JPH09189367A - Air valve - Google Patents

Abstract

PROBLEM TO BE SOLVED: To spout a lot of water in closing and prevent water hammer by setting operation of a floating valve disc for opening/closing a large-diameter intake/exhaust hole to be balancedly opened in such an extent as holding an air intake state normally. SOLUTION: A floating valve element 11 holds a large-diameter intake/ exhaust hole 31 in an appropriate opened state by balance between its energizing mechanism 2 pushing up the large-diameter intake/exhaust hole 31 and its dead load so that the inside of a valve casing 1 is in a natural intake/exhaust state. Therefore, even if the air in a water feeding pipe is fed to the valve in filling water and when the large-diameter intake/exhaust hole 31 is in an opened state, the air is exhausted as it is, and when the large-diameter intake/exhaust hole 31 is in a closed state, a small-diameter intake/exhaust hole 12 is in an opened state and the air is exhausted therefrom. When the air is exhausted and water is entered in the valve casing 1, the floating valve element 11 is pushed up by the energizing mechanism 2 and the buoyancy so that the large-diameter intake/exhaust hole 31 is closed. Therefore, the water flow flowing out to the outside then is eliminated and the exhaust speed is limited so that water hammer phenomena is hard to occur.

Description

【発明の詳細な説明】Detailed Description of the Invention

【０００１】[0001]

【発明の属する技術分野】本発明は、給水管等の液体輸
送管の所要部、特に建物上階部への立ち上がり給水管の
上部に取り付けて、工事などにより送水管内の水が抜か
れて空状態になった時、再給水により管内に水が充満す
る際などに給送水中に混入したり滞留したりする空気を
円滑に吸排するための空気弁に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a required portion of a liquid transport pipe such as a water feed pipe, in particular, it is attached to an upper part of a water feed pipe standing up to the upper floor of a building, and water in the water feed pipe is drained due to construction or the like to be in an empty state. In this case, the present invention relates to an air valve for smoothly sucking and discharging air that is mixed or stays in the feed water when the pipe is filled with water due to re-feeding.

【０００２】[0002]

【従来の技術】従来、この種の空気弁は、送水によって
発生する弁箱内の内圧が大気圧あるいはそれ以下のと
き、大口径吸排気孔、小口径吸排気孔ともに開放されて
吸排気状態にあるが、空気の排出により弁箱内の水位が
上昇すると遊動弁体及びフロート弁体が押し上げられて
２つの吸排気孔を閉鎖するが、弁箱内に大気圧を超える
内圧がある限り大口径吸排気孔は閉じたままであった。2. Description of the Related Art Conventionally, this type of air valve is in an intake / exhaust state by opening both the large-diameter intake / exhaust holes and the small-diameter intake / exhaust holes when the internal pressure in the valve box generated by water supply is atmospheric pressure or lower. However, when the water level in the valve box rises due to the discharge of air, the floating valve element and the float valve element are pushed up to close the two intake / exhaust holes, but as long as there is internal pressure in the valve box that exceeds atmospheric pressure, the large-diameter intake / exhaust holes Remained closed.

【０００３】そこで送水管内に滞留する空気が弁内に送
られて弁箱内の水位が下がると小口径吸排気孔を閉鎖し
ていたフロート弁体が水面まで下がり、小口径吸排気孔
が開放されて空気が排出されるようになっている。Then, when the air staying in the water supply pipe is sent into the valve and the water level in the valve box lowers, the float valve body which has closed the small-diameter intake and exhaust holes descends to the water surface, and the small-diameter intake and exhaust holes are opened. Air is designed to be discharged.

【０００４】また、遊動弁体を大口径吸排気孔に押し付
ける作動は、弁箱内の水位とこれにかかる遊動弁体の浮
力及び弁箱内の内圧に依存していた。The operation of pressing the floating valve element against the large-diameter intake / exhaust hole depends on the water level in the valve box, the buoyancy of the floating valve element and the internal pressure in the valve box.

【０００５】[0005]

【発明が解決しようとする課題】従来の空気弁は、上記
のように弁箱内の水位に重点を置き、弁箱内に貯留され
る空気の圧力や吸着作用に対する対応は、専ら遊動弁体
に設けられた小口径吸排気孔の吸気作用に依存してい
る。The conventional air valve focuses on the water level in the valve box as described above, and the pressure of the air stored in the valve box and the adsorbing action are exclusively dealt with by the floating valve body. It depends on the intake action of the small-diameter intake and exhaust holes provided in the.

【０００６】そのため、充水時に送液管内の空気が多量
に弁箱内に流入すると、弁箱内の気圧が一気に高まり、
更に水が遊動弁体まで来て大口径吸排気孔を閉じるタイ
ミングと、水が大口径吸排気孔を通るタイミングに時間
的なずれを生じ、大口径吸排気孔の閉鎖直前に多量の水
が吹き上げる現象を避けることができなかった。Therefore, when a large amount of air in the liquid delivery pipe flows into the valve box during refilling, the air pressure in the valve box rises rapidly,
Furthermore, there is a time lag between the timing when water comes to the floating valve and closes the large-diameter intake and exhaust holes and the timing when water passes through the large-diameter intake and exhaust holes, causing a large amount of water to blow up immediately before the large-diameter intake and exhaust holes are closed. I couldn't avoid it.

【０００７】また、大口径吸排気孔を閉じるとき、急速
な流れを瞬間的に遊動弁体により止めるためにウォータ
ーハンマー現象が起きやすい。特に建物内配管の場合に
は、ウォーターハンマー現象は使用器具の故障の原因と
なり、排気孔からの水の吹き上げ現象は周囲を水浸しに
するため、吹き上げる水を受けてそれを下流側に流すた
めの配管設備が必要となる等多くの問題がある。Further, when the large-diameter intake / exhaust holes are closed, a rapid hammering flow is momentarily stopped by the floating valve body, so that a water hammer phenomenon easily occurs. Especially in the case of piping in a building, the water hammer phenomenon causes a failure of the equipment used, and the phenomenon of blowing up water from the exhaust hole submerges the surrounding area. There are many problems such as the need for piping equipment.

【０００８】弁箱の上面を、大口径吸排気孔を備えた弁
蓋で覆蓋すると共に、大口径吸排気孔を開閉する遊動弁
体と、該遊動弁体に設けられた小口径吸排気孔を弁箱内
の水位に対応して開閉するフロート弁体と、該フロート
弁体の浮動規制機構を設けて成る空気弁は、構造が複雑
なうえに部品点数が多く、部品点数を減少させることも
課題である。The upper surface of the valve box is covered with a valve lid having a large-diameter intake / exhaust hole, and a floating valve body for opening / closing the large-diameter intake / exhaust hole and a small-diameter intake / exhaust hole provided in the floating valve body are provided in the valve box. The float valve body that opens and closes according to the water level inside and the air valve that is provided with the floating regulation mechanism of the float valve body have a complicated structure and a large number of parts, and it is also a problem to reduce the number of parts. is there.

【０００９】また、フロート弁体の浮動規制機構は、フ
ロート弁体が遊動弁体の下部で可なり自由な遊動状態を
必要とする関係とフロート弁体の下降時に本管からの通
水吸排気構造の閉塞を防止するため、大枠の弁体ケース
のほかに、フロート弁体受けが必要であり構造を更に複
雑なものとしていた。Further, the float valve body has a floating restricting mechanism in which the float valve body needs a free floating state under the floating valve body and the water intake and exhaust from the main pipe when the float valve body descends. In order to prevent the structure from being blocked, in addition to the large-sized valve body case, a float valve body receiver is required, which makes the structure more complicated.

【００１０】[0010]

【課題を解決するための手段】本発明は上記した事情に
鑑みこれに対応しようとするものであり、大口径吸排気
孔を開閉する遊導弁体の作動を、常時は大口径吸排気孔
からの排気量をゼロとし、弁箱内の水が溢出しない程度
に吸排気孔がバランス開放されるように設定して弁箱内
に負圧を生じさせない吸気が行われるようにすることに
より、課題を解決したものである。SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances and intends to cope with the situation. The operation of a guide valve element for opening and closing a large-diameter intake / exhaust hole is always performed from the large-diameter intake / exhaust hole. The problem is solved by setting the exhaust volume to zero and setting the intake and exhaust holes to a balance open enough to prevent the water in the valve box from overflowing so that negative pressure is not created in the valve box. It was done.

【００１１】また、遊導弁体を大口径吸排気孔に押し付
ける作動を、遊導弁体の自重のほか遊動弁体を大口径吸
排気孔に向けて押し上げる付勢機構の力により、弁箱内
の内圧と外気圧とのバランスを人為的に調整できるよう
に構成した。Further, the operation of pressing the guide valve body against the large-diameter intake / exhaust hole is performed by the force of the biasing mechanism which pushes up the idle valve body toward the large-diameter intake / exhaust hole in addition to the weight of the guide valve body. It is configured so that the balance between the internal pressure and the external pressure can be artificially adjusted.

【００１２】更に、フロート弁体の浮動規制を行うフロ
ート受けを遊動弁体に固定し、このフロート受けを弁箱
の内壁に設けた案内体によって移動規制するようにして
構造の単純化と組立ての効率化を図った。Further, a float receiver for restricting floating of the float valve body is fixed to the floating valve body, and movement of the float receiver is restricted by a guide body provided on the inner wall of the valve box, thereby simplifying the structure and assembling. For efficiency.

【００１３】更に、他の対応としてフロート弁体の浮動
規制を行うフロート受けを弁箱内壁に固定し、遊動弁体
とフロート受けを切り離して構造の単純化と組立ての効
率化を図った。Further, as another measure, a float receiver for restricting the floating of the float valve body is fixed to the inner wall of the valve box, and the floating valve body and the float receiver are separated to simplify the structure and improve the efficiency of assembly.

【００１４】いま１つの対応としては、遊動弁体を大口
径吸排気孔に向けて押し上げる付勢機構としてダイヤフ
ラムの面弾性を用い、膜面による自然な吸排気を期する
とともに部品点数の減少と構造の単純化を図った。As another measure, the surface elasticity of the diaphragm is used as a biasing mechanism for pushing up the floating valve element toward the large-diameter intake / exhaust hole, and the natural surface intake / exhaust is achieved by the film surface, and the number of parts is reduced and the structure is reduced. I tried to simplify.

【００１５】[0015]

【作用】遊動弁体11は、大口径吸排気孔31に向けて押し
上げる方向に付勢された付勢機構２と自重とのバランス
によって、常時は大口径吸排気孔31の適度な開放状態を
保ち、弁箱内は自然な吸排気状態にある。With the balance between the urging mechanism 2 urged in the direction of pushing up toward the large-diameter intake / exhaust hole 31, and its own weight, the floating valve body 11 always keeps the large-diameter intake / exhaust hole 31 appropriately opened. Inside the valve box is a natural intake and exhaust condition.

【００１６】したがって、充水時に送水管内にある空気
が弁内に送られても大口径吸排気孔31が適度な開放状態
にあるときには空気はそのまま排出され、大口径吸排気
孔31が閉鎖状態にあるときは小口径吸排気孔12が開放状
態にあるから、空気はそこから排出される。Therefore, even if the air in the water supply pipe is fed into the valve when the water is filled, the air is discharged as it is and the large diameter intake / exhaust hole 31 is closed when the large-diameter intake / exhaust hole 31 is in an appropriate open state. At this time, since the small-diameter intake / exhaust hole 12 is in the open state, the air is discharged from there.

【００１７】次に空気が排出され水が弁箱内に浸入する
と、付勢機構２及び浮力によって遊動弁体11が押し上げ
られ、大口径吸排気孔31が閉鎖するから大口径吸排気孔
31が閉鎖するときに起こる通水の外部への流出がなく、
排気流速も制限されるのでウォーターハンマー現象も起
き難くなる。Next, when air is discharged and water enters the valve box, the floating valve body 11 is pushed up by the urging mechanism 2 and the buoyancy force, and the large-diameter intake / exhaust hole 31 is closed.
There is no outflow of water that occurs when 31 is closed,
Since the exhaust flow velocity is also limited, the water hammer phenomenon is less likely to occur.

【００１８】一方、大口径吸排気孔31が閉じ弁箱内に内
圧がある場合には、送水管から入る空気によって弁箱内
の水位が下がり、フロート弁体４は下降して遊動弁体11
に設けられた小口径吸排気孔12を開放し、弁箱内に充満
した空気は小口径吸排気孔から外部に排出される。On the other hand, when the large-diameter intake / exhaust holes 31 are closed and there is internal pressure in the valve box, the water level in the valve box is lowered by the air entering from the water supply pipe, and the float valve element 4 is lowered to cause the floating valve element 11 to move.
The small-diameter intake / exhaust hole 12 provided in the is opened, and the air filled in the valve box is discharged to the outside from the small-diameter intake / exhaust hole.

【００１９】送水管の水抜き時や、何らかの理由で弁箱
内の内圧が負圧となった場合には、付勢機構２の押し上
げ力より負圧と遊動弁体11の重量が勝り、負圧の大きさ
に比例して大口径吸排気孔31を排気時より大きく開き、
負圧の力が無くなると付勢機構２により大口径吸排気孔
31は適度な開放状態あるいは閉鎖状態となる。When the water pressure in the water pipe is drained or when the internal pressure in the valve box becomes negative for some reason, the negative pressure and the weight of the floating valve body 11 are greater than the pushing force of the urging mechanism 2, and the negative pressure is generated. Open the large-diameter intake / exhaust hole 31 in proportion to the magnitude of pressure,
When the negative pressure is removed, the urging mechanism 2 allows the large-diameter intake and exhaust holes to be released.
31 is in an appropriate open or closed state.

【００２０】[0020]

【発明の実施の形態】以下、図面を参照して本発明にか
かる空気弁の実施例を説明する。１は弁箱本体で、上面
は大口径吸排気孔31を備えた弁蓋３で覆蓋されており、
弁蓋３の下部には小口径吸排気孔12を備えた遊動弁体11
がスプリングなどの付勢機構２によって支持されてい
る。BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of an air valve according to the present invention will be described below with reference to the drawings. Reference numeral 1 is a valve box main body, and the upper surface is covered with a valve lid 3 having a large-diameter intake / exhaust hole 31.
A floating valve body 11 having a small-diameter intake / exhaust hole 12 at the bottom of the valve lid 3.
Is supported by a biasing mechanism 2 such as a spring.

【００２１】また、大口径吸排気孔31の下部には、Ｏリ
ング、ガスケットなどの漏水防止材により弁座32が構成
され、弁箱内の内圧により付勢機構２の押し上げ力が遊
動弁体11の重量を凌ぐと、遊動弁体11が押し上げられて
着座し大口径吸排気孔を閉塞するようになっている。A valve seat 32 is formed below the large-diameter intake / exhaust hole 31 by a water leakage prevention material such as an O-ring or a gasket, and the pushing force of the urging mechanism 2 is increased by the internal pressure in the valve box. When the weight is exceeded, the floating valve body 11 is pushed up and seated, closing the large-diameter intake and exhaust holes.

【００２２】更に、遊動弁体11の偏心位置には小口径吸
排気孔12が設けられ、小口径吸排気孔12の下端はフロー
ト弁体４の着座する弁座41に構成され、その弁箱内壁側
一側にフロート弁体４の浮動を案内するガイド杆42が植
設されている。Further, a small-diameter intake / exhaust hole 12 is provided at an eccentric position of the floating valve body 11, and a lower end of the small-diameter intake / exhaust hole 12 is configured as a valve seat 41 on which the float valve body 4 is seated, and the valve box inner wall side thereof. A guide rod 42 for guiding the floating of the float valve body 4 is planted on one side.

【００２３】フロート弁体４は逆円錐台形状など浮動作
動に影響のない形状に構成され、上部一側にはガイド杆
42と嵌合する嵌合孔ないし溝に構成された嵌合部43が設
けられ、弁箱内の水位により弁座41とフロート弁体４の
接触部を支点としてフロート弁体４が傾斜し、或いは昇
降して小口径吸排気孔12の開閉を行う。The float valve body 4 is formed in a shape that does not affect the floating operation, such as an inverted truncated cone shape, and a guide rod is provided on one side of the upper part.
A fitting portion 43 formed in a fitting hole or groove that fits with 42 is provided, and the float valve body 4 is inclined with the contact portion between the valve seat 41 and the float valve body 4 as a fulcrum depending on the water level in the valve box, Alternatively, the small-diameter intake / exhaust hole 12 is opened and closed by moving up and down.

【００２４】44はフロート弁体４の浮動規制を行うフロ
ート受けで、図１に示すように遊動弁体11に固定し、こ
のフロート受け44を弁箱１の内壁に設けた案内体13によ
って移動規制するか、図２に示すように遊動弁体11とは
切離して弁箱１の内壁に設けた支持腕14によって弁箱内
に固定する。Reference numeral 44 denotes a float receiver for restricting the floating of the float valve body 4, which is fixed to the floating valve body 11 as shown in FIG. 1, and the float receiver 44 is moved by the guide body 13 provided on the inner wall of the valve box 1. It is regulated or fixed in the valve box by a support arm 14 provided on the inner wall of the valve box 1 separated from the floating valve body 11 as shown in FIG.

【００２５】フロート受けの底部には、通水孔45が穿設
され送水管から混入空気とともに導入される水が容易に
フロート受け44内に浸入してフロート弁体４の作動を促
すようになっている。Water holes 45 are formed in the bottom of the float receiver so that water introduced together with the mixed air from the water supply pipe easily enters the float receiver 44 to promote the operation of the float valve body 4. ing.

【００２６】図３に示す実施例は、遊動弁体11を大口径
吸排気孔31に向けて押し上げる付勢機構２としてダイヤ
フラム21を用いるようにしたもので、遊動弁体11は弁箱
１の上面と大口径吸排気孔31を備えた弁蓋３の間に張設
したダイヤフラム21と小口径吸排気孔12等の機構を備え
たシステムプレート22によって構成される。In the embodiment shown in FIG. 3, the diaphragm 21 is used as the urging mechanism 2 that pushes up the floating valve body 11 toward the large-diameter intake / exhaust hole 31, and the floating valve body 11 is the upper surface of the valve box 1. And a system plate 22 having a mechanism such as a diaphragm 21 and a small-diameter intake / exhaust hole 12, which are stretched between a valve lid 3 having a large-diameter intake / exhaust hole 31.

【００２７】システムプレート22は、着合杆23によって
ダイヤフラム21に着合固定されており、大口径吸排気孔
31のバランス開放は、ダイヤフラム21の弾性とシステム
プレート22の重量とのバランスによって行われる。The system plate 22 is fitted and fixed to the diaphragm 21 by a fitting rod 23, and has a large-diameter intake / exhaust hole.
The balance of 31 is released by the balance between the elasticity of the diaphragm 21 and the weight of the system plate 22.

【００２８】すなわち、ダイヤフラム21はシステムプレ
ート22の重量によって適度に垂下されるので、ダイヤフ
ラム21に設けられた通気孔25は弁蓋３の間隙を通じて開
口し適度な通気性を保持するものである。24はダイヤフ
ラム21の付勢力を補充するスプリングで、ダイヤフラム
21の弾性力が強力なものであるときは、敢えて設備する
必要はない。That is, since the diaphragm 21 is appropriately suspended depending on the weight of the system plate 22, the ventilation hole 25 provided in the diaphragm 21 is opened through the gap of the valve lid 3 to maintain proper ventilation. 24 is a spring that replenishes the urging force of the diaphragm 21.
If the elastic force of 21 is strong, it is not necessary to install it.

【００２９】５は弁蓋３の上面を覆うボンネットカバー
であり、大きく開口する大口径吸排気孔31を被覆して塵
埃等の侵入を防止すると共に、通気孔51を通じて外気と
の接触を図っている。Reference numeral 5 denotes a bonnet cover for covering the upper surface of the valve lid 3, which covers the large opening and closing of the large-diameter intake / exhaust hole 31 to prevent the ingress of dust and the like and to make contact with the outside air through the vent hole 51. .

【００３０】[0030]

【発明の効果】本発明は上記のように構成したので、送
水管からの通水口６から通水と共に導入される混入空気
は、バランス開放される大口径吸排気孔31の間隙、或い
はダイヤフラム21に設けられた通気孔25及び小口径吸排
気孔12から排出される。Since the present invention is configured as described above, the mixed air introduced together with water flow from the water supply port 6 from the water supply pipe is introduced into the gap of the large-diameter intake / exhaust hole 31 or the diaphragm 21 which is balanced open. The gas is discharged from the ventilation hole 25 and the small-diameter intake / exhaust hole 12 provided.

【００３１】また、送水管の水抜き後の再給水時など多
量の空気が弁箱内に導入されたときは小口径吸排気孔12
により送水管への充水時に排出され、弁箱内の内圧に応
じて吸排気孔の開閉、開口面積の制御が行われるので、
排出時における空気の流速を抑えることができる。Also, when a large amount of air is introduced into the valve box, such as when resupplying water after draining the water supply pipe, the small-diameter intake / exhaust hole 12
Because it is discharged when the water supply pipe is filled, the intake and exhaust holes are opened and closed and the opening area is controlled according to the internal pressure in the valve box.
The flow velocity of air at the time of discharge can be suppressed.

【００３２】弁箱内の水位が低下した場合に生ずる弁箱
内の気圧低下は、上記の大口径吸排気孔31が空気の排出
時より大きく開口する吸気作用によって回復されるか
ら、弁箱内の急激な気圧変化が回避できる。The decrease in air pressure in the valve box that occurs when the water level in the valve box drops is recovered by the intake action in which the large-diameter intake / exhaust hole 31 is opened larger than when air is discharged. It is possible to avoid sudden changes in atmospheric pressure.

【００３３】大口径吸排気孔31が閉鎖されるのは、弁箱
内に水がある状態或いは一度閉鎖された後、弁箱内に内
圧がある場合であるが、その時点では弁箱内に空気が入
ると水位が低下するのでフロート弁体４が下降し小口径
吸排気孔12が開口して弁箱内の空気を排出する。The large-diameter intake / exhaust hole 31 is closed when there is water in the valve box or when the valve box is once closed and then there is internal pressure in the valve box. At that time, there is air inside the valve box. When the water enters, the water level lowers, so the float valve body 4 descends and the small-diameter intake / exhaust hole 12 opens to discharge the air in the valve box.

【００３４】以上により、従来問題となっていた急速排
気時における水の噴き上げ現象、管内滞留空気によるウ
ォーターハンマー現象の増幅及び大口径吸排気孔閉鎖時
に起こるウォーターハンマー現象を回避でき、更に大き
な吸気性能を持つことができるものである。As described above, it is possible to avoid the conventional problems of water spouting at the time of rapid exhaust, amplification of the water hammer phenomenon due to stagnant air in the pipe, and water hammer which occur when the large-diameter intake / exhaust holes are closed, and to further improve the intake performance. It is something you can have.

【図面の簡単な説明】[Brief description of the drawings]

【図１】 本発明の１実施例で遊動弁体にフロート受け
を固定した実施例による空気弁の満水静止時における縦
断側面図FIG. 1 is a vertical sectional side view of an air valve according to an embodiment of the present invention in which a float receiver is fixed to a floating valve body when the air valve is full and stationary.

【図２】 同実施例による、水位が下がりフロート弁体
が傾斜下降し小口径吸排気孔が開口し始めた状態の縦断
側面図FIG. 2 is a vertical cross-sectional side view showing a state in which the water level is lowered, the float valve body is inclined and lowered, and the small-diameter intake / exhaust holes are started to be opened according to the embodiment.

【図３】 本発明の他の実施例で、弁箱内壁の支持腕に
フロート受けを固定した実施例による空気弁の縦断側面
図FIG. 3 is a vertical sectional side view of an air valve according to another embodiment of the present invention, in which a float receiver is fixed to a support arm of an inner wall of a valve box.

【図４】 本発明の他の実施例で、遊動弁体をダイヤフ
ラムとシステムプレートを着合して構成した実施例によ
る空気弁の縦断側面図FIG. 4 is a vertical cross-sectional side view of an air valve according to another embodiment of the present invention, in which the floating valve body is constructed by attaching a diaphragm and a system plate to each other.

【符号の説明】[Explanation of symbols]

１ 弁箱 11 遊動弁体 12 小口径吸排気孔 13 弁箱内壁のフロート受け案内体 14 弁箱内壁のフロート受け支持腕 ２ 遊動弁体の付勢機構 21 ダイヤフラム 22 システムプレート 23 着合杆 24 ダイヤフラム付勢力の補充付勢スプリング 25 ダイヤフラムの通気孔 ３ 弁蓋 31 大口径吸排気孔 32 遊動弁体の弁座 ４ フロート弁体 41 フロート弁体の弁座 42 ガイド杆 43 フロート弁体のガイド杆嵌合部 44 フロート受け 45 フロート受けの底部通水孔 ５ ボンネットカバー 51 ボンネットカバー通気孔 ６ 送水管からの通水口 1 Valve box 11 Floating valve body 12 Small diameter intake / exhaust hole 13 Float receiving guide body on inner wall of valve box 14 Float receiving support arm on inner wall of valve box 2 Bias mechanism of floating valve body 21 Diaphragm 22 System plate 23 Fitting rod 24 With diaphragm Replenishment of biasing force Spring 25 Diaphragm vent hole 3 Valve lid 31 Large diameter intake / exhaust hole 32 Floating valve body valve seat 4 Float valve body 41 Float valve body valve seat 42 Guide rod 43 Float valve body guide rod fitting part 44 Float receiver 45 Bottom water hole for float receiver 5 Bonnet cover 51 Bonnet cover vent hole 6 Water inlet from water pipe

Claims (5)

【特許請求の範囲】[Claims] 【請求項１】弁箱の上面を、大口径吸排気孔を備えた弁
蓋で覆蓋すると共に、その下部に弁箱内の内圧に対応し
て該大口径吸排気孔を開閉する遊動弁体と、該遊動弁体
に設けられた小口径吸排気孔を弁箱内の水位に対応して
開閉するフロート弁体と、該フロート弁体の浮動規制機
構を設けて成る空気弁において、大口径吸排気孔を開閉
する遊動弁体の作動を、常時は吸気状態を維持する程度
にバランス開放されるように設定したことを特徴とする
空気弁1. A floating valve body which covers the upper surface of a valve box with a valve lid having a large-diameter intake / exhaust hole, and which opens and closes the large-diameter intake / exhaust hole corresponding to the internal pressure in the valve box at its lower part. In a float valve body that opens and closes a small-diameter intake and exhaust hole provided in the floating valve body in accordance with the water level in the valve box, and in an air valve provided with a float valve body floating restriction mechanism, a large-diameter intake and exhaust hole is provided. An air valve characterized in that the operation of the open / close floating valve is set to be balanced so that the intake state is always maintained. 【請求項２】遊動弁体による大口径吸排気孔のバランス
開放を、遊動弁体の自重と遊動弁体を大口径吸排気孔に
向けて押し上げる機構の付勢力とのバランスによって行
うようにした「請求項１」記載の空気弁2. The balance valve is used to unbalance the large-diameter intake / exhaust hole by balancing the own weight of the idle-valve body and the urging force of a mechanism for pushing the idle-valve body toward the large-diameter intake / exhaust hole. Paragraph 1 ”air valve 【請求項３】遊動弁体を弁箱の上面と大口径吸排気孔を
備えた弁蓋の間に張設したダイヤフラムと小口径吸排気
孔等の機構を備えたシステムプレートによって構成し、
遊動弁体による大口径吸排気孔のバランス開放を、ダイ
ヤフラムの弾性とシステムプレートの重量とのバランス
によって行うようにした「請求項１」記載の空気弁3. A floating valve body is constituted by a system plate having a mechanism such as a diaphragm and a small-diameter intake / exhaust hole, which is stretched between an upper surface of a valve box and a valve lid having a large-diameter intake / exhaust hole.
The air valve according to claim 1, wherein the balance opening of the large-diameter intake and exhaust holes by the floating valve body is performed by the balance between the elasticity of the diaphragm and the weight of the system plate. 【請求項４】遊動弁体の下部に、フロート弁体の浮動規
制を行う案内枠を固定し、この案内枠を弁箱の内壁に設
けた案内体によって移動規制するようにした「請求項
２」又は「請求項３」記載の空気弁4. A guide frame for restricting floating of the float valve body is fixed to the lower portion of the floating valve body, and the movement of the guide frame is regulated by a guide body provided on the inner wall of the valve box. Or the air valve according to claim 3. 【請求項５】フロート弁体の浮動規制を行う案内枠を弁
箱の内壁に設定した支持腕によって固定するようにした
「請求項２」又は「請求項３」記載の空気弁5. The air valve according to claim 2 or 3, wherein a guide frame for restricting floating of the float valve body is fixed by a support arm set on the inner wall of the valve box.