JP2009299957A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily incorporate a switch box in manufacturing or repairing. <P>SOLUTION: A printed circuit board 31 provided with a power element 33 and a refrigerant jacket 20 to which the power element 33 is thermally connected and in which a refrigerant used for a refrigerating cycle is circulated through the interior are disposed in an outdoor unit casing 70. The printed circuit board 31 is housed in the switch box 40. A service opening 71 in which the switch box 40 is inserted is formed on a surface of the outdoor unit casing 70 that is a side surface in its installation state. The switch box 40 is disposed opposite to the service opening 71 and in front of the refrigerant jacket 20 when viewed from the service opening 71. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

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

In an air conditioner that performs a vapor compression refrigeration cycle by circulating a refrigerant, an electric circuit such as an inverter circuit is mounted to control the operating state of the motor of the compressor. Generally, a power element that generates high heat is used in this inverter circuit, and a conventional air conditioner is provided with means for cooling the power element so that the power element does not reach a temperature higher than an operable temperature. . As an example of such a cooling means, there is one in which a power element is cooled by a refrigerant used in a refrigeration cycle (see, for example, Patent Document 1). In the air conditioner of Patent Document 1, a refrigerant passage through which a refrigerant used in the refrigeration cycle flows is provided in a refrigerant jacket (a heat sink in this document), and a power element (a giant transistor in the same document) is fixed to the refrigerant jacket. The jacket is housed in a switch box (electric parts box).
JP-A-62-69066

  By the way, when using the refrigerant | coolant used for a refrigerating cycle in order to cool a power element, it may be convenient to provide a switch box with the compressor in the same casing from relations, such as the temperature of a refrigerant | coolant. However, since the casing containing the compressor is complicated with refrigerant piping, it may be necessary to avoid the refrigerant piping or get over the refrigerant jacket to put the switch box into the casing. It was not easy to incorporate.

  The present invention has been made paying attention to the above problems, and an object thereof is to make it possible to easily incorporate a switch box at the time of manufacturing or repair.

In order to solve the above problems, the first invention is
An outdoor unit comprising a printed circuit board (31) to which a power element (33) is attached and a refrigerant jacket (20) in which the power element (33) is thermally connected and in which a refrigerant used in a refrigeration cycle flows. An air conditioner that is provided in the casing (70) of (100) and cools the power element (33) by the refrigerant flowing through the refrigerant jacket (20),
The printed circuit board (31) is housed in a switch box (40),
In the casing (70), a service opening (71) for incorporating the switch box (40) is formed on a side surface in the installed state,
The switch box (40) is disposed opposite to the service opening (71) and on the front side of the refrigerant jacket (20) when viewed from the service opening (71). To do.

  Accordingly, the switch box (40) is incorporated into the casing (70) without overcoming the refrigerant jacket (20) or avoiding the refrigerant pipe (21) connected to the refrigerant jacket (20).

In addition, the second invention,
In the air conditioner of the first invention,
The power element (33) is fixed to the surface of the switch box (40) facing the refrigerant jacket (20) and fixed to the refrigerant jacket (20) by a refrigerant jacket mounting screw (52). And a heat transfer plate (50) for conducting heat between the refrigerant jacket (20) and the refrigerant jacket (20),
The printed circuit board (31) is provided with a through hole (31a) through which the refrigerant jacket mounting screw (52) is passed toward the mounting position of the refrigerant jacket mounting screw (52).

  Thereby, insertion and fastening of the refrigerant jacket mounting screw (52) for fastening the heat transfer plate (50) and the refrigerant jacket (20) are performed through the through hole (31a) provided in the printed circuit board (31).

 According to the first invention, when the switch box (40) is incorporated in the casing (70), it is necessary to get over the refrigerant jacket (20) or avoid the refrigerant pipe (21) connected to the refrigerant jacket (20). As a result, the switch box (40) can be easily assembled.

  According to the second invention, the refrigerant jacket (20) and the power element (33) can be easily thermally connected.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. The following embodiments are essentially preferable examples, and are not intended to limit the scope of the present invention, its application, or its use.

  FIG. 1 is a piping system diagram of a refrigerant circuit (10) in an air conditioner (1) according to an embodiment of the present invention. This air conditioner (1) is a heat pump type air conditioner capable of cooling operation and heating operation. As shown in FIG. 1, the air conditioner (1) includes an outdoor unit (100) installed outdoors and an indoor unit (200) installed indoors. The outdoor unit (100) and the indoor unit (200) are connected to each other via the first connection pipe (11) and the second connection pipe (12), and the refrigerant circulates to perform a vapor compression refrigeration cycle. The refrigerant circuit (10) to perform is comprised.

<Indoor unit>
The indoor unit (200) is provided with an indoor heat exchanger (210) for exchanging heat between the refrigerant and outdoor air. As this indoor heat exchanger (210), for example, a cross fin type fin-and-tube heat exchanger or the like can be adopted. An indoor fan (not shown) is installed in the vicinity of the indoor heat exchanger (210).

<Outdoor unit>
The outdoor unit (100) includes a compressor (13), an oil separator (14), an outdoor heat exchanger (15), an outdoor fan (16), an expansion valve (17), an accumulator (18), a four-way switching valve ( 19) A refrigerant jacket (20) and an electric circuit (30) are provided and housed in a casing (an outdoor unit casing (70) to be described later).

  The compressor (13) sucks and compresses the refrigerant from the suction port, and discharges the compressed refrigerant from the discharge port. Various compressors such as a scroll compressor can be adopted as the compressor (13).

  The oil separator (14) separates the refrigerant mixed with lubricating oil discharged from the compressor (13) into refrigerant and lubricating oil, and the refrigerant is sent to the four-way selector valve (19), which compresses the lubricating oil. Return to the machine (13).

  The outdoor heat exchanger (15) is an air heat exchanger for exchanging heat between the refrigerant and outdoor air. For example, a cross fin type fin-and-tube heat exchanger or the like can be adopted. An outdoor fan (16) for blowing outdoor air to the outdoor heat exchanger (15) is installed in the vicinity of the outdoor heat exchanger (15).

  The expansion valve (17) is connected to the outdoor heat exchanger (15) and the indoor heat exchanger (210), expands the refrigerant that has flowed in, reduces the pressure to a predetermined pressure, and then flows it out. The expansion valve (17) can be constituted by, for example, an electronic expansion valve having a variable opening.

  The accumulator (18) gas-liquid separates the refrigerant that flows in, and sends the separated gas refrigerant to the compressor (13).

  The four-way switching valve (19) is provided with four ports from first to fourth, and is in a first state (solid line in FIG. 1) in which the first port and the third port communicate with each other and the second port and the fourth port communicate with each other. And a second state (state indicated by a broken line in FIG. 1) in which the second port and the third port communicate with each other at the same time. In this outdoor unit (100), the first port is connected to the discharge port of the compressor (13) via the oil separator (14), and the second port is the suction port of the compressor (13) via the accumulator (18). Are connected to each. The third port is connected to the second connection pipe (12) via the outdoor heat exchanger (15) and the expansion valve (17), and the fourth port is connected to the first connection pipe (11). . When the cooling operation is performed in the air conditioner (1), the state is switched to the first state, and when the heating operation is performed, the state is switched to the second state.

  The refrigerant jacket (20) is made of, for example, a metal such as aluminum in a flat rectangular parallelepiped shape, and is a part of the refrigerant pipe (21) that connects the outdoor heat exchanger (15) and the expansion valve (17). And is thermally connected to the refrigerant pipe (21). Specifically, the refrigerant jacket (20) is provided with two through-holes for fitting the refrigerant pipe (21) as shown in FIG. 2, and the refrigerant pipe (21) passes through one through-hole and then passes through the U-hole. It turns back in a letter shape and passes through the other through hole. In other words, the refrigerant jacket (20) can be seen as the refrigerant used for the refrigeration cycle circulating inside. The refrigerant jacket (20) is provided with a screw hole (20a) for fixing with a mounting screw in the outdoor unit casing (70).

  The electric circuit (30) controls the rotational speed of the electric motor of the compressor (13). The electric circuit (30) is formed on a printed circuit board (31), and the printed circuit board (31) is fixed in the switch box (40) by a spacer (32). On the printed circuit board (31), as shown in FIG. 2, a power element (33) and the like are arranged. This power element (33) is, for example, a switching element of an inverter circuit that supplies power to the electric motor of the compressor (13). The power element (33) generates heat during operation of the compressor (13) and cools the power element (33). Otherwise, the temperature at which the power element (33) can operate (for example, 90 ° C.) may be exceeded. Therefore, in the air conditioner (1), the power element (33) is cooled by the refrigerant flowing through the refrigerant jacket (20).

  Specifically, in the air conditioner (1), as shown in FIG. 2, the refrigerant jacket (20) is fixed to the switch box (40) to cool the power element (33) in the switch box (40). . More specifically, the switch box (40) is formed in a flat box shape with one surface opened, and a through hole (40a) is provided on the surface opposed to the opening to form a plate-shaped heat transfer. The plate (50) is fixed by a mounting screw (51) so as to cover the through hole (40a). The heat transfer plate (50) is made of a material having a relatively small thermal resistance, such as aluminum.

  A power element (33) is fixed to the heat transfer plate (50) with a mounting screw (51) from the inside of the switch box (40). A refrigerant jacket (20) is fixed from the outside of the switch box (40) with a refrigerant jacket mounting screw (52). In this embodiment, the printed circuit board (31) is larger than the head diameter of the refrigerant jacket mounting screw (52), and the refrigerant jacket mounting screw (52) is directed toward the mounting position of the refrigerant jacket mounting screw (52). A through hole (31a) is formed, and even when the printed circuit board (31) is fixed in the switch box (40), the refrigerant jacket mounting screw (52) is passed through the through hole (31a). The heat transfer plate (50) and the refrigerant jacket (20) can be fastened.

  In this structure, the heat of the power element (33) is conducted to the refrigerant jacket (20) through the heat transfer plate (50), and is radiated to the refrigerant flowing through the refrigerant jacket (20). Specifically, in the refrigerant jacket (20), the refrigerant is condensed in the outdoor heat exchanger (15) during the cooling operation and flows at a temperature lower than the temperature of the power element (33), and during the heating operation, the indoor heat exchanger (210) As a result, the refrigerant flows at a temperature lower than the temperature of the power element (33). In these cases, the temperature of the refrigerant flowing through the refrigerant jacket (20) varies depending on operating conditions, outside air conditions, and the like, but is about 40 to 45 ° C. during cooling operation, for example. Therefore, the heat generated in the power element (33) of the electric circuit (30) is transferred to the refrigerant jacket (20) through the heat transfer plate (50), and the refrigerant jacket (20) has the inside of the refrigerant pipe (21). Dissipates heat to the refrigerant. As a result, the power element (33) is maintained at an operable temperature.

  3 and 4 are diagrams schematically showing the cross-sectional shape and the front shape of the outdoor unit (100), respectively, and show the arrangement of main components such as the compressor (13). As shown in FIG. 3, the outdoor unit casing (70) is partitioned into two by a partition plate (60). In one compartment (heat exchange chamber), an outdoor heat exchanger (15) having an L-shaped cross section is arranged facing the side and back of the outdoor unit casing (70). An outdoor fan (16) is installed in the vicinity of the exchanger (15). In the other compartment (machine room), a refrigerant jacket (20), a compressor (13), a switch box (40) and the like are arranged. Specifically, the outdoor unit casing (70) has a service opening (71) penetrating into the machine room on a surface that is a side surface in the installed state (in this example, a surface that is the front side in the installed state). The switch box (40) is opposed to the service opening (71) and viewed from the service opening (71), that is, viewed from the front of the outdoor unit casing (70). It is located on the near side of 20). At this time, the heat transfer plate (50) side of the switch box (40) faces the back side as viewed from the service opening (71).

-Assembly of the switch box (40) etc. into the outdoor unit casing (70)-
FIG. 5 is a diagram for explaining the order in which the refrigerant jacket (20) and the switch box (40) are assembled. In the outdoor unit (100) of the present embodiment, as shown in FIG. 5 (a), in order to attach the refrigerant jacket (20), the side plate and the partition plate (60) of the outdoor unit casing (70) are installed in the machine room. In addition, the mounting plates (61, 62) are fixed with mounting screws. In this example, the mounting plate (61) is mounted so as to bridge the side plate of the outdoor unit casing (70) and the partition plate (60), and the mounting plate (61) and the mounting plate (62) are connected to the side. The face plate is fastened with mounting screws. The refrigerant jacket (20) is fixed to the attachment plate (61) with an attachment screw using the screw hole (20a) provided in the refrigerant jacket (20). Further, the refrigerant jacket (20) is provided with piping such as the refrigerant piping (21) connected thereto.

  The printed circuit board (31) and the heat transfer plate (50) are previously attached to the switch box (40). First, the heat transfer plate (50) is fixed to the switch box (40) with a mounting screw (51). In this state, the printed circuit board (31) is put in the switch box (40) and fixed to the switch box (40) through the spacer (32), and the power element (33) is fixed to the heat transfer plate (50). ) And fix it with the mounting screw (51).

  The switch box (40) thus assembled is assembled from the service opening (71) when the air conditioner (1) is manufactured or when the printed circuit board (31) is reassembled for repair or the like. At this time, the switch box (40) is placed in the outdoor unit casing (70) so that the heat transfer plate (50) side faces the back side when viewed from the service opening (71). At this time, the refrigerant jacket (20) is located behind the switch box (40) when viewed from the service opening (71). Therefore, when the switch box (40) is incorporated, the influence of interference such as the refrigerant jacket (20) and the refrigerant pipe (21) connected to the switch box (40) is small, and the switch box (40) is easily placed in the outdoor unit casing (70). be able to.

  After the switch box (40) is placed in the outdoor unit casing (70), the heat transfer plate (50) and the refrigerant jacket (20) are thermally connected and the switch box (40) is fixed. In this outdoor unit (100), as shown in FIG. 5 (b), the heat transfer plate (50) and the refrigerant jacket (20) are brought into contact with each other, and the through-hole (31a provided in the printed circuit board (31)) ) Through which the refrigerant jacket mounting screw (52) is inserted, and the heat transfer plate (50) and the refrigerant jacket (20) are fastened. Thus, since the printed circuit board (31) is provided with the through hole (31a), the heat transfer plate (50) and the refrigerant jacket (with the printed circuit board (31) fixed in the switch box (40) ( 20) can be easily fastened. Thereby, a refrigerant | coolant jacket (20) and a heat exchanger plate (50) (namely, power element (33)) are thermally connected. The switch box (40) is also fastened to the mounting plates (61, 62) using the mounting screws (51). Thus, the assembly of the switch box (40) is completed (see FIG. 5 (c)).

  As described above, in the present embodiment, it is not necessary to avoid the refrigerant pipe (21) or get over the refrigerant jacket (20) when the switch box (40) is incorporated. That is, according to the present embodiment, the switch box (40) (printed circuit board (31)) can be easily incorporated into the machine room where the compressor (13), the refrigerant pipe (21), and the like are arranged. The refrigerant jacket (20) and the heat transfer plate (50) (that is, the power element (33)) can be thermally connected reliably.

  The air conditioner according to the present invention is useful as an air conditioner that performs a vapor compression refrigeration cycle by circulating a refrigerant.

It is a piping system diagram of the refrigerant circuit (10) in the air conditioner (1) according to the embodiment of the present invention. It is a figure which shows the attachment structure of a power element (33), a refrigerant | coolant jacket (20), and a heat exchanger plate (50). It is the figure which showed typically the cross-sectional shape of the outdoor unit (100) which concerns on embodiment of this invention. It is the figure which showed typically the front shape of the outdoor unit (100) which concerns on embodiment of this invention. It is a figure explaining the assembly order of a refrigerant | coolant jacket (20) and a switch box (40).

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Air conditioner 20 Refrigerant jacket 31 Printed circuit board 31a Through-hole 33 Power element 40 Switch box 50 Heat-transfer plate 52 Refrigerant jacket attachment screw 70 Outdoor unit casing (casing)
71 Opening for service 100 Outdoor unit

Claims (2)

An outdoor unit comprising a printed circuit board (31) to which a power element (33) is attached and a refrigerant jacket (20) in which the power element (33) is thermally connected and in which a refrigerant used in a refrigeration cycle flows. An air conditioner that is provided in the casing (70) of (100) and cools the power element (33) by the refrigerant flowing through the refrigerant jacket (20),
The printed circuit board (31) is housed in a switch box (40),
In the casing (70), a service opening (71) for incorporating the switch box (40) is formed on a side surface in the installed state,
The switch box (40) is disposed opposite to the service opening (71) and on the front side of the refrigerant jacket (20) when viewed from the service opening (71). Air conditioner to do. The air conditioner according to claim 1,
The power element (33) is fixed to the surface of the switch box (40) facing the refrigerant jacket (20) and fixed to the refrigerant jacket (20) by a refrigerant jacket mounting screw (52). And a heat transfer plate (50) for conducting heat between the refrigerant jacket (20) and the refrigerant jacket (20),
The printed circuit board (31) is provided with a through hole (31a) through which the refrigerant jacket mounting screw (52) passes toward the mounting position of the refrigerant jacket mounting screw (52). Machine.

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