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JP5552342B2 - Relief valve - Google Patents

Relief valve Download PDF

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Publication number
JP5552342B2
JP5552342B2 JP2010058455A JP2010058455A JP5552342B2 JP 5552342 B2 JP5552342 B2 JP 5552342B2 JP 2010058455 A JP2010058455 A JP 2010058455A JP 2010058455 A JP2010058455 A JP 2010058455A JP 5552342 B2 JP5552342 B2 JP 5552342B2
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valve
valve body
outlet
inlet
opening
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JP2011190889A (en
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匡章 隈元
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TLV Co Ltd
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TLV Co Ltd
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Description

本発明は、流体配管や流体機器等の流体配管系に接続して流入口の圧力が流出口の圧力に比べて設定圧力値よりも高くなると開弁するリリーフ弁に関し、特にハンチングによる騒音を防止できるものに関する。 The present invention relates to a relief valve that is connected to a fluid piping system such as a fluid piping or a fluid device and opens when the pressure at the inlet becomes higher than a set pressure value compared with the pressure at the outlet, and particularly prevents noise caused by hunting. It relates to what can be done.

従来のリリーフ弁は、例えば特許文献1に開示されている。これは、流入口と流出口を有する弁ケーシング内に流入口と流出口が連通する弁室を形成し、流入口と弁室の間に弁口を有する環状弁座を設け、環状弁座に離着座して弁口を開閉する円板状の弁体を弁室内に配置し、常時は弁体が環状弁座に着座して弁口を閉弁し流入口の圧力が流出口の圧力に比べて設定圧力値よりも高くなると弁体が環状弁座から離座して弁口を開弁するものである。 A conventional relief valve is disclosed in Patent Document 1, for example. This is because a valve chamber in which an inlet and an outlet communicate with each other is formed in a valve casing having an inlet and an outlet, and an annular valve seat having a valve port is provided between the inlet and the valve chamber. A disc-shaped valve element that opens and closes and opens and closes the valve port is placed in the valve chamber. Normally, the valve element is seated on the annular valve seat, the valve port is closed, and the inlet pressure becomes the outlet pressure. When the pressure is higher than the set pressure value, the valve body is separated from the annular valve seat and the valve port is opened.

特開2006−170321JP 2006-170321 A

上記従来のリリーフ弁は、流入口の圧力が流出口の圧力に比べて設定圧力値よりも高くなると弁体が環状弁座から離座して弁口を開弁することにより流体が流入口から流出口へ流れるのであるが、流体が流入口から流出口へ流れると流入口と流出口の圧力差が設定圧力値よりも低くなり弁体が環状弁座に着座して弁口を閉弁し、弁体が環状弁座に着座して弁口を閉弁すると流出口の圧力が低下して流入口の圧力が流出口の圧力に比べて設定圧力値よりも高くなり再び弁体が環状弁座から離座して弁口を開弁し、開閉弁を繰り返すハンチング現象が発生し、弁体が環状弁座に着座することと弁体が全開時に弁ケーシングに当接することを繰り返すことによる騒音が著しいという問題点があった。 In the conventional relief valve described above, when the pressure at the inlet becomes higher than the set pressure value compared with the pressure at the outlet, the valve body separates from the annular valve seat and opens the valve port, so that fluid flows from the inlet. When the fluid flows from the inlet to the outlet, the pressure difference between the inlet and the outlet becomes lower than the set pressure value, and the valve element sits on the annular valve seat and closes the valve opening. When the valve body is seated on the annular valve seat and the valve port is closed, the pressure at the outflow port decreases and the pressure at the inflow port becomes higher than the set pressure value compared to the pressure at the outflow port. A hunting phenomenon occurs in which the valve port is opened by opening the valve port from the seat and the valve valve is repeatedly opened, and the noise caused by repeated seating of the valve body on the annular valve seat and contact of the valve body with the valve casing when fully opened There was a problem that it was remarkable.

したがって本発明が解決しようとする課題は、弁体が環状弁座に着座することと弁体が全開時に弁ケーシングに当接することを繰り返すことによる騒音を低減できるリリーフ弁を提供することである。 Therefore, the problem to be solved by the present invention is to provide a relief valve that can reduce noise caused by repeated seating of the valve body on the annular valve seat and contact of the valve body with the valve casing when fully opened.

上記の課題を解決するために、本発明のリリーフ弁は、流入口と流出口を有する弁ケーシング内に流入口と流出口が連通する弁室を形成し、流入口と弁室の間に弁口を有する環状弁座を設け、環状弁座に離着座して弁口を開閉する円板状の弁体を弁室内に配置したものにおいて、弁体の外周を弁口の軸方向に摺動案内するシリンダを設け、弁体が環状弁座から離座して所定量開弁方向に変位したとき開口される流出窓をシリンダに設け、弾性部材により弁体方向に付勢され流出窓を開口した後に全開方向に変位する弁体が当接する可動部材を設け、常時は弁体が環状弁座に着座して弁口を閉弁し流入口の圧力が流出口の圧力に比べて設定圧力値よりも高くなると弁体が環状弁座から離座して弁口を開弁すると共に弁体が所定量開弁方向に変位して流出窓を開口し流出窓を開口した後に弁体が弾性部材に抗して可動部材を変位せしめながら全開方向に変位することを特徴とするものである。 In order to solve the above problems, a relief valve of the present invention forms a valve chamber in which a flow inlet and a flow outlet communicate with each other in a valve casing having a flow inlet and a flow outlet, and the valve is provided between the flow inlet and the valve chamber. An annular valve seat having a port is provided, and a disc-shaped valve body that opens and closes the valve valve seat and opens and closes the valve port is disposed in the valve chamber. The outer periphery of the valve body slides in the axial direction of the valve port. A cylinder for guiding is provided, and an outflow window that opens when the valve body is separated from the annular valve seat and displaced in the valve opening direction by a predetermined amount is provided in the cylinder, and the outflow window is urged in the valve body direction by an elastic member After that, a movable member that contacts the valve body that is displaced in the fully open direction is provided, and the valve body is normally seated on the annular valve seat and the valve port is closed so that the pressure at the inlet is a set pressure value compared to the pressure at the outlet. The valve body is separated from the annular valve seat to open the valve port, and the valve body is displaced by a predetermined amount in the valve opening direction. Valve outflow window after opening the open outlet window Te is characterized in that the displacement in the fully open direction while allowed displace the movable member against the elastic member.

本発明は、弁体の外周を弁口の軸方向に摺動案内するシリンダを設け、弁体が環状弁座から離座して所定量開弁方向に変位したとき開口される流出窓をシリンダに設け、弾性部材により弁体方向に付勢され流出窓を開口した後に全開方向に変位する弁体が当接する可動部材を設け、常時は弁体が環状弁座に着座して弁口を閉弁し流入口の圧力が流出口の圧力に比べて設定圧力値よりも高くなると弁体が環状弁座から離座して弁口を開弁すると共に弁体が所定量開弁方向に変位して流出窓を開口し流出窓を開口した後に弁体が弾性部材に抗して可動部材を変位せしめながら全開方向に変位するものである。そのため、流入口の圧力が流出口の圧力に比べて設定圧力値よりも高くなると弁体が環状弁座から離座して弁口を開弁すると共に弁体が所定量開弁方向に変位して流出窓を開口し流出窓を開口した後に弁体が弾性部材に抗して可動部材を変位せしめながら全開方向に変位することにより、流体が流入口から流出口へ流れる。流体が流入口から流出口へ流れると流入口と流出口の圧力差が設定圧力値よりも低くなり弁体が閉弁方向に変位して流出窓を閉口し、弁体が流出窓を閉口すると流出口の圧力が低下して流入口の圧力が流出口の圧力に比べて設定圧力値よりも高くなり再び弁体が開弁方向に変位して流出窓を開口し流出窓を開口した後に弁体が弾性部材に抗して可動部材を変位せしめながら全開方向に変位し、流出窓の開閉を繰り返す。そのため、弁体が環状弁座に着座することを繰り返さないので弁体が環状弁座に着座することを繰り返すことによる騒音を低減できると共に、弁体が全開時に弁ケーシングに当接するときの衝撃を弾性部材により緩衝できるので弁体が全開時に弁ケーシングに当接することを繰り返すことによる騒音を低減できるという優れた効果を奏する。 The present invention provides a cylinder that slides and guides the outer periphery of the valve body in the axial direction of the valve port, and sets the outflow window that opens when the valve body is separated from the annular valve seat and displaced in the valve opening direction by a predetermined amount. Provided with a movable member that contacts the valve body that is urged in the valve body direction by an elastic member and opens in the outflow window and then displaces in the fully open direction. Normally, the valve body is seated on the annular valve seat and the valve port is closed. When the pressure at the valve inlet becomes higher than the set pressure value compared to the pressure at the outlet, the valve body is separated from the annular valve seat to open the valve port and the valve body is displaced in the valve opening direction by a predetermined amount. After opening the outflow window and opening the outflow window, the valve body is displaced in the fully open direction while displacing the movable member against the elastic member. Therefore, when the pressure at the inlet becomes higher than the set pressure value compared with the pressure at the outlet, the valve body is separated from the annular valve seat to open the valve port, and the valve body is displaced in the valve opening direction by a predetermined amount. Then, after opening the outflow window and opening the outflow window, the valve body is displaced in the fully open direction while displacing the movable member against the elastic member, so that the fluid flows from the inflow port to the outflow port. When the fluid flows from the inlet to the outlet, the pressure difference between the inlet and outlet becomes lower than the set pressure value, and the valve body is displaced in the valve closing direction to close the outflow window, and the valve body closes the outflow window. After the outlet pressure decreases and the inlet pressure becomes higher than the set pressure value compared to the outlet pressure, the valve body is displaced again in the valve opening direction to open the outflow window and open the outflow window. The body is displaced in the full opening direction while displacing the movable member against the elastic member, and repeatedly opens and closes the outflow window. Therefore, since the valve body does not repeatedly sit on the annular valve seat, noise due to repeated seating of the valve body on the annular valve seat can be reduced, and the impact when the valve body comes into contact with the valve casing when fully opened is reduced. Since it can be buffered by the elastic member, there is an excellent effect that noise due to repeated contact of the valve body with the valve casing when fully opened can be reduced.

本発明の実施の形態に係わるリリーフ弁の断面図である。It is sectional drawing of the relief valve concerning embodiment of this invention.

以下、本発明の実施の形態について、図1を参照して説明する。本体1と蓋部材2から弁ケーシングを構成し、弁ケーシング内に弁室3を形成する。弁室3に連通する流入口4と流出口5を本体1に形成し、流入口4の弁室3側開口端に弁口6を有する環状弁座7を設ける。環状弁座7と一体にシリンダ8を形成する。環状弁座7とシリンダ8は本体1と蓋部材2の間に挟んで固定する。環状弁座7に離着座して弁口6を開閉する円板上の弁体9を環状弁座5に対向して弁室3内に配置する。弁体9はその下面から突出させて設けた流入口側弁棒10と上面から突出させて設けた流出口側弁棒11を一体に有する。流入口側弁棒10の外周を摺動案内するガイド孔を有する流入口側ガイド部材12を本体1に一体に形成する。流出口側弁棒11の外周を摺動案内するガイド孔を有する流出口側ガイド部材としての機能を有する可動部材13を蓋部材2にねじ結合する袋ナット15により保持する。可動部材13は蓋部材2との間に配置された弾性部材としてのコイルバネ16により弁体9方向に付勢される。 Hereinafter, an embodiment of the present invention will be described with reference to FIG. A valve casing is constituted by the main body 1 and the lid member 2, and a valve chamber 3 is formed in the valve casing. An inlet 4 and an outlet 5 communicating with the valve chamber 3 are formed in the main body 1, and an annular valve seat 7 having a valve port 6 is provided at the valve chamber 3 side opening end of the inlet 4. A cylinder 8 is formed integrally with the annular valve seat 7. The annular valve seat 7 and the cylinder 8 are sandwiched and fixed between the main body 1 and the lid member 2. A valve body 9 on a disk that opens and closes the valve port 6 by being seated on and off the annular valve seat 7 is disposed in the valve chamber 3 so as to face the annular valve seat 5. The valve body 9 integrally includes an inlet-side valve rod 10 provided so as to protrude from the lower surface thereof and an outlet-side valve rod 11 provided so as to protrude from the upper surface thereof. An inlet-side guide member 12 having a guide hole for slidingly guiding the outer periphery of the inlet-side valve stem 10 is formed integrally with the main body 1. A movable member 13 having a function as an outlet side guide member having a guide hole for slidingly guiding the outer periphery of the outlet side valve stem 11 is held by a cap nut 15 that is screwed to the lid member 2. The movable member 13 is urged toward the valve body 9 by a coil spring 16 as an elastic member disposed between the movable member 13 and the lid member 2.

シリンダ8は弁体9の外周を弁口6の軸方向に摺動案内し、弁体9が環状弁座7から離座して所定量開弁方向に変位したときに開口される複数個の例えば4個の流出窓14を有する。可動部材13には流出窓14を開口した後に全開方向に変位する弁体9が当接する。常時は弁体9が環状弁座7に着座して弁口6を閉弁し流入口4の圧力が流出口5の圧力に比べて設定圧力値よりも高くなると弁体9が環状弁座7から離座して弁口6を開弁すると共に弁体9が所定量開弁方向に変位して流出窓14を開口し流出窓14を開口した後に弁体9がコイルバネ16に抗して可動部材13を変位せしめながら全開方向に変位する。 The cylinder 8 slides and guides the outer periphery of the valve body 9 in the axial direction of the valve port 6, and a plurality of openings are opened when the valve body 9 is moved away from the annular valve seat 7 and displaced in the valve opening direction by a predetermined amount. For example, it has four outflow windows 14. The movable member 13 is in contact with the valve body 9 that is displaced in the full opening direction after the outflow window 14 is opened. Normally, when the valve body 9 is seated on the annular valve seat 7 and the valve port 6 is closed and the pressure at the inlet 4 becomes higher than the set pressure value compared with the pressure at the outlet 5, the valve body 9 is moved to the annular valve seat 7. The valve body 9 is moved against the coil spring 16 after the valve body 9 is opened and the valve body 6 is opened and the valve body 9 is displaced by a predetermined amount in the valve opening direction to open the outflow window 14 and open the outflow window 14. The member 13 is displaced in the fully open direction while being displaced.

図示の状態は流入口4の圧力が流出口5の圧力に比べて設定圧力値よりも低い常時であり、弁体9が環状弁座7に着座して弁口6を閉弁している。 In the state shown in the drawing, the pressure at the inlet 4 is always lower than the set pressure value compared with the pressure at the outlet 5, and the valve body 9 is seated on the annular valve seat 7 and the valve port 6 is closed.

流入口4の圧力が流出口5の圧力に比べて設定圧力値よりも高くなると弁体9が環状弁座7から離座して弁口6を開弁すると共に弁体9が所定量開弁方向に変位して流出窓14を開口し流出窓14を開口した後に弁体9がコイルバネ16に抗して可動部材13を変位せしめながら全開方向に変位する。これにより、流体が流入口4から弁口6、流出窓14を通して流出口5へ流れる。流体が流入口4から流出口5へ流れると流入口4と流出口5の圧力差が設定圧力値よりも低くなり弁体9が閉弁方向に変位して流出窓14を閉口し、弁体9が流出窓14を閉口すると流出口5の圧力が低下して流入口4の圧力が流出口5の圧力に比べて設定圧力値よりも高くなり再び弁体9が開弁方向に変位して流出窓14を開口し、流出窓14の開閉を繰り返す。そのため、弁体9が環状弁座7に着座することを繰り返さないので弁体9が環状弁座7に着座することを繰り返すことによる騒音を低減できる。また、弁体9が全開時に蓋部材2に当接するときの衝撃をコイルバネ16により緩衝できるので弁体9が全開時に蓋部材2に当接することを繰り返すことによる騒音を低減できる。 When the pressure at the inlet 4 becomes higher than the set pressure value compared to the pressure at the outlet 5, the valve body 9 is separated from the annular valve seat 7 to open the valve port 6 and the valve body 9 is opened by a predetermined amount. The valve body 9 is displaced in the fully open direction while displacing the movable member 13 against the coil spring 16 after opening the outflow window 14 by opening the outflow window 14. As a result, the fluid flows from the inlet 4 to the outlet 5 through the valve port 6 and the outlet window 14. When the fluid flows from the inlet 4 to the outlet 5, the pressure difference between the inlet 4 and the outlet 5 becomes lower than the set pressure value, the valve body 9 is displaced in the valve closing direction, the outlet window 14 is closed, and the valve body is closed. When 9 closes the outflow window 14, the pressure at the outlet 5 decreases, the pressure at the inlet 4 becomes higher than the set pressure value compared to the pressure at the outlet 5, and the valve element 9 is displaced again in the valve opening direction. The outflow window 14 is opened and the outflow window 14 is repeatedly opened and closed. Therefore, since it does not repeat that the valve body 9 seats on the annular valve seat 7, the noise by repeating that the valve body 9 seats on the annular valve seat 7 can be reduced. Further, since the impact when the valve body 9 comes into contact with the lid member 2 when fully opened can be buffered by the coil spring 16, noise due to repeated contact of the valve body 9 with the lid member 2 when fully opened can be reduced.

本発明は、流体配管や流体機器等の流体配管系に接続して流入口の圧力が流出口の圧力に比べて設定圧力値よりも高くなると開弁するリリーフ弁に利用することができる。 The present invention can be used for a relief valve that is connected to a fluid piping system such as a fluid piping or a fluid device and opens when the pressure at the inlet becomes higher than a set pressure value compared to the pressure at the outlet.

1 本体
2 蓋部材
3 弁室
4 流入口
5 流出口
6 弁口
7 環状弁座
8 シリンダ
9 弁体
10 流入口側弁棒
11 流出口側弁棒
12 流入口側ガイド部材
13 可動部材
14 流出窓
15 袋ナット
16 コイルバネ
DESCRIPTION OF SYMBOLS 1 Main body 2 Lid member 3 Valve chamber 4 Inlet 5 Outlet 6 Valve port 7 Annular valve seat 8 Cylinder 9 Valve body 10 Inlet side valve rod 11 Outlet side valve rod 12 Inlet side guide member 13 Movable member 14 Outlet window 15 Cap nut 16 Coil spring

Claims (1)

流入口と流出口を有する弁ケーシング内に前記流入口と前記流出口が連通する弁室を形成し、前記流入口と前記弁室の間に弁口を有する環状弁座を設け、前記環状弁座に離着座して前記弁口を開閉する円板状の弁体を前記弁室内に配置したものにおいて、外周が摺動案内される流入口側弁棒を前記弁体の一面から突出させて設けるとともに外周が摺動案内される流出口側弁棒を前記弁体の他面から突出させて設け、前記弁体の外周を前記弁口の軸方向に摺動案内するシリンダを設け、前記弁体が前記環状弁座から離座して所定量開弁方向に変位したとき開口される流出窓を前記シリンダに設け、弾性部材により前記弁体方向に付勢され前記流出窓を開口した後に全開方向に変位する前記弁体が当接する可動部材を設け、常時は前記弁体が前記環状弁座に着座して前記弁口を閉弁し前記流入口の圧力が前記流出口の圧力に比べて設定圧力値よりも高くなると前記弁体が前記環状弁座から離座して前記弁口を開弁すると共に前記弁体が所定量開弁方向に変位して前記流出窓を開口し前記流出窓を開口した後に前記弁体が前記弾性部材に抗して前記可動部材を変位せしめながら全開方向に変位することを特徴とするリリーフ弁。 It said inlet and said outlet to form a valve chamber communicating with a valve casing having an inlet and an outlet, an annular valve seat having a valve port between said valve chamber and said inlet port, said annular valve in the disc-shaped valve element for opening and closing the valve port and away sitting on the seat which is arranged in the valve chamber, to project an inlet side valve rod periphery is slidably guided from one side of the valve body together with an outlet-side valve rod periphery is slidably guided to protrude from the other surface of the valve body is provided, a cylinder for sliding guide an outer periphery of the valve body in the axial direction of the valve port is provided, said valve is provided fully opened from the body said annular valve seat and unseated provided an outlet window which is opened when the displacement in a predetermined amount the valve opening direction to the cylinder, after opening the biased the outlet window into the valve body direction by the elastic member the valve body is displaced in the direction provided movable member abuts, normally the valve body is the Seated on Jo valve seat closes the valve port said inlet pressure is the higher than the set pressure value in comparison with the pressure outlet and the valve body is unseated to said valve from said annular valve seat said valve body while allowed to displace the movable member against the valve body is the elastic member after opening and opening said outlet window is displaced by a predetermined amount the valve opening direction the outflow window with opening the mouth A relief valve that is displaced in the fully open direction.
JP2010058455A 2010-03-15 2010-03-15 Relief valve Expired - Fee Related JP5552342B2 (en)

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JP2011190889A JP2011190889A (en) 2011-09-29
JP5552342B2 true JP5552342B2 (en) 2014-07-16

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