JPH0552289A - Valve using fitting for hot tap - Google Patents

Valve using fitting for hot tap

Info

Publication number
JPH0552289A
JPH0552289A JP3209644A JP20964491A JPH0552289A JP H0552289 A JPH0552289 A JP H0552289A JP 3209644 A JP3209644 A JP 3209644A JP 20964491 A JP20964491 A JP 20964491A JP H0552289 A JPH0552289 A JP H0552289A
Authority
JP
Japan
Prior art keywords
screw
fitting
pipe
shaft
valve
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.)
Granted
Application number
JP3209644A
Other languages
Japanese (ja)
Other versions
JPH07103952B2 (en
Inventor
Minoru Nemoto
実 根本
Toshiaki Kawai
利昭 河合
Yasuo Unemoto
康生 畝本
Tomiyuki Kito
富之 鬼頭
Yoji Takanashi
洋治 高梨
Kazutaka Akao
一孝 赤尾
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nippon Kokan Koji KK
JFE Engineering Corp
Original Assignee
Nippon Kokan Koji KK
NKK Corp
Nippon Kokan Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Nippon Kokan Koji KK, NKK Corp, Nippon Kokan Ltd filed Critical Nippon Kokan Koji KK
Priority to JP3209644A priority Critical patent/JPH07103952B2/en
Publication of JPH0552289A publication Critical patent/JPH0552289A/en
Publication of JPH07103952B2 publication Critical patent/JPH07103952B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16LPIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
    • F16L55/00Devices or appurtenances for use in, or in connection with, pipes or pipe systems
    • F16L55/10Means for stopping flow from or in pipes or hoses

Landscapes

  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Pipe Accessories (AREA)
  • Sliding Valves (AREA)

Abstract

PURPOSE:To obtain a valve using a fitting for hot tap which can be inserted into a conduit, without being restricted by the execution time, in a short construction period. CONSTITUTION:A cut part 55 is formed on a pipe 5 in a fitting 1, and a coil 65 for seal is installed at the opened port of the fitting 1. The screw cylinders 83 and 88 which are screwingly fitted on a center shaft 75 which is closely fitted in turnable manner with the cock 65 for seal are raised and lowered by the turn of a center shaft 75. A closing plate 93 is press-attached with the edge surface 56 of the pipe 5 by the tapered surfaces 86 and 90 of the screw cylinders 83 and 88.

Description

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

【0001】[0001]

【産業上の利用分野】本発明は、ホットタップ工法によ
り管路に挿入するバルブに関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a valve which is inserted into a pipeline by a hot tap method.

【0002】[0002]

【従来の技術】既存の配管ラインにバルブを挿入するに
は、その配管ラインの流れを止めてバルブを挿入する方
法が最も容易であるが、需要家への連絡、使用状況調査
等に手間がかかるため、最近は管内圧力を降下させず、
かつ、流体の流れを止めずに、配管ラインにバルブを挿
入するホットタップ工法が行なわれており、その一例と
して、特公昭48−27244号公報に記載された工法
がある。
2. Description of the Related Art The easiest way to insert a valve into an existing piping line is to stop the flow of the piping line and insert the valve, but it is time-consuming to contact the customer and investigate the usage situation. For this reason, recently, the pressure inside the pipe has not dropped,
Moreover, a hot tap construction method in which a valve is inserted into a piping line without stopping the flow of fluid is performed, and an example thereof is a construction method described in Japanese Patent Publication No. 48-27244.

【0003】前記ホットタップ工法の概略を、図17な
いし図33により説明する。このホットタップ工法は、
図17に示すように、管5のバルブ挿入場所6の両側の
地面を開削し、管5のバルブ挿入場所6の上流側と下流
側に、フィッティング1・1を装着するが、このフィッ
ティング1は、図18に示すように、上部フィッティン
グ2と下部フィッティング3に分かれており、上部フィ
ッティング2には、さらに、ネック部フィッティング1
7が溶接23で取り付けてある。
An outline of the hot tap method will be described with reference to FIGS. 17 to 33. This hot tap method is
As shown in FIG. 17, the ground on both sides of the valve insertion location 6 of the pipe 5 is excavated, and fittings 1 and 1 are attached to the upstream side and the downstream side of the valve insertion location 6 of the pipe 5, respectively. As shown in FIG. 18, it is divided into an upper fitting 2 and a lower fitting 3, and the upper fitting 2 further includes a neck fitting 1
7 is attached by welding 23.

【0004】このネック部フィッティング17には、フ
ランジ2a が設けてあり、このフランジ2a には、数個
所にねじ孔22が設けてあり、また、内縁に雌ねじ18
が設けてあり、この雌ねじ18には、シール栓4の雄ね
じ19が螺合するように形成されている。
The neck fitting 17 is provided with a flange 2a, the flange 2a is provided with screw holes 22 at several places, and an internal thread 18 is provided on the inner edge.
The female screw 18 is formed so that the male screw 19 of the seal plug 4 is screwed into the female screw 18.

【0005】前記上部フィッティング2と下部フィッテ
ィング3は、図19に示すように、管5の外周に、隅肉
溶接20で溶着すると共に、上部フィッティング2と下
部フィッティング3を突合わせ溶接21で接着する。
As shown in FIG. 19, the upper fitting 2 and the lower fitting 3 are welded to the outer circumference of the pipe 5 by fillet welding 20, and the upper fitting 2 and the lower fitting 3 are bonded by butt welding 21. ..

【0006】次に、図20に示すように、フランジ2a
の上にゲートバルブ7・穿孔機8を順次取り付け、ゲー
トバルブ7を開き、図示してない駆動源で、管5よりも
大径に形成された円筒状のカッター9を回転させ、流体
の流れている管5を切断する。そして、管5の切断した
部分は、カッター9内の保持具9a で保持して、カッタ
ー9と共に引き上げ、穿孔機8内に収容する。
Next, as shown in FIG. 20, the flange 2a
The gate valve 7 and the punching machine 8 are sequentially attached on the top of the pipe, the gate valve 7 is opened, and the cylindrical cutter 9 formed to have a diameter larger than that of the pipe 5 is rotated by a driving source (not shown) to flow the fluid. Cut the open tube 5. Then, the cut portion of the pipe 5 is held by the holding tool 9a in the cutter 9, and is pulled up together with the cutter 9 to be housed in the punching machine 8.

【0007】次に、ゲートバルブ7を閉じ、穿孔機8を
ゲートバルブ7から取り外し、図21に示すように、ゲ
ートバルブ7に、ストッパー11を備えたストッピング
マシン10を取り付けて密閉し、再びゲートバルブ7を
開いて、前記ストッパー11を管5の切断部に挿入す
る。そして、この挿入するストッパー11は、図24に
示すように、スリット12の向きを、流体の流れている
側に向ける。
Next, the gate valve 7 is closed, the punching machine 8 is removed from the gate valve 7, and as shown in FIG. 21, the stopping valve 10 equipped with a stopper 11 is attached to the gate valve 7 to seal it, and then again. The gate valve 7 is opened, and the stopper 11 is inserted into the cut portion of the tube 5. Then, the stopper 11 to be inserted directs the slit 12 toward the side where the fluid is flowing, as shown in FIG.

【0008】以上の切断とストッパー11の挿入を、そ
れぞれのフィッティング1毎に行ない、図22に示すよ
うに、両方のストッピングマシン10・10に設けてあ
るバイパス取出口15・15を連結してバイパス回路1
6を設ける。
The above cutting and insertion of the stopper 11 are carried out for each fitting 1, and as shown in FIG. 22, the bypass outlets 15 and 15 provided in both stopping machines 10 and 10 are connected. Bypass circuit 1
6 is provided.

【0009】そして、ストッパー11は図23に示すよ
うに、外表面にゴム14を貼り、スリット12を有する
円筒13から構成され、前記ゴム14の外径は、前記カ
ッター9の外径よりも小さい状態で管5の切断部に挿入
し、その後でストッピングマシン10を操作し、図示し
ていない機構で前記ストッパー11を半径方向に拡張し
て、ストッパー11のゴム14を切断部に密着させる。
As shown in FIG. 23, the stopper 11 is composed of a cylinder 13 having rubber 14 attached to the outer surface and having a slit 12, and the outer diameter of the rubber 14 is smaller than the outer diameter of the cutter 9. In this state, the tube 5 is inserted into the cut portion, and then the stopping machine 10 is operated, and the stopper 11 is expanded in the radial direction by a mechanism (not shown) to bring the rubber 14 of the stopper 11 into close contact with the cut portion.

【0010】そして、ストッパー11の具体的構造は前
記特公昭48−27244号公報に記載されている。そ
うすると、流体は上流側のストッパー11のスリット1
2から、そのストッパー11内に入り、上流側のストッ
ピングマシン10を通り、バイパス回路16から、下流
側のストッピングマシン10に入り、下流側のストッパ
ー11のスリット12から、下流側の管5に流れ、前記
フィッティング1・1間にある管5のバルブ挿入場所6
の流れは止まる。
The specific structure of the stopper 11 is described in Japanese Patent Publication No. 48-27244. Then, the fluid becomes slit 1 of the stopper 11 on the upstream side.
2 into the stopper 11, the upstream stopping machine 10, the bypass circuit 16 into the downstream stopping machine 10, the downstream stopper 11 slit 12, and the downstream pipe 5. And the valve insertion position 6 of the pipe 5 between the fittings 1 and 1.
Flow stops.

【0011】そこで、管5のバルブ挿入場所6を切断し
て、図25に示すように、バルブ35を管5に介挿す
る。管5にバルブ35の介挿が終わったら、先の工程と
逆の作業を行なう。すなわち、ストッピングマシン10
を操作して、ストッパー11を縮小させ、ストッパー1
1をストッピングマシン10内に回収し、ゲートバルブ
7を閉ざし、バイパス回路16と、上流側及び下流側の
ストッピングマシン10・10を取り外す。
Therefore, the valve insertion location 6 of the pipe 5 is cut, and the valve 35 is inserted into the pipe 5 as shown in FIG. When the insertion of the valve 35 into the pipe 5 is completed, the work reverse to the previous process is performed. That is, the stopping machine 10
Is operated to reduce the stopper 11, and the stopper 1
1 is collected in the stopping machine 10, the gate valve 7 is closed, and the bypass circuit 16 and the upstream and downstream stopping machines 10 and 10 are removed.

【0012】次に、図26に示すプラグ締め機38を、
前記ゲートバルブ7の上に装着するのであるが、このプ
ラグ締め機38には、軸39を回動自在に設け、この軸
39の先端部には、雄ねじ40が設けてあり、そして、
軸39の前記雄ねじ40の設けられた部分の上部は、図
29に示すように小径に形成され、さらに、前記小径に
形成された部分の上部には、大径の止め42が設けてあ
り、また、この軸39の両側部には、小径の部分から下
端部まで、平滑面45が形成されている。
Next, the plug tightening machine 38 shown in FIG.
The plug fastener 38 is mounted on the gate valve 7. A shaft 39 is rotatably provided, and a male screw 40 is provided at the tip of the shaft 39.
An upper portion of the shaft 39 where the male screw 40 is provided is formed to have a small diameter as shown in FIG. 29, and a large-diameter stopper 42 is provided to the upper portion of the portion where the small diameter is formed. Further, smooth surfaces 45 are formed on both sides of the shaft 39 from the small diameter portion to the lower end portion.

【0013】そして、図29に示すように、前記軸39
に嵌合されるねじ締めフォーク37は、中央部に前記軸
39の雄ねじ40が螺合できる雌ねじ44が設けてあ
り、前記軸39に外嵌したねじ締めフォーク37は、回
転して雌ねじ44が雄ねじ40から螺脱しなければ、軸
39からねじ締めフォーク37が脱落しないように形成
されている。
Then, as shown in FIG. 29, the shaft 39
The screw tightening fork 37 fitted to is provided with a female screw 44 capable of being screwed into the male screw 40 of the shaft 39 at the central portion thereof. The screwing fork 37 is formed so as not to drop from the shaft 39 unless it is unscrewed from the male screw 40.

【0014】また、ねじ締めフォーク37の側部には、
貫通する螺孔49が設けてあり、この螺孔49には小ね
じ46が螺合されており、この小ねじ46によって軸3
9の回転がねじ締めフォーク37に伝達される。
On the side of the screw tightening fork 37,
A screw hole 49 penetrating therethrough is provided, and a machine screw 46 is screwed into the screw hole 49.
The rotation of 9 is transmitted to the screw tightening fork 37.

【0015】ねじ締めフォーク37の下面には、図28
に示すように、一対の締結爪47が設けてあり、この締
結爪47は、後記するシール栓4をねじ込む向きにねじ
締めフォーク37を回動させたとき、図30に示すよう
に、締結爪47の先端側がシール栓4の凹部48に係合
できるよう下方に長く突出し、ねじ締めフォーク37を
逆転させたとき、図32に示すように、前記凹部48か
ら締結爪47の後端側が抜け出せるように、後端側を短
く突出するように形成して、締結爪47の下面が傾斜面
50となっている。
As shown in FIG.
As shown in FIG. 30, a pair of fastening claws 47 are provided, and the fastening claws 47, as shown in FIG. 30, when the screw tightening fork 37 is rotated in a direction in which the seal plug 4 described later is screwed in. When the screw tightening fork 37 is reversed, the rear end side of the fastening claw 47 can be pulled out from the recess 48 as shown in FIG. In addition, the rear end side is formed so as to project short, and the lower surface of the fastening claw 47 is an inclined surface 50.

【0016】前記フィッティング1の上部を密閉するシ
ール栓4は、図26・図27に示すように、上面に2個
の凹部48が設けてあり、上端周縁に設けたフランジ状
部の下側には、Oリング25が外嵌され、その下方に雄
ねじ19が設けてある。
As shown in FIGS. 26 and 27, the seal plug 4 for sealing the upper portion of the fitting 1 has two recesses 48 on the upper surface thereof, and the lower side of the flange-shaped portion provided on the upper end periphery. Is fitted with an O-ring 25, and a male screw 19 is provided below the O-ring 25.

【0017】そして、前記軸39の雄ねじ40を設けた
部分の上部の小径に形成された部分に、図29に示すよ
うに、前記ねじ締めフォーク37を外嵌し、軸39とね
じ締めフォーク37が相互に回動しないように、小ねじ
46を、その先端部が前記平滑面45に軽く当接するよ
うにねじ込み、さらに、前記ねじ締めフォーク37と、
軸39の止め42の間に、図26に示すようにばね43
を介挿して、前記ねじ締めフォーク37を、下方に向け
て付勢する。
Then, as shown in FIG. 29, the screw tightening fork 37 is externally fitted to a portion of the shaft 39, which has a small diameter above the portion where the male screw 40 is provided, and the shaft 39 and the screw tightening fork 37 are fitted. So that they do not rotate with respect to each other, the machine screw 46 is screwed in such that the tip end thereof makes a slight contact with the smooth surface 45, and the screw tightening fork 37 and
As shown in FIG. 26, a spring 43 is provided between the stoppers 42 of the shaft 39.
The screw tightening fork 37 is urged downward.

【0018】そして、図26に示すように、軸39の雄
ねじ40を、シール栓4の雌ねじ41に螺合し、ねじ締
めフォーク37の締結爪47を、シール栓4の凹部48
に係合して、前記プラグ締め機38の軸39に、前記シ
ール栓4を装着する。
Then, as shown in FIG. 26, the male screw 40 of the shaft 39 is screwed into the female screw 41 of the seal plug 4, and the fastening claw 47 of the screw tightening fork 37 is inserted into the recess 48 of the seal plug 4.
And the seal plug 4 is mounted on the shaft 39 of the plug tightening machine 38.

【0019】前記のようにして、シール栓4を装着した
プラグ締め機38を、先に述べたように、ゲートバルブ
7に装着し、次に、ゲートバルブ7を開いて、プラグ締
め機38の軸39を前進させ、軸39を右回転させる
と、図30に示すように、ねじ締めフォーク37の締結
爪47の先端側が、シール栓4の凹部48に係合して、
シール栓4が回動され、図31に示すように、シール栓
4の雄ねじ19が、フィッティング1の雌ねじ18に螺
合して、シール栓4がフィッティング1に装着され、フ
ィッティング1の上部の開口を密閉する。
As described above, the plug fastening machine 38 with the seal plug 4 attached thereto is attached to the gate valve 7 as described above, and then the gate valve 7 is opened to open the plug fastening machine 38. When the shaft 39 is moved forward and the shaft 39 is rotated clockwise, as shown in FIG. 30, the tip end side of the fastening claw 47 of the screw tightening fork 37 engages with the recess 48 of the seal plug 4,
The seal stopper 4 is rotated, and as shown in FIG. 31, the male screw 19 of the seal stopper 4 is screwed into the female screw 18 of the fitting 1 so that the seal stopper 4 is attached to the fitting 1 and the opening at the upper portion of the fitting 1 is opened. Seal.

【0020】次に、軸39を逆向きに回転させると、図
32に示すように、締結爪47は下面の傾斜面50によ
り、シール栓4の凹部48から抜け出し、軸39の雄ね
じ40もシール栓4の雌ねじ41から螺脱するので、プ
ラグ締め機38の軸39は、ねじ締めフォーク37を装
着したまま、シール栓4から外れる。
Next, when the shaft 39 is rotated in the opposite direction, as shown in FIG. 32, the fastening claw 47 is pulled out from the recess 48 of the seal plug 4 by the inclined surface 50 of the lower surface, and the male screw 40 of the shaft 39 is also sealed. Since the screw 39 is unscrewed from the female screw 41 of the plug 4, the shaft 39 of the plug tightening machine 38 is disengaged from the seal plug 4 while the screw tightening fork 37 is attached.

【0021】そして、図33に示すように、プラグ締め
機38とゲートバルブ7を、フィッティング1から外し
て、管5内の流体の流れを止めずに行ったバルブ35の
装着が終る。さらに、バルブ35の周囲にコンクリート
ピット36を設けて、フィッティング1を設けた部分の
上面を、他の道路面等と同一平面に形成して工事を終わ
る。そうすると、道路面に突出物はなく、道路として使
用できるようになる。
Then, as shown in FIG. 33, the plug clamp 38 and the gate valve 7 are removed from the fitting 1, and the mounting of the valve 35 without stopping the flow of the fluid in the pipe 5 is completed. Furthermore, a concrete pit 36 is provided around the valve 35, and the upper surface of the portion where the fitting 1 is provided is formed flush with another road surface or the like, thus completing the construction. Then, the road surface has no protrusions and can be used as a road.

【0022】[0022]

【発明が解決しようとする課題】前記従来の工法は、都
心部に埋設されている管5の工事では、道路交通の都合
上、夜間しか行えず、従って長い日数に渡って工事を行
うこととなり、周囲の居住者の生活の平静さを保つ点か
ら好ましいことではない。したがって、なるべく短い工
事期間が求められていた。
In the conventional construction method, the pipe 5 buried in the city center can be constructed only at night due to road traffic. Therefore, the construction is carried out over a long period of time. However, it is not preferable from the viewpoint of keeping the tranquility of the surrounding residents' lives. Therefore, a construction period as short as possible was required.

【0023】そして、バルブの挿入作業中は、その両側
をストッパー11にて管5内をシールし、流体をバイパ
ス回路16で流している。ところが、流体はストッパー
11のスリット12で断面積が減少し絞られて圧損が生
じ、また、バイパス回路16は管5よりも断面積が小さ
い。したがって、供給流量が低下するが、この流量低下
の時間が、バルブの管への溶接の間中続くこととなり、
施工時間に制限があった。
During the insertion work of the valve, the inside of the pipe 5 is sealed by the stoppers 11 on both sides of the valve, and the fluid is allowed to flow in the bypass circuit 16. However, the fluid has a reduced cross-sectional area in the slit 12 of the stopper 11 and is squeezed to cause pressure loss, and the bypass circuit 16 has a smaller cross-sectional area than the pipe 5. Therefore, the supply flow rate decreases, but the time of this flow rate decrease continues during the welding of the valve to the pipe,
There was a limit to the construction time.

【0024】例えば、流体が都市ガスの場合には、都市
ガス消費量の少ない時を選択して夜間に行うか、又は冬
よりも夏に施工するというように施工時刻、時期に制約
されつつ作業するという問題があった。
For example, when the fluid is city gas, the time when the city gas consumption is low is selected and the operation is performed at night, or the operation is performed in the summer rather than in the winter. There was a problem to do.

【0025】本発明は、前記事項に鑑みなされたもので
あり、工事期間が短く、かつ、施工時刻に制限されない
で、管路に挿入することのできるホットタップ用フィッ
ティングを用いて装着するバルブとすることを技術的課
題とする。
The present invention has been made in view of the above matters, and a valve to be mounted by using a hot tap fitting that can be inserted into a pipeline without being limited in construction time and construction time. To do this is a technical issue.

【0026】[0026]

【課題を解決するための手段】本発明は、管5の外周に
フィッティング1を装着し、フィッティング1内の管5
に切断部55を設けて、端面56を形成し、フィッティ
ング1の開口に設けた段部58上に、軸挿通孔66を設
けたシール用栓65を嵌入し、シール用栓65は、フィ
ッティング1の外周から螺嵌した複数個の止ねじ61に
よって固定して開口を密閉し、前記軸挿通孔66に、連
結用ねじ76を設けた中心軸75を回動可能に密嵌して
装着し、この中心軸75には、上部雄ねじ80を設ける
と共に、その下方に前記上部雄ねじ80と逆向きに傾斜
する下部雄ねじ81を設け、前記上部雄ねじ80と下部
雄ねじ81には、それぞれ、縦孔87を設けた上部螺筒
83と、下部螺筒88を螺嵌し、縦孔87は、シール用
栓65より垂下して設けた棒70に、上下摺動可能に外
嵌し、上部螺筒83と下部螺筒88には、互いに傾斜の
向きが反対となる上部テーパー面86と、下部テーパー
面90を設けると共に平板85を取付け、これで接触板
95を挟み、、上部螺筒83と下部螺筒88の外側に
は、端面56に当接して密閉できる一対の閉鎖板93
を、バネ100で引っ張って設け、閉鎖板93の内側に
は、前記上部テーパー面86と下部テーパー面90に合
致する上部テーパー部97と下部テーパー部98を設け
てホットタップ用フィッティングを用いるバルブとし
た。
According to the present invention, a fitting 1 is attached to the outer periphery of a pipe 5 and the pipe 5 inside the fitting 1 is fitted.
A cutting portion 55 is provided on the end of the fitting 1 to form an end surface 56, and a sealing plug 65 having a shaft insertion hole 66 is fitted on a step portion 58 provided at the opening of the fitting 1. Fixing by a plurality of set screws 61 screwed from the outer periphery of the opening to close the opening, and the central shaft 75 provided with a connecting screw 76 is rotatably tightly fitted and mounted in the shaft insertion hole 66, An upper male screw 80 is provided on the central shaft 75, and a lower male screw 81 inclined in the opposite direction to the upper male screw 80 is provided below the upper male screw 80. Vertical holes 87 are formed in the upper male screw 80 and the lower male screw 81, respectively. The provided upper screw cylinder 83 and the lower screw cylinder 88 are screwed into each other, and the vertical hole 87 is externally fitted to the rod 70 hung from the sealing plug 65 so as to be vertically slidable. The lower screw cylinder 88 has the opposite inclination directions. A tapered surface 86 and a lower tapered surface 90 are provided, a flat plate 85 is attached, the contact plate 95 is sandwiched by this, and a pair of outer surfaces of the upper screw cylinder 83 and the lower screw cylinder 88 can be brought into contact with the end face 56 to be sealed. The closing plate 93
Is pulled by a spring 100, and an upper taper portion 97 and a lower taper portion 98 that match the upper taper surface 86 and the lower taper surface 90 are provided inside the closing plate 93, and a valve using a hot tap fitting is provided. did.

【0027】[0027]

【作用】本発明のホットタップ用フィッティングを用い
るバルブは、次に記載するようにして、管5内の流れを
止めずに装着するものである。
The valve using the hot tap fitting of the present invention is installed without stopping the flow in the pipe 5 as described below.

【0028】すなわち、管5の外周にフィッティング1
(図18)を図1に示すように装着し、このフィッティ
ング1のフランジ2aの上に、従来公知のゲートバルブ
7(図12)を取り付け、ゲートバルブ7に従来公知の
穿孔機8(図20)を取り付け、ゲートバルブ7を開
き、円筒状のカッター9で管5に切断部55を設ける。
That is, the fitting 1 is attached to the outer circumference of the pipe 5.
(FIG. 18) is mounted as shown in FIG. 1, a conventionally known gate valve 7 (FIG. 12) is mounted on the flange 2 a of the fitting 1, and the conventionally known punching machine 8 (FIG. 20) is attached to the gate valve 7. ) Is attached, the gate valve 7 is opened, and the cutting portion 55 is provided in the pipe 5 by the cylindrical cutter 9.

【0029】次に、カッター9と管5の切断した部分
を、穿孔機8内に引き上げて、ゲートバルブ7を閉じ、
穿孔機8をゲートバルブ7から取り外す。次に、図5に
示す中心軸75の上部雄ねじ80に、図1に示すように
して図6に示す上部螺筒83を螺嵌し、下部雄ねじ81
に下部螺筒88を螺嵌し、この上部螺筒83と下部螺筒
88の外側に、一対の閉鎖板93を置き、閉鎖板93の
上部テーパー部97と下部テーパー部98を、それぞ
れ、上部螺筒83の上部テーパー面86と、下部螺筒8
8の下部テーパー面90に当接させ、閉鎖板93をバネ
100で引っ張って装着する。
Next, the cut portion of the cutter 9 and the pipe 5 is pulled up into the punching machine 8 and the gate valve 7 is closed.
The punch 8 is removed from the gate valve 7. Next, as shown in FIG. 1, the upper screw cylinder 83 shown in FIG. 6 is screwed into the upper male screw 80 of the central shaft 75 shown in FIG.
The lower screw cylinder 88 is screw-fitted to the upper screw cylinder 83 and the lower screw cylinder 88, and a pair of closing plates 93 are placed outside the upper screw cylinder 83 and the lower screw cylinder 88. The upper tapered surface 86 of the screw cylinder 83 and the lower screw cylinder 8
The lower plate 93 is brought into contact with the lower tapered surface 90, and the closing plate 93 is pulled by the spring 100 to be mounted.

【0030】次に、前記中心軸75を、図2に示すよう
に、シール用栓65の軸挿通孔66に回動可能に密嵌し
て装着すると共に、シール用栓65より垂下して設けた
棒70を、上部螺筒83と下部螺筒88の縦孔87に挿
通して、上部螺筒83と下部螺筒88を、シール用栓6
5に対して、上下摺動可能で回動不能に装着する。
Next, as shown in FIG. 2, the central shaft 75 is rotatably tightly fitted in the shaft insertion hole 66 of the sealing plug 65 and mounted so as to hang down from the sealing plug 65. The rod 70 is inserted into the vertical holes 87 of the upper screw cylinder 83 and the lower screw cylinder 88, and the upper screw cylinder 83 and the lower screw cylinder 88 are connected to each other by the sealing plug 6.
5 is mounted so that it can slide up and down and cannot rotate.

【0031】次に、図12に示すプラグ締め機38の軸
39に、前記中心軸75を螺着し、このプラグ締め機3
8を、閉ざされた状態のゲートバルブ7に取り付ける。
そして、ゲートバルブ7を開き、軸39を下降させ、図
13に示すように、閉鎖板93を管5の切断部55内に
進入させ、シール用栓65を、止ねじ61でフィッティ
ング1に固定して、開口を密閉する。
Next, the central shaft 75 is screwed onto the shaft 39 of the plug fastening machine 38 shown in FIG.
8 is attached to the gate valve 7 in the closed state.
Then, the gate valve 7 is opened, the shaft 39 is lowered, the closing plate 93 is inserted into the cut portion 55 of the pipe 5, and the sealing plug 65 is fixed to the fitting 1 with the set screw 61 as shown in FIG. Then, the opening is sealed.

【0032】次に、軸39を中心軸75から螺脱して、
プラグ締め機38とゲートバルブ7を、フィッティング
1から取り外す。そうすると、管5の流れを止めずに、
管5を切断し、図13に示すようにバルブが装着され
る。
Next, the shaft 39 is unscrewed from the central shaft 75,
The plug tightener 38 and the gate valve 7 are removed from the fitting 1. Then, without stopping the flow of the pipe 5,
Cut the tube 5 and install the valve as shown in FIG.

【0033】そして、管5内の流れを止めるには、中心
軸75をある方向に回動させると、上部螺筒83と下部
螺筒88が、互いに接近し、上部テーパー面86と下部
テーパー面90が、閉鎖板93をバネ100に抗して押
し出し、閉鎖板93が管5の端面56を閉鎖する。
Then, in order to stop the flow in the pipe 5, the central shaft 75 is rotated in a certain direction, and the upper screw cylinder 83 and the lower screw cylinder 88 come close to each other, and the upper tapered surface 86 and the lower tapered surface. 90 pushes the closing plate 93 against the spring 100, which closes the end face 56 of the tube 5.

【0034】管5内の流れを再び流すには、中心軸75
を、前記と逆向きに回動すると、各部分は、前記と逆に
動き、閉鎖板93は管5の端面56から離れ、流体が流
れる。
To re-flow the flow in the pipe 5, the central shaft 75
Is rotated in the opposite direction to the above, each part moves in the opposite direction to the above, the closing plate 93 is separated from the end surface 56 of the pipe 5, and the fluid flows.

【0035】[0035]

【実施例】以下図1ないし図16を用いて、本発明の一
実施例のホットタップ用フィッティングを用いるバルブ
の説明を行うが、その施工方法等については、前記した
従来例と同様のところは、一部省略し、或は、前記従来
例の図を用いて説明する。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A valve using a hot tap fitting according to an embodiment of the present invention will be described below with reference to FIGS. 1 to 16. The construction method and the like are the same as those of the conventional example described above. Description will be made with reference to the drawings of the above-mentioned conventional example, with some parts omitted.

【0036】この実施例のホットタップ用フィッティン
グを用いるバルブは、既設の管5内の流れを止めずに、
管5にフィッティング1を装着し、このフィッティング
1内の管5に切断部55を形成してバルブを装着するも
のである。
In the valve using the hot tap fitting of this embodiment, the flow in the existing pipe 5 is not stopped,
The fitting 1 is attached to the pipe 5, the cut portion 55 is formed in the pipe 5 in the fitting 1, and the valve is attached.

【0037】前記フィッティング1は、図1,図18,
図19等に示すように、上部フィッティング2と下部フ
ィッティング3を、管5の外周に隅肉溶接20により溶
接して装着すると共に、突合せ溶接21で溶接して接続
し、上部フィッティング2の上部には、ネック部フィッ
ティング17を溶接23で接続して設けてある。
The fitting 1 is shown in FIGS.
As shown in FIG. 19 and the like, the upper fitting 2 and the lower fitting 3 are welded and attached to the outer periphery of the pipe 5 by fillet welding 20, and are also welded and connected by butt welding 21 to the upper portion of the upper fitting 2. Is provided by connecting the neck fitting 17 with a weld 23.

【0038】そして、図1に示すように、前記ネック部
フィッティング17の開口には、環状の段部58が設け
てあり、この段部58の上面には、環状凹溝59が形成
してあり、この環状凹溝59には、Oリング25が嵌入
してある。
As shown in FIG. 1, an annular step 58 is provided at the opening of the neck fitting 17, and an annular groove 59 is formed on the upper surface of the step 58. The O-ring 25 is fitted in the annular groove 59.

【0039】また、図1に示すように、ネック部フィッ
ティング17には、その外周から、前記環状の段部58
の上側に穿孔された多数の止ねじ挿通孔60が等間隔に
設けてあり、この止ねじ挿通孔60には、凹溝が形成さ
れ、小さなOリングが嵌入してあり、前記止ねじ挿通孔
60には、円錐状先端部62を備えた止ねじ61が螺嵌
されている。
As shown in FIG. 1, the neck fitting 17 has an annular step 58 from the outer periphery thereof.
A large number of set screw insertion holes 60 bored on the upper side of the set screw insertion holes 60 are provided at equal intervals, concave grooves are formed in the set screw insertion holes 60, and small O-rings are fitted therein. A set screw 61 having a conical tip portion 62 is screwed into 60.

【0040】前記フィッティング1内の管5には、図2
0に示すような円筒状のカッター9で切断された切断部
55が設けてあり、この切断部55は、上面よりみて、
円弧状の端面56に形成されている。
The pipe 5 in the fitting 1 is shown in FIG.
A cutting portion 55 cut by a cylindrical cutter 9 as shown in 0 is provided, and this cutting portion 55 is seen from the upper surface,
It is formed on the arc-shaped end surface 56.

【0041】そして、図1に示すように、ネック部フィ
ッティング17の開口に嵌入されるシール用栓65は、
円板状に形成されており、図4に示すように、このシー
ル用栓65の周縁の上部には、凹溝68が設けてあり、
その凹溝68の下側には、三角状溝69が設けてある。
Then, as shown in FIG. 1, the sealing plug 65 fitted into the opening of the neck fitting 17 is
It is formed in a disc shape, and as shown in FIG. 4, a groove 68 is provided in the upper part of the peripheral edge of the sealing plug 65.
A triangular groove 69 is provided below the concave groove 68.

【0042】そして、前記シール用栓65には、図1に
示すように、中央部に軸挿通孔66が設けてあり、この
挿通孔66には、凹溝が形成してあり、この凹溝には小
さなOリングが嵌入してある。
As shown in FIG. 1, the sealing plug 65 is provided with a shaft insertion hole 66 in the center thereof, and a recess groove is formed in the insertion hole 66. A small O-ring is inserted in the.

【0043】また、前記シール用栓65の上面には、一
対の凹部67が設けてあり、シール用栓65の下面に
は、一対の棒70が垂下し、溶接して設けてある。そし
て、前記シール用栓65は、図1に示すように、ネック
部フィッティング17の段部58上に、Oリング25を
介して載置され、止ねじ61で、前記Oリング25に圧
接されて固定される。
A pair of recesses 67 are provided on the upper surface of the sealing plug 65, and a pair of rods 70 are hung and welded on the lower surface of the sealing plug 65. Then, as shown in FIG. 1, the sealing plug 65 is placed on the step 58 of the neck fitting 17 via the O-ring 25, and is pressed against the O-ring 25 by the set screw 61. Fixed.

【0044】さらに、ネック部フィッティング17の開
口に設けた雌ねじ18に、環状固定具103が螺合さ
れ、この環状固定具103によっても、前記シール用栓
65は、Oリング25に圧接されるように形成してあ
る。
Further, the annular fixing member 103 is screwed into the female screw 18 provided in the opening of the neck fitting 17, and the sealing stopper 65 is also pressed against the O-ring 25 by the annular fixing member 103. Is formed.

【0045】前記シール用栓65の軸挿通孔66には、
図5に示す中心軸75が回動可能に密嵌され、この中心
軸75は、図1に示すように、鍔79によって上方への
脱出を防止し、下方への脱出は、軸固定ねじ77に螺合
した軸固定ナット78で防止され、また、この軸固定ナ
ット78を強く締めることにより、中心軸75を固定で
きるものである。
In the shaft insertion hole 66 of the sealing plug 65,
A central shaft 75 shown in FIG. 5 is rotatably fitted tightly, and as shown in FIG. 1, the central shaft 75 is prevented from coming out upward by a collar 79, and coming out downward is made by a shaft fixing screw 77. It is prevented by a shaft fixing nut 78 that is screwed in, and the central shaft 75 can be fixed by strongly tightening the shaft fixing nut 78.

【0046】なお、鍔79は上部螺筒83と下部螺筒8
8を中心軸75にねじ結合したの後、溶接して固定して
組立てるものとる。また、前記中心軸75の上部には、
連結用ねじ76が設けてあり、中程の位置に、右ねじと
して形成された上部雄ねじ80が設けてあり、中心軸7
5の下部には、左ねじとして形成した下部雄ねじ81が
設けてある。
The collar 79 has an upper screw cylinder 83 and a lower screw cylinder 8.
8 is screwed to the central shaft 75, then welded and fixed to be assembled. In addition, in the upper part of the central axis 75,
A connecting screw 76 is provided, an upper male screw 80 formed as a right-hand screw is provided in the middle position, and the central shaft 7
A lower male screw 81 formed as a left screw is provided on the lower portion of the No. 5.

【0047】そして、前記中心軸75に設けた右ねじの
上部雄ねじ80には、図6,図7に示すように、上部が
大径の円錐柱として形成した上部螺筒83の、右ねじの
上部雌ねじ84が螺合してある。
As shown in FIGS. 6 and 7, a right-handed upper male screw 80 provided on the central shaft 75 has a right-handed upper screw cylinder 83 whose upper portion is formed as a conical column having a large diameter. An upper female screw 84 is screwed.

【0048】また、左ねじの下部雄ねじ81には、図1
に示すように、下部が大径の円錐柱で形成した下部螺筒
88の、左ねじの下部雌ねじ89が螺合してある。そし
て、前記上部螺筒83と下部螺筒88には、それぞれ、
一対の縦孔87が設けてあり、この縦孔87は、図2に
示すように、前記シール用栓65から垂下して設けた棒
70に摺動可能に外嵌され、前記上部螺筒83、及び、
下部螺筒88が、中心軸75と共回りしないように形成
してある。
In addition, the lower male screw 81 of the left-hand screw is shown in FIG.
As shown in FIG. 5, a lower female screw 89 of a left screw of a lower screw cylinder 88 whose lower portion is formed of a large-diameter conical column is screwed. The upper screw cylinder 83 and the lower screw cylinder 88 are respectively provided with
As shown in FIG. 2, a pair of vertical holes 87 are provided. The vertical holes 87 are slidably fitted on a rod 70 that is provided so as to hang down from the sealing plug 65, and the upper screw cylinder 83 is provided. ,as well as,
The lower screw cylinder 88 is formed so as not to rotate together with the central shaft 75.

【0049】また、前記上部螺筒83(図6,図7)に
は、両側部に、それぞれ2枚の平板85が平行状態に設
けてあり、この平板85間には、上部テーパー面86が
設けてあり、この上部テーパー面86は、下方が中心に
近づくように傾斜している。
Two flat plates 85 are provided in parallel on both sides of the upper screw cylinder 83 (FIGS. 6 and 7), and an upper tapered surface 86 is provided between the flat plates 85. The upper tapered surface 86 is provided so as to be inclined so that the lower portion thereof approaches the center.

【0050】そして、前記下部螺筒88にも、図1に示
すように、前記上部螺筒83と同様の平板85が設けて
あり、平板85間には、前記上部テーパー面86と傾斜
の向きが反対となる下部テーパー面90が設けてある。
As shown in FIG. 1, the lower screw cylinder 88 is also provided with a flat plate 85 similar to the upper screw cylinder 83. Between the flat plates 85, the upper taper surface 86 and the direction of inclination are provided. There is a lower taper surface 90 which is opposite to the above.

【0051】また、前記上部螺筒83と下部螺筒88の
外側には、前記円弧状の端面56に当接する、図8に示
す円弧状の曲面板として形成された閉鎖板93が一対設
けてある。(図8)そして、前記閉鎖板93の表面に
は、前記管5の外径より大きく形成されたゴム製の弾性
板94が貼着されており、前記閉鎖板93の内側には、
接触板95が縦方向に設けてある。
Outside the upper screw cylinder 83 and the lower screw cylinder 88, a pair of closing plates 93, which are formed as arc-shaped curved plates shown in FIG. 8 and are in contact with the arc-shaped end surface 56, are provided. is there. (FIG. 8) Then, a rubber elastic plate 94 having a larger diameter than the outer diameter of the tube 5 is attached to the surface of the closing plate 93, and the inside of the closing plate 93 is
A contact plate 95 is provided in the vertical direction.

【0052】また、前記接触板93の上下の部分には、
前記上部螺筒83の上部テーパー面86に合致する上部
テーパー部97と、前記下部螺筒88の下部テーパー面
90に合致する下部テーパー部98が設けてある。
The upper and lower parts of the contact plate 93 are
An upper tapered portion 97 that matches the upper tapered surface 86 of the upper screw cylinder 83 and a lower tapered portion 98 that matches the lower tapered surface 90 of the lower screw cylinder 88 are provided.

【0053】そして、前記接触板93を、前記平板85
の間に挿入して、前記閉鎖板93の内側に設けたフック
99間に、図1に示すように、バネ100を張設して、
一対の閉鎖板93を内側に引っ張り、上部テーパー部9
7と下部テーパー部98を、上部テーパー面86と下部
テーパー面90に当接させて装着する。
Then, the contact plate 93 is replaced with the flat plate 85.
1 and the spring 100 is stretched between the hooks 99 provided inside the closing plate 93 as shown in FIG.
Pulling the pair of closing plates 93 inward, the upper taper portion 9
7 and the lower taper portion 98 are brought into contact with the upper taper surface 86 and the lower taper surface 90 to be mounted.

【0054】そして、前記下部螺筒88と閉鎖板93の
下側には、図9,図10に示す底板71を当て、底板7
1の孔72に前記棒70を挿通し、棒70の先端部にナ
ットを螺合して装着する。
Then, the bottom plate 71 shown in FIGS. 9 and 10 is applied to the lower side of the lower screw cylinder 88 and the closing plate 93 to attach the bottom plate 7 to the bottom plate 71.
The rod 70 is inserted through the hole 72 of No. 1 and a nut is screwed onto the tip of the rod 70 to be mounted.

【0055】そして、前記閉鎖板93は、バネ100で
引っ張られて、上部テーパー部97と下部テーパー部9
8で、前記上部螺筒83と下部螺筒88に当接している
ので、底板71がなくても落下しない。
Then, the closing plate 93 is pulled by the spring 100, and the upper taper portion 97 and the lower taper portion 9 are pulled.
In FIG. 8, since the upper screw cylinder 83 and the lower screw cylinder 88 are in contact with each other, they do not fall without the bottom plate 71.

【0056】さらに、前記上部螺筒83と下部螺筒88
は、円筒状等に形成し、その円筒状等に溝を形成し、そ
の溝の底面を上部テーパー面86及び下部テーパー面9
0に形成することも可能である。
Further, the upper screw cylinder 83 and the lower screw cylinder 88
Is formed in a cylindrical shape or the like, a groove is formed in the cylindrical shape or the like, and the bottom surface of the groove is formed into an upper tapered surface 86 and a lower tapered surface 9
It is also possible to form 0.

【0057】この実施例のホットタップ用フィッティン
グを用いるバルブは、次に記載するようにして、管5の
流れを止めずに、管5に装着する。すなわち、管5の外
周にネツク部フィッティング17,上部フィッティング
2,下部フィッティング3からなるフィッティング1
(図1,図9)を装着し、このネック部フィッティング
1のフランジ2aの上に、従来公知のゲートバルブ7
(図12)を取り付け、ゲートバルブ7に、従来公知の
穿孔機8(図20)を取り付ける。
The valve using the hot tap fitting of this embodiment is attached to the pipe 5 without stopping the flow of the pipe 5 as described below. That is, a fitting 1 including a neck part fitting 17, an upper fitting 2 and a lower fitting 3 on the outer circumference of the pipe 5.
(FIGS. 1 and 9) are mounted, and a conventionally known gate valve 7 is mounted on the flange 2a of the neck fitting 1.
(FIG. 12) is attached, and a conventionally known punching machine 8 (FIG. 20) is attached to the gate valve 7.

【0058】次に、ゲートバルブ7を開き、円筒状のカ
ッター9で管5に切断部55を設ける。そして、カッタ
ー9と管5の切断した部分を、穿孔機8内に引き上げ
て、ゲートバルブ7を閉じ、穿孔機8をゲートバルブ7
から取り外す。
Next, the gate valve 7 is opened, and the cutting portion 55 is provided in the pipe 5 by the cylindrical cutter 9. Then, the cut portion of the cutter 9 and the pipe 5 is pulled up into the punching machine 8, the gate valve 7 is closed, and the punching machine 8 is closed.
Remove from.

【0059】次に、図5に示す中心軸75の上部雄ねじ
80に、図1,図6に示す上部螺筒83を螺嵌し、下部
雄ねじ81に下部螺筒88を螺嵌し、この上部螺筒83
と下部螺筒88の外側に、一対の閉鎖板93(図8)を
置き、閉鎖板93の上部テーパー部97と下部テーパー
部98を、それぞれ、上部螺筒83の上部テーパー面8
6と下部螺筒88の下部テーパー面90に当接させる。
Next, the upper male screw 80 of the central shaft 75 shown in FIG. 5 is screwed with the upper screw barrel 83 shown in FIGS. 1 and 6, and the lower male screw 81 is screwed with the lower screw barrel 88. Screw cylinder 83
A pair of closing plates 93 (FIG. 8) are placed outside the lower screw cylinder 88 and the upper taper portion 97 and the lower taper portion 98 of the closing plate 93, respectively.
6 and the lower tapered surface 90 of the lower screw cylinder 88.

【0060】そして、閉鎖板93に設けたフック99間
に、図1に示すバネ100を張設して、閉鎖板93を内
側に引っ張って装着する。次に、前記中心軸75を、図
1,図2に示すシール用栓65の軸挿通孔66に回動可
能に密嵌し、中心軸75の軸固定用ねじ77に、軸固定
ナット78を螺嵌して装着すると共に、シール用栓65
より垂下して設けた一対の棒70を、上部螺筒83と下
部螺筒88の縦孔87に挿通し、かつ、閉鎖板93の下
側には、図9,図10に示す底板71を当て、底板71
の孔72に前記棒70を挿通して、棒70の先端部にナ
ットを螺合して装着する。
Then, the spring 100 shown in FIG. 1 is stretched between the hooks 99 provided on the closing plate 93, and the closing plate 93 is pulled inward and mounted. Next, the central shaft 75 is rotatably tightly fitted into the shaft insertion hole 66 of the sealing plug 65 shown in FIGS. 1 and 2, and the shaft fixing screw 77 of the central shaft 75 and the shaft fixing nut 78 are attached. It is installed by screwing, and the sealing plug 65
The pair of rods 70 that are hung down are inserted into the vertical holes 87 of the upper screw cylinder 83 and the lower screw cylinder 88, and the bottom plate 71 shown in FIGS. 9 and 10 is provided below the closing plate 93. Pad, bottom plate 71
The rod 70 is inserted through the hole 72, and a nut is screwed onto the tip portion of the rod 70 to be mounted.

【0061】次に、図12に示すプラグ締め機38の軸
39に、前記中心軸75を螺着し、このプラグ締め機3
8を、閉ざされた状態のゲートバルブ7に取り付ける。
そして、ゲートバルブ7を開き、軸39を下降させ、閉
鎖板93を管5の切断部55内に進入させ、シール用栓
65を、止ねじ61でネック部フィッティング17に固
定して、Oリング25に圧接させる。
Next, the central shaft 75 is screwed onto the shaft 39 of the plug tightening machine 38 shown in FIG.
8 is attached to the gate valve 7 in the closed state.
Then, the gate valve 7 is opened, the shaft 39 is lowered, the closing plate 93 is advanced into the cutting portion 55 of the pipe 5, the sealing plug 65 is fixed to the neck fitting 17 with the set screw 61, and the O-ring. Press contact with 25.

【0062】次に、軸39を中心軸75から螺脱して、
プラグ締め機38とゲートバルブ7を、ネック部フィッ
ティング17から取り外し(図13)、管5の流れを止
めずに管5を切断し、図13に示すようにバルブを装着
する。
Next, the shaft 39 is unscrewed from the central shaft 75,
The plug clamp 38 and the gate valve 7 are removed from the neck fitting 17 (FIG. 13), the pipe 5 is cut without stopping the flow of the pipe 5, and the valve is mounted as shown in FIG.

【0063】そして、ネック部フィッティング17の雌
ねじ18に、環状固定具108を螺嵌する。管5内の流
れを止めるには、図14に示すように、中心軸75に操
作棒104を結合し、軸固定ナット78を若干緩めた
後、中心軸75を左回転させる。
Then, the annular fixing member 108 is screwed into the female screw 18 of the neck fitting 17. To stop the flow in the pipe 5, as shown in FIG. 14, the operation rod 104 is connected to the central shaft 75, the shaft fixing nut 78 is loosened slightly, and then the central shaft 75 is rotated counterclockwise.

【0064】そうすると、上部螺筒83は下方に移動
し、下部螺筒88は上方に移動する。そして、前記上部
螺筒83の上部テーパー面86と下部螺筒88の下部テ
ーパー面90に従って、閉鎖板93がバネ100に抗し
て押し出され、弾性板94が管5の端面56に圧接して
閉鎖する。
Then, the upper screw cylinder 83 moves downward and the lower screw cylinder 88 moves upward. Then, according to the upper tapered surface 86 of the upper screw cylinder 83 and the lower tapered surface 90 of the lower screw cylinder 88, the closing plate 93 is pushed out against the spring 100, and the elastic plate 94 is pressed against the end surface 56 of the pipe 5. Close.

【0065】管5内の流れを再び流すには、中心軸75
を右回転させると、各部分は前記と逆に動き、閉鎖板9
3はバネ100で引き寄せられ、管5の端面56は開放
され、流体が流れる。
To re-flow the flow in the tube 5, the central shaft 75
When is rotated to the right, the parts move in the opposite direction to the closing plate 9
3 is attracted by the spring 100, the end surface 56 of the tube 5 is opened, and the fluid flows.

【0066】また、流量が閉鎖板93によって妨害され
ないようにするためには、閉鎖板93の向きを、管軸方
向と並行にするようにし、全ての止ねじ61を若干後退
させた後、環状固定具103を若干緩める、そして、図
15に示すシール用栓操作棒105を用いて、シール用
栓65を90度回動させる。そうすると、図16に示す
ように、閉鎖板93も管5の端面56から90度回動
し、管5の端面56の正面には、空所106が位置し、
流体の通る面積が増大する。
In order to prevent the flow rate from being obstructed by the closing plate 93, the direction of the closing plate 93 should be made parallel to the pipe axis direction, and all the set screws 61 should be slightly retracted, and then the annular shape should be set. The fixing tool 103 is loosened slightly, and the sealing plug 65 is rotated 90 degrees using the sealing plug operating rod 105 shown in FIG. Then, as shown in FIG. 16, the closing plate 93 also rotates 90 degrees from the end face 56 of the pipe 5, and the void 106 is located in front of the end face 56 of the pipe 5,
The area through which the fluid passes increases.

【0067】[0067]

【発明の効果】本発明のホットタップ用フィッティング
を用いるバルブは、シール用栓65に中心軸75を回動
可能に密嵌し、この中心軸75を回動することにより、
管5の端面56に当接する閉鎖板93を進退できるよう
に形成したものである。
In the valve using the hot tap fitting of the present invention, the central shaft 75 is rotatably tightly fitted in the sealing plug 65, and the central shaft 75 is rotated to rotate the central shaft 75.
The closing plate 93 that comes into contact with the end surface 56 of the tube 5 is formed so as to be able to move forward and backward.

【0068】そして、本発明のバルブは、管5の流れを
止めずに、管5を切断するのに使用したフィッティング
1に装着することができるものである。したがって、管
5にバルブを挿入するための工事量が少なくなり、工事
期間を短くできる。
The valve of the present invention can be mounted on the fitting 1 used for cutting the pipe 5 without stopping the flow of the pipe 5. Therefore, the amount of work for inserting the valve into the pipe 5 is reduced, and the work period can be shortened.

【0069】また、バイパス回路等の流量を大きく制限
する装置を用いないので、工事中に流量低下が発生せ
ず、管5内を流れる流体の消費量の大きい時刻にも工事
が可能であり、施工時刻も制限されずに、管5にバルブ
が挿入できるものである。
Since no device such as a bypass circuit that greatly restricts the flow rate is used, the flow rate does not drop during construction, and construction can be performed even at times when the amount of fluid flowing through the pipe 5 is large. The valve can be inserted into the pipe 5 without restriction on the construction time.

【0070】さらに、閉鎖板93を、管5の端面56に
進退させて当接させるので、閉鎖板93を端面に強く圧
接させることができ、流れを完全に閉鎖できるものであ
る。
Further, since the closing plate 93 is advanced and retracted to the end face 56 of the pipe 5 and abuts against the end face 56, the closing plate 93 can be strongly pressed against the end face and the flow can be completely closed.

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

【図1】本発明の一実施例の断面図FIG. 1 is a sectional view of an embodiment of the present invention.

【図2】図1のA−A線の断面図FIG. 2 is a sectional view taken along the line AA of FIG.

【図3】図1のB−B線の断面図FIG. 3 is a sectional view taken along line BB of FIG.

【図4】本発明の一実施例のシール用栓の正面図FIG. 4 is a front view of a sealing plug according to an embodiment of the present invention.

【図5】本発明の一実施例の中心軸の斜視図FIG. 5 is a perspective view of a central shaft according to an embodiment of the present invention.

【図6】本発明の一実施例の上部螺筒の斜視図FIG. 6 is a perspective view of an upper screw cylinder according to an embodiment of the present invention.

【図7】本発明の一実施例の上部螺筒の側面図FIG. 7 is a side view of the upper screw cylinder according to the embodiment of the present invention.

【図8】本発明の一実施例の閉鎖板の斜視図FIG. 8 is a perspective view of a closing plate according to an embodiment of the present invention.

【図9】本発明の一実施例の底板の断面図FIG. 9 is a sectional view of a bottom plate according to an embodiment of the present invention.

【図10】本発明の一実施例の底板の斜視図FIG. 10 is a perspective view of a bottom plate according to an embodiment of the present invention.

【図11】本発明の一実施例の環状固定具の斜視図FIG. 11 is a perspective view of an annular fixing tool according to an embodiment of the present invention.

【図12】本発明の一実施例の装着状況を示す図FIG. 12 is a diagram showing a mounting state according to an embodiment of the present invention.

【図13】本発明の一実施例の装着状況を示す図FIG. 13 is a diagram showing a mounting state according to an embodiment of the present invention.

【図14】本発明の一実施例の操作状況を示す図FIG. 14 is a diagram showing an operation status of one embodiment of the present invention.

【図15】本発明の一実施例の操作状況を示す図FIG. 15 is a diagram showing an operation status of one embodiment of the present invention.

【図16】本発明の一実施例の操作状況を示す図FIG. 16 is a diagram showing an operation status of one embodiment of the present invention.

【図17】従来例のフィッティングを2箇所に装着した
状態を示す図
FIG. 17 is a diagram showing a state where fittings of a conventional example are attached at two places.

【図18】従来例のフィッティングの分解斜視図FIG. 18 is an exploded perspective view of a conventional fitting.

【図19】従来例のフィッティングを管に装着した状態
を示す図
FIG. 19 is a view showing a state in which a fitting of a conventional example is attached to a tube.

【図20】従来例の管を切断しようとする状態を示す図FIG. 20 is a view showing a state in which a conventional pipe is about to be cut.

【図21】従来例のストッパーの装着状況を示す図FIG. 21 is a view showing a mounting state of a stopper of a conventional example.

【図22】従来例の管にバイパス回路を設けた状態を示
す図
FIG. 22 is a diagram showing a state in which a bypass circuit is provided in a conventional tube.

【図23】従来例のストッパーの要部の斜視図FIG. 23 is a perspective view of a main part of a conventional stopper.

【図24】従来例の管にストッパーを装着した状態を示
す図
FIG. 24 is a view showing a state in which a stopper is attached to a conventional pipe.

【図25】従来例の管にバルブを挿入した状態を示す図FIG. 25 is a view showing a state in which a valve is inserted in a conventional pipe.

【図26】従来例のプラグ締め機とシール栓を示す図FIG. 26 is a view showing a conventional plug tightener and a seal stopper.

【図27】従来例のシール栓の斜視図FIG. 27 is a perspective view of a conventional seal plug.

【図28】従来例のねじ締めフォークの裏面と表面を示
す斜視図
FIG. 28 is a perspective view showing a back surface and a front surface of a conventional screw tightening fork.

【図29】従来例のプラグ締め機の軸の要部とその軸と
ねじ締めフォークの要部を示す図
FIG. 29 is a view showing a main part of a shaft and a main part of a shaft and a screw tightening fork of a conventional plug fastening machine.

【図30】従来例のねじ締めフォークの係合状態を示す
FIG. 30 is a view showing an engaged state of a conventional screw tightening fork.

【図31】従来例のフィッティングをシール栓で閉鎖し
た状態の要部を示す図
FIG. 31 is a diagram showing a main part of a fitting of a conventional example closed with a seal plug.

【図32】従来例のねじ締めフォークの離脱状態を示す
FIG. 32 is a view showing a detached state of a conventional screw tightening fork.

【図33】従来例の管にバルブの挿入が完了した状態を
示す図
FIG. 33 is a view showing a state where insertion of a valve into a pipe of a conventional example is completed.

【符号の説明】[Explanation of symbols]

1 フィッティング 5 管 55 切断部 56 端面 58 段部 61 止ねじ 65 シール用栓 66 軸挿通孔 70 棒 75 中心軸 76 連結用ねじ 80 上部雄ねじ 81 下部雄ねじ 83 上部螺筒 86 上部テーパー面 87 縦孔 88 下部螺筒 90 下部テーパー面 93 閉鎖板 97 上部テーパー部 98 下部テーパー部 100 バネ 1 Fitting 5 Pipe 55 Cut Part 56 End Face 58 Step 61 Set Screw 65 Sealing Plug 66 Shaft Insertion Hole 70 Rod 75 Center Shaft 76 Connecting Screw 80 Upper Male Screw 81 Lower Male Screw 83 Upper Screw Cylinder 86 Upper Tapered Surface 87 Vertical Hole 88 Lower screw cylinder 90 Lower taper surface 93 Closing plate 97 Upper taper portion 98 Lower taper portion 100 Spring

───────────────────────────────────────────────────── フロントページの続き (72)発明者 鬼頭 富之 東京都千代田区丸の内一丁目1番2号日本 鋼管株式会社内 (72)発明者 高梨 洋治 東京都千代田区丸の内一丁目1番2号日本 鋼管株式会社内 (72)発明者 赤尾 一孝 東京都千代田区丸の内一丁目1番2号日本 鋼管株式会社内 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Tomiyuki Kito 1-2-1, Marunouchi, Chiyoda-ku, Tokyo Japan Steel Pipe Co., Ltd. (72) Inventor Youji Takanashi 1-2-1 Marunouchi, Chiyoda-ku, Tokyo Japan Steel Pipe Co., Ltd. (72) Inventor Kazutaka Akao 1-2-1, Marunouchi, Chiyoda-ku, Tokyo Japan Steel Pipe Co., Ltd.

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】 管5の外周にフィッティング1を装着
し、フィッティング1内の管5に切断部55を設けて、
端面56を形成し、フィッティング1の開口に設けた段
部58上に、軸挿通孔66を設けたシール用栓65を嵌
入し、シール用栓65は、フィッティング1の外周から
螺嵌した複数個の止ねじ61によって固定して開口を密
閉し、前記軸挿通孔66に、連結用ねじ76を設けた中
心軸75を回動可能に密嵌して装着し、この中心軸75
には、上部雄ねじ80を設けると共に、その下方に前記
上部雄ねじ80と逆向きに傾斜する下部雄ねじ81を設
け、前記上部雄ねじ80と下部雄ねじ81には、それぞ
れ、縦孔87を設けた上部螺筒83と、下部螺筒88を
螺嵌し、縦孔87は、シール用栓65より垂下して設け
た棒70に、上下摺動可能に外嵌し、上部螺筒83と下
部螺筒88には、互いに傾斜の向きが反対となる上部テ
ーパー面86と、下部テーパー面90を設け、上部螺筒
83と下部螺筒88の外側には、端面56に当接して密
閉できる一対の閉鎖板93を、バネ100で引っ張って
設け、閉鎖板93の内側には、前記上部テーパー面86
と下部テーパー面90に合致する上部テーパー部97と
下部テーパー部98を設けたホットタップ用フィッティ
ングを用いるバルブ。
1. A fitting 1 is attached to the outer periphery of a pipe 5, and a cutting portion 55 is provided in the pipe 5 in the fitting 1,
A sealing plug 65 having a shaft insertion hole 66 is fitted on a step portion 58 which forms the end face 56 and is provided in the opening of the fitting 1, and the sealing plug 65 is a plurality of screws fitted from the outer periphery of the fitting 1. The set shaft 61 is fixed by a set screw 61 to close the opening, and a central shaft 75 provided with a connecting screw 76 is rotatably tightly fitted and mounted in the shaft insertion hole 66.
Is provided with an upper male screw 80, and a lower male screw 81 inclined in the opposite direction to the upper male screw 80 is provided below the upper male screw 80. The upper male screw 80 and the lower male screw 81 are provided with a vertical hole 87, respectively. The cylinder 83 and the lower screw cylinder 88 are screw-fitted, and the vertical hole 87 is externally fitted to the rod 70 hung from the sealing plug 65 so as to be vertically slidable, and the upper screw cylinder 83 and the lower screw cylinder 88. Is provided with an upper taper surface 86 and a lower taper surface 90 whose inclination directions are opposite to each other, and on the outside of the upper screw cylinder 83 and the lower screw cylinder 88, a pair of closing plates that abut against the end surface 56 and can be sealed. 93 is pulled by a spring 100, and the upper tapered surface 86 is provided inside the closing plate 93.
And a valve using a hot tap fitting provided with an upper taper portion 97 and a lower taper portion 98 that match the lower taper surface 90.
JP3209644A 1991-08-21 1991-08-21 Valve with hot tap fitting Expired - Lifetime JPH07103952B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP3209644A JPH07103952B2 (en) 1991-08-21 1991-08-21 Valve with hot tap fitting

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP3209644A JPH07103952B2 (en) 1991-08-21 1991-08-21 Valve with hot tap fitting

Publications (2)

Publication Number Publication Date
JPH0552289A true JPH0552289A (en) 1993-03-02
JPH07103952B2 JPH07103952B2 (en) 1995-11-08

Family

ID=16576211

Family Applications (1)

Application Number Title Priority Date Filing Date
JP3209644A Expired - Lifetime JPH07103952B2 (en) 1991-08-21 1991-08-21 Valve with hot tap fitting

Country Status (1)

Country Link
JP (1) JPH07103952B2 (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008021792A1 (en) * 2006-08-08 2008-02-21 Shell Oil Company Subsea hot tap systems and methods
JP2014016021A (en) * 2012-07-11 2014-01-30 Buyo Gas Co Ltd Valve joint portion reinforcement structure for existing conduit, and valve joint portion reinforcement method

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008021792A1 (en) * 2006-08-08 2008-02-21 Shell Oil Company Subsea hot tap systems and methods
GB2453889A (en) * 2006-08-08 2009-04-22 Shell Int Research Subesea hot tap system and methods
AU2007284157B2 (en) * 2006-08-08 2011-01-20 Shell Internationale Research Maatschappij B.V. Subsea hot tap systems and methods
GB2453889B (en) * 2006-08-08 2011-08-24 Shell Int Research Subsea hot tap systems and methods
US8534306B2 (en) 2006-08-08 2013-09-17 Shell Oil Company Subsea hot tap systems and methods
JP2014016021A (en) * 2012-07-11 2014-01-30 Buyo Gas Co Ltd Valve joint portion reinforcement structure for existing conduit, and valve joint portion reinforcement method

Also Published As

Publication number Publication date
JPH07103952B2 (en) 1995-11-08

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