JP2012242028A - Outdoor unit of refrigeration device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To decrease a fan capacity by reducing suction resistance of an outdoor fan.SOLUTION: An outdoor unit (10) includes a casing (20), an outdoor heat exchanger (30) contained in the casing (20) and disposed while being vertically erected, and an outdoor fan (40) contained in the upper part of the casing (20). The outdoor heat exchanger (30) is configured into a folded heat exchanger (30) extending along all the side faces of the casing (20) and openings (3a) are formed at predetermined intervals with one intersection corner of the casing (20) interposed between the two side ends of the heat exchanger. The outdoor fan (40) is disposed at a position where the fan mechanism center A is offset in a direction away from the openings (3a) relative to the center B in a plan view of the casing (20).

Description

    The present invention relates to an outdoor unit of a refrigeration apparatus, and particularly relates to an arrangement structure of outdoor fans.

    Conventionally, as shown in Patent Document 1, an outdoor unit of a refrigeration apparatus includes a casing in which an outdoor heat exchanger and an outdoor fan are housed in addition to a compressor.

    The casing of the outdoor unit is formed in a rectangular shape in plan view, and suction ports are formed on both the left and right side surfaces and the back surface. The outdoor heat exchanger is disposed along the suction port and is formed in a U shape in plan view. The outdoor fan is disposed in the upper part of the casing.

    When the outdoor fan is driven, outdoor air is sucked into the casing through the suction port, and the refrigerant and the outdoor air exchange heat in the outdoor heat exchanger. Thereafter, the outdoor air blows out of the casing through the outdoor fan.

JP 2009-127991 A

    However, the outdoor unit has a problem that the fan capacity is not sufficiently utilized because the outdoor fan is provided at the center B of the casing in plan view. That is, in the conventional outdoor unit, although the front fan is closed, the outdoor fan is provided at the center B of the casing in a plan view, so that the suction resistance on the front side increases and the fan capacity increases. There was a problem of getting bigger.

    The present invention has been made in view of such a point, and an object of the present invention is to reduce the fan resistance by reducing the suction resistance of the outdoor fan.

    1st invention is accommodated in the upper part of the casing (20), the outdoor heat exchanger (30) accommodated in this casing (20), and standing in the up-down direction, and the said casing (20). There is an outdoor unit of a refrigeration system equipped with a fan mechanism (4A). And the said outdoor heat exchanger (30) is comprised in the bending outdoor heat exchanger (30) over all the side surfaces of a casing (20), and one corner part of a casing (20) between both ends. Openings (3a) with a predetermined interval are formed with a gap therebetween. Further, the fan mechanism (4A) is arranged at a position where the fan mechanism center A is displaced in a direction away from the opening (3a) from the plan view center B of the casing (20).

    In the first invention, the fan mechanism center A of the fan mechanism (4A) is displaced in a direction away from the opening (3a) from the center B in plan view of the casing (20). ) Is separated from the side closed portion of the casing (20), and the air flow becomes smooth. As a result, the suction resistance of the fan mechanism (4A) is reduced.

    According to a second aspect, in the first aspect, the opening (3a) of the outdoor heat exchanger (30) is formed from the front side surface of the casing (20) to the first lateral side on either side. The fan mechanism (4A) includes two outdoor fans (40), and the two outdoor fans (40) are rear side surfaces from the transverse line SL in the left-right direction passing through the center B in plan view of the casing (20). It is displaced in the direction of.

    In the second aspect of the invention, since the outdoor fan (40) is displaced rearward, the outdoor fan (40) approaches the outdoor heat exchanger (30), and the outdoor heat exchanger (30 ) Increases the amount of air passing through.

    According to a third aspect, in the second aspect, the electrical component unit (60) is positioned above the outdoor heat exchanger (30) between the front side surface of the casing (20) and the outdoor fan (40). ) Is provided.

    In the third aspect of the invention, since the outdoor fan (40) is displaced rearward to create a space on the front side of the casing (20), the electrical component unit (60) is disposed in this space.

    According to a fourth aspect, in the first aspect, the opening (3a) of the outdoor heat exchanger (30) is formed from the front side surface of the casing (20) to the left and right first lateral surfaces. The fan mechanism (4A) includes a single outdoor fan (40), and the outdoor fan (40) is a second horizontal line other than the longitudinal line LL in the front-rear direction passing through the center B in plan view of the casing (20). It is displaced in the direction of the side.

    In the fourth aspect of the invention, since the outdoor fan (40) is displaced laterally, the outdoor fan (40) approaches the outdoor heat exchanger (30), and the outdoor heat exchanger (30 ) Increases the amount of air passing through.

    According to a fifth invention, in the fourth invention, the electrical component unit is located above the outdoor heat exchanger (30) between the first lateral surface of the casing (20) and the outdoor fan (40). (60) is provided.

    In the fifth aspect of the invention, since the outdoor fan (40) is displaced laterally to create a space on one side of the casing (20), the electrical component unit (60) is disposed in this space.

    According to the present invention, since the fan mechanism (4A) is disposed at a position away from the opening (3a) of the outdoor heat exchanger (30), the fan mechanism (4A) is separated from the side blocking portion of the casing (20), and the suction resistance Can be small. As a result, the fan mechanism (4A) can reduce the fan capacity.

    Further, since the fan mechanism (4A) is close to the outdoor heat exchanger (30), the amount of air passing through the outdoor heat exchanger (30) increases, and the heat exchange efficiency of the outdoor heat exchanger (30) is increased. Can be improved.

    According to the third and fifth inventions, since the electrical component unit (60) is disposed between the casing (20) and the outdoor fan (40), the outdoor fan (40) is biased. It is possible to effectively use the generated waste space.

FIG. 1 is a perspective view illustrating an outdoor unit according to the first embodiment. FIG. 2 is a perspective view of the outdoor unit according to the first embodiment, in which a part of the casing is omitted. FIG. 3 is a perspective view of the outdoor unit according to the first embodiment, in which a part of the casing and the electrical component unit are omitted. FIG. 4 is a cross-sectional view of the outdoor unit showing the outdoor unit of the first embodiment, with the upper half section cut. FIG. 5 is a perspective view illustrating the fan motor and the fan stay of the first embodiment. FIG. 6 is a plan view of the outdoor unit according to the first embodiment, in which the top plate is omitted. FIG. 7 is a perspective view illustrating an outdoor unit according to the second embodiment. FIG. 8 is a perspective view of the outdoor unit according to the second embodiment, in which a part of the casing is omitted. FIG. 9 is a perspective view of the outdoor unit according to the second embodiment, in which a part of the casing and the electrical component unit are omitted. FIG. 10 is a plan view of the outdoor unit according to the second embodiment, in which the top plate is omitted.

    Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

<Embodiment 1>
As shown in FIGS. 1-4, the outdoor unit (10) of this Embodiment 1 is used for the air conditioning apparatus which is a refrigeration apparatus, Although not shown, an indoor unit is connected and it is a vapor compression type. It constitutes the refrigeration cycle.

    The outdoor unit (10) is installed, for example, on the rooftop of a building, and includes a casing (20), an outdoor heat exchanger (30), a fan mechanism (4A), and a compression mechanism (50).

    The casing (20) is formed in a rectangular shape in plan view, and includes four support columns (21), a bottom frame (22), a side panel (23), and a top plate (24).

    The four struts (21) are provided at the four corners, and the bottom frame (22) is fixed to the lower part.

    The side panel (23) includes an upper side panel (23a) that forms four upper half portions of the casing (20), and a front side panel that forms the front surface and the left half of the lower half portion of the casing (20). (23b) and a lateral side panel (23c) that forms the left lateral surface (first lateral surface) in the lower half of the casing (20) and forms the front half. On the side surface of the casing (20), the right half of the front surface in the lower half, the right lateral surface (second lateral surface) in the lower half, the back surface in the lower half, and the left side in the lower half A suction port (25) is formed in the rear half of the lateral side (first lateral side).

    The top plate (24) is fixed to the upper end of the support post (21), has a blower outlet (26), and has a grille (24a) that covers the blower outlet (26).

    The outdoor heat exchanger (30) is a fin-and-tube heat exchanger and is configured to exchange heat between outdoor air and the refrigerant. And the said outdoor heat exchanger (30) is provided in the state stood up and down, and is comprised by the bending heat exchanger over all the side surfaces of the said casing (20). Further, a predetermined opening (3a) is formed between both side ends of the outdoor heat exchanger (30) with a left corner portion on the front side of the casing (20) interposed therebetween. That is, the casing (20) is provided with the front side panel (23b) and the lateral side panel (23c) corresponding to the opening (3a) of the outdoor heat exchanger (30).

    The bottom frame (22) is provided with the compression mechanism (50), an oil separator (51), and an accumulator (52). The compression mechanism (50) includes two compressors (5a, 5b). It consists of

    The casing (20) is positioned between the lower space (2a) in which the outdoor heat exchanger (30) is accommodated and the upper space (2b) in which the outdoor fan (40) is accommodated. Stays (20a, 20b, 20c, 20d) extending in the direction are attached to the four surfaces.

    The fan mechanism (4A) includes two outdoor fans (40), and each outdoor fan (40) includes a fan body (41), a fan motor (42), and a bell mouth (43), It is attached to the stay (20a, 20c).

    Furthermore, an electrical component unit (60) that houses electrical components for controlling the compression mechanism (50) and the like is attached to the casing (20). The electrical component unit (60) is disposed above the front surface of the outdoor heat exchanger (30), is disposed in the immediate vicinity of the upper end of the outdoor heat exchanger (30), and has an upper side panel (23a) and an outdoor fan (40). The bell mouth (43) is provided.

    Next, the structure of the outdoor fan (40) will be described in detail.

    As shown in FIGS. 4 and 5, the outdoor fan (40) is attached to a fan stay (70), which is a support member, via an attachment plate (71). The fan stay (70) is suspended from the front stay (20a) and the rear stay (20c) of the casing (20) positioned in contact with the upper end of the outdoor heat exchanger (30).

    The fan stay (70) is formed in a cross beam shape and includes a mounting portion (72) on both sides and a motor fixing portion (73) on the center. The attachment portion (72) is formed horizontally and in a U shape in plan view, and is attached to the front stay (20a) and the rear stay (20c) of the casing (20). That is, the attachment portion (72) is attached above the outdoor heat exchanger (30). The motor fixing portion (73) is continuous with the mounting portion (72), and has an inclined portion (74) inclined from the mounting portion (72) toward the center, and a horizontal portion continuous with the inclined portion (74). And a horizontal portion (75). A motor hole (75a) into which the fan motor (42) is inserted is formed in the horizontal portion (75).

    Further, air holes (76) extending from the mounting portion (72) to the horizontal portion (75) through the inclined portion (74) are formed on both sides of the fan stay (70).

    The mounting plate (71) is formed with a central hole (71a) through which the fan motor (42) passes, and is attached to the central portion of the fan stay (70). The fan motor (42) is fixed together with the mounting plate (71) at the center of the fan stay (70).

    In particular, the central portion of the motor fixing portion (73) is recessed downward from the mounting portion (72), is positioned below the upper end of the outdoor heat exchanger (30), and the fan motor (42) The lower end of the fan motor (42) is positioned below the upper end of the outdoor heat exchanger (30), and the upper end of the fan motor (42) is positioned above the upper end of the outdoor heat exchanger (30). It is supported by the casing (20).

    The fan body (41) is a propeller fan, and is located above the fan motor (42) and connected to the fan motor (42). That is, the fan body (41) is disposed within the vertical height of the electrical component unit (60).

    The bell mouth (43) is attached to the casing (20) so as to cover the outer periphery of the fan body (41), and is continuous with the cylindrical guide portion (43a) and the upper end of the guide portion (43a). And a shroud portion (43b) that extends outward and outward.

    The bell mouth (43) is attached to the casing (20) so that the lower end of the guide portion (43a), which is the lower end of the bell mouth (43), is positioned between the upper and lower ends of the fan motor (42). It is attached. That is, the fan motor (42) is disposed at the center of the guide portion (43a).

    Further, as shown in FIG. 6, the outdoor fan (40) has a direction in which the center A of the fan mechanism is away from the opening (3a) of the outdoor heat exchanger (30) from the center B of the casing (20) in plan view. It is arranged at the position displaced.

    Specifically, the fan mechanism center A is the center of a line connecting the axial centers FC (see FIG. 4) of the fan body (41) in the two outdoor fans (40) in plan view. The plan view center B of the casing (20) is an intersection of diagonal lines connecting the four corners of the casing (20). In this embodiment, the fan mechanism center A is displaced rearward from the plan view center B of the casing (20).

    More specifically, as shown in FIG. 1, the outdoor fan (40) is displaced in the direction of the rear side surface from the transverse line SL in the left-right direction passing through the center B of the casing (20) in plan view. , It is biased toward the space surrounded by the outdoor heat exchanger (30). That is, as shown in FIG. 4, in the side view of the outdoor unit (10), the axial center FC of the fan body (41) is located behind the vertical center BC passing through the plan view center B of the casing (20). The outdoor fan (40) is supported by the casing (20) so as to be displaced, and the outdoor fan (40) is disposed close to the outdoor heat exchanger (30). In the electrical component unit (60), since the outdoor fan (40) is displaced rearward, between the front side surface of the casing (20) and the bell mouth (43) of the outdoor fan (40). Has been placed. Moreover, the said blower outlet (26) is displaced and formed in the back side from the center.

-Driving action-
Next, the operation of the outdoor unit (10) will be described.

    First, when the compression mechanism (50) is driven and the outdoor fan (40) is driven, outdoor air is sucked into the lower space (2a) of the casing (20) from the suction port (25). Since the outdoor air passes through the outdoor heat exchanger (30) while flowing into the lower space (2a), the outdoor air and the refrigerant exchange heat with each other in the outdoor heat exchanger (30). The outdoor air in the lower space (2a) flows into the upper space (2b), passes through the fan body (41) of the outdoor fan (40), and is blown out through the outlet (26).

    On the other hand, the refrigerant compressed by the compression mechanism (50) condenses, for example, in the outdoor heat exchanger (30), then flows to the indoor unit, evaporates in the indoor heat exchanger, and returns to the compression mechanism (50). The cooling operation is performed by repeating this refrigerant circulation.

-Effect of Embodiment 1-
As described above, in Embodiment 1, the lower end of the fan motor (42) is positioned below the upper end of the outdoor heat exchanger (30), and the upper end of the fan motor (42) is the outdoor heat exchanger. The outdoor fan (40) is supported by the casing (20) so as to be positioned above the upper end of (30). Therefore, according to the first embodiment, the air passage between the outdoor heat exchanger (30) and the fan body (41) can be shortened, so that the ventilation resistance can be reduced. As a result, the outdoor fan (40) can reduce the fan capacity.

    Moreover, since the said fan motor (42) is located in the center part of the bell mouth (43), passage resistance can be reduced.

    In addition, the fan stay (70) includes a motor fixing portion (73) that is recessed below the mounting portions (72) on both sides, so that the resistance of the air flow is reduced and the position of the fan motor (42) is reduced. It can be lowered than before.

    Moreover, since the said electrical component unit (60) is arrange | positioned above the outdoor heat exchanger (30), a useless space can be utilized effectively around the outdoor fan (40).

    In addition, since the outdoor fan (40) is disposed at a position away from the opening (3a) of the outdoor heat exchanger (30), it can be separated from the side block portion of the casing (20) to reduce the suction resistance. it can. As a result, the outdoor fan (40) can reduce the fan capacity.

    Further, since the outdoor fan (40) is close to the outdoor heat exchanger (30), the amount of air passing through the outdoor heat exchanger (30) increases, and the heat exchange efficiency of the outdoor heat exchanger (30) is increased. Can be improved.

    Moreover, since the said electrical component unit (60) is arrange | positioned between the front side surface of the casing (20), and the outdoor fan (40), the waste space which arises when an outdoor fan (40) is biased is used effectively. be able to.

    In particular, since the outdoor fan (40) can reliably suck air from the upper end portion of the outdoor heat exchanger (30) located below the electrical component unit (60), the outdoor heat exchanger (30) It is possible to suppress a decrease in the heat exchange efficiency.

<Embodiment 2 of the invention>
Next, a second embodiment of the present invention will be described in detail based on the drawings.

    In the present embodiment, as shown in FIGS. 7 to 10, the compression mechanism (50) of the first embodiment includes two compressors (5a, 5b), and the fan mechanism (4a) includes two outdoor fans. (40) instead of the compressor mechanism (50) having only one compressor (5a) and the fan mechanism (4a) having only one outdoor fan (40). is there.

    Specifically, the compression mechanism (50) includes one compressor (5a), while the electrical component unit (60) is disposed on the left side surface of the casing (20).

    Furthermore, although the outdoor fan (40) of this Embodiment 2 is not shown in figure, the lower end of a fan motor (42) is located below the upper end of an outdoor heat exchanger (30) similarly to Embodiment 1, and the said fan motor The casing (42) is positioned above the upper end of the outdoor heat exchanger (30) and the lower end of the bell mouth (43) is positioned between the upper and lower ends of the fan motor (42). Supported by (20).

    As shown in FIG. 10, the outdoor fan (40) has a fan mechanism center A, which is an axial center FC, from the center B of the casing (20) in the plan view, and the opening (3a) of the outdoor heat exchanger (30). It is arranged at a position displaced in a direction away from.

    Specifically, as shown in FIG. 7, the outdoor fan (40) is displaced in the direction of the right side from a longitudinal line LL in the front-rear direction passing through the center B in plan view of the casing (20). It is displaced in the direction of the lateral surface and is biased toward the space surrounded by the outdoor heat exchanger (30) in plan view. In the electrical component unit (60), since the outdoor fan (40) is displaced rightward, the space between the left side surface of the casing (20) and the bell mouth (43) of the outdoor fan (40). Is arranged. Moreover, the said blower outlet (26) is displaced and formed in the right side from the center. Other configurations, operations, and effects are the same as those of the first embodiment.

<Other embodiments>
The present invention may be configured as follows with respect to the first embodiment.

    In the first embodiment, the compression mechanism (50) includes two compressors (5a, 5b), but the compression mechanism (50) may include one compressor (5a) and a fan. The mechanism (4A) may include one outdoor fan (40). That is, the outdoor unit (10) of the first embodiment may include the compressor (5a) and the outdoor fan (40) as one unit while the electrical component unit (60) is disposed on the front side.

    Moreover, although each said embodiment demonstrated the air conditioning apparatus, the various refrigeration apparatus which cools a freezer etc. may be sufficient.

    Moreover, although each said embodiment has arrange | positioned the fan motor (42) in the position lower than the upper end of the outdoor heat exchanger (30), the fan motor (42) is located above the outdoor heat exchanger (30). You may do it.

    In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or its use.

    As described above, the present invention is useful for an outdoor unit including an outdoor heat exchanger and an outdoor fan.

DESCRIPTION OF SYMBOLS 10 Outdoor unit 20 Casing 25 Suction inlet 26 Outlet 30 Outdoor heat exchanger 3a Opening 4A Fan mechanism 40 Outdoor fan 41 Fan main body 42 Fan motor 43 Bell mouth 50 Compression mechanism 60 Electrical component unit

Claims (5)

A casing (20);
An outdoor heat exchanger (30) housed in the casing (20) and provided upright in the vertical direction;
An outdoor unit of a refrigeration apparatus comprising a fan mechanism (4A) housed in an upper part of the casing (20),
The outdoor heat exchanger (30) is configured as a folded outdoor heat exchanger (30) extending over all sides of the casing (20) and sandwiches one corner of the casing (20) between both side ends. To form openings (3a) with a predetermined spacing,
The fan mechanism (4A) is disposed at a position where the fan mechanism center A is displaced from the center (B) of the casing (20) in a direction away from the opening (3a). unit. In claim 1,
While the opening (3a) of the outdoor heat exchanger (30) is formed from the front side surface of the casing (20) to the first lateral side on the left and right sides,
The fan mechanism (4A) includes two outdoor fans (40), and the two outdoor fans (40) are located on the rear side of the transverse line SL in the left-right direction passing through the center B in plan view of the casing (20). An outdoor unit of a refrigeration apparatus characterized by being displaced in a direction. In claim 2,
An electrical component unit (60) is provided above the outdoor heat exchanger (30) between the front side surface of the casing (20) and the outdoor fan (40). Outdoor unit of refrigeration equipment. In claim 1,
While the opening (3a) of the outdoor heat exchanger (30) is formed from the front side surface of the casing (20) to the first lateral side on the left and right sides,
The fan mechanism (4A) includes a single outdoor fan (40), and the outdoor fan (40) is a second horizontal side surface other than the longitudinal line LL in the front-rear direction passing through the center B in plan view of the casing (20). An outdoor unit of a refrigeration apparatus characterized by being displaced in the direction of In claim 4,
An electrical component unit (60) is provided above the outdoor heat exchanger (30) between the first lateral surface of the casing (20) and the outdoor fan (40). The outdoor unit of the refrigeration equipment.