JP4704830B2 - Liquid pumping device - Google Patents

Liquid pumping device Download PDF

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JP4704830B2
JP4704830B2 JP2005207152A JP2005207152A JP4704830B2 JP 4704830 B2 JP4704830 B2 JP 4704830B2 JP 2005207152 A JP2005207152 A JP 2005207152A JP 2005207152 A JP2005207152 A JP 2005207152A JP 4704830 B2 JP4704830 B2 JP 4704830B2
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working fluid
float
liquid
discharge port
roller
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JP2007024181A (en
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秀昭 湯本
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Tlv Co Ltd
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Description

本発明は、温水や燃料等の液体を圧送する液体圧送装置に関するものである。本発明の液体圧送装置は、各種蒸気使用装置で発生した復水をボイラーや廃熱利用箇所に送る装置として特に適するものである。   The present invention relates to a liquid pumping device that pumps liquid such as hot water or fuel. The liquid pressure feeding device of the present invention is particularly suitable as a device for sending condensate generated in various steam using devices to a boiler or a waste heat utilization site.

従来の液体圧送装置は、作動流体導入口と作動流体排出口と液体流入口及び液体排出口が設けられた密閉容器内にフロートとスナップ機構が配置され、フロートの昇降に応じてスナップ機構を動作させて作動流体導入口と作動流体排出口の開閉を切り換えることにより、密閉容器内に溜った液体を液体排出口から圧送する液体圧送装置において、スナップ機構は、フロートの昇降に応じて揺動するフロートアームと、フロートアームの揺動軸に回転可能に取り付けられた副アームと、フロートアームの揺動に応じてフロートアームの軸線方向に圧縮あるいは伸張変形する圧縮コイルバネと、一端が圧縮コイルバネの変形に応じてフロートアームの軸線方向に移動し他端が副アームにピンを介して回転可能に連結された第1アームとを具備し、第1アームの移動により副アームをスナップ回転させて作動流体導入口と作動流体排出口の開閉を切り換えるものである。   In the conventional liquid pumping device, a float and a snap mechanism are arranged in a sealed container provided with a working fluid introduction port, a working fluid discharge port, a liquid inflow port and a liquid discharge port, and the snap mechanism operates according to the raising and lowering of the float. In the liquid pumping device that pumps the liquid accumulated in the hermetic container from the liquid discharge port by switching between opening and closing of the working fluid introduction port and the working fluid discharge port, the snap mechanism swings in accordance with the elevation of the float A float arm, a sub-arm rotatably attached to the swing axis of the float arm, a compression coil spring that compresses or expands in the axial direction of the float arm according to the swing of the float arm, and one end of the compression coil spring that deforms And a first arm that moves in the axial direction of the float arm and is rotatably connected to the sub arm via a pin. 1 sub arm to snap rotated by the movement of the arm is intended for switching the opening and closing of the working fluid inlet port and the working fluid discharge port.

上記従来の液体圧送装置は、副アームと第1アームを連結するピンが損傷し易いために、比較的短期に作動流体導入口と作動流体排出口の開閉を切り換えることができなくなるという問題点があった。これは、ピンに対して副アームの回転力と第1アームの回転力が逆向きに作用するために、ピンに大きな捩り力が生じるためである。
特許第3170673号公報
The conventional liquid pumping device has a problem in that the opening and closing of the working fluid inlet and the working fluid outlet cannot be switched in a relatively short time because the pin connecting the sub arm and the first arm is easily damaged. there were. This is because a large torsional force is generated in the pin because the rotational force of the sub arm and the rotational force of the first arm act in opposite directions on the pin.
Japanese Patent No. 3170673

解決しようとする課題は、長期に渡って作動流体導入口と作動流体排出口の開閉を切り換えることができる液体圧送装置を提供することである。   The problem to be solved is to provide a liquid pressure feeding device capable of switching between opening and closing of a working fluid introduction port and a working fluid discharge port over a long period of time.

本発明は、作動流体導入口と作動流体排出口と液体流入口及び液体排出口が設けられた密閉容器内にフロートとスナップ機構が配置され、フロートの昇降に応じてスナップ機構を動作させて作動流体導入口と作動流体排出口の開閉を切り換えることにより、密閉容器内に溜った液体を液体排出口から圧送する液体圧送装置において、スナップ機構は、フロートの昇降に応じて揺動するフロートアームと、フロートアームの揺動軸に回転可能に取り付けられた第1ローラと、フロートアームの揺動に応じてフロートアームの軸線方向に圧縮あるいは伸張変形する圧縮コイルバネと、圧縮コイルバネの変形に応じてフロートアームの軸線方向に移動する第2ローラと、第1及び第2ローラの間に押圧されて配置された断面が円状の円状部材とを具備し、第2ローラの移動により円状部材をスナップ移動させて作動流体導入口と作動流体排出口の開閉を切り換えることを特徴とする。   In the present invention, a float and a snap mechanism are arranged in a sealed container provided with a working fluid introduction port, a working fluid discharge port, a liquid inflow port, and a liquid discharge port, and operate by operating the snap mechanism according to the raising and lowering of the float. In the liquid pumping device that pumps the liquid accumulated in the hermetic container from the liquid discharge port by switching between opening and closing of the fluid introduction port and the working fluid discharge port, the snap mechanism includes a float arm that swings as the float moves up and down A first roller rotatably attached to the swing axis of the float arm, a compression coil spring that compresses or expands in the axial direction of the float arm in accordance with the swing of the float arm, and a float in accordance with the deformation of the compression coil spring A second roller that moves in the axial direction of the arm; and a circular member having a circular cross section disposed between the first and second rollers. And, wherein the switching the opening and closing of the circular member snap moved so with the working fluid inlet port and the working fluid discharge port by the movement of the second roller.

本発明は、第1及び第2ローラと円状部材を用いてスナップ機構を構成することにより、長期に渡って作動流体導入口と作動流体排出口の開閉を切り換えて液体を確実に圧送できるという優れた効果を生じる。   According to the present invention, by forming a snap mechanism using the first and second rollers and the circular member, the liquid can be reliably pumped by switching the working fluid introduction port and the working fluid discharge port over a long period of time. It produces an excellent effect.

本発明の液体圧送装置は、従来技術と同様にフロートの昇降に応じてスナップ機構を動作させて作動流体導入口と作動流体排出口の開閉を切り換えることにより、密閉容器内に溜った液体を液体排出口から圧送する。すなわち、フロートの昇降に応じてフロートアームが揺動軸の周りに回転する。このフロートアームの回転に連動して、第2ローラが圧縮コイルバネを圧縮変形せしめてフロートアームの軸線方向に移動し第1ローラと円状部材を結ぶ線の延長上に近付く。そして、第2ローラが第1ローラと円状部材を結ぶ線の延長上を越えると、圧縮コイルバネが急激に変形を回復し、円状部材が第1ローラと円状部材を結ぶ線の延長上に対して初期とは反対側にスナップ移動し、作動流体導入口と作動流体排出口の開閉を切り換える。このように、第1及び第2ローラと円状部材を用いてスナップ機構を構成するので、スナップ機構部で捩り力が生じない。そのため、長期に渡って作動流体導入口と作動流体排出口の開閉を切り換えることができることができる。   The liquid pumping device according to the present invention, as in the prior art, operates the snap mechanism in accordance with the raising and lowering of the float to switch between opening and closing of the working fluid introduction port and the working fluid discharge port. Pump from the outlet. That is, the float arm rotates around the swing axis in accordance with the raising and lowering of the float. In conjunction with the rotation of the float arm, the second roller compresses and deforms the compression coil spring, moves in the axial direction of the float arm, and approaches the extension of the line connecting the first roller and the circular member. When the second roller exceeds the extension of the line connecting the first roller and the circular member, the compression coil spring rapidly recovers from the deformation, and the circular member extends on the extension of the line connecting the first roller and the circular member. , The snap movement is performed on the opposite side to the initial side, and the opening and closing of the working fluid inlet and the working fluid outlet are switched. Thus, since the snap mechanism is configured using the first and second rollers and the circular member, no torsional force is generated in the snap mechanism portion. Therefore, it is possible to switch between opening and closing of the working fluid introduction port and the working fluid discharge port over a long period of time.

上記の技術的手段の具体例を示す実施例を説明する。図1は本発明の具体的実施例の液体圧送装置の断面図である。図2は図1のA−A拡大断面図である。図3は図1のスナップ機構部分の拡大断面図である。図1において、本実施例の液体圧送装置1は密閉容器2内にフロート3と切替え弁4及びスナップ機構5が配されたものである。密閉容器2は本体部7と蓋部8が図示しないネジによって結合され、内部に液体溜空間10が形成されたものである。蓋部8には作動流体導入口11,作動流体排出口13,液体流入口16,液体排出口17が設けられている。   An embodiment showing a specific example of the above technical means will be described. FIG. 1 is a sectional view of a liquid pumping apparatus according to a specific embodiment of the present invention. FIG. 2 is an AA enlarged sectional view of FIG. FIG. 3 is an enlarged cross-sectional view of the snap mechanism portion of FIG. In FIG. 1, a liquid pumping apparatus 1 according to the present embodiment has a float 3, a switching valve 4, and a snap mechanism 5 arranged in a sealed container 2. The sealed container 2 has a main body portion 7 and a lid portion 8 connected by screws (not shown), and a liquid reservoir space 10 is formed inside. The lid 8 is provided with a working fluid introduction port 11, a working fluid discharge port 13, a liquid inflow port 16, and a liquid discharge port 17.

図2に拡大して示すように、作動流体導入口11の内側に給気弁20が取り付けられ、作動流体排出口13の内側に排気弁21が取り付けられている。給気弁20は弁ケース22と弁体23及び昇降棒24によって構成される。弁ケース22は軸方向に貫通孔を有し、貫通孔の上端面は弁座25として機能する。弁ケース22の中間部には前記した貫通孔と外部とを連通する4つの開口26が設けられている。給気弁20の弁ケース22の先端は作動流体導入口11の中にねじ込まれている。弁体23は球状で作動流体導入口11側にあり、昇降棒24の上端が当接することにより開閉される。昇降棒24は弁ケース22の貫通孔を通って密閉容器2側に抜け、下端に連接軸27を介して連接板28に連結されている。排気弁21は弁ケース29と弁体30と昇降棒31によって構成される。弁ケース29は軸方向に貫通孔を有し、該貫通孔の内部に弁座32があり、弁座32の下から昇降棒31の上端に保持固定された弁体30が当接して開閉を行うものである。昇降棒31の下端は連接軸27を介して連接板28に連結されている。給気弁20と排気弁21で切替え弁4が構成され、給気弁20が開くと排気弁21は閉じ、給気弁20が閉じると排気弁21は開く。   As shown in an enlarged view in FIG. 2, an air supply valve 20 is attached inside the working fluid introduction port 11, and an exhaust valve 21 is attached inside the working fluid discharge port 13. The air supply valve 20 includes a valve case 22, a valve body 23, and a lifting rod 24. The valve case 22 has a through hole in the axial direction, and the upper end surface of the through hole functions as the valve seat 25. Four openings 26 are provided in an intermediate portion of the valve case 22 so as to communicate the above-described through holes with the outside. The tip of the valve case 22 of the air supply valve 20 is screwed into the working fluid inlet 11. The valve body 23 is spherical and is on the working fluid inlet 11 side, and is opened and closed when the upper end of the elevating rod 24 abuts. The elevating rod 24 passes through the through hole of the valve case 22 to the closed container 2 side, and is connected to the connecting plate 28 at the lower end via the connecting shaft 27. The exhaust valve 21 includes a valve case 29, a valve body 30, and an elevating rod 31. The valve case 29 has a through hole in the axial direction, and a valve seat 32 is provided inside the through hole. Is what you do. The lower end of the elevating bar 31 is connected to the connecting plate 28 via the connecting shaft 27. The switching valve 4 is constituted by the air supply valve 20 and the exhaust valve 21, and when the air supply valve 20 is opened, the exhaust valve 21 is closed, and when the air supply valve 20 is closed, the exhaust valve 21 is opened.

フロート3はフロートアーム34と揺動軸35を介してブラケット36によって支持されている。ブラケット36は図示しないネジによって密閉容器2の蓋部8に一体的に取り付けられている。スナップ機構5はフロートアーム34、第1ローラ51、第2ローラ52、円状部材53、圧縮コイルバネ54で構成される。フロートアーム34は平行に対向した2枚の板よりなり、左端にフロート3が固着され、右端部が前記した揺動軸35によって回転可能に支持されている。従って、フロート3は揺動軸35を中心として上下に揺動する。また、揺動軸35には第1ローラ51が回転可能に支持されている。   The float 3 is supported by a bracket 36 via a float arm 34 and a swing shaft 35. The bracket 36 is integrally attached to the lid portion 8 of the sealed container 2 by screws (not shown). The snap mechanism 5 includes a float arm 34, a first roller 51, a second roller 52, a circular member 53, and a compression coil spring 54. The float arm 34 is composed of two parallel opposing plates, the float 3 is fixed to the left end, and the right end portion is rotatably supported by the swing shaft 35 described above. Accordingly, the float 3 swings up and down around the swing shaft 35. The first roller 51 is rotatably supported on the swing shaft 35.

フロートアーム34の左端部には揺動軸35と平行な第1の軸55が掛け渡され、第1の軸55に第1のバネ受け部材56が回転可能に支持されている。フロートアーム34の中央部にはフロートアーム34の軸方向に長孔57が設けられ、長孔57内に揺動軸35と平行な第2の軸58が掛け渡され、第2の軸58に第2のバネ受け部材59が回転可能に支持されている。第2の軸58には第2のバネ受け部材59の内側に第2ローラ52が回転可能に支持されている。第1及び第2のバネ受け部材56,59の間にフロートアーム34の軸線方向に圧縮あるいは伸張変形する圧縮状態のコイルバネ54が配置されている。第1ローラ51と第2ローラ52の間に球体や円筒体等の断面が円状の円状部材53が押圧されて配置されている。また、ブラケット36には揺動軸35と平行な第3の軸62が掛け渡され、第3の軸62に第1アーム63が回転可能に支持されている。第1アーム63の右端には揺動軸35と平行な第1連結軸64が貫通して取り付けられ、第1連結軸64に連接板28の下端が連結されている。第1アーム63の左端には揺動軸35と平行な第2連結軸65が貫通して取り付けられ、第2連結軸65に第2アーム66の上端が連結されている。第2アームの下端は円状部材53に連結されている。   A first shaft 55 parallel to the swing shaft 35 is stretched over the left end portion of the float arm 34, and a first spring receiving member 56 is rotatably supported on the first shaft 55. A long hole 57 is provided in the central portion of the float arm 34 in the axial direction of the float arm 34, and a second shaft 58 parallel to the swing shaft 35 is spanned in the long hole 57. The second spring receiving member 59 is rotatably supported. A second roller 52 is rotatably supported on the second shaft 58 inside the second spring receiving member 59. Between the first and second spring receiving members 56 and 59, a coil spring 54 in a compressed state that is compressed or stretched in the axial direction of the float arm 34 is disposed. Between the first roller 51 and the second roller 52, a circular member 53 having a circular cross section such as a sphere or a cylindrical body is pressed and disposed. A third shaft 62 parallel to the swing shaft 35 is stretched over the bracket 36, and the first arm 63 is rotatably supported on the third shaft 62. A first connecting shaft 64 that is parallel to the swing shaft 35 is attached to the right end of the first arm 63 so that the lower end of the connecting plate 28 is connected to the first connecting shaft 64. A second connecting shaft 65 parallel to the swing shaft 35 is attached to the left end of the first arm 63 and the upper end of the second arm 66 is connected to the second connecting shaft 65. The lower end of the second arm is connected to the circular member 53.

次に本実施例の液体圧送装置1の作用について、作動流体として蒸気を用いた場合の一連の動作手順を追うことによって説明する。まず液体圧送装置1の外部配管は作動流体導入口11が高圧の蒸気源に接続され、作動流体排出口13は蒸気循環配管に接続される。液体流入口16は外部から液体溜空間10に向かって開く逆止弁(図示せず)を介して蒸気使用装置等の負荷に接続され、液体排出口17は液体溜空間10から外部に向かって開く逆止弁(図示せず)を介してボイラー等の液体圧送先へ接続される。   Next, the operation of the liquid pumping apparatus 1 of this embodiment will be described by following a series of operation procedures when steam is used as the working fluid. First, in the external piping of the liquid pumping apparatus 1, the working fluid inlet 11 is connected to a high-pressure steam source, and the working fluid outlet 13 is connected to the steam circulation piping. The liquid inlet 16 is connected to a load such as a vapor using device via a check valve (not shown) that opens from the outside toward the liquid reservoir space 10, and the liquid outlet 17 is directed outward from the liquid reservoir space 10. It is connected to a liquid pumping destination such as a boiler via an open check valve (not shown).

本実施例の液体圧送装置1の液体溜空間10内に復水が無い場合は、図1に示す様にフロート3は底部に位置する。このとき、スナップ機構5は円状部材53が揺動軸35と第2の軸58を結ぶ線よりも上方に位置する。そのため、第1連結軸64が下がっており、切替え弁4における給気弁20が閉じられ、排気弁21が開かれている。そして、蒸気使用装置等の負荷内で復水が発生すると、復水は圧送液体流入口16から液体圧送装置1に流下して、液体溜空間10内に溜る。液体溜空間10内に溜った復水によってフロート3が浮上すると、フロートアーム34が揺動軸35を中心に時計回り方向に回転し、第2ローラ52が圧縮コイルバネ54を圧縮変形せしめてフロートアーム34の軸線方向に移動し、第2の軸58が揺動軸35と円状部材53を結ぶ線の延長上に近付く。そして、第2の軸58が揺動軸35と円状部材53を結ぶ線の延長上を越えると、圧縮コイルバネ54が急激に変形を回復し、円状部材53が揺動軸35と第2の軸58を結ぶ線に対して下側にスナップ移動する。これにより、第1連結軸64が上方に移動し、給気弁20は作動流体導入口11を開放し、排気弁21は作動流体排出口13を閉じる。   When there is no condensate in the liquid reservoir space 10 of the liquid pumping apparatus 1 of this embodiment, the float 3 is located at the bottom as shown in FIG. At this time, the snap mechanism 5 is positioned above the line where the circular member 53 connects the swing shaft 35 and the second shaft 58. Therefore, the first connecting shaft 64 is lowered, the air supply valve 20 in the switching valve 4 is closed, and the exhaust valve 21 is opened. When condensate is generated in a load such as a steam using device, the condensate flows down from the pumping liquid inlet 16 to the liquid pumping device 1 and accumulates in the liquid reservoir space 10. When the float 3 rises due to the condensate accumulated in the liquid reservoir space 10, the float arm 34 rotates clockwise about the swing shaft 35, and the second roller 52 compresses and deforms the compression coil spring 54 to float the float arm 34. 34, the second shaft 58 approaches the extension of the line connecting the swing shaft 35 and the circular member 53. When the second shaft 58 exceeds the extension of the line connecting the rocking shaft 35 and the circular member 53, the compression coil spring 54 suddenly recovers from the deformation, and the circular member 53 moves between the rocking shaft 35 and the second shaft 53. Snap movement downward with respect to the line connecting the axes 58 of the two. As a result, the first connecting shaft 64 moves upward, the air supply valve 20 opens the working fluid introduction port 11, and the exhaust valve 21 closes the working fluid discharge port 13.

作動流体導入口11が開放されると、密閉容器2内に高圧蒸気が導入され、内部の圧力が上昇し、液体溜空間10に溜った復水は、蒸気圧に押されて圧送液体排出口17から図示しない逆止弁を介して外部のボイラーや廃熱利用装置へ排出される。復水の排出によって復水溜空間10内の水位が低下すると、フロート3が降下して、フロートアーム34が揺動軸35を中心に反時計回り方向に回転し、第2ローラ52が圧縮コイルバネ54を圧縮変形せしめてフロートアーム34の軸線方向に移動し、第2の軸58が揺動軸35と円状部材53を結ぶ線の延長上に近付く。そして、第2の軸58が揺動軸35と円状部材53を結ぶ線の延長上を越えると、圧縮コイルバネ54が急激に変形を回復し、円状部材53が揺動軸35と第2の軸58を結ぶ線に対して上側にスナップ移動する。これにより、第1連結軸64が下方に移動し、給気弁20は作動流体導入口11を閉じ、排気弁21は作動流体排出口13を開放する。   When the working fluid inlet 11 is opened, high-pressure steam is introduced into the sealed container 2, the internal pressure rises, and the condensate accumulated in the liquid reservoir space 10 is pushed by the vapor pressure to be pumped liquid outlet. 17 is discharged to an external boiler or waste heat utilization device via a check valve (not shown). When the water level in the condensate reservoir space 10 decreases due to the discharge of condensate, the float 3 descends, the float arm 34 rotates counterclockwise about the swing shaft 35, and the second roller 52 compresses the compression coil spring 54. Is compressed and deformed and moved in the axial direction of the float arm 34, and the second shaft 58 approaches the extension of the line connecting the swing shaft 35 and the circular member 53. When the second shaft 58 exceeds the extension of the line connecting the rocking shaft 35 and the circular member 53, the compression coil spring 54 suddenly recovers from the deformation, and the circular member 53 moves between the rocking shaft 35 and the second shaft 53. Snap to the upper side with respect to the line connecting the axes 58. As a result, the first connecting shaft 64 moves downward, the air supply valve 20 closes the working fluid introduction port 11, and the exhaust valve 21 opens the working fluid discharge port 13.

本発明の実施例の液体圧送装置の断面図。Sectional drawing of the liquid pumping apparatus of the Example of this invention. 図1のA−A拡大断面図。The AA expanded sectional view of FIG. 図1のスナップ機構部分の拡大断面図。The expanded sectional view of the snap mechanism part of FIG.

符号の説明Explanation of symbols

1 液体圧送装置
2 密閉容器
3 フロート
4 切替え弁
5 スナップ機構
10 液体溜空間
11 作動流体導入口
13 作動流体排出口
16 液体流入口
17 液体排出口
20 給気弁
21 排気弁
34 フロートアーム
35 揺動軸
51 第1ローラ
52 第2ローラ
53 円状部材
54 圧縮コイルバネ
DESCRIPTION OF SYMBOLS 1 Liquid pumping apparatus 2 Sealed container 3 Float 4 Switching valve 5 Snap mechanism 10 Liquid reservoir space 11 Working fluid inlet 13 Working fluid outlet 16 Liquid inlet 17 Liquid outlet 20 Air supply valve 21 Exhaust valve 34 Float arm 35 Oscillation Shaft 51 First roller 52 Second roller 53 Circular member 54 Compression coil spring

Claims (1)

作動流体導入口と作動流体排出口と液体流入口及び液体排出口が設けられた密閉容器内にフロートとスナップ機構が配置され、フロートの昇降に応じてスナップ機構を動作させて作動流体導入口と作動流体排出口の開閉を切り換えることにより、密閉容器内に溜った液体を液体排出口から圧送する液体圧送装置において、スナップ機構は、フロートの昇降に応じて揺動するフロートアームと、フロートアームの揺動軸に回転可能に取り付けられた第1ローラと、フロートアームの揺動に応じてフロートアームの軸線方向に圧縮あるいは伸張変形する圧縮コイルバネと、圧縮コイルバネの変形に応じてフロートアームの軸線方向に移動する第2ローラと、第1及び第2ローラの間に押圧されて配置された断面が円状の円状部材とを具備し、第2ローラの移動により円状部材をスナップ移動させて作動流体導入口と作動流体排出口の開閉を切り換えることを特徴とする液体圧送装置。
A float and a snap mechanism are arranged in a sealed container provided with a working fluid introduction port, a working fluid discharge port, a liquid inflow port and a liquid discharge port, and the working mechanism is operated by operating the snap mechanism according to the raising and lowering of the float. In the liquid pumping device that pumps the liquid accumulated in the hermetic container from the liquid discharge port by switching the opening and closing of the working fluid discharge port, the snap mechanism includes a float arm that swings as the float moves up and down, and a float arm A first roller rotatably attached to the swing shaft, a compression coil spring that compresses or expands in the axial direction of the float arm according to the swing of the float arm, and an axial direction of the float arm according to the deformation of the compression coil spring A second roller that moves between the first roller and the second roller, and a circular member having a circular cross section disposed between the first and second rollers. Liquid pumping apparatus characterized by a circular member by snap moving switch the opening and closing of the working fluid inlet port and the working fluid discharge port by the movement of the over la.
JP2005207152A 2005-07-15 2005-07-15 Liquid pumping device Expired - Fee Related JP4704830B2 (en)

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JP2007024181A JP2007024181A (en) 2007-02-01
JP4704830B2 true JP4704830B2 (en) 2011-06-22

Family

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Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP3936070B2 (en) * 1998-06-15 2007-06-27 株式会社テイエルブイ Liquid pumping device
JP3408804B2 (en) * 2000-08-11 2003-05-19 カミタ総合設備株式会社 Float control valve

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