JP2013130327A - Outdoor unit for air conditioning device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an outdoor unit for an air conditioning of which a spray nozzle is arranged in a casing and in which pushed air that is pushed from an air-pushing fan is supplied to the whole heat exchanger.SOLUTION: The outdoor 10 for the air conditioning device 1 includes: the casing 11 having a polygonal peripheral wall 110 in a plan view; the air-pushing fan 13 for pushing air in the casing 11 outward; the heat exchanger 12 arranged along a sidewall 110b other than a position facing at least the air-pushing fan 13 among a plurality of sidewalls 110a, 110b, 110c, and 110d; the spray nozzle 22 arranged in the casing 11 and for spraying water to the pushed air on the upstream side of the heat exchanger 12; and a guide member 17 for forcedly bending part of a flow of the pushed air on the downstream side of the spray nozzle 22.

Description

  The present invention relates to an outdoor unit of an air conditioner that performs a vapor compression refrigeration cycle by circulating a refrigerant.

  2. Description of the Related Art Conventionally, an outdoor unit of an air conditioner having a spray nozzle that sprays water on air pushed out from an air extruding fan toward a heat exchanger is disclosed in Patent Document 1. Yes.

  As shown in FIG. 8, the outdoor unit is disposed in a casing (not shown), a heat exchanger 101 disposed in the casing, a position facing the heat exchanger 101 in the casing, and heat. An air extruding fan 102 that pushes out air toward the exchanger 101, and an air that is disposed between the heat exchanger 101 and the air extruding fan 102 in the casing and that travels from the air extruding fan 102 toward the heat exchanger 101. A spray nozzle 103 for spraying water against (extruded air).

  In the outdoor unit 100, the spray nozzle 103 sprays water on the extruded air supplied from the air extruding fan 102 to the heat exchanger 101, and is supplied to the heat exchanger 101 by the latent heat of evaporation of the spray water. As a result, the condensing capacity in the heat exchanger 101 is improved, and the cooling efficiency of the refrigerant is improved.

Japanese Utility Model Publication No. 2-55027

  Since the extruded air extruded from the air extruding fan 102 has straightness, in the outdoor unit 100 described above, the heat exchanger 101 or a part of the heat exchanger is located at a position other than the position facing the air extruding fan 102. If it arrange | positions, the case where it is difficult to supply extrusion air to the heat exchanger etc. which are arrange | positioned in positions other than the position which opposes may arise. That is, there may occur a case where the extrusion air for cooling the heat exchanger is not supplied to the entire heat exchanger.

  Accordingly, an object of the present invention is to provide an outdoor unit having an air conditioner in which the spray nozzle is an outdoor unit disposed in a casing, and the extruded air extruded from the air extruding fan is supplied to the entire heat exchanger. .

  Therefore, in order to solve the above problems, the present invention provides an outdoor unit (10, 10A) of the air conditioner (1), the casing (11) having a polygonal peripheral wall (110) in plan view, An air extruding fan (13, 13A) for extruding the air in the casing (11) to the outside of the casing (11), and a plurality of side walls (110a, 110b) constituting the peripheral wall (110) in the casing (11) 110c, 110d) at least along the side walls (110a, 110b, 110c) other than the position facing the air extruding fan (13, 13A), and a heat exchanger (12, 12A), The heat exchanger with respect to the extrusion air which is arranged in the casing (11) and is pushed out from the air extrusion fan (13, 13A) 12 and 12A), and a guide member for forcibly bending a part of the flow of the extruded air on the downstream side of the spray nozzle (22, 22A). 17, 17A).

  According to such a configuration, the spray nozzle (22, 22A) is incorporated in the casing (11), thereby reducing the installation space of the outdoor unit (10, 10A) and providing the guide member (17, 17A) for air extrusion. The entire heat exchanger (12, 12A) can be suitably cooled by the air (extruded air) pushed out from the fan (13, 13A).

  Specifically, since the spray nozzles (22, 22A) are arranged in the casing (11), the spray nozzles (22, 22A) are placed outside the casing (11) when the outdoor unit (10, 10A) is installed. ) Is not required, and the installation space is reduced.

  Moreover, by providing a guide member (17, 17A) and forcibly bending a part of the flow of the extruded air extruded from the air extruding fan (13, 13A) on the downstream side of the spray nozzle (22, 22A). Without the guide members (17, 17A), it becomes possible to guide the extruded air cooled by the spray water to a region where the extruded air is not directed or difficult to face. Thereby, it becomes possible to cool the whole heat exchanger (12, 12A) suitably.

In the outdoor unit (10) of the air conditioner (1) according to the present invention, for example, the heat exchanger (12) includes the first side wall (110a) and the second side adjacent to each other in the peripheral wall (110). The air extruding fan (13, 13A) is disposed along the side wall (110b) of the heat exchanger and the first portion (12a) of the heat exchanger corresponding to the first side wall (110a). The guide member (17) is arranged at an opposed position to push out air toward the first part (12a), and the guide member (17) removes part of the extruded air pushed out toward the first part (12a). The heat exchanger corresponding to the second side wall (110b) may be bent toward the second part (12b), and the air extruding fan (13, 13A) may be bent to the heat exchanger (12A). ) Above the casing Extruding the air toward the bottom wall of the single (11) (114),
The guide member (17A) bends from the downward direction toward the side wall (110a, 110b, 110c) as it advances toward the bottom wall (114) by being pushed out by the air extruding fan (13, 13A). A part of the flow of the extrusion air may be further forced to bend. That is, even if the air extruding fan (13, 13A) is an outdoor unit (10) of a type arranged at a position facing the heat exchanger (12) along the side wall of the casing (11), Fan (13, 13A) is a type of outdoor unit (10A) in which the fan (13, 13A) is disposed above the heat exchanger 12A in the upper part of the casing (11) (positioned not to face the heat exchanger (12A)). However, by installing the spray nozzle (22, 22A) in the casing (11) and reducing the installation space of the outdoor unit (10, 10A), the air extruding fan (17, 17A) is provided by providing the guide member (17, 17A). 13, 13A) enables the entire heat exchanger (12, 12A) to be suitably cooled by the air (extruded air) extruded from the air.

  As described above, according to the present invention, there is provided an outdoor unit in which the spray nozzle is disposed in the casing, and the outdoor unit of the air conditioner in which the extruded air extruded from the air extruding fan is supplied to the entire heat exchanger. Can be provided.

It is a schematic block diagram of the air conditioning apparatus which concerns on this embodiment. It is a perspective view of the outdoor unit of the air conditioning apparatus. It is a figure for demonstrating the structure in the said outdoor unit, and the flow of air. It is a figure for demonstrating the arrangement position of the spray nozzle with respect to the heat exchanger of the said outdoor unit. It is the outdoor unit which concerns on other embodiment, Comprising: (A) is a longitudinal cross-sectional view, (B) is sectional drawing of the VB-VB position of FIG. 5 (A). It is a figure for demonstrating the flow of the extrusion air in the outdoor unit without a flow guide plate. It is a figure for demonstrating the spray nozzle which concerns on other embodiment. It is a figure for demonstrating the conventional outdoor unit of the system which sprays water on a heat exchanger.

  Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

  The outdoor unit according to the present embodiment is used in, for example, the air conditioner 1 shown in FIG. The air conditioner 1 includes an outdoor unit 10, an indoor unit 2, and refrigerant pipes 3 and 3 that connect them.

  As shown in FIGS. 2 and 3, the outdoor unit 10 includes a casing 11, a heat exchanger 12, an air extrusion fan 13, a four-way switching valve 14, a compressor 15, a temperature sensor 16, The spraying device 20, a flow guide plate (guide member) 17, an expansion valve 18, and an outdoor unit control unit (not shown) are provided. In FIG. 1, a part of the spray device 20 is omitted for convenience of explanation.

  The casing 11 has a heat exchanger 12, an air extruding fan 13, a spraying device 20, and the like in an internal space. The casing 11 includes a cylindrical peripheral wall 110 that surrounds the internal space from the horizontal direction, a top wall 112 that closes an upper opening of the peripheral wall 110, and a bottom wall 114 that closes a lower opening of the peripheral wall 110.

  The peripheral wall 110 has a rectangular cylindrical shape in plan view, and includes four side walls (first to fourth side walls) 110a, 110b, 110c, and 110d that vertically rise from the peripheral edge of the bottom wall 114. The first side wall 110 a and the second side wall 110 b face the heat exchanger 12, and the third side wall 110 c faces the air extruding fan 13.

  The peripheral wall 110 is not limited to a rectangular cylinder in plan view, and may be a polygonal cylinder.

  The first side wall 110 a has a plurality of openings 111 through which air can flow out from the inside of the casing 11 in a region facing the heat exchanger 12. The second side wall 110b is adjacent to the first side wall 110a, and has a plurality of openings 111 in a region facing the heat exchanger 12, similarly to the first side wall 110a. The third side wall 110c is adjacent to the second side wall 110b and stands upright in parallel with the first side wall 110a, and outside air flows into the casing 11 in a region facing the air extruding fan 13. It has possible openings (not shown) and the like. The fourth side wall 110d is adjacent to the first and third side walls 110a and 110c and stands upright in a posture parallel to the second side wall 110b.

  The heat exchanger 12 includes a heat transfer tube (not shown) through which the refrigerant flows and a number of plate fins (not shown) through which the heat transfer tube passes. In this heat exchanger 12, heat exchange is performed between the refrigerant flowing in the heat transfer tube and the outside air (air) flowing between the plate fins via the tube wall of the heat transfer tube and the plate fin. Although the heat exchanger 12 of this embodiment is a cross fin coil type heat exchanger, for example, it is not limited to this.

  The heat exchanger 12 is erected upward from the bottom wall 114, and is arranged in an L shape in plan view so as to follow the first side wall 110a and the second side wall 110b, respectively.

  The air extruding fan 13 guides outside air (extruded air) to the heat exchanger 12. Specifically, the air extruding fan 13 draws outside air (air) into the casing 11 through the third side wall 110c, and the drawn air is used as the side wall (first side) facing the heat exchanger 12 and the heat exchanger 12. And the second side walls 110a and 110b) are sequentially passed through and pushed out of the casing 11. The air extruding fan 13 includes an impeller 13A and a motor (not shown) that rotates the impeller 13A. The air extruding fan 13 is disposed at a position facing the portion (first portion 12a) of the heat exchanger corresponding to the first side wall 110a, and thereby air (outside air) is passed through the third side wall 110c. The air drawn in is pushed out toward the first portion 12a. In addition, the site | part of the heat exchanger 12 corresponding to the 2nd side wall 110b is set as the 2nd site | part 12b below.

  The compressor 15 circulates the refrigerant between the outdoor unit 10 and the indoor unit 2 by driving the compressor 15.

  The temperature sensor 16 is connected to an unillustrated outdoor unit control unit of the outdoor unit 10, measures the temperature of the outside air (air) sucked into the casing 11, and outputs an air temperature signal corresponding to the measurement result.

  The outdoor unit control unit controls each component of the outdoor unit 10. For example, during the operation of the air conditioner 1, the outdoor unit control unit performs control for driving the compressor 15 and also performs control for driving the air extruding fan 13. Thereby, in the air conditioning apparatus 1, while a refrigerant | coolant circulates between the outdoor unit 10 and the indoor unit 2, external air is guide | induced to the heat exchanger 12, and the said heat exchanger 12 is cooled. The outdoor unit control unit drives the spray device 20 because the cooling operation load exceeds a predetermined level when the temperature of the outside air measured by the temperature sensor 16 reaches a predetermined temperature or higher. . Thereby, water is sprayed from the spraying device 20.

  The spraying device 20 cools the outside air (extruded air) guided to the heat exchanger 12 by spraying water in the casing 11 during the cooling operation of the air conditioner 1. This flow of extrusion air is formed by driving the air extrusion fan 13 described above. As described above, the spray device 20 sprays water in the form of a mist, and uses the latent heat of evaporation to cool the heat exchanger 12 in an auxiliary (indirect) manner, thereby improving the condensation capacity of the heat exchanger 12. Thus, the cooling efficiency of the refrigerant in the heat exchanger 12 is improved (that is, the cooling capacity of the air conditioner 1 is improved).

  Specifically, the spray device 20 includes a plurality of spray nozzles 22, an unillustrated water supply mechanism, and an unillustrated air supply mechanism, and is disposed in the casing 11. In the outdoor unit 10 of the present embodiment, the water supply mechanism and the air supply mechanism are connected to each spray nozzle 22. In FIG. 1, for convenience of explanation, only one spray nozzle 22 is shown and the others are omitted.

  The spray nozzle 22 sprays water on the upstream side of the heat exchanger 12 with respect to the air (extruded air) pushed out from the air extruding fan 13. The spray nozzle 22 of the present embodiment is a two-fluid nozzle that sprays water when water and air are supplied from a water supply mechanism and an air supply mechanism connected to the spray nozzle 22.

  The spray nozzle is not limited to the two-fluid nozzle, and may be a nozzle that sprays the water by supplying only water. That is, the spray nozzle only needs to be able to spray water in the form of a mist on the extruded air. However, if it is a two-fluid nozzle like the spray nozzle 22 of this embodiment, the plate fins of the heat exchanger 12 can be cleaned by ejecting only air from the spray nozzle 22. Moreover, the time of defrost can be shortened by ejecting only water from the spray nozzle 22 at the time of defrost at the time of heating operation.

  Such a spray nozzle 22 is disposed between the air extruding fan 13 and the first portion 12 a of the heat exchanger 12. Specifically, the spray nozzles 22 are arranged at intervals from each other along the first portion 12a. Specifically, each spray nozzle 22 is based on the range in which water (droplets) sprayed from each spray nozzle 22 diffuses, that is, the range in which the air toward the heat exchanger 12 is cooled by each spray nozzle 22. They are arranged so as to be scattered at intervals of, for example, several tens of centimeters in the vertical and horizontal directions. For example, as shown in FIG. 4, six spray nozzles 22 of the present embodiment are provided, but the arrangement and number are not limited thereto.

  The flow guide plate 17 is a plate-like member that guides part of the extruded air from the air extruding fan 13 toward the first portion 12a to the second portion 12b. The flow guide plate 17 divides a part of the flow of the extruded air that is pushed out by the air extruding fan 13 and flows toward the first portion 12 a on the downstream side of the spray nozzle 22. The flow can be guided to the second portion 12b. That is, the extruded air pushed out by the air extruding fan 13 mainly flows toward the first portion 12a, and the flow guide plate 17 forcibly bends a part of the flow of the extruded air to cause the second portion 12b. Make the flow toward.

  In addition, although the two flow guide plates 17 of this embodiment are provided as FIG. 4 shows, a specific shape, the number of arrangement | positioning, and an arrangement position are not limited. That is, the flow guide plate has such a shape, the number of arrangements, and the arrangement position that the extruded air cooled by the spray of water is supplied to the whole heat exchanger arranged along two or more side walls of the casing. I just need it.

  According to the outdoor unit 10 of the above air conditioning apparatus 1, the spray nozzle 22 is pushed out from the air extruding fan 13 by providing the guide member 17 while suppressing the installation space of the outdoor unit 10 by incorporating the spray nozzle 22 in the casing 11. It is possible to suitably cool the entire heat exchanger 12 by the extruded air.

  Specifically, since the spray nozzle 22 is disposed in the casing 11, there is no need for a space for disposing the spray nozzle 22 outside the casing 11 when installing the outdoor unit 10, thereby reducing the installation space. It is done.

  In addition, since the spray nozzle 22 is arranged in the casing 11, the sprayed water is not easily affected by the crosswind or the like. Therefore, the water sprayed by the crosswind like an outdoor unit in which the spray nozzle is arranged outside the casing. Is effectively prevented from being reduced and the cooling effect of the air led to the heat exchanger is reduced.

  Further, by providing a guide member 17 and forcibly bending a part of the flow of the extrusion air pushed out from the air extruding fan 13 on the downstream side of the spray nozzle 22, if there is no guide member 17, the extrusion air is directed. It becomes possible to guide the extruded air cooled by the spray water to a region that is not or difficult to face (in this embodiment, the second portion 12b of the heat exchanger). Thereby, the whole heat exchanger 12 can be cooled suitably.

  In addition, the outdoor unit of the air conditioner of the present invention is not limited to the above-described embodiment, and it is needless to say that various modifications can be made without departing from the gist of the present invention.

  Although the outdoor unit 10 of the said embodiment is what is called a trunk type outdoor unit with which the fan 13 for air extrusion opposes the heat exchanger 12, it is not limited to this type. For example, as shown in FIGS. 5 (A) and 5 (B), the outdoor unit 10A is directed toward the bottom wall 114 of the casing 11 with the air extruding fan 13 disposed above the heat exchanger 12A. It may be a type that pushes out air. In the example of FIGS. 5A and 5B, the air extruding fan 13 is provided on the top wall 112. The heat exchanger 12A is erected on the bottom wall 114 so as to follow the first to third side walls 110a, 110b, and 110c in the peripheral wall 110 of the casing 11, respectively. That is, the heat exchanger 12A has a U-shape when seen in a plan view. In addition, the specific shape of the heat exchanger is not limited, and in addition to the first to third side walls 110a, 110b, and 110c, the heat exchanger has a square shape in a plan view along the fourth side wall 110d. Also good. That is, the heat exchanger should just be arrange | positioned so that it may each follow two or more side walls of the some side walls which comprise the surrounding wall of a casing. The spray nozzle 22 is fixed to the casing 11 by a support member 112a or the like that is spanned between upper portions of opposing side walls (for example, the first side wall 110a and the third side wall 110c). Further, the number of spray nozzles 22 is not limited to one, and may be plural.

  As described above, in the outdoor unit 10A in which the air extruding fan 13 is provided on the upper portion of the casing 11, the extruded air is pushed out toward the bottom wall 114, but the course is blocked by the bottom wall 114. The flow direction of the casing 11 changes from the downward direction to the lateral direction on the lower side of the casing 11 and is pushed out from the side walls 110a, 110b, 110c. In this case, the flow guide plate 17A forcibly bends a part of the extruded air pushed toward the bottom wall 114 toward the heat exchanger 12A arranged along the side walls 110a, 110b, and 110c. Specifically, a part of the extruded air is forcibly bent toward the upper side of the heat exchanger 12A (in FIG. 5A, for example, toward an area of about 1/3 from the upper end). Thereby, extrusion air is extruded to the outer side of the casing 11 through the said heat exchanger 12A over substantially the whole area in the up-down direction of the heat exchanger 12A. That is, the air (extruded air) pushed out by the air extruding fan 13 passes through the lower side of the heat exchanger 12A and is pushed out of the casing 11 due to its straightness, without the flow guide plate 17A. Although it is difficult to pass through the upper side of the exchanger 12 (see FIG. 6), the extrusion air is also guided to the upper side of the heat exchanger 12 by providing the flow guide plate 17A (see FIG. 5A). . Thereby, the whole heat exchanger 12A can be cooled by the extrusion air. The arrangement position of the flow guide plate 17A is not limited to the position shown in FIG. That is, in the outdoor unit 10A in which the air extruding fan 13 pushes air toward the bottom wall 114 from the upper side of the heat exchanger 12A, if the baffle plate 17A is not provided, the straightness of the extruded air usually causes Since the flow rate of the extrusion air that is pushed out to the outside of the side walls 110a, 110b, and 110c through the upper side of the heat exchanger 12A is reduced, a part of the flow of the extrusion air is forced to the region where the flow rate is reduced. The flow guide plate 17A should just be arrange | positioned in the position which can be guided.

  In this case, the flow guide plate 17A may be provided at only one place in the vertical direction, or may be provided at a plurality of places (for example, two places (see dotted lines in FIG. 5A)). That is, the flow guide plate 17A only needs to be arranged so that the extrusion air is supplied over substantially the entire area in the vertical direction of the heat exchanger 12A.

  Moreover, in the said embodiment, although the spray nozzle 22 directs a spray hole to the flow direction of extrusion air, and sprays water, the spray direction is not limited to this direction.

  Moreover, the specific structure of the spray nozzle 22 is not limited. For example, although the spray nozzle 22 of the above embodiment is configured as a separate body from the air extruding fan 13, it may be configured integrally with the impeller 13A as shown in FIG. In this case, the spray nozzle 22A can spray water over a wide range by having a plurality of spray holes.

DESCRIPTION OF SYMBOLS 1 Air conditioning apparatus 10, 10A Outdoor unit 11 Casing 12, 12A Heat exchanger 12a 1st site | part 12b 2nd site | part 13 Fan 17 for air extrusion, 17A Current guide plate (guide member)
22, 22A Spray nozzle 110 Peripheral wall 110a First side wall 110b Second side wall 114 Bottom wall

Claims (3)

An outdoor unit (10, 10A) of the air conditioner (1),
A casing (11) having a polygonal peripheral wall (110) in plan view;
An air extruding fan (13, 13A) for extruding the air in the casing (11) to the outside of the casing (11);
Side walls (110a) other than a position facing at least the air extruding fan (13, 13A) among a plurality of side walls (110a, 110b, 110c, 110d) constituting the peripheral wall (110) in the casing (11). 110b, 110c), and heat exchangers (12, 12A) arranged along
Water is sprayed on the upstream side of the heat exchanger (12, 12A) with respect to the extruded air that is disposed in the casing (11) and is pushed out from the air extruding fan (13, 13A). Spray nozzles (22, 22A),
An outdoor unit of an air conditioner, comprising: a guide member (17, 17A) that forcibly bends a part of the flow of the extrusion air downstream of the spray nozzle (22, 22A). The heat exchanger (12) is disposed along the first side wall (110a) and the second side wall (110b) adjacent to each other in the peripheral wall (110), respectively.
The air extruding fan (13, 13A) is disposed at a position facing the first part (12a) of the heat exchanger corresponding to the first side wall (110a), and the first part (12a). )
The guide member (17) includes a second part (12b) of the heat exchanger corresponding to the second side wall (110b), with a part of the extruded air pushed out toward the first part (12a). The outdoor unit of the air conditioning apparatus according to claim 1, wherein the outdoor unit is bent to the side. The air extruding fan (13, 13A) is disposed above the heat exchanger (12A) and pushes air toward the bottom wall (114) of the casing (11),
The guide member (17A) bends from the downward direction toward the side wall (110a, 110b, 110c) as it advances toward the bottom wall (114) by being pushed out by the air extruding fan (13, 13A). The outdoor unit of the air conditioner according to claim 1, wherein a part of the flow of the extruded air is further forcibly bent.

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