JP2014047977A - Cooling medium circuit unit - Google Patents

Cooling medium circuit unit Download PDF

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JP2014047977A
JP2014047977A JP2012191400A JP2012191400A JP2014047977A JP 2014047977 A JP2014047977 A JP 2014047977A JP 2012191400 A JP2012191400 A JP 2012191400A JP 2012191400 A JP2012191400 A JP 2012191400A JP 2014047977 A JP2014047977 A JP 2014047977A
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valve
refrigerant
cylinder
cylinder portion
body case
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JP6003412B2 (en
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Satoshi Kasugai
聡 春日井
Daisuke Narizuka
大輔 成塚
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Fujitsu General Ltd
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Fujitsu General Ltd
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/06Separate outdoor units, e.g. outdoor unit to be linked to a separate room comprising a compressor and a heat exchanger
    • F24F1/26Refrigerant piping
    • F24F1/32Refrigerant piping for connecting the separate outdoor units to indoor units

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Other Air-Conditioning Systems (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a cooling medium circuit unit capable of preventing a solenoid valve from causing malfunction when foreign matters are mixed into cooling medium by any possibility.SOLUTION: On a right side plate 12 of a body case 10, a cylinder part mounting part 14 is provided for mounting a cylinder part 311c which is protruded in the same direction as the direction of delivering a high pressure gas connection pipe 21 and a low pressure gas connection pipe. On one portion of the cylinder part mounting part 14, a protruded part 140 is formed which is protruded in the same direction as the direction of protruding the cylinder part 311c. The protruded part 140 has an inclined portion 140a which is inclined to be gradually protruded from the upper part toward the lower part. The cylinder part 311c is mounted so that a lower side on-off valve 31 where the driving direction of a main valve 311a is the same as the axial direction of the cylinder part 311c is perpendicular to the inclined portion 140a of the protruded part 140.

Description

本発明は、冷媒回路ユニットに関する。   The present invention relates to a refrigerant circuit unit.

従来から、多室形空気調和装置における1または複数の室外機と複数の室内機との間に設けられる冷媒回路ユニットが知られている。冷媒回路ユニットは、多室形空気調和装置の冷媒回路の一部を構成する冷媒配管や電磁弁などを組合せたユニットで、室外機に接続される冷媒配管を各室内機に接続される複数の冷媒配管に分岐する分岐ユニットや、室外機に接続される2つの冷媒配管の一方を選択して室内機に接続することで、室内機の運転を冷房運転または暖房運転に切替える切替ユニットなどがある。   Conventionally, a refrigerant circuit unit provided between one or a plurality of outdoor units and a plurality of indoor units in a multi-room air conditioner is known. The refrigerant circuit unit is a unit in which refrigerant pipes and electromagnetic valves that constitute a part of the refrigerant circuit of the multi-room air conditioner are combined, and a plurality of refrigerant pipes connected to the outdoor unit are connected to each indoor unit. There are a branch unit that branches into the refrigerant pipe, a switching unit that switches the operation of the indoor unit to the cooling operation or the heating operation by selecting one of the two refrigerant pipes connected to the outdoor unit and connecting it to the indoor unit. .

このような冷媒回路ユニットには、冷媒配管と、電磁コイルを有し冷媒配管に接続される複数の電磁弁と、冷媒配管と電磁弁とを収容する本体ケースと、複数の電磁弁の開閉を制御する制御基板を収容する電装品箱とを備えている。電磁弁には、開閉弁や電子膨張弁などが用いられ、本体ケースの内部には、収容される冷媒配管と電磁弁に結露が生じないように発泡断熱材が充填されている。この種の冷媒回路ユニットの一例として、本体ケースの外側に電磁コイルと電装品箱とを配置し、電磁コイルと電装品箱の点検や交換などのメンテナンスを可能にした分岐ユニットがある(例えば、特許文献1参照)。   Such a refrigerant circuit unit includes a refrigerant pipe, a plurality of electromagnetic valves having electromagnetic coils and connected to the refrigerant pipe, a main body case that accommodates the refrigerant pipes and the electromagnetic valves, and a plurality of electromagnetic valves that are opened and closed. And an electrical component box for accommodating a control board to be controlled. As the electromagnetic valve, an on-off valve, an electronic expansion valve, or the like is used, and the inside of the main body case is filled with a foam heat insulating material so that condensation does not occur in the refrigerant pipe and the electromagnetic valve that are accommodated. As an example of this type of refrigerant circuit unit, there is a branch unit in which an electromagnetic coil and an electrical component box are arranged outside the main body case, and maintenance such as inspection and replacement of the electromagnetic coil and the electrical component box is possible (for example, Patent Document 1).

この分岐ユニットは、冷媒配管の一部が本体ケースの左側板と右側板から露出され、複数の電磁弁が冷媒配管の露出方向である本体ケースの左右方向に一列に配置されており、これらの電磁弁は本体ケースの上下方向に立設されている。複数の電磁弁に有する各々の電磁コイルが、本体ケースの上面から露出し本体ケースの上面方向に突出されており、蓋により覆われるようになっている。また、電装品箱が、本体ケースの前面に取付けられている。   In this branch unit, a part of the refrigerant pipe is exposed from the left side plate and the right side plate of the main body case, and a plurality of solenoid valves are arranged in a line in the left and right direction of the main body case, which is the exposure direction of the refrigerant pipe. The solenoid valve is erected in the vertical direction of the main body case. Each electromagnetic coil included in the plurality of solenoid valves is exposed from the upper surface of the main body case and protrudes toward the upper surface of the main body case, and is covered with a lid. An electrical component box is attached to the front surface of the main body case.

このように構成された分岐ユニットは、電磁コイルと電装品箱のメンテナンスを行うことができる反面、複数の電磁弁(開閉弁や電子膨張弁など)が本体ケースの左右方向に一列に配置されるとともに本体ケースの上下方向に立設され、かつ、複数の電磁コイルが本体ケースの上面方向に突出されているため、分岐ユニットが左右方向および上下方向に大きくなるという問題点があった。また、分岐ユニットは、複数の電磁コイルが露出する本体ケースの上面を覆わないように、電装品箱が本体ケースの前面に取付けられているため、分岐ユニットの建物への据付自由度に制限があるという問題点があった。   The branch unit configured as described above can perform maintenance of the electromagnetic coil and the electrical component box, but a plurality of electromagnetic valves (such as on-off valves and electronic expansion valves) are arranged in a line in the left-right direction of the main body case. At the same time, there is a problem that the branch unit becomes larger in the left-right direction and the up-down direction because the plurality of electromagnetic coils protrude in the upper surface direction of the main body case. In addition, since the electrical component box is attached to the front surface of the main unit case so that the branch unit does not cover the upper surface of the main unit case where multiple electromagnetic coils are exposed, the degree of freedom of installation of the branch unit to the building is limited. There was a problem that there was.

この分岐ユニットの大きさや建物への据付自由度の課題を解決した冷媒回路ユニットとして、本出願人は特願2011−240737に示す技術を提案している。この冷媒回路ユニットは、複数の電磁弁には弁本体がそれぞれ備えられ、各々の弁本体が有するシリンダ部を本体ケースから導出される冷媒配管の管軸と平行に本体ケースの一側面から突出させ、これらのシリンダ部に電磁コイルが取付けられるようにしたものである。   The present applicant has proposed a technique shown in Japanese Patent Application No. 2011-240737 as a refrigerant circuit unit that solves the problem of the size of the branch unit and the degree of freedom of installation in a building. In this refrigerant circuit unit, a plurality of solenoid valves are each provided with a valve main body, and a cylinder portion of each valve main body is protruded from one side surface of the main body case in parallel with a pipe axis of a refrigerant pipe led out from the main body case. The electromagnetic coil is attached to these cylinder portions.

この冷媒回路ユニットは、複数の電磁弁にはパイロット弁(以下、制御弁と称す)を備えた電磁弁が用いられ、それぞれの電磁弁の弁本体には、冷媒流路を開閉する主弁と、主弁の駆動を制御する制御弁を備えている。室外機に延びる冷媒配管に接続されて室内機の運転を切替える主の電磁弁には、例えば、シリンダ部の軸方向と主弁の駆動方向が異なり、弁本体が大きい電磁弁が用いられる。また、室内機の運転を切替える際に主の電磁弁に流出入する冷媒の電磁弁の前後の圧力を調整する補助の電磁弁には、例えば、シリンダ部の軸方向と主弁の駆動方向が同じ、弁本体が小さい電磁弁が用いられる。   In this refrigerant circuit unit, an electromagnetic valve provided with a pilot valve (hereinafter referred to as a control valve) is used as a plurality of electromagnetic valves, and a main valve that opens and closes a refrigerant flow path is provided in a valve body of each electromagnetic valve. And a control valve for controlling the driving of the main valve. As the main solenoid valve that is connected to the refrigerant pipe extending to the outdoor unit and switches the operation of the indoor unit, for example, a solenoid valve having a large valve body and a different axial direction of the cylinder unit and the driving direction of the main valve is used. In addition, the auxiliary solenoid valve that adjusts the pressure before and after the solenoid valve of the refrigerant flowing into and out of the main solenoid valve when switching the operation of the indoor unit includes, for example, the axial direction of the cylinder portion and the drive direction of the main valve. The same solenoid valve with a small valve body is used.

この冷媒回路ユニットにおいては、弁本体が大きい主の電磁弁と冷媒配管との間のスペースを利用し、このスペースに弁本体が小さい補助の電磁弁を配置するとともに、本体ケースの一側面から冷媒配管の管軸と平行に主の電磁弁と補助の電磁弁のシリンダ部を同一方向に突出させることにより、冷媒回路ユニットをシリンダ部も含めて本体ケースの左右方向および上下方向に小型化を図っている。また、シリンダ部を突出させた本体ケースの一側面を除いた他の側面のいずれかに電装品箱を取付けることができ、冷媒回路ユニットの据付自由度を向上させている。   In this refrigerant circuit unit, a space between a main solenoid valve having a large valve body and a refrigerant pipe is used, and an auxiliary electromagnetic valve having a small valve body is disposed in this space, and a refrigerant is introduced from one side of the body case. By projecting the cylinder part of the main solenoid valve and auxiliary solenoid valve in the same direction parallel to the pipe axis of the piping, the refrigerant circuit unit including the cylinder part can be downsized in the horizontal and vertical directions of the main body case. ing. In addition, the electrical component box can be attached to any one of the other side surfaces except the one side surface of the main body case from which the cylinder portion is projected, and the degree of freedom in installing the refrigerant circuit unit is improved.

しかしながら、冷媒回路ユニットに備えられた補助の電磁弁としてシリンダ部の軸方向と主弁の駆動方向が同じ電磁弁を使用した場合、この補助の電磁弁はシリンダ部が本体ケースの一側面から冷媒配管の管軸と平行に突出されているので、本体ケース内で弁本体に備えられた主弁を水平方向(本体ケースの左右方向)に駆動するように配置されることになる。このため、万が一冷媒内に金属片などの異物が混入した場合、主弁が開いた状態の弁本体内に異物が進入し滞留すると、主弁を閉じる際に主弁が異物を挟み込み完全に閉まらないため、電磁弁が動作不良を起こすおそれがあるという問題点があった。   However, when an electromagnetic valve in which the axial direction of the cylinder part and the driving direction of the main valve are the same is used as an auxiliary electromagnetic valve provided in the refrigerant circuit unit, the cylinder part is a refrigerant from one side of the main body case. Since it protrudes in parallel with the pipe axis of the pipe, the main valve provided in the valve body is arranged in the main body case so as to be driven in the horizontal direction (left and right direction of the main body case). For this reason, in the unlikely event that a foreign object such as a metal piece enters the refrigerant, if the foreign object enters and stays in the valve body with the main valve open, the main valve will pinch the foreign object and close completely when the main valve is closed. Therefore, there is a problem that the solenoid valve may cause malfunction.

特開2004−286288号公報JP 2004-286288 A

本発明は上記問題点に鑑み、万が一冷媒内に異物が混入したとしても電磁弁が動作不良を起こさないようにすることができる冷媒回路ユニットを提供することを目的とする。   In view of the above problems, an object of the present invention is to provide a refrigerant circuit unit that can prevent a solenoid valve from malfunctioning even if foreign matter is mixed into the refrigerant.

上記課題を解決するため、本発明の冷媒回路ユニットは、複数の冷媒配管と複数の電磁弁と箱状に形成された板金製の本体ケースとが設けられている。電磁弁は電磁コイルと冷媒配管に接続される弁本体とを備えている。弁本体は冷媒流路を開閉する主弁と主弁の駆動を制御する制御弁と電磁コイルが取付けられ制御弁を駆動するシリンダ部を有し、シリンダ部の軸方向と主弁の駆動方向が同じである。本体ケースの左側板または右側板には冷媒配管が導出される方向と同じ方向に突出させるシリンダ部を取付けるためのシリンダ部取付部を備えている。シリンダ部取付部の一部分にはシリンダ部が突出される方向と同じ方向に突出する凸部が形成されている。凸部は上部から下部に向けて徐々に突出するように傾斜する傾斜部を有している。電磁弁は凸部に有する傾斜部に対し直角になるようにシリンダ部を取付ける。   In order to solve the above problems, the refrigerant circuit unit of the present invention is provided with a plurality of refrigerant pipes, a plurality of electromagnetic valves, and a sheet metal body case formed in a box shape. The electromagnetic valve includes an electromagnetic coil and a valve main body connected to the refrigerant pipe. The valve body has a main valve that opens and closes the refrigerant flow path, a control valve that controls driving of the main valve, and a cylinder portion that is attached with an electromagnetic coil to drive the control valve. The axial direction of the cylinder portion and the driving direction of the main valve are The same. The left side plate or the right side plate of the main body case is provided with a cylinder portion mounting portion for mounting a cylinder portion that protrudes in the same direction as the direction in which the refrigerant pipe is led out. A convex portion that protrudes in the same direction as the direction in which the cylinder portion protrudes is formed in a part of the cylinder portion attachment portion. The convex part has an inclined part that inclines so as to gradually protrude from the upper part toward the lower part. The solenoid valve is attached to the cylinder portion so as to be perpendicular to the inclined portion of the convex portion.

また、本発明の冷媒回路ユニットは、複数の冷媒配管と複数の電磁弁とから構成された冷媒配管ユニットと冷媒配管ユニットを収容する箱状に形成された板金製の本体ケースとからなり、1または複数の室外機と複数の室内機との間に設けられる。電磁弁は電磁コイルと冷媒配管に接続される弁本体とを備えている。弁本体は冷媒流路を開閉する主弁と主弁の駆動を制御する制御弁と電磁コイルが取付けられ制御弁を駆動するシリンダ部を有し、シリンダ部の軸方向と主弁の駆動方向が同じである。複数の冷媒配管の中で室外機から延びる配管に接続される冷媒配管は本体ケースの左右方向に本体ケースから導出される。本体ケースの前面板または背面板には複数の冷媒配管の中で室内機から延びる配管に接続される冷媒配管が導出される方向とは逆方向に突出させるシリンダ部を取付けるためのシリンダ部取付部を備えている。シリンダ部取付部の一部分にはシリンダ部が突出される方向と同じ方向に突出する凸部が形成されている。凸部は上部から下部に向けて徐々に突出するように傾斜する傾斜部を有している。電磁弁は凸部に有する傾斜部に対し直角になるようにシリンダ部を取付ける。   The refrigerant circuit unit of the present invention includes a refrigerant pipe unit composed of a plurality of refrigerant pipes and a plurality of solenoid valves, and a sheet metal body case formed in a box shape that accommodates the refrigerant pipe units. Or it is provided between a plurality of outdoor units and a plurality of indoor units. The electromagnetic valve includes an electromagnetic coil and a valve main body connected to the refrigerant pipe. The valve body has a main valve that opens and closes the refrigerant flow path, a control valve that controls driving of the main valve, and a cylinder portion that is attached with an electromagnetic coil to drive the control valve. The axial direction of the cylinder portion and the driving direction of the main valve are The same. A refrigerant pipe connected to a pipe extending from the outdoor unit among the plurality of refrigerant pipes is led out from the main body case in the left-right direction of the main body case. Cylinder portion mounting portion for attaching a cylinder portion that protrudes in a direction opposite to a direction in which a refrigerant pipe connected to a pipe extending from the indoor unit among a plurality of refrigerant pipes is led to the front plate or the back plate of the main body case It has. A convex portion that protrudes in the same direction as the direction in which the cylinder portion protrudes is formed in a part of the cylinder portion attachment portion. The convex part has an inclined part that inclines so as to gradually protrude from the upper part toward the lower part. The solenoid valve is attached to the cylinder portion so as to be perpendicular to the inclined portion of the convex portion.

本発明の冷媒回路ユニットによれば、シリンダ部取付部の一部分に形成された凸部は上部から下部に向けて徐々に突出するように傾斜する傾斜部を有しており、電磁弁は凸部に有する傾斜部に対し直角になるようにシリンダ部を取付けるため、この電磁弁は、シリンダ部の軸方向に直線状に並ぶ主弁と主弁で冷媒流路を開くことにより冷媒が流出入される接続部との位置関係が、接続部の方が主弁から見て下方に配置され、主弁の方がシリンダ部から見て下方に配置される。したがって、この電磁弁は、弁本体のシリンダ部が上に接続部が下になるように水平方向に対して下方に傾いた姿勢になる。このため、万が一冷媒内に異物が混入したとしても、主弁が開いた状態の弁本体内の冷媒流路から接続部に向けて自重により冷媒と共に異物が流れて主弁に異物が残らず、主弁を閉じる際に異物を主弁に挟み込むことがなくなり、電磁弁が動作不良を起こさないようにすることができる。   According to the refrigerant circuit unit of the present invention, the convex part formed in a part of the cylinder part attaching part has the inclined part that inclines so as to gradually protrude from the upper part toward the lower part, and the electromagnetic valve is the convex part. In order to mount the cylinder part at right angles to the inclined part, the solenoid valve has a main valve arranged in a straight line in the axial direction of the cylinder part and a refrigerant flow is opened and closed by opening the refrigerant flow path with the main valve. The connecting portion is disposed below the main valve as viewed from the main valve, and the main valve is disposed below from the cylinder portion. Therefore, the solenoid valve is inclined downward with respect to the horizontal direction so that the cylinder portion of the valve body is on the top and the connecting portion is on the bottom. For this reason, even if foreign matter is mixed in the refrigerant, foreign matter flows with the refrigerant by its own weight from the refrigerant flow path in the valve body in the state where the main valve is open to the connection part, and no foreign matter remains in the main valve. When the main valve is closed, foreign matter is not caught in the main valve, and the solenoid valve can be prevented from malfunctioning.

本発明による冷媒回路ユニットを示す外観斜視図である。It is an external appearance perspective view which shows the refrigerant circuit unit by this invention. 本発明による冷媒回路ユニットを示す説明図で、(a)は全体断面図、(b)は(a)の部分拡大断面図である。It is explanatory drawing which shows the refrigerant circuit unit by this invention, (a) is whole sectional drawing, (b) is the elements on larger scale of (a). 本発明による冷媒回路ユニットの別の実施例を示す外観斜視図である。It is an external appearance perspective view which shows another Example of the refrigerant circuit unit by this invention.

以下、本発明の実施形態を添付図面に基づき詳細に説明する。冷媒回路ユニットとして、1または複数の室外機と複数の室内機とが接続され、室内機毎に冷房運転と暖房運転とを選択できる、所謂冷暖房フリーの運転が行える多室形空気調和装置に用いられる切替ユニットを例に挙げて説明する。この切替ユニットは、室外機と室内機との間に設けられ、室外機に接続される2つの冷媒配管の一方を選択して室内機に接続することで、室内機の運転を冷房運転または暖房運転に切替えるものである。   Embodiments of the present invention will be described below in detail with reference to the accompanying drawings. As a refrigerant circuit unit, one or a plurality of outdoor units and a plurality of indoor units are connected, and can be selected between a cooling operation and a heating operation for each indoor unit. The switching unit to be used will be described as an example. The switching unit is provided between the outdoor unit and the indoor unit, and selects one of the two refrigerant pipes connected to the outdoor unit and connects the indoor unit to the cooling unit or the heating unit. Switching to operation.

本実施形態における多室形空気調和装置の切替ユニット1は、1または複数の室外機と複数の室内機とが、高圧ガス管と低圧ガス管と液管とからなる3つの冷媒配管により接続された多室形空気調和装置に用いられ、室外機と室内機との間の高圧ガス管と低圧ガス管に室内機毎に接続される。なお、液管は切替ユニット1から離され、切替ユニット1とは独立に室外機と室内機との間に室内機毎に接続される。切替ユニット1は、図1および図2に示すように、箱状に形成された板金製の本体ケース10を有し、本体ケース10の左側板11と右側板12の上部に別途取付けられる吊り金具を建物に設けられた吊りボルトに固定することで、各室内機の近傍の天井裏や床下などのスラブ(据付対象物)に据付けられる。   The switching unit 1 of the multi-room air conditioner according to the present embodiment includes one or a plurality of outdoor units and a plurality of indoor units connected by three refrigerant pipes including a high pressure gas pipe, a low pressure gas pipe, and a liquid pipe. The multi-room air conditioner is connected to a high-pressure gas pipe and a low-pressure gas pipe between the outdoor unit and the indoor unit for each indoor unit. The liquid pipe is separated from the switching unit 1 and is connected to each indoor unit between the outdoor unit and the indoor unit independently of the switching unit 1. As shown in FIGS. 1 and 2, the switching unit 1 includes a sheet metal main body case 10 formed in a box shape, and a hanging bracket that is separately attached to the upper part of the left side plate 11 and the right side plate 12 of the main body case 10. Can be installed on a slab (installation object) such as the back of the ceiling or under the floor in the vicinity of each indoor unit.

本体ケース10の室内機側の左側板11には、室内機から延びるガス管に接続されるガス接続管20が導出されている。本体ケース10の室外機側の右側板12には、室外機から延びる高圧ガス管と低圧ガス管とにそれぞれ接続される高圧ガス接続管21と低圧ガス接続管22が導出されている。ガス接続管20は、本体ケース10の上側に配置され、高圧ガス接続管21と低圧ガス接続管22は、本体ケース10の下側に配置されている。ガス接続管20と高圧ガス接続管21と低圧ガス接続管22のそれぞれの管軸は、本体ケース10の左右方向に延びている。ガス接続管20と高圧ガス接続管21と低圧ガス接続管22のそれぞれは、室内機と室外機との間に接続される冷媒配管の一部を構成している。   A gas connection pipe 20 connected to a gas pipe extending from the indoor unit is led out to the left side plate 11 on the indoor unit side of the main body case 10. A high pressure gas connection pipe 21 and a low pressure gas connection pipe 22 connected to a high pressure gas pipe and a low pressure gas pipe extending from the outdoor unit are led out to the right side plate 12 on the outdoor unit side of the main body case 10. The gas connection pipe 20 is disposed on the upper side of the main body case 10, and the high pressure gas connection pipe 21 and the low pressure gas connection pipe 22 are disposed on the lower side of the main body case 10. The respective tube axes of the gas connection pipe 20, the high pressure gas connection pipe 21, and the low pressure gas connection pipe 22 extend in the left-right direction of the main body case 10. Each of the gas connection pipe 20, the high-pressure gas connection pipe 21, and the low-pressure gas connection pipe 22 constitutes a part of a refrigerant pipe connected between the indoor unit and the outdoor unit.

本体ケース10の内部には、ガス接続管20、高圧ガス接続管21、低圧ガス接続管22、上側開閉弁30(上側電磁弁)および下側開閉弁31(下側電磁弁)などが部分的に収容されている。また、本体ケース10の内部には、電磁コイル300、電磁コイル310、ガス接続管20、高圧ガス接続管21および低圧ガス接続管22などの結露を防ぐため、発泡断熱材が充填されている。   Inside the main body case 10, a gas connection pipe 20, a high-pressure gas connection pipe 21, a low-pressure gas connection pipe 22, an upper on-off valve 30 (upper solenoid valve), a lower on-off valve 31 (lower solenoid valve), and the like are partially provided. Is housed in. The main body case 10 is filled with a foam heat insulating material to prevent condensation of the electromagnetic coil 300, the electromagnetic coil 310, the gas connection pipe 20, the high pressure gas connection pipe 21, the low pressure gas connection pipe 22, and the like.

本体ケース10の内部において、ガス接続管20は、上側開閉弁30および下側開閉弁31を介して高圧ガス接続管21および低圧ガス接続管22と接続されている。上側開閉弁30は、電磁コイル300と弁本体301とを備えている。弁本体301は、冷媒流路を開閉する主弁と主弁の駆動を油圧や冷媒圧などの圧力差を調整し制御する制御弁と電磁コイル300が取付けられ制御弁を駆動するシリンダ部301aとを有している。上側開閉弁30は、シリンダ部301aの軸方向と主弁の駆動方向が異なり、弁本体301が大きい開閉弁である。この上側開閉弁30は、図示を省略するがもう1つあり、弁本体301が大きいことから冷媒流量の大きい高圧ガス接続管21や低圧ガス接続管22などに接続されている。一方の上側開閉弁30は室内機を暖房運転に切替え、他方の上側開閉弁30は室内機を冷房運転に切替える用途で動作する。   Inside the main body case 10, the gas connection pipe 20 is connected to the high-pressure gas connection pipe 21 and the low-pressure gas connection pipe 22 via the upper on-off valve 30 and the lower on-off valve 31. The upper on-off valve 30 includes an electromagnetic coil 300 and a valve main body 301. The valve main body 301 includes a main valve that opens and closes the refrigerant flow path, a control valve that adjusts and controls the pressure difference such as oil pressure and refrigerant pressure, and a cylinder portion 301a that is attached with the electromagnetic coil 300 and drives the control valve. have. The upper on-off valve 30 is an on-off valve in which the axial direction of the cylinder portion 301a is different from the driving direction of the main valve, and the valve body 301 is large. The upper on-off valve 30 is not shown in the figure, but is connected to the high-pressure gas connection pipe 21 and the low-pressure gas connection pipe 22 having a large refrigerant flow rate because the valve body 301 is large. One upper on-off valve 30 operates for the purpose of switching the indoor unit to the heating operation, and the other upper on-off valve 30 is used to switch the indoor unit to the cooling operation.

一方の弁本体301が高圧ガス接続管21とガス接続管20に接続され、他方の弁本体301が低圧ガス接続管22とガス接続管20に接続されている。シリンダ部301aは、本体ケース10の左右方向に延びるガス接続管20、高圧ガス接続管21および低圧ガス接続管32の管軸に対して平行になるように設けられている。電磁コイル300は、シリンダ部301aへの挿入孔を有しており、シリンダ部301aに挿入されることで弁本体301に取付けられている。なお、上側開閉弁30は、接続される室内機の種類や用途などによって電子膨張弁などの電磁弁が接続されてもよい。   One valve body 301 is connected to the high-pressure gas connection pipe 21 and the gas connection pipe 20, and the other valve body 301 is connected to the low-pressure gas connection pipe 22 and the gas connection pipe 20. The cylinder portion 301 a is provided so as to be parallel to the tube axes of the gas connection pipe 20, the high-pressure gas connection pipe 21, and the low-pressure gas connection pipe 32 that extend in the left-right direction of the main body case 10. The electromagnetic coil 300 has an insertion hole into the cylinder portion 301a, and is attached to the valve body 301 by being inserted into the cylinder portion 301a. The upper on-off valve 30 may be connected to an electromagnetic valve such as an electronic expansion valve depending on the type and application of the connected indoor unit.

下側開閉弁31は、電磁コイル310と弁本体311とを備えている。弁本体311は、冷媒流路を開閉する主弁311aと主弁311aの駆動を油圧や冷媒圧などの圧力差を調整し制御する制御弁311bと電磁コイル310が取付けられ制御弁311bを駆動するシリンダ部311cとを有している。下側開閉弁31は、シリンダ部311cの軸方向と主弁311aの駆動方向が同じであり、弁本体311が小さい開閉弁である。この下側開閉弁31は、図示を省略するがもう1つあり、弁本体311が小さいことから冷媒流量の小さいキャピラリーチューブに接続されている。各々の下側開閉弁31は、室内機の運転を切替える際にキャピラリーチューブを介して上側開閉弁30に流出入する冷媒の上側開閉弁30の前後の圧力を調整する用途で動作する。このキャピラリーチューブは、高圧ガス接続管21と低圧ガス接続管22の間の冷媒の圧力を調整するために細い径の配管になっている。したがって、キャピラリーチューブに流れる冷媒は流量が少ないため、キャピラリーチューブに接続される下側開閉弁31の接続部も細い径でよいので、下側開閉弁31として弁本体が小さい開閉弁を使用している。   The lower on-off valve 31 includes an electromagnetic coil 310 and a valve body 311. The valve main body 311 is attached with a control valve 311b and an electromagnetic coil 310 for controlling the pressure difference such as hydraulic pressure or refrigerant pressure to drive the main valve 311a and the main valve 311a that open and close the refrigerant flow path, and drives the control valve 311b. And a cylinder portion 311c. The lower on-off valve 31 is an on-off valve in which the axial direction of the cylinder portion 311c and the driving direction of the main valve 311a are the same, and the valve body 311 is small. The lower on-off valve 31 is not shown in the figure, but is connected to a capillary tube having a small refrigerant flow rate because the valve main body 311 is small. Each lower on-off valve 31 operates in an application for adjusting the pressure before and after the upper on-off valve 30 of the refrigerant flowing into and out of the upper on-off valve 30 via the capillary tube when switching the operation of the indoor unit. The capillary tube is a small diameter pipe for adjusting the pressure of the refrigerant between the high pressure gas connection pipe 21 and the low pressure gas connection pipe 22. Therefore, since the refrigerant flowing in the capillary tube has a small flow rate, the connecting portion of the lower on-off valve 31 connected to the capillary tube may have a thin diameter. Therefore, an on-off valve having a small valve body is used as the lower on-off valve 31. Yes.

一方の弁本体311がキャピラリーチューブを介して高圧ガス接続管21とガス接続管20に接続され、他方の弁本体311がキャピラリーチューブを介して低圧ガス接続管22とガス接続管20に接続されている。シリンダ部311cは、本体ケース10の左右方向に延びるガス接続管20、高圧ガス接続管21および低圧ガス接続管32の管軸方向と同じ方向に設けられている。電磁コイル310は、シリンダ部311cへの挿入孔を有しており、シリンダ部311cに挿入されることで弁本体311に取付けられている。   One valve body 311 is connected to the high-pressure gas connection pipe 21 and the gas connection pipe 20 via a capillary tube, and the other valve body 311 is connected to the low-pressure gas connection pipe 22 and the gas connection pipe 20 via a capillary tube. Yes. The cylinder portion 311 c is provided in the same direction as the tube axis direction of the gas connection pipe 20, the high pressure gas connection pipe 21, and the low pressure gas connection pipe 32 extending in the left-right direction of the main body case 10. The electromagnetic coil 310 has an insertion hole into the cylinder portion 311c, and is attached to the valve body 311 by being inserted into the cylinder portion 311c.

本体ケース10の右側板12は、上部には本体ケース10を吊下げる吊り金具を取付けるための取付部121と下部には高圧ガス接続管21と低圧ガス接続管22を配置するための管配置部122とを備え、取付部121と管配置部122とは面一関係になっている。取付部121と管配置部122の間には、シリンダ部301aとシリンダ部311cとを取付けるために、取付部121と管配置部122から内側に凹ませて取付部121と管配置部122に対して平行になるように形成されたシリンダ部取付部14を備えている。   The right side plate 12 of the main body case 10 has an attachment portion 121 for attaching a hanging bracket for suspending the main body case 10 at the upper portion, and a pipe arrangement portion for arranging the high-pressure gas connection tube 21 and the low-pressure gas connection tube 22 at the lower portion. 122, and the attachment portion 121 and the tube placement portion 122 are in a flush relationship. In order to attach the cylinder part 301a and the cylinder part 311c between the attachment part 121 and the pipe arrangement part 122, the inner part is recessed from the attachment part 121 and the pipe arrangement part 122 to the attachment part 121 and the pipe arrangement part 122. And a cylinder mounting portion 14 formed to be parallel to each other.

シリンダ部取付部14の上側には、上側開閉弁30のシリンダ部301aが高圧ガス接続管21と低圧ガス接続管22と平行に突出され、電磁コイル300がシリンダ部301aに取付けられている。シリンダ部取付部14の弁本体301側には、シリンダ部取付部14とシリンダ部301aの間の隙間を塞ぎ、本体ケース10と外部を遮断するシール部材141が配置されている。シリンダ部取付部14の下側には、下側開閉弁31のシリンダ部311cが高圧ガス接続管21と低圧ガス接続管22が導出される方向と同じ方向に突出され、電磁コイル310がシリンダ部311cに取付けられている。具体的には、シリンダ部取付部14の下側には、シリンダ部311cが突出される方向と同じ方向に突出する凸部140が形成されている。この凸部140は、絞り加工やプレス加工などによって形成され、上部から下部に向けて徐々に突出するように傾斜する傾斜部140aを有している。下側開閉弁31のシリンダ部311cは、この傾斜部140aに対して直角になるように取付けられている。傾斜部140aの弁本体311側には、傾斜部140aとシリンダ部311cの間の隙間を塞ぎ、本体ケース10と外部を遮断するシール部材142が配置されている。   On the upper side of the cylinder part mounting part 14, a cylinder part 301a of the upper on-off valve 30 protrudes in parallel with the high pressure gas connection pipe 21 and the low pressure gas connection pipe 22, and an electromagnetic coil 300 is attached to the cylinder part 301a. A seal member 141 that closes the gap between the cylinder portion mounting portion 14 and the cylinder portion 301a and blocks the main body case 10 from the outside is disposed on the valve body 301 side of the cylinder portion mounting portion 14. Below the cylinder part mounting part 14, the cylinder part 311 c of the lower on-off valve 31 protrudes in the same direction as the direction in which the high-pressure gas connection pipe 21 and the low-pressure gas connection pipe 22 are led out, and the electromagnetic coil 310 is in the cylinder part. It is attached to 311c. Specifically, a convex portion 140 that protrudes in the same direction as the direction in which the cylinder portion 311c protrudes is formed below the cylinder portion attachment portion 14. The convex portion 140 is formed by drawing or pressing, and has an inclined portion 140a that is inclined so as to gradually protrude from the upper portion toward the lower portion. The cylinder portion 311c of the lower on-off valve 31 is attached so as to be perpendicular to the inclined portion 140a. A seal member 142 that closes the gap between the inclined portion 140a and the cylinder portion 311c and blocks the main body case 10 from the outside is disposed on the valve body 311 side of the inclined portion 140a.

このように、傾斜部140aには、下側開閉弁31のシリンダ部311cを取付けるため、図2(b)に示すように、下側開閉弁31は、シリンダ部311cの軸方向に直線状に並ぶ主弁311aと主弁311aで冷媒流路を開くことにより冷媒が流出入される接続部311dとの位置関係が、接続部311dの方が主弁311aから見て下方に配置され、主弁311aの方がシリンダ部311cから見て下方に配置される。従って、下側開閉弁31は、弁本体311のシリンダ部311cが上に接続部311dが下になるように水平方向に対して下方に角度θ(水平線Aと弁本体311の中心線Bのなす角度、例えば、5°)だけ傾いた姿勢になる。このため、万が一冷媒内に金属片などの異物が混入したとしても、主弁311aが開いた状態の弁本体311内の冷媒流路から接続部311dに向けて自重により冷媒と共に異物が流れて主弁311aに異物が残らず、主弁311aを閉じる際に異物を主弁311aに挟み込むことがなくなり、下側開閉弁31が動作不良を起こさないようにすることができる。   Since the cylinder portion 311c of the lower on-off valve 31 is attached to the inclined portion 140a in this way, the lower on-off valve 31 is linearly formed in the axial direction of the cylinder portion 311c as shown in FIG. The positional relationship between the main valve 311a and the connection part 311d through which the refrigerant flows in and out by opening the refrigerant flow path with the main valve 311a is arranged below the connection part 311d as viewed from the main valve 311a. 311a is arrange | positioned below seeing from the cylinder part 311c. Accordingly, the lower on-off valve 31 has an angle θ (the horizontal line A and the center line B of the valve main body 311 formed downward) with respect to the horizontal direction so that the cylinder portion 311c of the valve main body 311 is up and the connection portion 311d is down. The posture is inclined by an angle (for example, 5 °). For this reason, even if a foreign object such as a metal piece is mixed in the refrigerant, the foreign substance flows together with the refrigerant by its own weight from the refrigerant flow path in the valve body 311 in the state where the main valve 311a is open toward the connection portion 311d. The foreign matter does not remain in the valve 311a, and the foreign valve is not caught in the main valve 311a when the main valve 311a is closed, and the lower on-off valve 31 can be prevented from malfunctioning.

そして、本体ケース10の右側板12には、図1に示すように、シリンダ部取付部14に配置される複数の電磁コイル300、310を外気や埃などから保護するために、シリンダ部取付部14を覆い隠すように取付けられる電磁コイル蓋13が設けられている。本体ケース10の右側板12から電磁コイル蓋13を取外すことで複数の電磁コイル300、310が露出し、これらの電磁コイル300、310の点検や交換などのメンテナンスを実施することができる。   As shown in FIG. 1, the right side plate 12 of the main body case 10 has a cylinder portion mounting portion for protecting a plurality of electromagnetic coils 300 and 310 arranged in the cylinder portion mounting portion 14 from outside air and dust. An electromagnetic coil lid 13 is provided so as to cover 14. By removing the electromagnetic coil lid 13 from the right side plate 12 of the main body case 10, the plurality of electromagnetic coils 300 and 310 are exposed, and maintenance such as inspection and replacement of these electromagnetic coils 300 and 310 can be performed.

また、本体ケース10の前面板14、背面板16または上面板17には、上側開閉弁30、下側開閉弁31の開閉を制御するための図示を省略した電装品箱50を配置できるようになっている。切替ユニット1を天井裏や床下などのスラブに据付ける際に本体ケース10の前面板14や背面板16を選択したり、建物の壁に据付ける際に本体ケース10の上面16を選択したりすることができるため、切替ユニット1の据付自由度を向上させることができる。   Further, an electrical component box 50 (not shown) for controlling the opening / closing of the upper on-off valve 30 and the lower on-off valve 31 can be arranged on the front plate 14, the back plate 16 or the upper plate 17 of the main body case 10. It has become. When the switching unit 1 is installed on a slab such as behind the ceiling or under the floor, the front plate 14 or the back plate 16 of the main body case 10 is selected, or when the switching unit 1 is installed on the wall of the building, the upper surface 16 of the main body case 10 is selected. Therefore, the degree of freedom of installation of the switching unit 1 can be improved.

また、上側開閉弁30のシリンダ部301aと下側開閉弁31のシリンダ部311cは、図1に示すように、シリンダ部取付部14から突出され、本体ケース10の前後方向に所定の間隔を持って配置されている。下側開閉弁31は、冷媒の圧力を調整するためにキャピラリーチューブに接続されることから、キャピラリーチューブの径の小さな配管に合わせて、キャピラリーチューブに接続される弁本体311の接続部の径も小さくなる。この結果、下側開閉弁31の弁本体311の接続部の径は、上側開閉弁30の弁本体301の接続部の径よりも小さくなり、下側開閉弁31を上側開閉弁30と高圧ガス接続管21および低圧ガス接続管22との間のスペースに配置することができる。下側開閉弁31は、2つの上側開閉弁30に挟まれるように配置することができるため、2つの下側開閉弁31のそれぞれのシリンダ部311cは、2つの上側開閉弁30のシリンダ301aの間に配置することができる。このように、上側開閉弁30と下側開閉弁31を配置することで、本体ケース10は、2つの上側開閉弁30のそれぞれのシリンダ部301a間の前後方向の寸法と、上側開閉弁30から低圧ガス接続管22までの上下方向の寸法に収めることができる。   Further, as shown in FIG. 1, the cylinder part 301 a of the upper on-off valve 30 and the cylinder part 311 c of the lower on-off valve 31 protrude from the cylinder part attaching part 14 and have a predetermined interval in the front-rear direction of the main body case 10. Are arranged. Since the lower open / close valve 31 is connected to the capillary tube in order to adjust the pressure of the refrigerant, the diameter of the connection portion of the valve main body 311 connected to the capillary tube is adjusted in accordance with the small diameter pipe of the capillary tube. Get smaller. As a result, the diameter of the connection portion of the valve body 311 of the lower on-off valve 31 is smaller than the diameter of the connection portion of the valve body 301 of the upper on-off valve 30, and the lower on-off valve 31 is connected to the upper on-off valve 30 and the high-pressure gas. It can be arranged in a space between the connecting pipe 21 and the low-pressure gas connecting pipe 22. Since the lower on-off valve 31 can be disposed so as to be sandwiched between the two upper on-off valves 30, the respective cylinder portions 311c of the two lower on-off valves 31 are arranged on the cylinders 301a of the two upper on-off valves 30. Can be placed in between. As described above, by arranging the upper on-off valve 30 and the lower on-off valve 31, the main body case 10 has a dimension in the front-rear direction between the cylinder portions 301 a of the two upper on-off valves 30 and the upper on-off valve 30. It can be accommodated in the vertical dimension up to the low pressure gas connection pipe 22.

以上説明してきた切替ユニット1によれば、背景技術に示すように、複数の電磁弁が本体ケースの左右方向に一列に並び、本体ケースの上下方向に立設し、かつ、複数の電磁コイルが本体ケースの上面方向に突出するように配置されていないため、本体ケース10の左右方向と上下方向の寸法を小さくすることができ、切替ユニット1を本体ケース10の左右方向および上下方向に小型化することができる。   According to the switching unit 1 described above, as shown in the background art, a plurality of solenoid valves are arranged in a line in the left-right direction of the main body case, are erected in the vertical direction of the main body case, and the plurality of electromagnetic coils are Since it is not arranged so as to protrude in the upper surface direction of the main body case, the horizontal and vertical dimensions of the main body case 10 can be reduced, and the switching unit 1 is downsized in the left and right direction and the vertical direction of the main body case 10. can do.

なお、本実施形態における切替ユニット1は、本体ケース10の右側板12には高圧ガス接続管21および低圧ガス接続管22が導出される方向と同じ方向に突出させるシリンダ部301a、311cを取付けるためのシリンダ部取付部14を備えるようにしたが、本発明はこれに限らず、本体ケースの左側板11にシリンダ部取付部を備えるようにしてもよい。   Note that the switching unit 1 according to the present embodiment is provided with cylinder portions 301 a and 311 c that protrude in the same direction as the direction in which the high pressure gas connection pipe 21 and the low pressure gas connection pipe 22 are led out on the right side plate 12 of the main body case 10. However, the present invention is not limited to this, and the left side plate 11 of the main body case may be provided with a cylinder portion mounting portion.

また、本実施形態における切替ユニット1では、1または複数の室外機と複数の室内機とが接続される3つの冷媒配管のうち、液管は切替ユニット1から離して、切替ユニット1とは独立に室外機と室内機との間に室外機毎に接続されるようにしたが、本発明はこれに限らない。例えば、本体ケース10の内部に液接続管も収容するようにしてもよい。この場合には、本体ケース10の室内機側の左側板11から、室内機から延びるガス管に接続されるガス接続管20と、室内機から延びる液管に接続される液接続管の一端とを導出させる。また、本体ケース10の室外機側の右側板12から、室外機から延びる高圧ガス管および低圧ガス管に接続される高圧ガス接続管21および低圧ガス接続管22と、室外機から延びる液管に接続される液接続管の他端とを導出させる。   Further, in the switching unit 1 in the present embodiment, the liquid pipe is separated from the switching unit 1 and is independent of the switching unit 1 among three refrigerant pipes to which one or more outdoor units and a plurality of indoor units are connected. Further, each outdoor unit is connected between the outdoor unit and the indoor unit, but the present invention is not limited to this. For example, a liquid connection pipe may be accommodated in the main body case 10. In this case, from the left side plate 11 on the indoor unit side of the main body case 10, a gas connection pipe 20 connected to a gas pipe extending from the indoor unit, and one end of a liquid connection pipe connected to a liquid pipe extending from the indoor unit, Is derived. Further, from the right side plate 12 on the outdoor unit side of the main body case 10 to the high pressure gas pipe 21 and the low pressure gas connection pipe 22 connected to the high pressure gas pipe and the low pressure gas pipe extending from the outdoor unit, and the liquid pipe extending from the outdoor unit. The other end of the liquid connection pipe to be connected is led out.

次に、他の実施形態による切替ユニットについて図3を用いて説明する。なお、これまでに説明してきた実施形態による切替ユニット1と共通する構成については説明を省略するが、上側開閉弁30のシリンダ部301aと下側開閉弁31のシリンダ部311cは同一符号を付して説明する。この切替ユニットは、室外機と室内機との間に設けられ、室外機に接続される2つの冷媒配管の一方を選択して室内機に接続することで、室内機の運転を冷房運転または暖房運転に切替える複数の冷媒配管組から構成されたものである。   Next, a switching unit according to another embodiment will be described with reference to FIG. In addition, although description is abbreviate | omitted about the structure which is common in the switching unit 1 by embodiment described so far, the cylinder part 301a of the upper side on-off valve 30 and the cylinder part 311c of the lower side on-off valve 31 attach | subject the same code | symbol. I will explain. The switching unit is provided between the outdoor unit and the indoor unit, and selects one of the two refrigerant pipes connected to the outdoor unit and connects the indoor unit to the cooling unit or the heating unit. It is comprised from the some refrigerant | coolant piping group switched to a driving | operation.

本実施形態による切替ユニットは、1または複数の室外機と複数の室内機とが、高圧ガス管と低圧ガス管と液管とからなる3つの冷媒配管により接続された多室形空気調和装置に用いられ、室外機と複数の室内機との間の高圧ガス管と低圧ガス管と液管に接続される。図3に示すように、切替ユニット4は、後述の冷媒配管ユニットを収容する箱状に形成された板金製の本体ケース40を有している。   The switching unit according to the present embodiment is a multi-room air conditioner in which one or a plurality of outdoor units and a plurality of indoor units are connected by three refrigerant pipes including a high-pressure gas pipe, a low-pressure gas pipe, and a liquid pipe. Used and connected to a high pressure gas pipe, a low pressure gas pipe and a liquid pipe between the outdoor unit and the plurality of indoor units. As shown in FIG. 3, the switching unit 4 has a sheet metal body case 40 formed in a box shape that accommodates a refrigerant piping unit described later.

本体ケース40の室外機側の左側板41には、室外機から延びる高圧ガス管と低圧ガス管と液管とにそれぞれ接続される高圧ガス接続管50と低圧ガス接続管51と液接続管52が導出されている。本体ケース40の右側板42からも、高圧ガス接続管50と低圧ガス接続管51と液接続管52が導出され、別の切替ユニット4の対応する冷媒配管に接続することで、室内機の台数に応じて切替ユニット4を増設できるようになっている。切替ユニット4を増設しない場合は、高圧ガス接続管50と低圧ガス接続管51と液接続管52を図示しない蓋で塞いで使用される。   The left side plate 41 on the outdoor unit side of the main body case 40 is connected to a high pressure gas pipe, a low pressure gas pipe, and a liquid pipe extending from the outdoor unit, respectively, a high pressure gas connection pipe 50, a low pressure gas connection pipe 51, and a liquid connection pipe 52. Has been derived. The high-pressure gas connection pipe 50, the low-pressure gas connection pipe 51, and the liquid connection pipe 52 are also led out from the right side plate 42 of the main body case 40 and connected to the corresponding refrigerant pipe of another switching unit 4, so that the number of indoor units The switching unit 4 can be added according to the situation. When the switching unit 4 is not added, the high pressure gas connection pipe 50, the low pressure gas connection pipe 51, and the liquid connection pipe 52 are closed with a lid (not shown).

本体ケース40の室内機側の背面板43には、複数の室内機から延びる複数のガス管と液管とにそれぞれ接続される複数のガス接続管53、54、55、56と液接続管57(図示されている液接続管のみ符号を付与)が導出されている。高圧ガス接続管50と低圧ガス接続管51と液接続管52は、本体ケース40の背面板43の側から高圧ガス接続管50、液接続管52、低圧ガス接続管51の順に本体ケース40の前後方向に並んでいる。複数のガス接続管53、54、55、56は、本体ケース40の上側に配置され、複数の液接続管(図示されている液接続管57のみに符号付与)は、本体ケース40の下側に配置され、本体ケース40の左右方向にそれぞれ並んでいる。上下一対のガス接続管53と液接続管57が1台の室内機に接続され、その他の上下一対のガス接続管と液接続管も室内機毎に接続される。   The back plate 43 of the main body case 40 on the indoor unit side has a plurality of gas connection pipes 53, 54, 55, 56 and a liquid connection pipe 57 respectively connected to a plurality of gas pipes and liquid pipes extending from the plurality of indoor units. (Only the liquid connection pipe shown in the figure is given a reference). The high-pressure gas connection pipe 50, the low-pressure gas connection pipe 51, and the liquid connection pipe 52 are arranged in the order of the high-pressure gas connection pipe 50, the liquid connection pipe 52, and the low-pressure gas connection pipe 51 from the back plate 43 side of the main body case 40. They are lined up in the front-rear direction. The plurality of gas connection pipes 53, 54, 55, 56 are arranged on the upper side of the main body case 40, and the plurality of liquid connection pipes (reference numerals are given only to the liquid connection pipe 57 shown in the figure) Are arranged in the left-right direction of the main body case 40. A pair of upper and lower gas connection pipes 53 and a liquid connection pipe 57 are connected to one indoor unit, and another pair of upper and lower gas connection pipes and liquid connection pipes are also connected to each indoor unit.

高圧ガス接続管50と低圧ガス接続管51と液接続管52のそれぞれの管軸は、本体ケース40の左右方向に延び、複数のガス接続管53、54、55、56と複数の液接続管のそれぞれの管軸は、本体ケース40の前後方向に延びている。高圧ガス接続管50と低圧ガス接続管51と液接続管52と複数のガス接続管53、54、55、56と複数の液接続管のそれぞれは、室内機と室外機との間に接続される冷媒配管の一部を構成している。   The tube axes of the high-pressure gas connection pipe 50, the low-pressure gas connection pipe 51, and the liquid connection pipe 52 extend in the left-right direction of the main body case 40, and a plurality of gas connection pipes 53, 54, 55, 56 and a plurality of liquid connection pipes. Each of the tube shafts extends in the front-rear direction of the main body case 40. The high pressure gas connection pipe 50, the low pressure gas connection pipe 51, the liquid connection pipe 52, the plurality of gas connection pipes 53, 54, 55, 56 and the plurality of liquid connection pipes are respectively connected between the indoor unit and the outdoor unit. Part of the refrigerant piping.

本体ケース40の内部に部分的に収容される冷媒配管ユニットは、ガス冷媒配管組と液冷媒配管組とから構成されている。ガス冷媒配管組は、高圧ガス接続管50、低圧ガス接続管51、複数のガス冷媒配管群からなっている。複数のガス冷媒配管群は室内機毎に設けられることから、1つ1つのガス冷媒配管群は切替ユニット1とほぼ同一の構成になっている。1つ1つのガス冷媒配管群は切替ユニット1と比べて室内機を冷房運転に切替える用途で動作する上側開閉弁30が1つ追加されており、例えば、本体ケース40内の最も左側に位置するガス冷媒配管群は、ガス接続管53が上側開閉弁30および下側開閉弁31を介して高圧ガス接続管50および低圧ガス接続管51と接続されている。   The refrigerant piping unit partially accommodated in the main body case 40 is composed of a gas refrigerant piping set and a liquid refrigerant piping set. The gas refrigerant pipe group is composed of a high-pressure gas connection pipe 50, a low-pressure gas connection pipe 51, and a plurality of gas refrigerant pipe groups. Since a plurality of gas refrigerant piping groups are provided for each indoor unit, each gas refrigerant piping group has substantially the same configuration as the switching unit 1. Each of the gas refrigerant piping groups is provided with one upper on-off valve 30 that operates for the purpose of switching the indoor unit to the cooling operation as compared with the switching unit 1, and is located, for example, on the leftmost side in the main body case 40. In the gas refrigerant piping group, the gas connection pipe 53 is connected to the high-pressure gas connection pipe 50 and the low-pressure gas connection pipe 51 via the upper on-off valve 30 and the lower on-off valve 31.

本体ケース10の前面板44は、上部には電装品箱60を支持するための電装品箱支持部441と下部には電装品箱60を配置するための電装品箱配置部442とを備え、電装品箱支持部441と電装品箱配置部442の間には、上側開閉弁30のシリンダ部301aと下側開閉弁31のシリンダ部311cとを取付けるために、電装品箱支持部441と電装品箱配置部442から内側に凹ませて電装品箱支持部441と電装品箱配置部442に対して平行になるように形成されたシリンダ部取付部45を備えている。   The front plate 44 of the main body case 10 includes an electrical component box support portion 441 for supporting the electrical component box 60 at the upper portion and an electrical component box placement portion 442 for placing the electrical component box 60 at the lower portion, Between the electrical component box support portion 441 and the electrical component box placement portion 442, the electrical component box support portion 441 and the electrical component are mounted in order to mount the cylinder portion 301a of the upper on-off valve 30 and the cylinder portion 311c of the lower on-off valve 31. A cylinder part mounting portion 45 is provided which is recessed inward from the product box placement portion 442 and formed in parallel to the electrical component box support portion 441 and the electrical component box placement portion 442.

シリンダ部取付部45の上側には、例えば、本体ケース40内の最も左側に位置するガス冷媒配管群は上側開閉弁30のシリンダ部301aがガス接続管53が導出される方向とは逆方向に平行に突出され、図示を省略した電磁コイルがシリンダ部301aに取付けられている。その他のガス冷媒配管群の上側開閉弁30のシリンダ部301aについても同様になっている。シリンダ部取付部45の下側には、例えば、本体ケース40内の最も左側に位置するガス冷媒配管群は下側開閉弁31のシリンダ部311cがガス接続管53が導出される方向とは逆方向に突出され、図示を省略した電磁コイルがシリンダ部311cに取付けられている。具体的には、シリンダ部取付部45の下側には、下側開閉弁31のシリンダ部311cが突出される方向と同じ方向に突出する凸部450が形成されている。この凸部450は、絞り加工やプレス加工などによって形成され、上部から下部に向けて徐々に突出するように傾斜する傾斜部450aを有している。下側開閉弁31のシリンダ部311cは、この傾斜部450aに対して直角になるように取付けられている。その他のガス冷媒配管群の下側開閉弁30のシリンダ部311cについても同様になっている。シリンダ部取付部45の下側には、1つ1つのガス冷媒配管群に対応して複数の凸部450が左右方向に並ぶように形成されているため、シリンダ部取付部45自体の強度を上げることができる。なお、本実施形態では、シリンダ部取付部45の下側に複数の凸部450を形成したが、複数の凸部450を連続させて左右方向に延びる1つの凸部を形成してもよい。   On the upper side of the cylinder part mounting part 45, for example, the gas refrigerant pipe group located on the leftmost side in the main body case 40 is in a direction opposite to the direction in which the cylinder part 301 a of the upper on-off valve 30 is led out of the gas connection pipe 53. An electromagnetic coil that protrudes in parallel and is not shown is attached to the cylinder portion 301a. The same applies to the cylinder portion 301a of the upper on-off valve 30 of the other gas refrigerant piping group. On the lower side of the cylinder part mounting part 45, for example, the gas refrigerant pipe group located on the leftmost side in the main body case 40 is opposite to the direction in which the cylinder part 311 c of the lower on-off valve 31 is led out of the gas connection pipe 53. An electromagnetic coil protruding in the direction and not shown is attached to the cylinder portion 311c. Specifically, a convex portion 450 that protrudes in the same direction as the direction in which the cylinder portion 311 c of the lower on-off valve 31 protrudes is formed below the cylinder portion attachment portion 45. The convex portion 450 is formed by drawing or pressing, and has an inclined portion 450a that is inclined so as to gradually protrude from the upper portion toward the lower portion. The cylinder portion 311c of the lower on-off valve 31 is attached so as to be perpendicular to the inclined portion 450a. The same applies to the cylinder portion 311c of the lower on-off valve 30 of the other gas refrigerant piping group. Since the plurality of convex portions 450 are arranged in the left-right direction below the cylinder portion attachment portion 45 so as to correspond to each gas refrigerant pipe group, the strength of the cylinder portion attachment portion 45 itself is increased. Can be raised. In the present embodiment, the plurality of convex portions 450 are formed on the lower side of the cylinder portion mounting portion 45. However, a single convex portion extending in the left-right direction may be formed by continuing the plurality of convex portions 450.

以上説明してきたように、シリンダ部取付部45に形成された凸部450に設けた傾斜部450aには、下側開閉弁31のシリンダ部311cを取付けるため、上述した切替ユニット1と同様に、下側開閉弁31は、弁本体311のシリンダ部311cが上に接続部311dが下になるように水平方向に対して下方に角度θ(例えば、5°)だけ傾いた姿勢になる。このため、万が一冷媒内に金属片などの異物が混入したとしても、主弁311aが開いた状態の弁本体311内の冷媒流路から接続部311dに向けて自重により冷媒と共に異物が流れて主弁311aに異物が残らず、主弁311aを閉じる際に異物を主弁311aに挟み込むことがなくなり、下側開閉弁31が動作不良を起こさないようにすることができる。   As described above, in order to attach the cylinder portion 311c of the lower on-off valve 31 to the inclined portion 450a provided on the convex portion 450 formed in the cylinder portion attaching portion 45, similarly to the switching unit 1 described above, The lower on-off valve 31 is inclined at an angle θ (for example, 5 °) downward with respect to the horizontal direction so that the cylinder portion 311c of the valve body 311 is on the top and the connection portion 311d is on the bottom. For this reason, even if a foreign object such as a metal piece is mixed in the refrigerant, the foreign substance flows together with the refrigerant by its own weight from the refrigerant flow path in the valve body 311 in the state where the main valve 311a is open toward the connection portion 311d. The foreign matter does not remain in the valve 311a, and the foreign valve is not caught in the main valve 311a when the main valve 311a is closed, and the lower on-off valve 31 can be prevented from malfunctioning.

そして、本体ケース40の前面板44には、シリンダ部取付部45に配置される図示を省略した複数の電磁コイルを外気や埃などから保護するために、上述した切替ユニット1で設けられていた電磁コイル蓋13に替えて電装品箱60が設けられている。本体ケース40の前面板44から電装品箱60を取外すことで複数の電磁コイルが露出し、これらの電磁コイルの点検や交換などのメンテナンスを実施することができる。   The front plate 44 of the main body case 40 is provided with the switching unit 1 described above in order to protect a plurality of electromagnetic coils (not shown) arranged in the cylinder mounting portion 45 from the outside air and dust. An electrical component box 60 is provided in place of the electromagnetic coil lid 13. By removing the electrical component box 60 from the front plate 44 of the main body case 40, a plurality of electromagnetic coils are exposed, and maintenance such as inspection and replacement of these electromagnetic coils can be performed.

以上説明してきた切替ユニット4によれば、背景技術に示すように、複数の電磁弁が本体ケースの上下方向に立設し、かつ、複数の電磁コイルが本体ケースの上面方向に突出するように配置される冷媒回路ユニットと比べ、本体ケース40の上下方向の寸法を小さくすることができ、切替ユニット4を本体ケース40の上下方向に小型化することができる。   According to the switching unit 4 described above, as shown in the background art, a plurality of solenoid valves are erected in the vertical direction of the main body case, and a plurality of electromagnetic coils protrude in the upper surface direction of the main body case. Compared with the refrigerant circuit unit to be disposed, the vertical dimension of the main body case 40 can be reduced, and the switching unit 4 can be downsized in the vertical direction of the main body case 40.

なお、本実施形態における切替ユニット4は、本体ケース40の前面板44にはガス接続管53、54、55、56が導出される方向と逆方向に突出させるシリンダ部301a、311cを取付けるためのシリンダ部取付部45を備えるようにしたが、本発明はこれに限らず、本体ケース40の背面板43にシリンダ部取付部を備えるようにしてもよい。この場合には室内機に延びる配管に接続されるガス接続管や液接続管は本体ケース40の前面板44から導出される。   Note that the switching unit 4 in the present embodiment is for attaching cylinder portions 301a, 311c that project in the direction opposite to the direction in which the gas connection pipes 53, 54, 55, 56 are led out to the front plate 44 of the main body case 40. Although the cylinder part attaching part 45 is provided, the present invention is not limited to this, and the back plate 43 of the main body case 40 may be provided with the cylinder part attaching part. In this case, the gas connection pipe and the liquid connection pipe connected to the pipe extending to the indoor unit are led out from the front plate 44 of the main body case 40.

以上説明してきた実施形態では冷媒回路ユニットとして、冷暖房フリーの運転が行える多室形空気調和装置に用いられる切替ユニット1や切替ユニット4を例に挙げて説明したが、本発明はこれに限らず、多室形空気調和装置に用いられ、室外機に接続される冷媒配管を各室内機に接続される複数の冷媒配管に分岐する分岐ユニットなど、複数の冷媒配管と複数の電磁弁を組み合わせて構成した冷媒回路ユニットにおいて適用可能である。   In the embodiment described above, the switching unit 1 and the switching unit 4 used in the multi-chamber air conditioner that can perform an air-conditioning-free operation are described as examples of the refrigerant circuit unit. However, the present invention is not limited to this. A combination of a plurality of refrigerant pipes and a plurality of solenoid valves, such as a branch unit that is used in a multi-room air conditioner and branches a refrigerant pipe connected to an outdoor unit into a plurality of refrigerant pipes connected to each indoor unit The present invention can be applied to the configured refrigerant circuit unit.

1 切替ユニット
10 本体ケース
11 左側板
12 右側板
121 取付部
122 管配置部
13 電磁コイル蓋
14 シリンダ部取付部
140 凸部
140a 傾斜部
141 シール部材
142 シール部材
15 前面板
16 背面板
17 上面板
20 ガス接続管(冷媒配管の一部)
21 高圧ガス接続管(冷媒配管の一部)
22 低圧ガス接続管(冷媒配管の一部)
30 上側開閉弁
300 電磁コイル
301 弁本体
301a シリンダ部
31 下側開閉弁
310 電磁コイル
311 弁本体
311a 主弁
311b 制御弁
311c シリンダ部
311d 接続部
4 切替ユニット
40 本体ケース
41 左側板
42 右側板
43 背面板
44 前面板
441 電装品箱支持部
442 電装品箱配置部
45 シリンダ部取付部
450 凸部
450a 傾斜部
50 高圧ガス接続管(冷媒配管の一部)
51 低圧ガス接続管(冷媒配管の一部)
52 液接続管(冷媒配管の一部)
53、54、55、56 ガス接続管(冷媒配管の一部)
57 液接続管(冷媒配管の一部)
60 電装品箱
A 水平線
B 中心線
θ 水平線Aと中心線Bのなす角度
DESCRIPTION OF SYMBOLS 1 Switching unit 10 Main body case 11 Left side plate 12 Right side plate 121 Attachment part 122 Pipe arrangement | positioning part 13 Electromagnetic coil cover 14 Cylinder part attachment part 140 Convex part 140a Inclination part 141 Seal member 142 Seal member 15 Front plate 16 Back plate 17 Top plate 20 Gas connection pipe (part of refrigerant pipe)
21 High-pressure gas connection pipe (part of refrigerant pipe)
22 Low pressure gas connection pipe (part of refrigerant pipe)
DESCRIPTION OF SYMBOLS 30 Upper side opening / closing valve 300 Electromagnetic coil 301 Valve body 301a Cylinder part 31 Lower side opening / closing valve 310 Electromagnetic coil 311 Valve body 311a Main valve 311b Control valve 311c Cylinder part 311d Connection part 4 Switching unit 40 Body case 41 Left side plate 42 Right side plate 43 Back Face plate 44 Front plate 441 Electrical component box support portion 442 Electrical component box placement portion 45 Cylinder portion mounting portion 450 Convex portion 450a Inclined portion 50 High pressure gas connection pipe (part of refrigerant piping)
51 Low-pressure gas connection pipe (part of refrigerant pipe)
52 Liquid connection pipe (part of refrigerant pipe)
53, 54, 55, 56 Gas connection pipe (part of refrigerant piping)
57 Liquid connection pipe (part of refrigerant pipe)
60 Electrical component box A Horizontal line B Center line θ Angle between horizontal line A and center line B

Claims (3)

複数の冷媒配管と複数の電磁弁と箱状に形成された板金製の本体ケースとからなる冷媒回路ユニットであって、
前記電磁弁は電磁コイルと前記冷媒配管に接続される弁本体とを備え、
前記弁本体は冷媒流路を開閉する主弁と前記主弁の駆動を制御する制御弁と前記電磁コイルが取付けられ前記制御弁を駆動するシリンダ部を有し、前記シリンダ部の軸方向と前記主弁の駆動方向が同じであり、
前記本体ケースの左側板または右側板には前記冷媒配管が導出される方向と同じ方向に突出させる前記シリンダ部を取付けるためのシリンダ部取付部を備え、
前記シリンダ部取付部の一部分には前記シリンダ部が突出される方向と同じ方向に突出する凸部が形成され、
前記凸部は上部から下部に向けて徐々に突出するように傾斜する傾斜部を有し、
前記電磁弁は前記凸部に有する前記傾斜部に対し直角になるように前記シリンダ部を取付けることを特徴とする冷媒回路ユニット。
A refrigerant circuit unit comprising a plurality of refrigerant pipes, a plurality of solenoid valves, and a sheet metal main body case formed in a box shape,
The electromagnetic valve includes an electromagnetic coil and a valve body connected to the refrigerant pipe,
The valve body has a main valve that opens and closes a refrigerant flow path, a control valve that controls driving of the main valve, and a cylinder portion that is mounted with the electromagnetic coil and drives the control valve, and the axial direction of the cylinder portion and the The driving direction of the main valve is the same,
The left side plate or the right side plate of the main body case includes a cylinder portion mounting portion for mounting the cylinder portion protruding in the same direction as the direction in which the refrigerant pipe is led out,
A convex part that protrudes in the same direction as the direction in which the cylinder part protrudes is formed in a part of the cylinder part attachment part,
The convex part has an inclined part inclined so as to gradually protrude from the upper part toward the lower part,
The refrigerant circuit unit according to claim 1, wherein the cylinder portion is attached so that the solenoid valve is perpendicular to the inclined portion of the convex portion.
複数の冷媒配管と複数の電磁弁とから構成された冷媒配管ユニットと前記冷媒配管ユニットを収容する箱状に形成された板金製の本体ケースとからなり、1または複数の室外機と複数の室内機との間に設けられる冷媒回路ユニットであって、
前記電磁弁は電磁コイルと前記冷媒配管に接続される弁本体とを備え、
前記弁本体は冷媒流路を開閉する主弁と前記主弁の駆動を制御する制御弁と前記電磁コイルが取付けられ前記制御弁を駆動するシリンダ部を有し、前記シリンダ部の軸方向と前記主弁の駆動方向が同じであり、
前記複数の冷媒配管の中で前記室外機から延びる配管に接続される冷媒配管は前記本体ケースの左右方向に前記本体ケースから導出され、
前記本体ケースの前面板または背面板には前記複数の冷媒配管の中で前記室内機から延びる配管に接続される冷媒配管が導出される方向とは逆方向に突出させる前記シリンダ部を取付けるためのシリンダ部取付部を備え、
前記シリンダ部取付部の一部分には前記シリンダ部が突出される方向と同じ方向に突出する凸部が形成され、
前記凸部は上部から下部に向けて徐々に突出するように傾斜する傾斜部を有し、
前記電磁弁は前記凸部に有する前記傾斜部に対し直角になるように前記シリンダ部を取付けることを特徴とする冷媒回路ユニット。
1 or a plurality of outdoor units and a plurality of indoor units comprising a refrigerant piping unit composed of a plurality of refrigerant pipings and a plurality of solenoid valves, and a sheet metal body case formed in a box shape for accommodating the refrigerant piping units. A refrigerant circuit unit provided between the machine and
The electromagnetic valve includes an electromagnetic coil and a valve body connected to the refrigerant pipe,
The valve body has a main valve that opens and closes a refrigerant flow path, a control valve that controls driving of the main valve, and a cylinder portion that is mounted with the electromagnetic coil and drives the control valve, and the axial direction of the cylinder portion and the The driving direction of the main valve is the same,
A refrigerant pipe connected to a pipe extending from the outdoor unit among the plurality of refrigerant pipes is led out from the main body case in the left-right direction of the main body case,
For attaching the cylinder portion that projects in a direction opposite to a direction in which a refrigerant pipe connected to a pipe extending from the indoor unit among the plurality of refrigerant pipes is led out to the front plate or the back plate of the main body case. It has a cylinder mounting part,
A convex part that protrudes in the same direction as the direction in which the cylinder part protrudes is formed in a part of the cylinder part attachment part,
The convex part has an inclined part inclined so as to gradually protrude from the upper part toward the lower part,
The refrigerant circuit unit according to claim 1, wherein the cylinder portion is attached so that the solenoid valve is perpendicular to the inclined portion of the convex portion.
前記複数の電磁弁の中に前記シリンダ部の軸方向と前記主弁の駆動方向が違う電磁弁を設け、
前記シリンダ部取付部の上側には前記シリンダ部の軸方向と前記主弁の駆動方向が違う電磁弁のシリンダ部を前記冷媒配管と平行に取付け、前記シリンダ部取付部の下側には前記シリンダ部の軸方向と前記主弁の駆動方向が同じ電磁弁のシリンダ部を前記傾斜部に取付けることを特徴とする請求項1または請求項2記載の冷媒回路ユニット。
In the plurality of electromagnetic valves, an electromagnetic valve in which the axial direction of the cylinder portion and the driving direction of the main valve are different is provided,
A cylinder portion of a solenoid valve having an axial direction different from the axial direction of the cylinder portion and the driving direction of the main valve is mounted in parallel with the refrigerant pipe on the upper side of the cylinder portion mounting portion, and the cylinder is mounted on the lower side of the cylinder portion mounting portion. The refrigerant circuit unit according to claim 1 or 2, wherein a cylinder portion of an electromagnetic valve having the same axial direction as that of the main portion and the driving direction of the main valve is attached to the inclined portion.
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