JPS603165Y2 - Water stop valve - Google Patents
Water stop valveInfo
- Publication number
- JPS603165Y2 JPS603165Y2 JP6075079U JP6075079U JPS603165Y2 JP S603165 Y2 JPS603165 Y2 JP S603165Y2 JP 6075079 U JP6075079 U JP 6075079U JP 6075079 U JP6075079 U JP 6075079U JP S603165 Y2 JPS603165 Y2 JP S603165Y2
- Authority
- JP
- Japan
- Prior art keywords
- valve body
- water
- main valve
- valve
- valve seat
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Domestic Plumbing Installations (AREA)
- Self-Closing Valves And Venting Or Aerating Valves (AREA)
Description
【考案の詳細な説明】
本案は瞬間湯沸器の如き元止式給湯器に使用して好適な
、給水元栓(家庭用水栓)と給湯器熱交換器の間に設け
る止水栓に関する。[Detailed Description of the Invention] The present invention relates to a stop valve that is suitable for use in a stop water heater such as an instantaneous water heater and is installed between a water supply tap (household faucet) and a water heater heat exchanger.
従来、この種給湯器には給湯操作(給水操作)がワンタ
ッチで操作できる止水栓が各種提供されている。BACKGROUND ART Conventionally, various kinds of water stop valves have been provided for this type of water heater, which allow a one-touch operation for supplying hot water (water supply operation).
操作的には止水栓の止水弁体を操作杆の軸方向移動によ
る押圧・解除で開閉する方式が一般的で且つ便利なもの
であるが、開弁時には給水圧に抗して押圧開成する為相
当の押圧力が必要であり、又、閉弁時に於ては、操作杆
の押圧を解除すれば水流作用で自動的に閉弁するもので
あるが、水の流動エネルギにより往々にして止水弁体が
急激に閉成して弁座への衝突でウォータハンマを発生せ
しめ、弁体の損傷による耐久性を低下させたり、或は特
に給水元栓が所謂吊りごま式構造のような種類によって
は、止水弁体の閉弁と共に元栓吊りごまも逆止め作用で
自重により閉弁するので止水弁閉弁による圧力水がとじ
込められて次の開弁時には異常高圧の為により大きな操
作力を要する等不具合の生じやすいものであった。In terms of operation, it is common and convenient to open and close the water stop valve body of the water stop valve by pressing and releasing it by moving the operating rod in the axial direction. A considerable amount of pressure is required to close the valve, and when the pressure on the operating rod is released, the valve closes automatically due to the water flow, but the flow energy of the water often causes the valve to close. The water stop valve closes suddenly and collides with the valve seat, causing water hammer, which reduces the durability due to damage to the valve, or especially when the water supply valve has a so-called hanging sesame type structure. In some cases, when the water stop valve body closes, the main valve hanging sesame also closes due to its own weight due to the non-return action, so the pressure water caused by the water stop valve closing is trapped, and the next time the valve is opened, the abnormally high pressure will cause a greater operation. It was easy to cause problems such as requiring force.
従ってこれらを解決する為に種々の構造の止水栓が提供
されており、実開昭54−9736号はその一例として
あげることができる。Therefore, in order to solve these problems, water stop valves with various structures have been provided, and Utility Model Application Publication No. 54-9736 is one example.
しかしながら前記のものは止水弁体構造が三分割された
もので、構成的に複雑であると共に各弁毎に動作する為
に多弁の通水間隔、微少間隔の量設定が加工上難しく、
バラツキの生じやすい欠点があり信頼性が悪いといった
下具合がある。However, the above-mentioned water stop valve body structure is divided into three parts, and it is structurally complex and operates individually for each valve, making it difficult to set the amount of water flow between multiple valves and minute intervals.
It has the disadvantage of being prone to variations and being unreliable.
そこで本案は構造的により簡単で、加工の容易な、又、
止水時の熱交換器内残本をたやすく排水できるように排
水構も一体的に形成した実用的に優れた止水栓を提供し
ようとするもので、以下にその実施例を図面に基づいて
説明する。Therefore, this project is simpler in structure, easier to process, and
The purpose is to provide a practically excellent water stop valve that has an integrated drainage structure so that the water remaining in the heat exchanger can be easily drained when the water is stopped. I will explain.
図に於て、1は止水栓を構成するケーシング、2は該ケ
ーシング1内へ図示しない給水源と接続して水を流通さ
せる流入路、3は該止水栓ケーシングと給湯器熱交換器
(図示せず)を接続して該熱交換器へ水を供給する流出
路であり、この流入路、流出路でケーシング内通水路を
形成している。In the figure, 1 is a casing constituting a water stop valve, 2 is an inflow path through which water flows into the casing 1 by connecting it to a water supply source (not shown), and 3 is a heat exchanger between the water stop valve casing and the water heater. (not shown) to supply water to the heat exchanger, and the inflow and outflow paths form an in-casing water passage.
しかして該水路内には弁座4が形成され、該弁座には給
水背圧を受ける有底筒状の主弁体が摺動接離可能に設け
られている。A valve seat 4 is formed within the water channel, and a bottomed cylindrical main valve body that receives water supply back pressure is slidably provided on the valve seat.
該主弁体5の弁座4に接離する底部略中央部には該底壁
を貫通した通水孔6が設けられ、筒壁部には該主弁体と
ケーシングで形成される背圧室8と流入路2を連通する
細孔7が設けられている。A water passage hole 6 penetrating the bottom wall is provided in the substantially central portion of the bottom of the main valve body 5 that approaches and separates from the valve seat 4, and a back pressure formed by the main valve body and the casing is provided in the cylindrical wall. A pore 7 is provided that communicates the chamber 8 with the inlet channel 2 .
8は背圧室で、前記細孔7により流入路2と連通ずると
共に通水孔6を通して流出路3とも所要時連通ずる。Reference numeral 8 denotes a back pressure chamber, which communicates with the inflow passage 2 through the pore 7 and also communicates with the outflow passage 3 through the water passage hole 6 when necessary.
9は、背圧室8側から主弁体5の通水孔6を開閉する副
弁体で、該主弁体よりもその受圧面積が小となるよう形
成している。Reference numeral 9 denotes a sub-valve element that opens and closes the water passage hole 6 of the main valve element 5 from the back pressure chamber 8 side, and is formed so that its pressure-receiving area is smaller than that of the main valve element.
9aは副弁体9を押圧して通水孔を開く押圧杆で、該部
の外径は通水孔6の径よりも小としてその間に通水間隙
を有するようにしている=尚、この押圧杆は図例では副
弁体と一体にしているが、後述する別体の操作杆の一部
で形成してもよい。Reference numeral 9a denotes a press rod that presses the sub-valve body 9 to open the water passage hole, and the outer diameter of this part is smaller than the diameter of the water passage hole 6 so that there is a water passage gap therebetween. In the illustrated example, the pressing rod is integrated with the sub-valve body, but it may be formed as a part of a separate operating rod, which will be described later.
又、この副弁体9は、給水操作による主弁体5の開成時
に該主体の弁座4離脱開戒よりも先行して通水孔6を開
成するように押圧杆9aと関連せしめられ、主弁体5の
弁座閉成時はそれよりも先行して通水孔6を閉威するよ
うに背圧室8側よりスプリング10で常閉習性を付与さ
れている。Further, this sub-valve body 9 is associated with the pressing rod 9a so that when the main valve body 5 is opened by a water supply operation, the water passage hole 6 is opened prior to the opening of the valve seat 4 of the main body, When the valve seat of the main valve element 5 is closed, a spring 10 is applied from the back pressure chamber 8 side to provide a normally closing habit so that the water passage hole 6 is closed in advance.
11は、止水栓ケーシング1外から給水操作時に適宜の
手段で押圧されて前記副弁体9及び主弁体5を開成する
ように設けられた操作杆であり、具体的な操作手段とし
てはカムによる押圧、レバーによる押圧等で操作され、
押圧解除時は前記スプリング10による閉弁復帰で押し
もどされるようにしている。Reference numeral 11 denotes an operating rod that is provided so as to open the sub-valve body 9 and the main valve body 5 by being pressed by an appropriate means during water supply operation from outside the stop valve casing 1. It is operated by pressing with a cam, pressing with a lever, etc.
When the pressure is released, the valve is pushed back by the spring 10 to return to closing.
即ち、これら主弁体5と副弁体9及び押圧杆9as操作
杆11は、副弁体が主弁体5の通水孔6をスプリング1
0の押圧で閉塞しているときは、該副弁体を介して該ス
プリングにより主弁体も弁座4を閉塞しているものであ
り、押圧杆9aは前記したように通水孔径より若干小径
として且つ副弁体9の通水孔閉塞時はその先端が主弁体
5の底部より若干突出する程度に形設されており、又操
作杆11はその主弁体押圧部が通水孔径よりも若干大径
に形成されているものである。That is, the main valve body 5, the sub valve body 9, the pressing rod 9as operating rod 11, the sub valve body connects the water passage hole 6 of the main valve body 5 with the spring 1.
When the valve seat 4 is closed by a pressure of 0, the main valve body also closes the valve seat 4 by the spring via the sub-valve body, and the pressure rod 9a is slightly larger than the diameter of the water passage hole as described above. The diameter of the operating rod 11 is small, and the tip thereof slightly protrudes from the bottom of the main valve body 5 when the water passage hole of the sub-valve body 9 is closed. It is formed to have a slightly larger diameter.
12は前記流出路3から分岐し操作杆11を収納するよ
うにして設けられた残水排出路で、途中に排水弁座13
を形成している。Reference numeral 12 denotes a residual water discharge channel which branches from the outflow channel 3 and is provided to accommodate the operating rod 11, and a drain valve seat 13 is provided in the middle.
is formed.
14は前記操作杆11に摺動自在に遊嵌された排水弁体
で、該操作杆の押圧時即ち通水路開成時には排水弁座1
3に当接して排水路を閉威し、押圧解除時は操作杆11
と共に後退して排水路12を開くように係止具15,1
6で摺動範囲を規制されて排水弁体14と係止具16の
間に介せしめたスプリング17で係止具15側に押圧さ
れている。Reference numeral 14 denotes a drain valve body that is slidably and loosely fitted to the operating rod 11, and when the operating rod is pressed, that is, when the water passage is opened, the drain valve seat 1
3 to close the drainage channel, and when the pressure is released, the operating rod 11
The locking tools 15,1 are moved backward together to open the drainage channel 12.
6 restricts the sliding range, and is pressed toward the locking tool 15 by a spring 17 interposed between the drain valve body 14 and the locking tool 16.
以上のような構成からなる止水栓に於て、次にその作用
について述べる。Next, the function of the water stop valve constructed as described above will be described.
図の状態は止水時を示しているが、給水する場合適宜の
手段で操作杆11を押圧すると、その先端はまず副弁体
9を作動させる押圧杆9aを押圧すると略同時に排水弁
体14が排水路12を閉成する。Although the state shown in the figure shows the state when water is stopped, when the operating rod 11 is pressed by an appropriate means when water is supplied, the tip of the operating rod 9a is first pressed to operate the sub-valve element 9, and almost at the same time, the drain valve element 14 is pressed. closes the drainage channel 12.
しかして副弁体9は受圧面積が主弁体5よりも小さいか
らよりたやすく、しかも主弁体に先行して作動せしめら
れその通水孔6を開成する。Since the sub-valve body 9 has a smaller pressure-receiving area than the main valve body 5, it can be operated more easily and before the main valve body to open the water passage hole 6.
そうすると副弁体の動作する背圧室8が主弁体5の細孔
7を通じて流入路2と連通しているから、給水圧は背圧
室8から通水孔6を通して流出路3に水が流れることに
よりパージされて若干減圧されることになる。Then, since the back pressure chamber 8 in which the sub-valve body operates communicates with the inflow passage 2 through the pore 7 of the main valve body 5, the water supply pressure is determined by the water flowing from the back pressure chamber 8 to the outflow passage 3 through the water passage hole 6. As it flows, it is purged and the pressure is slightly reduced.
そこでさらに操作杆11を押圧すれば、次には主弁体5
が減圧効果によりたやすく押圧されて、即ち弁座4離脱
によりその通水路を開威し、熱交換器への給水を全面的
に開始する。Then, if the operating rod 11 is further pressed, the main valve body 5
is easily pressed by the decompression effect, that is, the valve seat 4 is disengaged to open its water passage and completely start supplying water to the heat exchanger.
尚、主弁体5の開成作動に伴い、図例では操作杆11の
先端が通水孔6を閉塞するかにみえるが、その当接部の
主弁体5又は操作杆11側に溝の如き通水逃がし部を形
成しておけばよく、背圧室8内の水は通水孔6から流出
路3に排出されるので開弁作動の妨げられることはない
。Incidentally, as the main valve body 5 is opened, the tip of the operating rod 11 appears to close the water passage hole 6 in the illustrated example, but there is a groove on the main valve body 5 or the operating rod 11 side of the contact portion. It is sufficient to form such a water flow relief part, and since the water in the back pressure chamber 8 is discharged from the water flow hole 6 to the outflow path 3, the valve opening operation is not hindered.
かくして流出路3からの水は給湯機の熱交換器へ供給さ
れていくが、途中に於て、既知であるから図示しないが
、加熱バーナのガス開閉弁を連動させる水圧応動ダイヤ
フラム弁を作動させてバーナ燃焼を行なわしめる。In this way, the water from the outflow path 3 is supplied to the heat exchanger of the water heater, but at some point along the way, a hydraulically responsive diaphragm valve that interlocks the gas opening/closing valve of the heating burner is actuated, although this is not shown as it is well known. burner combustion.
次に止水する場合は、操作杆11の押圧を解除すれば、
主弁体背圧室8のスプリング10によってまず副弁体9
が主弁体5に押接されてその通水孔6を閉成し、核部か
らの水の流通を阻止する。Next, when you want to stop the water, release the pressure on the operating rod 11.
The spring 10 of the main valve body back pressure chamber 8 first causes the auxiliary valve body 9 to
is pressed against the main valve body 5 to close its water passage hole 6 and prevent water from flowing from the core.
次いで主弁体5が前記スプリング10により押圧されて
閉弁方向に移動するのであるが、この時背圧室8は所謂
負圧状態になり閉弁作動を妨げられるようになるが主弁
体筒壁の細孔7により給水流入路2と連通されているの
で、該部から水が流入してそれにより閉弁作動を妨げら
れることなくついには閉弁を完了する。Next, the main valve body 5 is pressed by the spring 10 and moves in the valve closing direction, but at this time, the back pressure chamber 8 enters a so-called negative pressure state, which prevents the valve closing operation. Since it is communicated with the water supply inflow path 2 through the pore 7 in the wall, water flows in through the pore 7 in the wall, and the valve closing operation is finally completed without being hindered.
従って、主弁体5の閉弁速度はスプリング10の弾発力
のほか主に細孔7の大きさによって左右されるものであ
り、成孔は単純な貫通孔であるから任意径の孔を穿設す
るだけで簡単且つ自由に所望の閉弁速度を設定すること
ができる。Therefore, the closing speed of the main valve body 5 mainly depends on the elastic force of the spring 10 as well as the size of the pore 7, and since the hole is a simple through hole, a hole of any diameter can be formed. A desired valve closing speed can be easily and freely set simply by drilling.
この止水時は、主弁体5と副弁体9の閉弁復帰につれて
操作杆11も押圧復帰せしめられるので、その遊嵌され
た排水弁体14もある時点から排水弁座13を離脱しは
じめ、それにより熱交換器と連通ずる流出路3と残水排
出路12が連通するから熱交換器内の残溜水を該残水排
出路12から排出しえて冬期の凍結等を自動的に防止し
うろことになる。During this water stop, as the main valve body 5 and the sub-valve body 9 return to their closed state, the operating rod 11 is also pressed back, so that the loosely fitted drain valve body 14 also leaves the drain valve seat 13 at a certain point. First, since the outflow passage 3 communicating with the heat exchanger and the residual water discharge passage 12 are communicated with each other, the residual water in the heat exchanger can be discharged from the residual water discharge passage 12, thereby automatically preventing freezing in winter. It will be difficult to prevent it.
以上述べてきたように本案は、止水栓の給水路止水弁体
を有底筒状の主弁体と該主弁体より先行して該主弁体底
部通水孔を開閉し、受圧面積を主弁体より小とした副弁
体の二分割体として、主弁体筒壁部には該弁体背圧室と
水供給源からの流入路とが連通ずる細孔を穿つと共に、
これらを押圧する操作杆の動作で開閉される排水路を止
水栓に一体的に設けたので、以下の如き優れた実用的効
果を奏する止水栓を提供することができる。As described above, the present invention involves opening and closing the water supply channel water stop valve body of the water stop valve with a bottomed cylindrical main valve body and the water passage hole at the bottom of the main valve body prior to the main valve body to receive pressure. As a two-part sub-valve body whose area is smaller than that of the main valve body, a pore is bored in the cylindrical wall of the main valve body through which the back pressure chamber of the valve body communicates with an inflow passage from a water supply source.
Since the water stop valve is integrally provided with a drainage channel that is opened and closed by the operation of the operating rod that presses the drain channel, it is possible to provide a water stop valve that exhibits excellent practical effects as described below.
イ 止水弁体が二分割の主弁体と副弁体で構成され、副
弁体は受圧面積を主弁体より小として先行開成するよう
にしているので給水時の主弁体開成負荷が軽くなり操作
が極めて容易にできる。B The water stop valve body is composed of a main valve body and a sub-valve body, which are divided into two parts, and the sub-valve body has a smaller pressure receiving area than the main valve body and is opened in advance, so the load for opening the main valve body during water supply is reduced. Light weight and extremely easy to operate.
口 主弁体の止水時閉弁速度は、細孔の径により該弁体
背圧室への水流入量を制御することで加減できるので、
簡単に閉弁速度を設定でき主弁体の耐久性を向上させる
ことができる。The closing speed of the main valve body when water is stopped can be adjusted by controlling the amount of water flowing into the back pressure chamber of the valve body depending on the diameter of the pores.
The valve closing speed can be easily set and the durability of the main valve body can be improved.
ハ 止水弁体が主弁体と副弁体の二分割体であるから製
造面に於ても簡単で前項と相まって耐久性、信頼性のよ
い優れた止水栓を得ることができる。C. Since the water stop valve body is a two-piece body consisting of the main valve body and the sub-valve body, it is easy to manufacture, and combined with the above, it is possible to obtain an excellent water stop valve with good durability and reliability.
二 止水栓には排水機能も付与して、止水時日動的に排
水路を開成するようにしたから、簡単な単一操作で冬期
の熱交換器内水凍結を防止することもできる。2. The water stop valve is also equipped with a drainage function, and the drainage channel is opened dynamically when the water is turned off, making it possible to prevent the water inside the heat exchanger from freezing in the winter with a simple single operation.
図は本案実施例に係る止水栓の断面図である。
1・・・・・・止水栓ケーシング、2・・・・・・給水
流入路、3・・・・・・給水流出路、5・・・・・・主
弁体、6・・・・・・通水孔、7・・・・・・細孔、8
・・・・・・背圧室、9・・・・・・副弁体、11・・
・・・・操作杆、12・・・・・・排水路。The figure is a sectional view of a water stop valve according to an embodiment of the present invention. 1... Water stop valve casing, 2... Water supply inflow channel, 3... Water supply outlet channel, 5... Main valve body, 6... ...Water hole, 7...Pore, 8
...Back pressure chamber, 9...Sub-valve body, 11...
...Operating rod, 12...Drainage channel.
Claims (1)
開閉しケーシングと共に背圧室を形成する有底筒状の主
弁体を設け、前記弁座より流出路側には該流出路から分
岐して残本排出路を設けると共に該排出路に排水弁座を
形成してなるものであって、前記主弁体はその底部に前
記流出路と前記背圧室を連通ずる通水孔を設け、筒壁に
前記流入路と前記背圧室を連通ずる細孔を設け、又該背
圧室内には前記通水孔を開閉する副弁体を前記主弁体よ
り受圧面積を小とし、スプリングにより通水孔閉塞習性
を付与して設けると共に、一方前記主弁体及び副弁体に
対向して、該主弁体に先行して副弁体を開成せしめるよ
うに臨ませた操作杆に、前記排水弁座を開閉する排水弁
体を前記副弁体が開成すると同時に排水弁座を閉塞し、
主弁体及び副弁体が閉成時は排水弁座を開成するように
所定の範囲で摺動可能にスプリングで押圧して設けたこ
とを特徴とする止水栓。A cylindrical main valve body with a bottom is provided in the stop valve casing on the side of the inflow path from the valve seat, which opens and closes the valve seat and forms a back pressure chamber together with the casing, and the outflow path is provided on the side of the outflow path from the valve seat. A residue discharge passage is provided branching from the main valve body, and a drainage valve seat is formed in the discharge passage, and the main valve body has a water passage hole at its bottom that communicates the outflow passage with the back pressure chamber. A pore is provided in the cylindrical wall to communicate the inflow channel and the back pressure chamber, and a sub-valve element for opening and closing the water passage hole is provided in the back-pressure chamber and has a pressure receiving area smaller than that of the main valve element. , an operating rod provided with a spring to provide a tendency to close the water passage hole, and facing the main valve element and the auxiliary valve element so as to open the auxiliary valve element before the main valve element; and simultaneously closing the drain valve seat when the sub-valve body opens and closes the drain valve seat,
A water stop valve characterized in that a main valve body and a sub-valve body are pressed by a spring so as to be slidable within a predetermined range so as to open a drain valve seat when closed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP6075079U JPS603165Y2 (en) | 1979-05-07 | 1979-05-07 | Water stop valve |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP6075079U JPS603165Y2 (en) | 1979-05-07 | 1979-05-07 | Water stop valve |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS55159265U JPS55159265U (en) | 1980-11-15 |
JPS603165Y2 true JPS603165Y2 (en) | 1985-01-29 |
Family
ID=29294722
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP6075079U Expired JPS603165Y2 (en) | 1979-05-07 | 1979-05-07 | Water stop valve |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS603165Y2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2021071021A (en) * | 2019-11-01 | 2021-05-06 | 株式会社Lixil | Water drain device and installation method thereof |
-
1979
- 1979-05-07 JP JP6075079U patent/JPS603165Y2/en not_active Expired
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2021071021A (en) * | 2019-11-01 | 2021-05-06 | 株式会社Lixil | Water drain device and installation method thereof |
Also Published As
Publication number | Publication date |
---|---|
JPS55159265U (en) | 1980-11-15 |
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