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JP2009085466A - Outdoor unit of air conditioner - Google Patents

Outdoor unit of air conditioner Download PDF

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Publication number
JP2009085466A
JP2009085466A JP2007253565A JP2007253565A JP2009085466A JP 2009085466 A JP2009085466 A JP 2009085466A JP 2007253565 A JP2007253565 A JP 2007253565A JP 2007253565 A JP2007253565 A JP 2007253565A JP 2009085466 A JP2009085466 A JP 2009085466A
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JP
Japan
Prior art keywords
plate
support plate
heat exchange
partition plate
outdoor unit
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Granted
Application number
JP2007253565A
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Japanese (ja)
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JP5028204B2 (en
Inventor
Toshiyuki Nakamura
豪志 中村
Koji Koyama
浩司 小山
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Sanyo Electric Co Ltd
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Sanyo Electric Co Ltd
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Application filed by Sanyo Electric Co Ltd filed Critical Sanyo Electric Co Ltd
Priority to JP2007253565A priority Critical patent/JP5028204B2/en
Priority to KR1020080093468A priority patent/KR100995432B1/en
Priority to EP08016780A priority patent/EP2042820A3/en
Priority to CN2010101593218A priority patent/CN101915439A/en
Priority to CN2010101593010A priority patent/CN101915438A/en
Priority to CN2008101778823A priority patent/CN101430118B/en
Publication of JP2009085466A publication Critical patent/JP2009085466A/en
Application granted granted Critical
Publication of JP5028204B2 publication Critical patent/JP5028204B2/en
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Abstract

<P>PROBLEM TO BE SOLVED: To provide an outdoor unit of an air conditioner capable of easily mounting an electrical component box to a housing while suppressing a protruding amount to a heat exchange chamber side. <P>SOLUTION: The inside of a unit case 11 is divided into a heat exchange chamber R1 and a machine chamber R2 by a partitioning plate 16, a heat exchanger 21 and blowers 22A, 22B are mounted in the heat exchange chamber R1, a compressor 31 and the electrical component box 40 are mounted in the machine chamber R2, the electrical component box 40 is extended to the partitioning plate 16 with a width roughly the same as that of the partitioning plate 16, a first supporting plate 41 for supporting an invertor substrate 43 is disposed at a machine chamber R2 side, and the back face 41C of the first supporting plate 41 can be temporarily fixed to a rib 35A of a tube plate 35 of the heat exchanger 21 in a state that the first supporting plate 41 is loaded on the top face 16E of the partitioning plate 16. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

本発明は、空気調和装置の室外ユニットに関する。   The present invention relates to an outdoor unit of an air conditioner.

一般に、筐体内を仕切り板で熱交換室と機械室とに区分けし、熱交換室に熱交換器及び送風機を収容し、機械室に圧縮機及び電装箱を収容した空気調和装置の室外ユニットが知られている。この種の室外ユニットでは、仕切り板の上部に略水平に電装箱を配置し、この電装箱の一端を熱交換室側に突出させ、熱交換室を通過する空気によって当該電装箱を冷却するものがある(例えば、特許文献1参照)。
特開2001−201110号公報
Generally, an outdoor unit of an air conditioner that divides a housing into a heat exchange chamber and a machine room with a partition plate, houses a heat exchanger and a blower in the heat exchange chamber, and houses a compressor and an electrical box in the machine room. Are known. In this type of outdoor unit, an electrical box is disposed substantially horizontally above the partition plate, one end of the electrical box is protruded toward the heat exchange chamber, and the electrical box is cooled by air passing through the heat exchange chamber. (For example, refer to Patent Document 1).
JP 2001-201110 A

ところで、電装箱の一端を熱交換室側に突出させた場合、この突出した部分が送風抵抗となり、熱交換器での熱交換効率が低下することが考えられるため、電装箱は突出量を抑えて配置されることが望ましい。その一方で、熱交換室側への突出量を抑えて電装箱を配置すると、この電装箱の筐体への取り付けが困難となるといった問題がある。
本発明の目的は、上述の事情を考慮してなされたものであり、熱交換室側への突出量を抑えつつ、電装箱の筐体への取り付けを容易に行うことができる空気調和装置の室外ユニットを提供することにある。
By the way, when one end of the electrical box protrudes toward the heat exchange chamber, the protruding part becomes a blowing resistance, and it is considered that the heat exchange efficiency in the heat exchanger is lowered. It is desirable to be arranged. On the other hand, if the electrical box is arranged while suppressing the amount of protrusion to the heat exchange chamber side, there is a problem that it is difficult to attach the electrical box to the housing.
An object of the present invention is made in consideration of the above-described circumstances, and is an air conditioner that can be easily attached to a housing of an electrical equipment box while suppressing the amount of protrusion to the heat exchange chamber side. To provide an outdoor unit.

上記課題を解決するため、本発明は、筐体内を仕切り板で熱交換室と機械室とに区分けし、熱交換室に熱交換器及び送風機を収容し、機械室に圧縮機及び電装箱を収容した空気調和装置の室外ユニットにおいて、前記電装箱は、前記仕切り板と略同一の幅で当該仕切り板上に延在し、前記機械室側に電装ユニットを支持する支持板を備え、この支持板を前記仕切り板の上端部に載置した状態で、当該支持板の一端部を前記熱交換器の管板に仮止め可能としたことを特徴とする。
この構成によれば、仕切り板上に延在する支持板の機械室側に電装ユニットを支持したため、電装箱の熱交換室側への突出量を抑えることができる。また、この支持板を仕切り板の上端部に載置した状態で、当該支持板の一端部を熱交換器の管板に仮止めできるため、電装箱を筐体に簡単に取り付けることができる。
In order to solve the above-mentioned problems, the present invention divides the inside of a housing into a heat exchange chamber and a machine room with a partition plate, houses a heat exchanger and a blower in the heat exchange chamber, and includes a compressor and an electrical box in the machine room. In the outdoor unit of the housed air conditioner, the electrical box has a support plate that extends on the partition plate with substantially the same width as the partition plate and supports the electrical unit on the machine room side. In a state where the plate is placed on the upper end portion of the partition plate, the one end portion of the support plate can be temporarily fixed to the tube plate of the heat exchanger.
According to this configuration, since the electrical unit is supported on the machine room side of the support plate extending on the partition plate, the amount of protrusion of the electrical box to the heat exchange chamber side can be suppressed. Moreover, since the one end part of the said support plate can be temporarily fixed to the tube plate of a heat exchanger in the state which mounted this support plate in the upper end part of the partition plate, an electrical equipment box can be easily attached to a housing | casing.

この構成において、前記支持板は、この支持板の一端部に、前記管板に設けられたねじ部に引掛け可能な孔部を備える構成としても良い。また、前記孔部は、小径孔とこの小径孔に連なる大径孔とを備え、これら小径孔及び大径孔を前記支持板の下端を中心とした略同一半径上に設けた構成としても良い。また、前記支持板は、この支持板の下端部から前記機械室側に延在する舌片部を備える構成としても良い。   In this configuration, the support plate may include a hole portion that can be hooked on a screw portion provided on the tube plate at one end portion of the support plate. The hole portion may include a small-diameter hole and a large-diameter hole connected to the small-diameter hole, and the small-diameter hole and the large-diameter hole may be provided on substantially the same radius centered on the lower end of the support plate. . Moreover, the said support plate is good also as a structure provided with the tongue piece part extended to the said machine room side from the lower end part of this support plate.

本発明によれば、仕切り板上に延在する支持板の機械室側に電装ユニットを支持したため、電装箱の熱交換室側への突出量を抑えることができる。また、この支持板を仕切り板の上端部に載置した状態で、当該支持板の一端部を熱交換器の管板に仮止めできるため、電装箱を筐体に簡単に取り付けることができる。   According to the present invention, since the electrical unit is supported on the machine room side of the support plate extending on the partition plate, the amount of protrusion of the electrical box to the heat exchange chamber side can be suppressed. Moreover, since the one end part of the said support plate can be temporarily fixed to the tube plate of a heat exchanger in the state which mounted this support plate in the upper end part of the partition plate, an electrical equipment box can be easily attached to a housing | casing.

以下、図面を参照して本発明の実施形態を詳述する。
本実施形態に係る空気調和装置は、室外ユニット10と室内ユニット(不図示)とから構成されており、冷媒配管により接続された冷媒回路に冷媒を流して、冷房運転および暖房運転を行う。室外ユニット10は、室外に設置され、室外空気と熱交換して冷房運転時には冷媒を凝縮させて外気に熱を放出し、暖房運転時には冷媒を蒸発させて外気から熱を取り込むものである。なお、以下に述べる上下および左右といった方向は、室外ユニット10を設置した状態でその前面側から見た場合の方向を示している。
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
The air conditioner according to the present embodiment includes an outdoor unit 10 and an indoor unit (not shown), and performs a cooling operation and a heating operation by flowing a refrigerant through a refrigerant circuit connected by a refrigerant pipe. The outdoor unit 10 is installed outside and exchanges heat with outdoor air to condense the refrigerant during cooling operation and release heat to the outside air, and evaporate the refrigerant during heating operation and take in heat from the outside air. In addition, the directions such as up and down and left and right described below indicate directions when viewed from the front side of the outdoor unit 10 in a state where the outdoor unit 10 is installed.

図1は、室外ユニット10を前面から見た図であり、図2は室外ユニット10を上方から見た図である。この室外ユニット10は、略直方体箱形状のユニットケース(筐体)11を備え、ユニットケース11は、底板12、天板13、前面パネル14および外板15を有し、ユニットケース11内部が底板12に立設された仕切り板16によって縦に仕切られ、熱交換室R1と機械室R2とに分割されている。なお、図1の例では、前面パネル14を取り外した状態を示しているが、前面パネル14は、仕切り板16を境に左右に二分割された第1前面パネル14Aと第2前面パネル14Bとから構成され、各前面パネル14A、14Bを取り外すことによって、作業者が前面側から熱交換室R1および機械室R2内の部品のメンテナンス作業が可能に構成されている。   FIG. 1 is a view of the outdoor unit 10 as viewed from the front, and FIG. 2 is a view of the outdoor unit 10 as viewed from above. The outdoor unit 10 includes a unit case (housing) 11 having a substantially rectangular parallelepiped box shape. The unit case 11 includes a bottom plate 12, a top plate 13, a front panel 14, and an outer plate 15. The inside of the unit case 11 is a bottom plate. 12 is partitioned vertically by a partition plate 16 provided upright, and is divided into a heat exchange chamber R1 and a machine chamber R2. In the example of FIG. 1, the front panel 14 is removed, but the front panel 14 includes a first front panel 14A and a second front panel 14B that are divided into left and right parts with a partition plate 16 as a boundary. By removing the front panels 14A and 14B, the operator can perform maintenance work on the components in the heat exchange chamber R1 and the machine room R2 from the front side.

熱交換室R1には、図2に示すように、その背面側に熱交換器21が収容され、その前面側に上下方向に並べて配置された送風機22A、22Bが収容される。熱交換器21は、上面視略L字形状に屈曲されて形成され、熱交換室R1の左側面(外側面)から背面に沿わせて配置されている。このように、熱交換器21は熱交換室R1(すなわちユニットケース11)の左側面及び背面を形成し、この左側面から背面にかけての露出面全体が通風路(吸込口)として機能する。また、本構成では、熱交換器21の表面は、この熱交換器21への人体などの接触を防止するため、樹脂性のネットなどからなるフィンガード(不図示)で覆われている。   As shown in FIG. 2, the heat exchanger 21 accommodates the heat exchanger 21 on the back side and the blowers 22 </ b> A and 22 </ b> B arranged in the vertical direction on the front side. The heat exchanger 21 is formed by being bent into a substantially L shape when viewed from above, and is disposed along the back surface from the left side surface (outer side surface) of the heat exchange chamber R1. Thus, the heat exchanger 21 forms the left side surface and the back surface of the heat exchange chamber R1 (that is, the unit case 11), and the entire exposed surface from the left side surface to the back surface functions as a ventilation path (suction port). Further, in this configuration, the surface of the heat exchanger 21 is covered with a finger (not shown) made of a resin net or the like in order to prevent a human body or the like from contacting the heat exchanger 21.

送風機22A、22Bは、熱交換室R1内の配置された左右一対の支柱24L、24Rに取り付けられている。これら支柱24L、24Rは、当該支柱24L、24Rの上端部をそれぞれ熱交換器21の上縁部に引掛けるとともに、当該支柱24L、24Rの下端部は底板12にねじ止めにより固定されている。
送風機22Aは、支柱24L、24Rの上部に台座25Aを介して固定されたファンモータ26Aと、このファンモータ26Aの軸に取り付けられたプロペラファン(軸流ファン)27Aとから構成され、このプロペラファン27Aが熱交換室R1の前面側に近接配置される。また、このプロペラファン27Aの前部が、熱交換室R1の第1前面パネル14Aの上部に設けられた丸形フランジ形状のファン覆い部28A内に入り、このファン覆い部28Aの開口部が通風路(吹出口)として機能し、この開口部がプロペラファン27への人体などの接触を防止するファンガード29Aで覆われる。また、送風機22Bは、上記支柱24L、24Rの下部に配置されるものであり、上記送風機22Aと略同一の構成を有するものであるため、この送風機22Aを構成する機器と同種の符号を付してその説明を省略する。
ファンモータ26A、26Bによりプロペラファン27A、27Bが回転駆動されると、室外ユニット10の周囲、より具体的には、熱交換器21の背面側および左側面側から外気が熱交換室R1内に吸い込まれ、熱交換器21の略前面を通過した後に、熱交換室R1前面のファン覆い部28A、28Bを通って外に排出される。つまり、この室外ユニット10は、前面から熱交換後の空気を吹き出す前面吹き出しタイプに構成されている。
The blowers 22A and 22B are attached to a pair of left and right support columns 24L and 24R disposed in the heat exchange chamber R1. These struts 24L and 24R hook the upper ends of the struts 24L and 24R to the upper edge of the heat exchanger 21, respectively, and the lower ends of the struts 24L and 24R are fixed to the bottom plate 12 by screws.
The blower 22A includes a fan motor 26A fixed to the upper part of the support posts 24L and 24R via a base 25A, and a propeller fan (axial fan) 27A attached to the shaft of the fan motor 26A. The propeller fan 27A is disposed close to the front side of the heat exchange chamber R1. Further, the front portion of the propeller fan 27A enters a round flange-shaped fan cover portion 28A provided at the upper portion of the first front panel 14A of the heat exchange chamber R1, and the opening portion of the fan cover portion 28A is ventilated. This opening functions as a path (air outlet), and is covered with a fan guard 29A that prevents the propeller fan 27 from contacting a human body or the like. Further, the blower 22B is disposed below the support posts 24L and 24R and has substantially the same configuration as the blower 22A. Therefore, the blower 22B is assigned the same kind of code as the equipment constituting the blower 22A. The description is omitted.
When the propeller fans 27A and 27B are rotationally driven by the fan motors 26A and 26B, outside air enters the heat exchange chamber R1 around the outdoor unit 10, more specifically, from the back side and the left side of the heat exchanger 21. After being sucked and passed through the substantially front surface of the heat exchanger 21, it is discharged outside through the fan cover portions 28A and 28B on the front surface of the heat exchange chamber R1. That is, the outdoor unit 10 is configured as a front blowing type that blows out air after heat exchange from the front.

また、図1に示すように、機械室R2には、冷媒回路の一部を構成する圧縮機31、アキュムレータ32および四方弁33や膨張弁(不図示)といった弁体などの冷媒回路構成部品が配管接続され、当該機械室R2の略下方空間内に収容される。
本構成では、圧縮機31とアキュムレータ32とは、同程度の容量を有する圧縮容器を備え、上記機械室R2内に上下方向に並べて配置されている。具体的には、圧縮機31は底板12上に設置され、この圧縮機31の上方でアキュムレータ32は仕切り板16に取り付けられている。これによって機械室R2内における圧縮機31及びアキュムレータ32の設置スペースを小さく抑えることができる。
また、機械室R2の前面側における略中間位置には支持片36が配置され、この支持片36には、ガス管用サービスバルブ37と液管用サービスバルブ38とが固定されている。これらガス管用サービスバルブ37及び液管用サービスバルブ38には、室内ユニットから延びるユニット配管のガス管及び液管(不図示)がそれぞれ接続され、これにより、冷媒を循環する冷媒回路が構成される。また、機械室R2の上方空間には、空気調和装置を制御する制御基板などの各種電装品を配設した電装ボックス(電装箱)40が配置されている。この電装ボックス40は、仕切り板16の上部に延在する第1支持板(支持板)41と、この第1支持板41に取り付けられる第2支持板42とを備えて構成され、これら第1支持板41及び第2支持板42に基板等の電装ユニットが配置されている。
Further, as shown in FIG. 1, the machine room R2 includes refrigerant circuit components such as a compressor 31, an accumulator 32, and a valve body such as a four-way valve 33 and an expansion valve (not shown) constituting a part of the refrigerant circuit. Piping is connected and accommodated in a substantially lower space of the machine room R2.
In this configuration, the compressor 31 and the accumulator 32 are provided with a compression container having the same capacity, and are arranged in the machine room R2 in the vertical direction. Specifically, the compressor 31 is installed on the bottom plate 12, and the accumulator 32 is attached to the partition plate 16 above the compressor 31. Thereby, the installation space of the compressor 31 and the accumulator 32 in the machine room R2 can be kept small.
A support piece 36 is disposed at a substantially intermediate position on the front side of the machine room R2, and a gas pipe service valve 37 and a liquid pipe service valve 38 are fixed to the support piece 36. The gas pipe service valve 37 and the liquid pipe service valve 38 are connected to a gas pipe and a liquid pipe (not shown) of unit piping extending from the indoor unit, respectively, thereby constituting a refrigerant circuit for circulating the refrigerant. An electrical box (electrical box) 40 in which various electrical components such as a control board for controlling the air conditioner are disposed is disposed in the upper space of the machine room R2. The electrical box 40 includes a first support plate (support plate) 41 extending above the partition plate 16 and a second support plate 42 attached to the first support plate 41. An electrical unit such as a substrate is disposed on the support plate 41 and the second support plate 42.

仕切り板16は、図3に示すように、熱交換室R1と機械室R2との間に配置されて当該熱交換室R1と機械室R2とを区分けする基板部16Aと、この基板部16Aの前面側の側縁部を機械室R2側に折り曲げて形成した前面部16Bと、基板部16Aの背面側の側縁部を機械室R2側に斜めに折り曲げて形成した斜面部16Cと、この斜面部16Cの側縁部を上記前面部16Bと略平行に折り曲げて形成した背面部16Dと、基板部16Aの上縁部を機械室R2側に折り曲げて形成した上面部16Eと、この上面部(上端部)16Eと略平行に基板部16Aの下縁部を機械室R2側に折り曲げて形成した下面部16Fとを備えてトレー形状に形成されている。
このように、仕切り板16は、薄い板金を上記トレー形状に折り曲げて形成することにより、この仕切り板16の剛性(強度)の向上を図っている。さらに、本構成では、仕切り板16の剛性をより一層向上させるために、この仕切り板16の一部に補強板50が設けられており、この補強板50を介して、仕切り板16にアキュムレータ32が取り付けられている。
As shown in FIG. 3, the partition plate 16 is disposed between the heat exchange chamber R1 and the machine room R2, and separates the heat exchange chamber R1 and the machine room R2 from each other, and the board portion 16A. A front surface portion 16B formed by bending the side edge portion on the front surface side toward the machine room R2, a slope portion 16C formed by obliquely bending the side edge portion on the back surface side of the substrate portion 16A toward the machine chamber R2, and the slope surface. A back surface portion 16D formed by bending the side edge portion of the portion 16C substantially parallel to the front surface portion 16B, an upper surface portion 16E formed by bending the upper edge portion of the substrate portion 16A toward the machine chamber R2, and the upper surface portion ( It is formed in a tray shape with a lower surface portion 16F formed by bending the lower edge portion of the substrate portion 16A to the machine room R2 side substantially in parallel with the upper end portion 16E.
Thus, the partition plate 16 is formed by bending a thin sheet metal into the tray shape, thereby improving the rigidity (strength) of the partition plate 16. Further, in this configuration, in order to further improve the rigidity of the partition plate 16, a reinforcing plate 50 is provided in a part of the partition plate 16, and the accumulator 32 is attached to the partition plate 16 via the reinforcing plate 50. Is attached.

また、仕切り板16は、図3に示ように、この仕切り板16の下面部16Fと底板12とをねじ止めすることにより、この底板12に立設している。さらに、図示は省略したが、仕切り板16の背面部16Dを熱交換器21にねじ止めして固定している。具体的には、熱交換器21は、図2に示すように、この熱交換器21の図中右側の端部に管板35を備え、この管板35には、ユニットケース11内側の側縁部を略L字形状に折り曲げたリブ35Aが形成されている。本構成では、仕切り板16の背面部16Dを、補強板50ともに管板35のリブ35Aにねじ止めしている。これにより、補強板50によって補強された仕切り板16を管板35に固定することができるので、この仕切り板16をより強固にユニットケース11内に支持させることができ、この仕切り板16の振動が熱交換器21やユニットケース11の各パネルに伝達しにくくなり、この振動に伴う異音の発生を抑制することができる。
また、補強板50を介して仕切り板16にアキュムレータ32が取り付けられているため、この補強板50によって仕切り板16の剛性が高まり、アキュムレータ32の荷重によって仕切り板16の変形を防止できるとともに、このアキュムレータ32の振動に伴う当該仕切り板16の振動を抑制することができる。
Further, as shown in FIG. 3, the partition plate 16 is erected on the bottom plate 12 by screwing the bottom surface portion 16 </ b> F of the partition plate 16 and the bottom plate 12. Further, although not shown, the back surface portion 16D of the partition plate 16 is fixed to the heat exchanger 21 by screwing. Specifically, as shown in FIG. 2, the heat exchanger 21 includes a tube plate 35 at an end portion on the right side of the heat exchanger 21 in the drawing, and the tube plate 35 includes an inner side of the unit case 11. A rib 35A is formed by bending the edge into a substantially L shape. In this configuration, the back surface portion 16D of the partition plate 16 is screwed to the rib 35A of the tube plate 35 together with the reinforcing plate 50. Thereby, since the partition plate 16 reinforced by the reinforcing plate 50 can be fixed to the tube plate 35, the partition plate 16 can be more firmly supported in the unit case 11, and the vibration of the partition plate 16 can be supported. However, it is difficult to transmit the noise to each panel of the heat exchanger 21 and the unit case 11, and the generation of noise due to this vibration can be suppressed.
Further, since the accumulator 32 is attached to the partition plate 16 via the reinforcing plate 50, the rigidity of the partition plate 16 is increased by the reinforcing plate 50, and the deformation of the partition plate 16 can be prevented by the load of the accumulator 32. The vibration of the partition plate 16 accompanying the vibration of the accumulator 32 can be suppressed.

次に、電装ボックス40について説明する。
電装ボックス40は、図4に示すように、仕切り板16の上部に延在する第1支持板41を備え、この第1支持板41の機械室R2側には、圧縮機31を駆動する直流電源を生成するインバータ基板43が配置される。このインバータ基板43は、インバータ回路などの比較的発熱量が多い電装品を実装した基板であるため、当該インバータ基板43の反対側、すなわち第1支持板41の熱交換室R1側には当該インバータ基板43で生じた熱を放出するためのヒートシンク44が配置されている。このヒートシンク44は、複数のフィンを構成する金属板を左右に間隔をあけて配列した構成を備える。
また、第1支持板41の熱交換室R1側には、上記ヒートシンク44を覆うカバー体45が配置されている。このカバー体45は、金属板を折り曲げて形成され、上部及び下部には、ヒートシンク44のフィンと熱交換する冷却空気が通過する開口45Aが形成されている。
Next, the electrical box 40 will be described.
As shown in FIG. 4, the electrical box 40 includes a first support plate 41 that extends above the partition plate 16, and a DC that drives the compressor 31 is disposed on the machine chamber R <b> 2 side of the first support plate 41. An inverter board 43 for generating a power supply is arranged. Since the inverter board 43 is a board on which electrical components such as an inverter circuit that generate a relatively large amount of heat are mounted, the inverter board 43 is disposed on the opposite side of the inverter board 43, that is, on the heat exchange chamber R1 side of the first support plate 41. A heat sink 44 for releasing heat generated in the substrate 43 is disposed. The heat sink 44 has a configuration in which metal plates constituting a plurality of fins are arranged with a space left and right.
A cover body 45 that covers the heat sink 44 is disposed on the heat exchange chamber R1 side of the first support plate 41. The cover body 45 is formed by bending a metal plate, and an opening 45 </ b> A through which cooling air for heat exchange with the fins of the heat sink 44 passes is formed in the upper and lower portions.

第1支持板41は、仕切り板16と略同一の幅を備え、この仕切り板16の上部に配置されることにより、当該仕切り板16と協働して熱交換室R1と機械室R2とを区分けする機能を有する。本構成では、第1支持板41の高さは、仕切り板16の上に載せた際に、熱交換器21と略同じ高さになるように設定されている。
この第1支持板41は、上記インバータ基板43及びヒートシンク44が配置される基板部41Aと、この基板部41Aの前面側の側縁部を機械室R2側に折り曲げて形成した前面部41Bと、基板部41Aの背面側の側縁部を上記前面部41Bと略平行に折り曲げて形成した背面部(一端部)41Cと、基板部16Aの上縁部を機械室R2側に折り曲げて形成した上面部41Dと、この上面部41Dと略平行に基板部41Aの下縁部を機械室R2側に折り曲げて形成した下面部41Eとを備えてトレー形状に形成されている。また、本構成では、第1支持板41には、この第1支持板41の下面部41Eの縁部を下方に折り曲げて舌片部41Fが形成されている。
The first support plate 41 has substantially the same width as the partition plate 16, and is disposed on the upper portion of the partition plate 16, so that the heat exchange chamber R <b> 1 and the machine chamber R <b> 2 cooperate with the partition plate 16. Has the function of sorting. In this configuration, the height of the first support plate 41 is set to be substantially the same as that of the heat exchanger 21 when placed on the partition plate 16.
The first support plate 41 includes a substrate portion 41A on which the inverter substrate 43 and the heat sink 44 are disposed, and a front surface portion 41B formed by bending a side edge portion on the front surface side of the substrate portion 41A toward the machine room R2. A back surface portion (one end portion) 41C formed by bending the side edge portion on the back surface side of the substrate portion 41A substantially parallel to the front surface portion 41B, and an upper surface formed by bending the upper edge portion of the substrate portion 16A to the machine room R2 side. It is formed in a tray shape with a portion 41D and a lower surface portion 41E formed by bending the lower edge portion of the substrate portion 41A to the machine room R2 side substantially parallel to the upper surface portion 41D. Further, in this configuration, the first support plate 41 is formed with a tongue piece portion 41F by bending the edge of the lower surface portion 41E of the first support plate 41 downward.

この舌片部41Fは、図4に示すように、第1支持板41を仕切り板16の上に載せると、この仕切り板16の上端部の機械室R2側に延在する。この舌片部41Fは、第1支持板41を仕切り板16の上に載せる際に位置決めガイドとして機能するとともに、第1支持板41と仕切り板16との隙間を覆うカバーとして機能する。このため、熱交換室R1から仕切り板16と第1支持板41との隙間を通じて機械室R2内に雨水が浸入したとしても、この雨水は舌片部41Fに当たって機械室R2の下方に流下するため、当該雨水が電装ボックス40内に浸入することはない。   As shown in FIG. 4, the tongue piece portion 41 </ b> F extends to the machine chamber R <b> 2 side of the upper end portion of the partition plate 16 when the first support plate 41 is placed on the partition plate 16. The tongue piece portion 41F functions as a positioning guide when the first support plate 41 is placed on the partition plate 16, and also functions as a cover that covers the gap between the first support plate 41 and the partition plate 16. For this reason, even if rainwater enters the machine chamber R2 from the heat exchange chamber R1 through the gap between the partition plate 16 and the first support plate 41, the rainwater hits the tongue portion 41F and flows down below the machine chamber R2. The rainwater does not enter the electrical box 40.

また、電装ボックス40は、第1支持板41に固定されて機械室R2の幅方向に延材する第2支持板42を備える。この第2支持板42は、機械室R2の幅方向に延びる板部42Aと、この板部42Aの下縁部を前方に折り曲げて形成した底板部42Bとを備え、当該板部42Aの前面側にフィルタ基板46が配置され、この板部42Aの背面側にリアクタ47が配置されている。
また、板部42Aの前面側には、フィルタ基板46を覆うように上面視で略コ字形状に折り曲げられたカバー体48が配置される。このカバー体48は、板部42Aにねじ等で固定されており、このねじを外すことにより簡単にカバー体48を板部42Aから取り外すことができる。カバー体48の前面には、室外ユニット10内に配置された各種機器の運転を制御する制御基板49が配置される。この制御基板49は、機械室R2の前面側に配置されるため、例えば、第2前面パネル14B(図2参照)を取り外して容易にメンテナンスができるようになっている。
また、第2支持板42の底板部42Bには、金属板を折り曲げて形成した取付板51が固定され、この取付板51の前面側には、室外ユニット10に電源を供給したり、室内ユニット等と通信を行うための端子台52が設けられている。
In addition, the electrical box 40 includes a second support plate 42 that is fixed to the first support plate 41 and extends in the width direction of the machine room R2. The second support plate 42 includes a plate portion 42A extending in the width direction of the machine room R2, and a bottom plate portion 42B formed by bending the lower edge portion of the plate portion 42A forward, and the front side of the plate portion 42A. A filter substrate 46 is arranged on the back side, and a reactor 47 is arranged on the back side of the plate portion 42A.
In addition, a cover body 48 that is bent in a substantially U shape in a top view so as to cover the filter substrate 46 is disposed on the front side of the plate portion 42A. The cover body 48 is fixed to the plate portion 42A with screws or the like, and the cover body 48 can be easily detached from the plate portion 42A by removing the screws. On the front surface of the cover body 48, a control board 49 for controlling the operation of various devices disposed in the outdoor unit 10 is disposed. Since the control board 49 is disposed on the front side of the machine room R2, for example, the second front panel 14B (see FIG. 2) can be removed for easy maintenance.
An attachment plate 51 formed by bending a metal plate is fixed to the bottom plate portion 42B of the second support plate 42. On the front side of the attachment plate 51, power is supplied to the outdoor unit 10 or the indoor unit A terminal block 52 is provided for communicating with the terminal.

このように、電装ボックス40は、第1支持板41及び第2支持板42を備え、これら第1支持板41及び第2支持板42に、電装ユニットとして上記インバータ基板43、ヒートシンク44、フィルタ基板46、リアクタ47、制御基板49及び不図示のパワーリレー、キャパシタなどが配置されるため、電装ボックス40の重量は比較的重くなり(例えば約11kg)、この電装ボックス40の取付作業が困難となっていた。   As described above, the electrical box 40 includes the first support plate 41 and the second support plate 42, and the inverter substrate 43, the heat sink 44, and the filter substrate as electrical units are provided on the first support plate 41 and the second support plate 42. 46, the reactor 47, the control board 49, a power relay (not shown), a capacitor, and the like are arranged, the weight of the electrical box 40 becomes relatively heavy (for example, about 11 kg), and the mounting work of the electrical box 40 becomes difficult. It was.

このため、本構成では、電装ボックス40の第1支持板41を仕切り板16の上面部に載置した状態で、当該第1支持板41の背面部41Cを熱交換器21の管板35に仮止め可能に構成されている。具体的には、図5に示すように、第1支持板41の背面部41Cには、管板35のリブ35Aに取り付けられたねじ62に引掛けることができるダルマ孔(孔部)61が形成されている。
このダルマ孔61は、小径の孔61Aと、大径の孔61Bとが繋がって形成されたものであり、小径の孔61Aは、ねじ62のねじ径よりも大きく、このねじ62の頭部の径よりも小さい径に形成されている。また、大径の孔61Bは、上記ねじ62の頭部よりも大きく、この頭部が貫通できる径に形成されている。
また、本構成では、ダルマ孔61は、大径の孔61Bが小径の孔61Aよりも機械室R2側の下方に位置するように斜めに形成されている。さらに具体的には、ダルマ孔61は、第1支持板41の下面部41Eにおける熱交換室R1側の角部41E1を中心とした略同一半径上に形成されている。
このように、ダルマ孔61は、大径の孔61Bが小径の孔61Aよりも機械室R2側の下方に位置するように斜めに形成されているため、電装ボックス40を取り付けた場合、大径の孔61Bは、図4に示すように、管板35のリブ35Aよりも熱交換室R1側に延在することはない。これにより、大径の孔61Bは、上記リブ35Aにより塞がれるため、この大径の孔61Bを通じて、熱交換室R1と機械室R2とが連通することが防止され、当該大径の孔61Bから雨水等が電装ボックス40内に浸入することが防止される。
For this reason, in this configuration, with the first support plate 41 of the electrical box 40 placed on the upper surface portion of the partition plate 16, the back surface portion 41 </ b> C of the first support plate 41 is attached to the tube plate 35 of the heat exchanger 21. It is configured to be temporarily fixed. Specifically, as shown in FIG. 5, the back surface portion 41 </ b> C of the first support plate 41 has a dharma hole (hole portion) 61 that can be hooked on a screw 62 attached to the rib 35 </ b> A of the tube plate 35. Is formed.
The Dalma hole 61 is formed by connecting a small-diameter hole 61A and a large-diameter hole 61B. The small-diameter hole 61A is larger than the screw diameter of the screw 62. The diameter is smaller than the diameter. The large-diameter hole 61B is larger than the head of the screw 62 and is formed to have a diameter through which the head can penetrate.
Further, in this configuration, the Dharma hole 61 is formed obliquely so that the large diameter hole 61B is located below the small diameter hole 61A on the machine room R2 side. More specifically, the dharma hole 61 is formed on substantially the same radius with the corner 41E1 on the heat exchange chamber R1 side in the lower surface 41E of the first support plate 41 as the center.
Thus, the Dharma hole 61 is formed obliquely so that the large-diameter hole 61B is located below the small-diameter hole 61A on the machine room R2 side. As shown in FIG. 4, the hole 61 </ b> B does not extend further toward the heat exchange chamber R <b> 1 than the rib 35 </ b> A of the tube sheet 35. As a result, the large-diameter hole 61B is blocked by the rib 35A, so that the heat exchange chamber R1 and the machine chamber R2 are prevented from communicating with each other through the large-diameter hole 61B. Rain water or the like is prevented from entering the electrical box 40.

次に、電装ボックス40の取付手順について説明する。
まず、第1支持板41及び第2支持板42を組み合わせ、これら第1支持板41、第2支持板42に電装ユニットを配置して電装ボックス40を形成する。
続いて、図5に示すように、第1支持板41の下面部41Eを仕切り板16の上面部16Eの上に載せ、上記舌片部41Fをガイドとして、第1支持板41の背面部41Cが熱交換器21の管板35のリブ35Aに当接するまで押し込む。この場合、電装ボックス40は、舌片部41Fをガイドとして仕切り板16の上面部16E上を滑らすことで、小さな力で電装ボックス40を所定の位置まで押し込むことができる。
続いて、図4に示すように、電装ボックス40の上部(例えば、第1支持板41の上面部41D)を機械室R1側に傾け、第1支持板41の背面部41Cに形成されたダルマ孔61の大径の孔61Bを管板35のリブ35Aに予め軽くねじ込まれたねじ62の頭部に挿入する。このダルマ孔61は、上述のように、第1支持板41の下面部41Eにおける熱交換室R1側の角部41E1を中心とした略同一半径上に形成されているため、この角部41E1を中心として時計回り方向(図中X方向)に第1支持板41(電装ボックス40)を回転させると、ねじ62が小径の孔61A内に移動して、この小径の孔61Aにねじの頭部が引っ掛かる。
このため、電装ボックス40を簡単にユニットケース11、具体的には、仕切り板16及び熱交換器21の管板35に仮固定することができる。そして、上記ねじ62を締めこむとともに、第2支持板42及び取付板51の縁部に形成されたねじ孔64を通じて、電装ボックス40を外板15(図2)の前面側の端部に固定する。
このように、電装ボックス40の第1支持板41の背面部41Cには、この第1支持板41を仕切り板16の上面部に載置した状態で熱交換器21の管板35に設けたねじ62に引掛け可能なダルマ孔61が形成されているため、電装ボックス40を仕切り板16及び熱交換器21の管板35に仮固定できるので、作業者が一人でも容易に電装ボックス40をユニットケース11内に取り付けることができる。
Next, a procedure for attaching the electrical box 40 will be described.
First, the first support plate 41 and the second support plate 42 are combined, and an electrical unit is disposed on the first support plate 41 and the second support plate 42 to form the electrical box 40.
Subsequently, as shown in FIG. 5, the lower surface portion 41E of the first support plate 41 is placed on the upper surface portion 16E of the partition plate 16, and the back surface portion 41C of the first support plate 41 is used with the tongue piece portion 41F as a guide. Is pushed in until it comes into contact with the rib 35A of the tube plate 35 of the heat exchanger 21. In this case, the electrical box 40 can push the electrical box 40 to a predetermined position with a small force by sliding on the upper surface portion 16E of the partition plate 16 using the tongue portion 41F as a guide.
Subsequently, as shown in FIG. 4, the upper portion of the electrical box 40 (for example, the upper surface portion 41 </ b> D of the first support plate 41) is inclined toward the machine room R <b> 1, and the dharma formed on the back surface portion 41 </ b> C of the first support plate 41. The large-diameter hole 61B of the hole 61 is inserted into the head of the screw 62 that is lightly screwed into the rib 35A of the tube plate 35 in advance. As described above, the dharma hole 61 is formed on substantially the same radius with the corner 41E1 on the heat exchange chamber R1 side in the lower surface 41E of the first support plate 41 as the center. When the first support plate 41 (electrical equipment box 40) is rotated in the clockwise direction (X direction in the figure) as the center, the screw 62 moves into the small-diameter hole 61A, and the screw head is inserted into the small-diameter hole 61A. Is caught.
For this reason, the electrical box 40 can be temporarily fixed to the unit case 11, specifically, the partition plate 16 and the tube plate 35 of the heat exchanger 21. Then, the screw 62 is tightened, and the electrical box 40 is fixed to the front side end of the outer plate 15 (FIG. 2) through the screw holes 64 formed in the edges of the second support plate 42 and the mounting plate 51. To do.
As described above, the back surface portion 41 </ b> C of the first support plate 41 of the electrical box 40 is provided on the tube plate 35 of the heat exchanger 21 in a state where the first support plate 41 is placed on the upper surface portion of the partition plate 16. Since the Dalma hole 61 that can be hooked on the screw 62 is formed, the electrical box 40 can be temporarily fixed to the partition plate 16 and the tube plate 35 of the heat exchanger 21, so that even an operator can easily mount the electrical box 40. It can be installed in the unit case 11.

本実施形態によれば、ユニットケース11内を仕切り板16で熱交換室R1と機械室R2とに区分けし、熱交換室R1に熱交換器21及び送風機22A、22Bを収容し、機械室R2に圧縮機31及び電装ボックス40を収容し、この電装ボックス40は、仕切り板16と略同一の幅で当該仕切り板16上に延在し、機械室R2側にインバータ基板43を支持する第1支持板41を備えたため、この第1支持板41の熱交換室R1側には、上記インバータ基板43を冷却するヒートシンク44のみが突出し、電装ボックス40の熱交換室R1側への突出量を抑えることができる。このため、電装ボックス40が熱交換室R1内に突出することにより生じる送風抵抗が抑制され、熱交換器21での熱交換効率の向上を図ることができる。
特に、本実施形態のように、送風機22A、22Bを上下に並べて配置する構成では、電装ボックス40の突出量を抑えることで、これら送風機22A、22Bから送風された空気の流れ分布が最適となるように、当該送風機22A、22Bを熱交換室R1内に配置することができるため、熱交換器21での熱交換効率の更なる向上を図ることができる。
また、第1支持板41を仕切り板16の上面部16Eに載置した状態で、当該第1支持板41の背面部41Cを熱交換器21の管板35のリブ35Aに仮止め可能としたため、電装ボックス40をユニットケース11内に簡単に取り付けることができる。
According to this embodiment, the inside of the unit case 11 is divided into the heat exchange chamber R1 and the machine room R2 by the partition plate 16, and the heat exchanger 21 and the fans 22A and 22B are accommodated in the heat exchange room R1, and the machine room R2 is accommodated. The electric box 40 accommodates the compressor 31 and the electrical box 40. The electrical box 40 extends on the partition plate 16 with substantially the same width as the partition plate 16, and supports the inverter board 43 on the machine room R2 side. Since the support plate 41 is provided, only the heat sink 44 that cools the inverter board 43 protrudes on the heat exchange chamber R1 side of the first support plate 41, and the amount of protrusion of the electrical box 40 to the heat exchange chamber R1 side is suppressed. be able to. For this reason, the ventilation resistance which arises when the electrical equipment box 40 protrudes in heat exchange chamber R1 is suppressed, and the improvement of the heat exchange efficiency in the heat exchanger 21 can be aimed at.
In particular, in the configuration in which the blowers 22A and 22B are arranged one above the other as in the present embodiment, the flow distribution of the air blown from the blowers 22A and 22B is optimized by suppressing the protruding amount of the electrical box 40. Thus, since the said air blowers 22A and 22B can be arrange | positioned in heat exchange chamber R1, the further improvement of the heat exchange efficiency in the heat exchanger 21 can be aimed at.
In addition, since the first support plate 41 is placed on the upper surface portion 16E of the partition plate 16, the back surface portion 41C of the first support plate 41 can be temporarily fixed to the rib 35A of the tube plate 35 of the heat exchanger 21. The electrical box 40 can be easily mounted in the unit case 11.

また、本実施形態によれば、第1支持板41は、この第1支持板41の背面部41Cに、管板35のリブ35Aに取り付けられたねじ62が引掛け可能なダルマ孔61を備えるため、電装ボックス40を仕切り板16及び熱交換器21の管板35に仮固定できるので、作業者が一人でも容易に電装ボックス40をユニットケース11内に取り付けることができる。   Further, according to the present embodiment, the first support plate 41 includes the Dalma hole 61 in which the screw 62 attached to the rib 35 </ b> A of the tube plate 35 can be hooked on the back surface portion 41 </ b> C of the first support plate 41. Therefore, since the electrical box 40 can be temporarily fixed to the partition plate 16 and the tube plate 35 of the heat exchanger 21, the electrical box 40 can be easily installed in the unit case 11 even by one operator.

さらに、本実施形態によれば、ダルマ孔61は、小径の孔61Aと大径の孔61Bとを備え、これら小径の孔61A及び大径の孔61Bを第1支持板41の下面部41Eにおける熱交換室R1側の角部41E1を中心とした略同一半径上に形成されているため、この角部41E1を中心として時計回り方向(図中X方向)に第1支持板41(電装ボックス40)を回転させることにより、簡単にねじ62をダルマ孔61に引掛けることができる。   Furthermore, according to the present embodiment, the Dharma hole 61 includes a small-diameter hole 61A and a large-diameter hole 61B, and the small-diameter hole 61A and the large-diameter hole 61B are formed in the lower surface portion 41E of the first support plate 41. Since they are formed on substantially the same radius with the corner 41E1 on the heat exchange chamber R1 side as the center, the first support plate 41 (electrical equipment box 40) is formed in the clockwise direction (the X direction in the figure) around the corner 41E1. ) Can be easily hooked on the dharma hole 61.

また、本実施形態によれば、第1支持板41は、この第1支持板41の下面部41Eから仕切り板16の上面部16Eの機械室R2側に延在する舌片部41Fを備えるため、電装ボックス40を取り付ける際に、この電装ボックス40を、舌片部41Fをガイドとして仕切り板16の上面部16E上を滑らすことにより、小さな力で当該電装ボックス40を所定の位置まで押し込むことができる。
さらに、第1支持板41と仕切り板16との隙間を覆うカバーとして機能するため、熱交換室R1から仕切り板16と第1支持板41との隙間を通じて機械室R2内に雨水が浸入したとしても、この雨水は舌片部41Fに当たって機械室R2の下方に流下するため、当該雨水が電装ボックス40内に浸入することが防止される。
Further, according to the present embodiment, the first support plate 41 includes the tongue piece portion 41F that extends from the lower surface portion 41E of the first support plate 41 to the machine chamber R2 side of the upper surface portion 16E of the partition plate 16. When mounting the electrical equipment box 40, the electrical equipment box 40 can be pushed to a predetermined position with a small force by sliding the electrical equipment box 40 on the upper surface portion 16E of the partition plate 16 using the tongue piece portion 41F as a guide. it can.
Furthermore, since it functions as a cover that covers the gap between the first support plate 41 and the partition plate 16, it is assumed that rainwater has entered the machine chamber R2 from the heat exchange chamber R1 through the gap between the partition plate 16 and the first support plate 41. However, since this rainwater hits the tongue piece portion 41F and flows down below the machine room R2, the rainwater is prevented from entering the electrical box 40.

以上、一実施形態に基づいて、本発明を説明したが、本発明はこれに限定されるものではない。例えば、本実施形態では、上下に配置された2台の送風機22A,22Bを備える構成について説明したが、1台の送風機を備える構成であっても良いことは勿論である。   As mentioned above, although this invention was demonstrated based on one Embodiment, this invention is not limited to this. For example, in this embodiment, although the structure provided with the two air blowers 22A and 22B arrange | positioned up and down was demonstrated, of course, the structure provided with one air blower may be sufficient.

本発明の一実施形態に係る室外ユニットの内部構成の正面図である。It is a front view of the internal structure of the outdoor unit which concerns on one Embodiment of this invention. 室外ユニットの内部構成の上面図である。It is a top view of the internal configuration of the outdoor unit. 仕切り板状に配置される電装ボックスを示す斜視図である。It is a perspective view which shows the electrical equipment box arrange | positioned at a partition plate shape. 電装ボックスの構成を示す斜視図であるIt is a perspective view which shows the structure of an electrical equipment box. 電装ボックスの取付手順を説明するための図である。It is a figure for demonstrating the attachment procedure of an electrical equipment box.

符号の説明Explanation of symbols

10 室外ユニット
11 ユニットケース
12 底板
13 天板
14 前面パネル
14A 前面パネル
15 外板
16 仕切り板
21 熱交換器
22A、22B 送風機
31 圧縮機
32 アキュムレータ
33 四方弁
35 管板
35A リブ
40 電装ボックス(電装箱)
41 第1支持板(支持板)
41A 基板部
41B 前面部
41C 背面部
41D 上面部
41E 下面部
41E1 角部
41F 舌片部
42 第2支持板
43 インバータ基板
44 ヒートシンク
45 カバー体
45A 開口
46 フィルタ基板
47 リアクタ
48 カバー体
49 制御基板
50 補強板
51 取付板
61 ダルマ孔(孔部)
61A 小径の孔(小径孔)
61B 大径の孔(大径孔)
R1 熱交換室
R2 機械室
DESCRIPTION OF SYMBOLS 10 Outdoor unit 11 Unit case 12 Bottom plate 13 Top plate 14 Front panel 14A Front panel 15 Outer plate 16 Partition plate 21 Heat exchanger 22A, 22B Blower 31 Compressor 32 Accumulator 33 Four-way valve 35 Tube plate 35A Rib 40 Electrical box )
41 First support plate (support plate)
41A Substrate part 41B Front part 41C Rear part 41D Upper part 41E Lower part 41E1 Corner part 41F Tongue part 42 Second support plate 43 Inverter board 44 Heat sink 45 Cover body 45A Opening 46 Filter substrate 47 Reactor 48 Cover body 49 Control board 50 Reinforcement Plate 51 Mounting plate 61 Dharma hole (hole)
61A Small-diameter hole (small-diameter hole)
61B Large diameter hole (large diameter hole)
R1 Heat exchange room R2 Machine room

Claims (4)

筐体内を仕切り板で熱交換室と機械室とに区分けし、熱交換室に熱交換器及び送風機を収容し、機械室に圧縮機及び電装箱を収容した空気調和装置の室外ユニットにおいて、
前記電装箱は、前記仕切り板と略同一の幅で当該仕切り板上に延在し、前記機械室側に電装ユニットを支持する支持板を備え、この支持板を前記仕切り板の上端部に載置した状態で、当該支持板の一端部を前記熱交換器の管板に仮止め可能としたことを特徴とする空気調和装置の室外ユニット。
In the outdoor unit of the air conditioner in which the inside of the housing is divided into a heat exchange chamber and a machine room with a partition plate, a heat exchanger and a blower are housed in the heat exchange room, and a compressor and an electrical box are housed in the machine room.
The electrical box has a support plate that extends on the partition plate with substantially the same width as the partition plate and supports the electrical unit on the machine room side, and this support plate is mounted on the upper end of the partition plate. An outdoor unit of an air conditioner, wherein one end portion of the support plate can be temporarily fixed to the tube plate of the heat exchanger in a state of being placed.
前記支持板は、この支持板の一端部に、前記管板に設けられたねじ部に引掛け可能な孔部を備えることを特徴とする請求項1に記載の空気調和装置の室外ユニット。   The outdoor unit of an air conditioner according to claim 1, wherein the support plate includes a hole portion that can be hooked on a screw portion provided on the tube plate at one end portion of the support plate. 前記孔部は、小径孔とこの小径孔に連なる大径孔とを備え、これら小径孔及び大径孔を前記支持板の下端を中心とした略同一半径上に設けたことを特徴とする請求項2に記載の空気調和装置の室外ユニット。   The hole portion includes a small-diameter hole and a large-diameter hole connected to the small-diameter hole, and the small-diameter hole and the large-diameter hole are provided on substantially the same radius centered on the lower end of the support plate. Item 3. An outdoor unit of an air conditioner according to Item 2. 前記支持板は、この支持板の下端部から前記仕切り板の上端部における前記機械室側に延在する舌片部を備えることを特徴とする請求項1乃至3のいずれかに記載の空気調和装置の室外ユニット。   The air conditioner according to any one of claims 1 to 3, wherein the support plate includes a tongue piece portion extending from the lower end portion of the support plate to the machine room side at the upper end portion of the partition plate. The outdoor unit of the device.
JP2007253565A 2007-09-25 2007-09-28 Air conditioner outdoor unit Expired - Fee Related JP5028204B2 (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
JP2007253565A JP5028204B2 (en) 2007-09-28 2007-09-28 Air conditioner outdoor unit
KR1020080093468A KR100995432B1 (en) 2007-09-25 2008-09-24 Outside unit of air conditioning apparatus
EP08016780A EP2042820A3 (en) 2007-09-25 2008-09-24 Outdoor unit of air conditioner
CN2010101593218A CN101915439A (en) 2007-09-25 2008-09-25 Outdoor unit of air conditioner
CN2010101593010A CN101915438A (en) 2007-09-25 2008-09-25 Outdoor unit of air conditioner
CN2008101778823A CN101430118B (en) 2007-09-25 2008-09-25 Outside unit of air conditioning apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2007253565A JP5028204B2 (en) 2007-09-28 2007-09-28 Air conditioner outdoor unit

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JP2015117858A (en) * 2013-12-17 2015-06-25 ダイキン工業株式会社 Outdoor unit for air conditioner
JP2018189263A (en) * 2017-04-28 2018-11-29 株式会社富士通ゼネラル Outdoor equipment of air conditioner
JP2018189264A (en) * 2017-04-28 2018-11-29 株式会社富士通ゼネラル Outdoor unit for air conditioner
CN112867895A (en) * 2018-10-18 2021-05-28 三星电子株式会社 Outdoor unit and air conditioner having the same
CN112867895B (en) * 2018-10-18 2023-04-11 三星电子株式会社 Outdoor unit and air conditioner having the same
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US11401965B2 (en) 2018-12-26 2022-08-02 Honda Motor Co., Ltd. Fastening structure of electric member, fastening method of electric member and releasing method of electric member
US11874003B2 (en) 2019-04-08 2024-01-16 Mitsubishi Electric Corporation Outdoor unit of air-conditioning apparatus

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