut-and-raised piece 14,14 ..., 14,14 ... of the said heat-transfer fin 13a, 13a ..., 13b, 13b ... of the heat exchanger 42a (42a). The ends of the slits 14a to 14h, 14a to 14h... Arranged in a direction are formed with a predetermined inclination angle. In the front two rows, up and down on the front edge side, and in the rear two rows, the rear. It is provided close to the top and bottom of the edge side.

  According to such a configuration, the condensed water generated on the fin surfaces of the heat transfer fins 13a, 13a,..., 13b, 13b. In the inclined installation state (inclination angle θ), the lower edges of the heat transfer fins 13a, 13a,..., 13b, 13b... Through the slits 14a to 14h, 14a to 14h. Flows smoothly in the direction, and is introduced into the lower drain pan (see 48a and 48b in FIG. 7) via the lower edges of the heat transfer fins 13a, 13a,. Become so.

  Accordingly, the heat transfer fins 13a, 13a,..., 13b, 13b... And the cut and raised pieces 14 and 14 formed of a plurality of rows of slits 14a to 14h, 14a to 14h. .., 14, 14... The condensed water staying in the portion disappears, and it is possible to prevent water splashing, spraying, adhesion of environmental suspended matter to the fin surface, bacterial growth, fin corrosion, and the like.

  Further, since the water drainage during the cooling operation is improved, the heat transfer performance of the fin surface is improved, and the ventilation resistance is reduced and the air blowing performance is improved, so that the cooling performance itself is also improved.

  7 is arranged in the vertical direction as described above, the flow of the air flow F in the configuration of FIG. As is apparent from the arrow in the figure, the heat exchanger 42 (42a) is formed in an arc shape from the lower side toward the upper side in the horizontal direction along the passage axis of the temperature adjusting air passage 40 of the scroll structure of FIG. , And circulate with a sufficiently effective cross-direction angle with respect to the longitudinal direction of each of the raised and raised pieces 14, 14. The effect is hardly reduced. Therefore, it is not necessary to deteriorate the heat transfer performance.

  As a result, according to the same configuration, water splashing, spraying, adhesion of bacteria, corrosion of fins, etc. do not occur, water drainage during cooling operation is good, and the room for air conditioners that can improve the performance during cooling operation A high-performance cross fin coil type air heat exchanger suitable for a machine can be provided at low cost.

  The cut and raised pieces 14, 14,..., 14, 14... In the above description and illustrated form are limited to the slits 14a to 14h, 14a to 14h. For example, a louver structure or other structures may be used, and various forms, numbers, and numbers of rows can be arbitrarily employed.

(Best Mode 2)
Next, FIG. 4 shows a configuration of an air heat exchanger applied to the indoor unit for an air conditioner according to the second preferred embodiment of the invention of the present application (see also the one in FIG. 7).

  In this embodiment, in the cross fin coil type air heat exchanger similar to the above-mentioned best embodiment 1, as the raised and raised pieces 14, 14,... The condensate guide strips extending linearly in the upper and lower vertical directions respectively, specifically, linear cuts (cutting portions) a, b..., A, b. The slits 14a to 14h, 14a to 14h,... Are provided in communication with each other.

  According to such a configuration, in addition to the condensed water flow-promoting action by the above-described configuration, the condensed water generated on the fin surfaces of the heat transfer fins 13a, 13a,..., 13b, 13b. After being gathered in the slits a, a,..., A,... Above the slits 14a to 14h, 14a to 14h. .., And effectively flows into the slits 14 a to 14 h, 14 a to 14 h..., And then the heat transfer fins through the lower cuts b, b. 13a, 13a ..., 13b, 13b ... smoothly flows out to the lower edge side, and smoothly passes through the lower edges of the heat transfer fins 13a, 13a ..., 13b, 13b ... Side drain pan (48a, 48 in FIG. Will be introduced in the reference) to.

  Therefore, it is possible to further promote the flow-down discharge action of the condensed water, and it is possible to more reliably avoid the water splash and the spraying phenomenon.

(Various application forms)
In addition, each heat exchanger of the said best embodiment 1 and 2 is an optimal thing as a cross fin coil type | mold air heat exchanger of the indoor unit for air conditioners of the structure as mentioned above, for example in FIG. As well as preventing water splashing and spraying, there is no adhesion of environmental suspended matter to the surface of the heat transfer fins, bacterial growth, fin corrosion, etc., and good drainage during cooling operation, improving cooling capacity An air heat exchanger suitable for an indoor unit for an air conditioner that can be used can be provided easily and at low cost. However, the heat exchanger of the present invention is applied to various other types of refrigeration apparatuses. It goes without saying that it can be done.

  The above-described cut and raised pieces 14, 14... Can be applied in exactly the same manner to the case of upper and lower divided slits (or louvers) divided into upper and lower parts as shown in FIG.

It is a side view which shows the structure of the air heat exchanger which concerns on best Embodiment 1 of this invention. It is a side view which shows the installation state (inclined state) of the air heat exchanger. It is a partially notched side view which expands the structure of the principal part of the same air heat exchanger, and shows the effect | action. It is a partially notched side view which expands the structure of the air heat exchanger which concerns on best Embodiment 2 of this invention, and shows the effect | action. It is sectional drawing which shows the structure of the indoor unit for air conditioners comprised using the air heat exchanger which concerns on a 1st prior art example. It is a partially notched side view which shows the structure of the principal part of the same air heat exchanger. It is sectional drawing which shows the structure of the indoor unit for air conditioners comprised using the air heat exchanger which concerns on a 2nd prior art example. It is a partially cutaway figure which shows the installation state of the air heat exchanger. It is a partially notched side view which shows the structure of the principal part of the same air heat exchanger.

Explanation of symbols

  1 is an indoor unit for an air conditioner, 3 is a ceiling, 12 is a heat transfer tube, 13a and 13b are heat transfer fins, 14 is a raised piece, 14a to 14h are a plurality of slits, 25 and 45 are air inlets, 29 and 49 are air outlets, 28a, 28b, 48a, 48b and 48c are drain pans, 30 and 40 are temperature-control air passages, and 32 and 42 are heat exchangers.

Claims (6)

  The heat transfer tubes 12, 12..., 12, 12... And a plurality of heat transfer fins 13 a arranged in parallel with the heat transfer tubes 12, 12. , 13a ..., 13b, 13b ... and the cut-and-raised pieces 14, 14 ... provided on the heat transfer surfaces of the heat transfer fins 13a, 13a ..., 13b, 13b ... Is a heat exchanger composed of 14, 14..., And the cut and raised pieces 14, 14..., 14, 14... Are inclined at a horizontal inclination angle when the heat exchanger is installed. Accordingly, the heat exchanger is provided so as to extend in a vertical direction.   The heat exchanger according to claim 1, wherein the cut and raised pieces (14, 14, ..., 14, 14 ...) are slits.   The heat exchanger according to claim 1, wherein the cut and raised pieces (14, 14, ..., 14, 14 ...) are louvers.   The condensate guide linear portions a, b,..., A, b... Extend vertically in the upper and lower ends of the cut and raised pieces 14, 14,. The heat exchanger characterized by providing.   Line portions a, b..., A, b... Are linear cuts, and the cuts a, b..., A, b. .. The heat exchanger according to claim 4, wherein the heat exchanger communicates with the inside of 14, 14.   The heat exchanger according to claim 1, 2, 3, 4 or 5, wherein the heat exchanger is a heat exchanger of an indoor unit for an air conditioner.

Images