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JP4569406B2 - Refrigeration cycle equipment - Google Patents

Refrigeration cycle equipment Download PDF

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Publication number
JP4569406B2
JP4569406B2 JP2005209741A JP2005209741A JP4569406B2 JP 4569406 B2 JP4569406 B2 JP 4569406B2 JP 2005209741 A JP2005209741 A JP 2005209741A JP 2005209741 A JP2005209741 A JP 2005209741A JP 4569406 B2 JP4569406 B2 JP 4569406B2
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lubricating oil
expander
compressor
refrigerant
refrigeration cycle
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JP2007024439A (en
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明 池田
敬 森本
鶸田  晃
澤井  清
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Panasonic Corp
Panasonic Holdings Corp
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Panasonic Corp
Matsushita Electric Industrial Co Ltd
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Description

本発明は、膨張機を有する蒸気圧縮型の冷凍サイクル装置に関する。   The present invention relates to a vapor compression refrigeration cycle apparatus having an expander.

従来、環境保護の観点から、オゾン層を破壊せず地球温暖化係数のきわめて小さい二酸化炭素の冷媒を用いた冷凍空調機が開発されている。二酸化炭素の特性上,フロンを冷媒とした冷凍空調機に比べ冷凍効率(COP)が不充分なため,冷凍効率を向上させる必要がある。そこで、図4に示すごとく、冷媒5の膨張行程を等エンタルピーに近い膨張とする膨張弁に代えて,冷媒5の膨張行程を等エントロピーに近い膨張とする膨張機22を用いることにより,冷凍効率を向上させた冷凍空調機8がある(例えば、特許文献1、特許文献2参照)。上記膨張機22には,冷媒5の膨張行程を制御するための負荷装置280が取り付けてある。   Conventionally, from the viewpoint of environmental protection, refrigeration air conditioners using a carbon dioxide refrigerant that does not destroy the ozone layer and has a very low global warming potential have been developed. Because of the characteristics of carbon dioxide, the refrigeration efficiency (COP) is insufficient compared to a refrigeration air conditioner using chlorofluorocarbon as a refrigerant, and thus it is necessary to improve the refrigeration efficiency. Therefore, as shown in FIG. 4, by using an expander 22 having an expansion stroke close to isentropy instead of an expansion valve that makes the expansion stroke of the refrigerant 5 close to isentropic, the refrigeration efficiency is improved. There is a refrigerating and air-conditioning machine 8 that improves (see, for example, Patent Document 1 and Patent Document 2). A load device 280 for controlling the expansion stroke of the refrigerant 5 is attached to the expander 22.

しかしながら、膨張機22は,摺動部,シール部等を有しているので,上記冷凍空調機8においては,上記膨張機22に潤滑油6を供給する必要がある。しかし,上記冷凍空調機8においては,オイル分離器92により潤滑油6を分離除去された冷媒5が圧縮機21に供給される(図4)。即ち,圧縮機21には潤滑油6が供給されるが,上記膨張機22には潤滑油6が供給されない。このように,潤滑油6が膨張機22に供給されないと,該膨張機22の摺動部等の耐久性,信頼性が低下したり,ピストンリングやシール部のシール不良等により性能低下や冷媒漏れ等の問題が発生したりしていた。   However, since the expander 22 has a sliding part, a seal part, etc., in the refrigeration air conditioner 8, it is necessary to supply the lubricating oil 6 to the expander 22. However, in the refrigeration air conditioner 8, the refrigerant 5 from which the lubricating oil 6 is separated and removed by the oil separator 92 is supplied to the compressor 21 (FIG. 4). That is, the lubricating oil 6 is supplied to the compressor 21, but the lubricating oil 6 is not supplied to the expander 22. As described above, if the lubricating oil 6 is not supplied to the expander 22, the durability and reliability of the sliding portion of the expander 22 are deteriorated, and the performance is reduced due to poor sealing of the piston ring and the seal portion. Problems such as leakage occurred.

上記課題を解決するために、図5に示す、圧縮機21と放熱器16との間には,圧縮機21を通過した冷媒5とこれに含まれている潤滑油6とを分離するオイル分離器12が配設され、オイル分離器12には,冷媒5から分離された潤滑油6を蒸発器17と圧縮機21との間へ戻すオイル戻し管と,潤滑油6を放熱器16と膨張機22との間へ送るオイル送り管14とが配設した構成が提案されている(例えば、特許文献3参照)。この構成によれば、圧縮機のみならず膨張機にも潤滑油を充分に供給することのできる冷凍空調機を提供できる。
特開平10−19401号公報 特開平10−266983号公報 特開2001−141315号公報
In order to solve the above problem, an oil separation between the compressor 21 and the radiator 16 shown in FIG. 5 that separates the refrigerant 5 that has passed through the compressor 21 and the lubricating oil 6 contained therein. The oil separator 12 is provided with an oil return pipe for returning the lubricating oil 6 separated from the refrigerant 5 to the space between the evaporator 17 and the compressor 21, and the lubricating oil 6 is expanded with the radiator 16. A configuration has been proposed in which an oil feed pipe 14 that is fed to and from the machine 22 is disposed (see, for example, Patent Document 3). According to this configuration, it is possible to provide a refrigeration air conditioner that can sufficiently supply lubricating oil not only to the compressor but also to the expander.
Japanese Patent Laid-Open No. 10-19401 Japanese Patent Laid-Open No. 10-266983 JP 2001-141315 A

しかしながら、前記従来の構成によれば、オイル分離器12のオイル分離能力が低い場合には膨張機22や圧縮機21の摺動部を確実に潤滑させることが出来ないといった問題を有している。また、オイル分離器12のオイル分離が確実に行われたとしても、冷媒5から分離された潤滑油6を蒸発器17と圧縮機21との間へ戻すオイル戻し管13と,潤滑油6を放熱器16と膨張機22との間へ送るオイル送り管14の、膨張機22或いは圧縮機21の負荷に応じて適切にオイル戻り量の配分を制御しなければ、圧縮機或いは膨張機の信頼性を低下させるといった問題を有していた。またオイル戻し管13、14とオイル分離器12を新たに設けなければならず、生産コストが増大するといった問題を有していた。   However, according to the conventional configuration, when the oil separator 12 has a low oil separation capability, the sliding portion of the expander 22 or the compressor 21 cannot be reliably lubricated. . Even if the oil separator 12 is reliably separated, the oil return pipe 13 for returning the lubricating oil 6 separated from the refrigerant 5 to between the evaporator 17 and the compressor 21 and the lubricating oil 6 are provided. Unless the distribution of the oil return amount of the oil feed pipe 14 sent between the radiator 16 and the expander 22 is appropriately controlled according to the load of the expander 22 or the compressor 21, the reliability of the compressor or the expander It has a problem of lowering the performance. Further, the oil return pipes 13 and 14 and the oil separator 12 have to be newly provided, which has a problem that the production cost increases.

さらには、圧縮機及び膨張機両方に潤滑油溜りを設けることも考えられるが、多岐にわたる運転状態で圧縮機からの潤滑油持ち出し量と膨張機からの潤滑油持ち出し量が同等レベルとなるような設定は困難であり、圧縮機もしくは膨張機の一方に溜まり込む可能性が
高く回転部分以上の油面レベルでは急激な潤滑油吐出増により冷凍サイクルの安定的な運転が困難となる欠点を有する。
Furthermore, although it is conceivable to provide a lubricating oil reservoir in both the compressor and the expander, the amount of lubricating oil taken out from the compressor and the amount of lubricating oil taken out from the expander become the same level in various operating conditions. It is difficult to set, and there is a possibility that it is likely to accumulate in one of the compressor or the expander, and at the oil level above the rotating part, there is a drawback that stable operation of the refrigeration cycle becomes difficult due to a sudden increase in lubricating oil discharge.

本発明は、前記従来の課題を解決するもので、圧縮機のみならず膨張機にも潤滑油を充分かつ確実に供給して信頼性を確保しながら、より高効率な冷凍サイクル装置を提供することを目的とする。   The present invention solves the above-mentioned conventional problems, and provides a more efficient refrigeration cycle apparatus while ensuring reliability by supplying lubricating oil sufficiently and reliably not only to a compressor but also to an expander. For the purpose.

前記従来の課題を解決するために、本発明の冷凍サイクル装置は、前記圧縮機と前記膨張機の前記密閉容器内の圧力を、前記圧縮機により圧縮された冷媒の圧力とほぼ同じに保つとともに、前記圧縮機の密閉容器内と前記膨張機の密閉容器内に潤滑油溜りを設け、連通管を設けたものである。   In order to solve the conventional problem, the refrigeration cycle apparatus of the present invention maintains the pressure in the sealed container of the compressor and the expander substantially the same as the pressure of the refrigerant compressed by the compressor. A lubricating oil reservoir is provided in the sealed container of the compressor and the sealed container of the expander, and a communication pipe is provided.

これによって、圧縮機のみならず膨張機にも潤滑油を充分かつ確実に供給して信頼性を確保しながら、高効率な冷凍サイクル装置が得られることとなる。   As a result, a highly efficient refrigeration cycle apparatus can be obtained while sufficiently and reliably supplying lubricating oil not only to the compressor but also to the expander to ensure reliability.

本発明の冷凍サイクル装置は、特にフロンと比べて冷凍効率が不十分な二酸化炭素冷媒を用いた機器を高効率化する場合において、高い信頼性と低コストの両立を実現することができる。   The refrigeration cycle apparatus of the present invention can achieve both high reliability and low cost, particularly in the case of increasing the efficiency of equipment using a carbon dioxide refrigerant whose refrigeration efficiency is insufficient compared to Freon.

第1の発明は、圧縮機構部と電動機部を収納する密閉容器とで構成された圧縮機と、前記圧縮機により圧縮された冷媒を冷却するための放熱器と、膨張機構部と電動機部を収納する密閉容器とで構成された膨張機と、前記膨張機により膨張された冷媒を蒸発させるための蒸発器と、これらの間に冷媒を循環させる冷媒配管を有する冷凍サイクル装置であって、前記圧縮機と前記膨張機の前記密閉容器内の圧力を、前記圧縮機により圧縮された冷媒の圧力とほぼ同じに保つとともに、前記圧縮機の密閉容器内と前記膨張機の密閉容器内に潤滑油溜りを設け、前記圧縮機と前記膨張機の潤滑油面がほぼ同一面となるよう設置し潤滑油面より低い位置同士を連通管で接続したものである。これによって、圧縮機及び膨張機内の摺動部を潤滑することができるので、高い信頼性を確保した冷凍サイクル装置を提供することができる。   According to a first aspect of the present invention, there is provided a compressor composed of a compression mechanism section and a sealed container that houses an electric motor section, a radiator for cooling the refrigerant compressed by the compressor, an expansion mechanism section, and an electric motor section. A refrigerating cycle apparatus comprising: an expander configured with a sealed container for storage; an evaporator for evaporating the refrigerant expanded by the expander; and a refrigerant pipe for circulating the refrigerant therebetween, The pressure in the sealed container of the compressor and the expander is kept substantially the same as the pressure of the refrigerant compressed by the compressor, and the lubricating oil is contained in the sealed container of the compressor and the sealed container of the expander. A reservoir is provided so that the lubricating oil surfaces of the compressor and the expander are substantially the same surface, and positions lower than the lubricating oil surface are connected by a communication pipe. Thereby, since the sliding part in a compressor and an expander can be lubricated, the refrigerating-cycle apparatus which ensured high reliability can be provided.

第2の発明は、前記圧縮機の吐出ガスの一部が前記膨張機の潤滑油溜り上部空間に連絡する均圧管を備えたものである。これによってより確実に圧縮機と膨張機の潤滑油面を同一高さに保持できるため潤滑油の偏在が無く安定的な運転が可能となり、より高い信頼性を確保した冷凍サイクル装置を供給することが出来る。   According to a second aspect of the present invention, there is provided a pressure equalizing pipe in which a part of the discharge gas of the compressor communicates with a lubricating oil reservoir upper space of the expander. As a result, the lubricating oil surfaces of the compressor and the expander can be held at the same height more reliably, so there is no uneven distribution of the lubricating oil and stable operation is possible, and a refrigeration cycle apparatus with higher reliability is supplied. I can do it.

第3の発明は、膨張機の出口と蒸発器入口の間に潤滑油分離器を設け、分離された潤滑油を圧縮機の入口へ戻す潤滑油戻し機構を備えたものである。これによって膨張機構部においてシールに必要な潤滑油を供給した後、膨張機から吐出された冷媒中の潤滑油を分離でき、蒸発器の性能を損なうことなく、より高性能な冷凍サイクル装置を提供することが出来る。   According to a third aspect of the present invention, a lubricating oil separator is provided between the outlet of the expander and the evaporator inlet, and a lubricating oil return mechanism for returning the separated lubricating oil to the inlet of the compressor is provided. As a result, the lubricating oil in the refrigerant discharged from the expander can be separated after supplying the necessary lubricating oil for the seal in the expansion mechanism, providing a higher-performance refrigeration cycle device without impairing the performance of the evaporator I can do it.

第4の発明は、特に、第1〜第3の発明の、冷媒を、高圧冷媒である二酸化炭素としたものである。これによって、フロンを冷媒とした冷凍空調機に比べて膨張過程での絞り損失が大きい二酸化炭素冷媒を用いた機器においても高効率化が図れるので、地球環境を破壊することなく冷凍効率の高い冷凍サイクル装置を提供することができる。   In the fourth invention, in particular, the refrigerant of the first to third inventions is carbon dioxide which is a high-pressure refrigerant. As a result, high efficiency can be achieved even in equipment using carbon dioxide refrigerant, which has a large throttle loss in the expansion process compared to refrigeration air conditioners using chlorofluorocarbon as a refrigerant, so that refrigeration with high refrigeration efficiency can be achieved without destroying the global environment. A cycle device can be provided.

第5の発明は、特に、第4の発明の、潤滑油としてポリアルキレングリコールを主成分
とする潤滑油を用いたものである。これによって、二酸化炭素とポリアルキレングリコールは相溶性が低いので、密閉容器内の潤滑油の液面は冷媒が溶け込むことによる上昇を少なく抑えることができるので、定常運転時の潤滑油の循環率を小さくすることができる。結果として、放熱器や蒸発器の性能を高めることができるので、より高効率な冷凍サイクル装置を提供することができる。
In particular, the fifth invention uses the lubricating oil mainly composed of polyalkylene glycol as the lubricating oil of the fourth invention. As a result, since carbon dioxide and polyalkylene glycol have low compatibility, the liquid level of the lubricating oil in the hermetic container can be suppressed from rising due to the refrigerant being melted, so the circulation rate of the lubricating oil during steady operation can be reduced. Can be small. As a result, since the performance of the radiator and the evaporator can be improved, a more efficient refrigeration cycle apparatus can be provided.

以下、本発明の実施の形態について、図面を参照しながら説明する。なお、この実施の形態によって本発明が限定されるものではない。   Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(実施の形態1)
図1は、本発明の第1の実施例における冷凍サイクル装置を示す構成図である。
(Embodiment 1)
FIG. 1 is a configuration diagram showing a refrigeration cycle apparatus according to a first embodiment of the present invention.

図1において、圧縮機構部21aと電動機部21bと密閉容器21cから構成される圧縮機21と、圧縮機21により圧縮された冷媒5を冷却するための放熱器16と、膨張機構部22aと電動機部22bと密閉容器22cから構成される膨張機22と、膨張機22により膨張された冷媒5を蒸発させるための蒸発器17と、これらの間に冷媒を循環させる冷媒配管11を有する冷凍サイクル装置1である。圧縮機21と膨張機22のそれぞれの密閉容器内の圧力は、圧縮機21の吐出圧力となっている、いわゆる高圧シェルタイプとなっている。更に、それぞれに密閉容器の下部には、潤滑油溜り21d、22dが形成されており連通管23で接続されている。これらの潤滑油溜り21d、22dによって圧縮機21及び膨張機22内の摺動部を潤滑することができる。   In FIG. 1, a compressor 21 composed of a compression mechanism portion 21a, an electric motor portion 21b, and a sealed container 21c, a radiator 16 for cooling the refrigerant 5 compressed by the compressor 21, an expansion mechanism portion 22a, and an electric motor Refrigeration cycle apparatus having an expander 22 composed of a portion 22b and a sealed container 22c, an evaporator 17 for evaporating the refrigerant 5 expanded by the expander 22, and a refrigerant pipe 11 for circulating the refrigerant therebetween. 1. The pressure in each of the sealed containers of the compressor 21 and the expander 22 is a so-called high-pressure shell type that is the discharge pressure of the compressor 21. Furthermore, lubricating oil reservoirs 21 d and 22 d are formed in the lower portions of the sealed containers, respectively, and are connected by a communication pipe 23. The sliding portions in the compressor 21 and the expander 22 can be lubricated by the lubricating oil reservoirs 21d and 22d.

図2は、本発明の第2の実施例における冷凍サイクル装置を示す構成図である。   FIG. 2 is a block diagram showing a refrigeration cycle apparatus in the second embodiment of the present invention.

図2において、均圧管24により圧縮機内潤滑油溜り部21dと膨張機内潤滑油溜り部22dの圧力が等しくなり圧縮機と膨張機の潤滑油面が同一高さに保たれる。冷凍サイクル運転中においては、圧縮機21及び膨張機22の潤滑油の量を常にバランスさせて潤滑油溜り21d、22dを確保させることが可能となるので、圧縮機21及び膨張機22内の摺動部を確実に潤滑することができる。   In FIG. 2, the pressure equalizing pipe 24 makes the pressure in the lubricating oil reservoir 21d in the compressor and the lubricating oil reservoir 22d in the expander equal, and the lubricating oil surfaces of the compressor and the expander are kept at the same height. During the refrigeration cycle operation, the amount of lubricating oil in the compressor 21 and the expander 22 can always be balanced to secure the lubricating oil reservoirs 21d and 22d, so that the sliding in the compressor 21 and the expander 22 can be ensured. The moving part can be reliably lubricated.

図3は、本発明の第3の実施例における冷凍サイクル装置を示す構成図である。   FIG. 3 is a block diagram showing a refrigeration cycle apparatus in the third embodiment of the present invention.

図3において、膨張機22出口に設置された潤滑油分離器25により分離された潤滑油は蒸発器17を通ることなく潤滑油送り管26により圧縮機21に送られる。本発明では、圧縮機21と膨張機22ともに高圧シェルタイプを採用しているので、圧縮機21側から見れば圧縮機構部21aから吐出された冷媒5は、密閉容器21c内の空間にて潤滑油と冷媒5を効果的に分離して、潤滑油の持ち出し量を小さくすることが可能であるが、膨張機22側から見れば膨張機構部22aから吐出された冷媒5は直接冷媒配管11に出るので、潤滑油と冷媒5を効果的に分離しにくい構成になっている。また、膨張機22はサイクル条件の制約下で運転されるために、回転数の制御を任意に行うことが難しい。よって、膨張機22から吐出される潤滑油を分離すれば、蒸発器17の効率低下を抑えることができと同時に、圧縮機21に入った潤滑油は膨張機22内の潤滑油と往来自在に連通しているので圧縮機に潤滑油が溜まり込むことは無く、圧縮機と膨張機を確実に潤滑することができる。   In FIG. 3, the lubricating oil separated by the lubricating oil separator 25 installed at the outlet of the expander 22 is sent to the compressor 21 through the lubricating oil feed pipe 26 without passing through the evaporator 17. In the present invention, since both the compressor 21 and the expander 22 adopt a high-pressure shell type, the refrigerant 5 discharged from the compression mechanism 21a as viewed from the compressor 21 side is lubricated in the space in the sealed container 21c. It is possible to effectively separate the oil and the refrigerant 5 and reduce the amount of lubricant oil taken out. However, when viewed from the expander 22 side, the refrigerant 5 discharged from the expansion mechanism portion 22a directly enters the refrigerant pipe 11. Therefore, the lubricating oil and the refrigerant 5 are not easily separated from each other. Further, since the expander 22 is operated under the constraint of cycle conditions, it is difficult to arbitrarily control the rotation speed. Therefore, if the lubricating oil discharged from the expander 22 is separated, the efficiency reduction of the evaporator 17 can be suppressed, and at the same time, the lubricating oil entering the compressor 21 can freely come and go with the lubricating oil in the expander 22. Since the communication is established, the lubricating oil does not accumulate in the compressor, and the compressor and the expander can be reliably lubricated.

なお、冷媒を、高圧冷媒、例えば二酸化炭素とした場合には、フロンを冷媒とした冷凍空調機に比べて膨張過程での絞り損失が大きい。この場合において、膨張機22の信頼性を高めて運転できる本構成を用いれば、二酸化炭素冷媒を用いても機器の高効率化が図れるので、地球環境を破壊することなく冷凍効率の高い冷凍サイクル装置を提供することができる。   When the refrigerant is a high-pressure refrigerant, for example, carbon dioxide, the throttle loss in the expansion process is larger than that of a refrigeration air conditioner using Freon as the refrigerant. In this case, if this configuration that can be operated with increased reliability of the expander 22 is used, the efficiency of the equipment can be improved even if carbon dioxide refrigerant is used, so that the refrigeration cycle having high refrigeration efficiency without destroying the global environment. An apparatus can be provided.

なお、潤滑油としてポリアルキレングリコールを主成分とする潤滑油を用いた場合には、二酸化炭素とポリアルキレングリコールは相溶性が低いので、冷媒の溶け込みによる密閉容器内の潤滑油の液面の上昇を抑えることができるので、運転条件や圧力によって潤滑油溜りの液面が変化することを少なくすることが出来る。よって、相溶性が高い潤滑油の場合に想定される、圧縮機21と膨張機22のどちらの潤滑油溜り21d、22dの液面も上昇して密閉容器外で循環する潤滑油の総量が増えて、放熱器16や蒸発器17の性能を低下させるといった問題を回避することができるので、より高効率な冷凍サイクル装置を提供することができる。   In addition, when a lubricating oil mainly composed of polyalkylene glycol is used as the lubricating oil, since the compatibility of carbon dioxide and polyalkylene glycol is low, the liquid level of the lubricating oil in the sealed container is increased due to the melting of the refrigerant. Therefore, it is possible to reduce the change in the liquid level of the lubricating oil pool due to operating conditions and pressure. Therefore, the total amount of lubricating oil circulating in the outside of the hermetic container increases as the liquid levels of the lubricating oil reservoirs 21d and 22d of both the compressor 21 and the expander 22 rise as expected in the case of a highly compatible lubricating oil. Thus, the problem of reducing the performance of the radiator 16 and the evaporator 17 can be avoided, so that a more efficient refrigeration cycle apparatus can be provided.

以上のように、本発明にかかる冷凍サイクル装置は、圧縮機構部と電動機部とそれぞれを収納する密閉容器とで構成された圧縮機と、圧縮機により圧縮された冷媒を冷却するための放熱器と、膨張機構部と電動機部とそれぞれを収納する密閉容器とで構成された膨張機と、膨張機により膨張された冷媒を蒸発させるための蒸発器と、これらの間に冷媒を循環させる冷媒配管を有する冷凍サイクル装置であって、圧縮機と膨張機の密閉容器内の圧力を、圧縮機により圧縮された冷媒の圧力とほぼ同じに保つとともに、圧縮機の密閉容器内と膨張機の密閉容器内に潤滑油溜りを設けたものである。これによって、圧縮機及び膨張機内の摺動部を潤滑することができ、高い信頼性を確保した冷凍サイクル装置を提供することができるので、空調機、給湯機、カークーラー等の冷凍サイクル装置の用途に適応できる。また、圧縮機及び膨張機としては、例えばレシプロタイプ、スクリュータイプ、ベーンロータリタイプ、スクロールタイプ、ローリングピストンタイプ、スイングピストンタイプ等のさまざまな様式に用いても共通に適応可能である。   As described above, the refrigeration cycle apparatus according to the present invention includes a compressor composed of a compression mechanism unit, an electric motor unit, and a sealed container that accommodates the compressor unit, and a radiator for cooling the refrigerant compressed by the compressor. An expander composed of an expansion mechanism section and an electric motor section, and an airtight container for storing the expansion section, an evaporator for evaporating the refrigerant expanded by the expander, and a refrigerant pipe for circulating the refrigerant therebetween The pressure in the sealed container of the compressor and the expander is kept substantially the same as the pressure of the refrigerant compressed by the compressor, and the sealed container of the compressor and the sealed container of the expander A lubricating oil reservoir is provided inside. As a result, the sliding parts in the compressor and the expander can be lubricated and a highly reliable refrigeration cycle apparatus can be provided, so that the refrigeration cycle apparatus such as an air conditioner, a water heater, a car cooler, etc. It can be adapted to the application. Further, the compressor and the expander can be commonly applied to various types such as a reciprocating type, a screw type, a vane rotary type, a scroll type, a rolling piston type, and a swing piston type.

本発明の実施の形態1における冷凍サイクル装置を示す構成図The block diagram which shows the refrigerating-cycle apparatus in Embodiment 1 of this invention. 本発明の実施の形態1における冷凍サイクル装置を示す構成図The block diagram which shows the refrigerating-cycle apparatus in Embodiment 1 of this invention. 本発明の実施の形態1における冷凍サイクル装置を示す構成図The block diagram which shows the refrigerating-cycle apparatus in Embodiment 1 of this invention. 従来の冷凍サイクル装置を示す構成図Configuration diagram showing a conventional refrigeration cycle apparatus 従来の冷凍サイクル装置を示す構成図Configuration diagram showing a conventional refrigeration cycle apparatus

符号の説明Explanation of symbols

1 冷凍サイクル
5 冷媒
11 冷媒配管
16 放熱器
17 蒸発器
21 圧縮機
21a 圧縮機構部
21b 電動機部
21c 密閉容器
21d 潤滑油溜り
22 膨張機
22a 圧縮機構部
22b 電動機部
22c 密閉容器
22d 潤滑油溜り
23 連通管
24 均圧管
25 潤滑油分離器
26 潤滑油戻し管
DESCRIPTION OF SYMBOLS 1 Refrigerating cycle 5 Refrigerant 11 Refrigerant piping 16 Radiator 17 Evaporator 21 Compressor 21a Compression mechanism part 21b Electric motor part 21c Sealed container 21d Lubricating oil reservoir 22 Expander 22a Compression mechanism part 22b Electric motor part 22c Sealed container 22d Lubricating oil reservoir 23 Communication Pipe 24 Pressure equalizing pipe 25 Lubricating oil separator 26 Lubricating oil return pipe

Claims (5)

圧縮機構部と電動機部を収納する密閉容器とで構成された圧縮機と、前記圧縮機により圧縮された冷媒を冷却するための放熱器と、膨張機構部と電動機部を収納する密閉容器とで構成された膨張機と、前記膨張機により膨張された冷媒を蒸発させるための蒸発器と、これらの間に冷媒を循環させる冷媒配管を有する冷凍サイクル装置であって、前記圧縮機と前記膨張機の前記密閉容器内の圧力を、前記圧縮機により圧縮された冷媒の圧力とほぼ同じに保つとともに、前記圧縮機の密閉容器内と前記膨張機の密閉容器内に潤滑油溜りを設け、前記圧縮機と前記膨張機の潤滑油面がほぼ同一面となるよう設置し潤滑油面より低い位置同士を連通管で接続したことを特徴とする冷凍サイクル装置。 A compressor composed of a compression mechanism section and a sealed container for housing the motor section; a radiator for cooling the refrigerant compressed by the compressor; and a sealed container for housing the expansion mechanism section and the motor section. A refrigeration cycle apparatus having a configured expander, an evaporator for evaporating a refrigerant expanded by the expander, and a refrigerant pipe for circulating the refrigerant between the expander, the compressor and the expander The pressure in the sealed container is kept substantially the same as the pressure of the refrigerant compressed by the compressor, and a lubricating oil reservoir is provided in the sealed container of the compressor and in the sealed container of the expander. The refrigeration cycle apparatus is characterized in that the lubricating oil surface of the compressor and the expander are installed so as to be substantially the same surface, and the positions lower than the lubricating oil surface are connected by a communication pipe. 前記圧縮機の吐出ガスの一部が前記膨張機の潤滑油溜り上部空間に連絡する均圧管を備えたことを特徴とする請求項1に記載の冷凍サイクル装置。 2. The refrigeration cycle apparatus according to claim 1, further comprising a pressure equalizing pipe in which a part of the discharge gas of the compressor communicates with a lubricating oil reservoir upper space of the expander. 前記膨張機の出口と前記蒸発器入口の間に潤滑油分離器を設け、分離された潤滑油を前記圧縮機の入口へ戻す潤滑油戻し機構を備えたことを特徴とする請求項1〜2のいずれか1項に記載の冷凍サイクル装置。 3. A lubricating oil return mechanism provided with a lubricating oil separator between the outlet of the expander and the evaporator inlet, and a lubricant returning mechanism for returning the separated lubricating oil to the inlet of the compressor. The refrigeration cycle apparatus according to any one of the above. 冷媒を、高圧冷媒である二酸化炭素とすることを特徴とする請求項1〜3のいずれか1項に記載の冷凍サイクル装置。 The refrigeration cycle apparatus according to any one of claims 1 to 3, wherein the refrigerant is carbon dioxide which is a high-pressure refrigerant. 前記潤滑油としてポリアルキレングリコールを主成分とする潤滑油を用いたことを特徴とする請求項4に記載の冷凍サイクル装置。 The refrigeration cycle apparatus according to claim 4, wherein a lubricating oil mainly composed of polyalkylene glycol is used as the lubricating oil.
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JP4715615B2 (en) 2006-04-20 2011-07-06 ダイキン工業株式会社 Refrigeration equipment
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Publication number Priority date Publication date Assignee Title
JPH03124170U (en) * 1990-03-29 1991-12-17
JP2002277077A (en) * 2001-03-19 2002-09-25 Fujitsu General Ltd Air conditioner
JP2003139420A (en) * 2001-10-31 2003-05-14 Daikin Ind Ltd Refrigeration unit
JP2003240366A (en) * 2002-02-21 2003-08-27 Mitsubishi Electric Corp Refrigerating air conditioner
JP2004150749A (en) * 2002-10-31 2004-05-27 Matsushita Electric Ind Co Ltd Refrigerating cycle device

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Publication number Priority date Publication date Assignee Title
JPH03124170U (en) * 1990-03-29 1991-12-17
JP2002277077A (en) * 2001-03-19 2002-09-25 Fujitsu General Ltd Air conditioner
JP2003139420A (en) * 2001-10-31 2003-05-14 Daikin Ind Ltd Refrigeration unit
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