JPH10214707A - Assembly method for alignment and liquid leak preventing of through implant major electrode of liquid resistor and the through implant device - Google Patents
Assembly method for alignment and liquid leak preventing of through implant major electrode of liquid resistor and the through implant deviceInfo
- Publication number
- JPH10214707A JPH10214707A JP1435997A JP1435997A JPH10214707A JP H10214707 A JPH10214707 A JP H10214707A JP 1435997 A JP1435997 A JP 1435997A JP 1435997 A JP1435997 A JP 1435997A JP H10214707 A JPH10214707 A JP H10214707A
- Authority
- JP
- Japan
- Prior art keywords
- hole
- water
- main electrode
- ring
- electrode
- 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
Links
Landscapes
- Adjustable Resistors (AREA)
Abstract
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、発電機やインバー
タ等の電源出力特性の測定試験等に使用される負荷装置
において、水を電極水として利用する水抵抗器貫植型主
電極の軸合せ漏水防止組付け方法及びその実施に直接使
用する貫植装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an axial alignment of a water resistor penetrating type main electrode using water as electrode water in a load device used for a measurement test of power supply output characteristics of a generator, an inverter or the like. The present invention relates to a water leakage prevention assembling method and a transplanting device directly used for implementing the method.
【0002】[0002]
【従来の技術】この種、貫植型主電極をベース電極の底
部中央に貫植する水抵抗器の図2に示す貫植装置αは、
主電極1と、絶縁支持体としての円筒碍子2のフランジ
ヘッド2a及び植込みボルトである導体ボルト3の一部
が電極水中に置かれる。2. Description of the Related Art A water implanter α shown in FIG. 2 of this type, in which a implantable main electrode is implanted at the center of the bottom of a base electrode, is shown in FIG.
A main electrode 1, a flange head 2a of a cylindrical insulator 2 as an insulating support, and a part of a conductor bolt 3 as a stud are placed in the electrode water.
【0003】同図中、2bは導体ボルト3を縦貫する縦
貫孔、2cは上口縁、2dはカットリング係合環溝、2
eは貫通部、2fはアンダーカット部、3aは突出端螺
子部、3bは外出下端螺子部、4はベース電極底板、4
aは円筒碍子2を貫着する貫着孔、4bは上口縁、5は
抑えリング、5aは螺子通し孔、5bはアンダーカット
部、6は調圧螺子、7は二つ割半円弧形カットリング、
8はワッシャー、9はナット、10はダブル締付ナッ
ト、11は圧着端子、12はワイヤー、13、14はパ
ッキンである。[0003] In the figure, 2b is a longitudinal through hole penetrating the conductor bolt 3, 2c is an upper edge, 2d is a cut ring engaging ring groove, 2d.
e is a penetrating portion, 2f is an undercut portion, 3a is a protruding end screw portion, 3b is an outgoing lower end screw portion, 4 is a base electrode bottom plate, 4
a is a penetration hole through which the cylindrical insulator 2 penetrates, 4b is an upper edge, 5 is a retaining ring, 5a is a screw through hole, 5b is an undercut portion, 6 is a pressure adjusting screw, 7 is a half semicircular arc. Shaped cut ring,
8 is a washer, 9 is a nut, 10 is a double tightening nut, 11 is a crimp terminal, 12 is a wire, and 13 and 14 are packings.
【0004】[0004]
【発明が解決しようとする課題】貫植装置αでは、同図
中A,B,Cの隙間部分から電極水が染み込み、A,B
からの染み込み水は縦貫孔2b内周面を伝わり降下し、
Cからの染み込み水は円筒碍子2貫通部2e外周面を伝
わり降下する。貫通部2e外周面を伝わった漏水は電圧
を印加されたダブル締付ナット10とベース電極底板4
間で漏電し、縦貫孔2b内周面を伝わった漏水は導体ボ
ルト3、締付ナット10、圧着端子11、ケーブル12
を経て濡らし錆を発生して導通を悪化させる。In the transplanting device α, the electrode water permeates through gaps between A, B, and C in FIG.
Water penetrates through the inner peripheral surface of the through hole 2b and descends.
The water soaked from C travels down the outer peripheral surface of the cylindrical insulator 2 penetrating portion 2e and descends. Water leaking through the outer peripheral surface of the penetrating portion 2e is caused by the double tightening nut 10 to which voltage is applied and the base electrode bottom plate 4
Leakage between the conductors and the water leaked along the inner peripheral surface of the vertical through hole 2b causes the conductor bolt 3, the tightening nut 10, the crimp terminal 11, the cable 12
And rust is generated, and the conduction is deteriorated.
【0005】Aからの漏水浸入を防ぐ為には、A部分に
シール材を塗れば済むようであるが、シール材の一般的
材質は電気的な絶縁物で構成される為、これが螺子部3
aに含浸すると導体ボルト3と主電極1への導通を悪化
する結果を招来する。Bからの漏水浸入を防ぐ為には、
同様にシール部材を塗ると、主電極1及び円筒碍子2と
パッキン13間からとA部分からの侵入と相俟って円筒
碍子2と導体ボルト3と主電極1及び円筒碍子2とパッ
キン13内側へシール材の侵入があり同様の結果となる
ことが多かった。In order to prevent leakage of water from A, it is sufficient to apply a seal material to the portion A. However, since the general material of the seal material is formed of an electrical insulator, the seal material is formed of the screw portion 3.
When impregnated in a, the conduction between the conductor bolt 3 and the main electrode 1 is deteriorated. In order to prevent water leakage from B,
Similarly, when the sealing member is applied, the cylindrical insulator 2, the conductor bolt 3, the main electrode 1, the cylindrical insulator 2, and the inside of the packing 13 are combined with the penetration from the portion A between the main electrode 1, the cylindrical insulator 2 and the packing 13. In many cases, similar results were obtained due to penetration of the sealing material.
【0006】また、パッキン13の内径を導体ボルト3
の外径とほぼ同一径とし、外径を主電極1の外底面1a
外径とほぼ同一としたパッキン13を用いてナット9で
固定すると、締付圧力によって圧縮偏平するパッキン1
3は外側に拡伸する性質があり、主電極1と導体ボルト
3と円筒碍子2とパッキン13で囲繞する部分周辺近傍
の水封は保たれなくなる。その結果、アーク放電等によ
る絶縁破壊の危険が増大する。The inner diameter of the packing 13 is
And the outer diameter of the outer bottom surface 1a of the main electrode 1.
When the nut 13 is fixed by using a packing 13 having substantially the same outer diameter, the packing 1 is compressed and flattened by the tightening pressure.
Numeral 3 has the property of expanding outward, so that the water seal near the periphery of the portion surrounded by the main electrode 1, the conductor bolt 3, the cylindrical insulator 2, and the packing 13 cannot be maintained. As a result, the risk of dielectric breakdown due to arc discharge or the like increases.
【0007】主電極1外底面1a外周部分は、電極水中
で高温、高電圧さらにはアーク放電に晒され傷み易く、
点検等で分解し組付け後の再使用は不可能となる。アー
ク放電で破壊された物質は電極水中に流入攪拌され、ア
ーク放電の核種となり、連続アーク放電、即ち暴走の原
因となり、稼動中の正しい運転試験は不可能となる。[0007] The outer peripheral portion of the outer bottom surface 1a of the main electrode 1 is easily exposed to high temperature, high voltage and arc discharge in the electrode water, and is easily damaged.
Disassembly by inspection etc. makes reuse after assembly impossible. The substance destroyed by the arc discharge flows into the electrode water and is stirred, becomes a nuclide of the arc discharge, causes continuous arc discharge, that is, causes runaway, and a correct operation test during operation becomes impossible.
【0008】主電極1と円筒碍子2と導体ボルト3とベ
ース電極底板4との中心軸はが四者が精確に一致しなけ
ればならないが、組付けに当り、導体ボルト3外径は縦
貫孔2b内径よりも小さく、円筒碍子2の貫通部2e外
径は貫着孔4a内径よりも小さい為、相互に隙間を生
じ、これ等四者を一軸心に一致させることは不可能に近
いものがあった。The central axes of the main electrode 1, the cylindrical insulator 2, the conductor bolt 3, and the base electrode bottom plate 4 must exactly coincide with each other. 2b, the outer diameter of the through portion 2e of the cylindrical insulator 2 is smaller than the inner diameter of the through hole 4a, so that a gap is formed between them. It is almost impossible to make these four members coincide with one axis. was there.
【0009】その結果、これ等軸心の狂いは、循環され
た所要量の電極水を内部に貯蔵する有底円筒形ベース電
極4′内に主電極1が植立した状態を平面的に観察する
図3によると偏心配置となり電流P分布と電極水の流量
に不均一性をもたらし、当然の帰結として接近側に局部
加熱、電極異常摩耗、そしてアーク放電開始電圧の低下
現象を呈し、水抵抗器にとって不都合の原因の発生源と
もなる。As a result, the misalignment of the axes can be observed in a planar manner by observing the state in which the main electrode 1 is erected in the bottomed cylindrical base electrode 4 'for storing therein a required amount of circulated electrode water. According to FIG. 3, the eccentric arrangement results in non-uniformity in the current P distribution and the flow rate of the electrode water, and as a natural consequence, local heating, abnormal electrode wear, and a decrease in the arc discharge starting voltage on the approach side are exhibited. It can also be a source of inconvenience for vessels.
【0010】他方、図2の従来の貫植装置αにおける抑
えリング5と調圧螺子6とカットリング7に代えてキャ
ップ碍子15を用いてベース電極底板4に固植する図4
に示す貫植装置βが提案されたが、当該組付け構造を用
いたものでは、各部分の締付力が個々の部位の必要トル
クと一致しないことがある。なお、同図中、図2(a)
に示す従来の貫植装置αと同一部材は同一符号を付し
た。On the other hand, instead of the holding ring 5, the pressure adjusting screw 6, and the cut ring 7 in the conventional implanting device α of FIG.
Has been proposed, but in the case of using the assembling structure, the tightening force of each part may not coincide with the required torque of each part. It should be noted that FIG.
The same members as those of the conventional transplanting device α shown in FIG.
【0011】パッキン13、14の締付トルクは水封の
力があれば足りるが、この場合は主電極1と円筒碍子
2、キャップ碍子15とベース電極底板4のそれぞれ相
互間を固定する力となる。このためパッキン13、14
の締め過ぎで漏水の結果を招く。The tightening torque of the packings 13 and 14 is sufficient if a water sealing force is sufficient. In this case, a force for fixing the main electrode 1 and the cylindrical insulator 2 and a force for fixing the cap insulator 15 and the base electrode bottom plate 4 to each other are used. Become. Therefore, the packings 13 and 14
Overtightening results in water leakage.
【0012】ここにおいて本発明が解決しようとする主
要な目的は、次の通りである。即ち、本発明の第1の目
的は、貫植型主電極の貫植に当り、水封を完璧とした水
抵抗器の貫植型主電極軸合せ漏水防止組付け方法及び貫
植装置を提供せんとするものである。The main objects to be solved by the present invention are as follows. In other words, a first object of the present invention is to provide a method and an apparatus for aligning and preventing leakage of water from a main resistor in a water resistor, in which a water seal is completely sealed when the main electrode is implanted. It is something you want to do.
【0013】本発明の第2の目的は、貫植型主電極の貫
植に当り、各構成部材の軸心を容易に一致させ得る水抵
抗器の貫植型主電極の軸合せ漏水防止組付け方法及び貫
植装置を提供せんとするものである。A second object of the present invention is to provide a water leakage prevention set for a water resistor in which a shaft center of each of the constituent members can be easily made coincident with each other when the main electrode is implanted. It is an object of the present invention to provide an attaching method and a planting device.
【0014】本発明の第3の目的は、導体ボルト外周面
と主電極外底面と円筒碍子の縦貫孔上口縁の内側面にか
つ円筒碍子アンダーカット部のそれぞれフランジヘッド
下側面と貫通部外周面とベース電極底板の貫着孔上口縁
の内側面との三接触面にそれぞれ外接シーリングするシ
ーリング弾性部材を用いる水抵抗器の貫植型主電極の軸
合せ漏水防止組付け方法及び貫植装置を提供せんとする
ものである。A third object of the present invention is to provide an outer peripheral surface of a conductor bolt, an outer bottom surface of a main electrode, an inner surface of an upper edge of a vertical through hole of a cylindrical insulator, and a lower surface of a flange head and an outer periphery of a penetrating portion of a cylindrical insulator undercut portion, respectively. Method for assembling and preventing water leakage in axial alignment of a plug-in type main electrode of a water resistor using a sealing elastic member that circumscribes a seal at each of three contact surfaces between a contact surface and an inner surface of an upper edge of a penetration hole of a base electrode bottom plate. No device is provided.
【0015】本発明のその他の目的は、明細書、図面、
特に特許請求の範囲の各請求項の記載から自ずと明らか
となろう。[0015] Other objects of the present invention are as follows:
In particular, it will be obvious from the description of each claim in the claims.
【0016】[0016]
【課題を解決するための手段】本発明は、当該課題を解
決するに当り、主電極と導体ボルトと円筒碍子とベース
電極底板の一体組付けに際し、前記導体ボルト外周面と
前記主電極外底面と前記円筒碍子の縦貫孔上口縁の内側
面との三接触面及び前記円筒碍子アンダーカット部のそ
れぞれフランジヘッド下側面と貫通部外周面とベース電
極底板の貫着孔上口縁の内側面との三接触面にそれぞれ
外接するシーリング部材を挾在することにより前記主電
極と前記導体ボルトと前記円筒碍子とベース電極底板の
全軸心合せと同時に完璧な水封をも実現する。In order to solve the above-mentioned problems, according to the present invention, when the main electrode, the conductor bolt, the cylindrical insulator and the base electrode bottom plate are integrally assembled, the conductor bolt outer peripheral surface and the main electrode outer bottom surface are combined. And the inner surface of the upper edge of the through hole of the cylindrical insulator undercut portion, the lower surface of the flange head, the outer peripheral surface of the through portion, and the upper edge of the through hole of the base electrode bottom plate. By sandwiching the sealing members circumscribing the three contact surfaces with each other, perfect axial water sealing can be achieved simultaneously with the alignment of all axes of the main electrode, the conductor bolt, the cylindrical insulator, and the base electrode bottom plate.
【0017】さらに具体的詳細に述べると、当該課題の
解決では、本発明が次に列挙する新規な特徴的構成手法
及び手段を採用することにより、前記目的を達成するよ
うになされる。More specifically, in solving the above-mentioned problems, the present invention achieves the above object by employing the following novel characteristic configuration methods and means.
【0018】即ち、本発明方法の第1の特徴は、循環供
給された所定量の水を内部に貯蔵する有底円筒形ベース
電極の底部中央の貫着孔に貫着した絶縁支持体の縦貫孔
を縦貫する導体ボルトの外出下端に電源装置の電力ケー
ブルを接続しかつ突出上端に底部中央を螺合した主電極
を直立する貫植装置を組付けるに当り、前記導体ボルト
に捲き付けたシーリング弾性部材を前記主電極外底面と
前記絶縁支持体の前記縦貫孔上口縁間に当該上口縁内に
均等食込み自在に挾在して当該絶縁支持体に対する前記
導体ボルトの軸合せと前記縦貫孔の水封とを同時に行う
一方、前記絶縁支持体のフランジヘッド下側アンダーカ
ット部に捲き付けたシーリング弾性部材を当該フランジ
ヘッド下側と前記ベース電極底部中央の前記貫着孔上口
縁間に当該上口縁内に均等食込み自在に挾在して当該貫
着孔に対する前記絶縁支持体の軸合せと当該貫着孔の水
封とを同時に行ってなる水抵抗器の貫植型主電極の軸合
せ漏水防止組付け方法の構成採用にある。That is, a first feature of the method of the present invention is that the insulating support member penetrates a through hole at the bottom center of a bottomed cylindrical base electrode for storing a predetermined amount of circulated water therein. A seal wound around the conductor bolt when connecting a power cable of a power supply device to a lower end of a conductor bolt extending through the hole and assembling a penetrating device that erects a main electrode having a bottom center screwed to a protruding upper end. An elastic member is sandwiched between the outer bottom surface of the main electrode and the upper edge of the vertical through hole of the insulating support so as to be able to bite evenly in the upper edge, and the alignment of the conductor bolt with the insulating support and the vertical penetration are performed. At the same time, the sealing elastic member wrapped around the lower undercut portion of the flange head of the insulating support is provided between the lower edge of the flange head and the upper edge of the through-hole at the center of the base electrode bottom. The upper edge A water leakage prevention assembly for a water-resistant resistor, wherein the main support electrode of the water resistor is simultaneously inserted into the through-hole so that the insulating support is aligned with the through-hole and water is sealed in the through-hole. It is in the configuration adoption of the attaching method.
【0019】本発明方法の第2の特徴は、前記本発明方
法の第1の特徴におけるシーリング弾性部材が、断面円
形の無端リングである水抵抗器の貫植型主電極の軸合せ
漏水防止組付け方法の構成採用にある。According to a second feature of the method of the present invention, in the first feature of the present invention, the sealing elastic member is an endless ring having a circular cross section. It is in the configuration adoption of the attaching method.
【0020】本発明方法の第3の特徴は、前記本発明方
法の第2の特徴における断面円形の無端リングが、Oリ
ングである水抵抗器の貫植型主電極の軸合せ漏水防止組
付け方法の構成採用にある。According to a third feature of the method of the present invention, the endless ring having a circular cross section in the second feature of the method of the present invention is an O-ring, and a water leakage preventing assembly for aligning the main implantable main electrode of the water resistor. It consists in adopting the configuration of the method.
【0021】本発明方法の第4の特徴は、前記本発明方
法の第1、第2又は第3の特徴における絶縁支持体が、
フランジヘッド付円筒形碍子である水抵抗器の貫植型主
電極の軸合せ漏水防止組付け方法の構成採用にある。A fourth feature of the method of the present invention is that the insulating support according to the first, second or third feature of the method of the present invention comprises:
The present invention resides in the adoption of a method of assembling a water leakage preventing assembly of a transplantable main electrode of a water resistor which is a cylindrical insulator with a flange head.
【0022】本発明方法の第5の特徴は、前記本発明方
法の第1、第2、第3又は第4の特徴における導体ボル
トが、植込みボルトである水抵抗器の貫植型主電極の軸
合せ漏水防止組付け方法の構成採用にある。A fifth feature of the method of the present invention is that the conductor bolt in the first, second, third or fourth feature of the method of the present invention is a stud-type main electrode of a water resistor, wherein the conductor bolt is a stud. The present invention resides in adopting a configuration of a shaft leakage preventing assembly method.
【0023】本発明方法の第6の特徴は、前記本発明方
法の第1、第2、第3、第4又は第5の特徴における縦
貫孔が、上口縁全周に亙り面取り形成してなる水抵抗器
の貫植型主電極の軸合せ漏水防止組付け方法の構成採用
にある。A sixth feature of the method of the present invention is that the longitudinal hole in the first, second, third, fourth or fifth feature of the method of the present invention is formed by chamfering the entire upper edge. The present invention resides in the adoption of a method of assembling the water leakage preventing assembly of the through-type main electrode of the water resistor.
【0024】本発明方法の第7の特徴は、前記本発明方
法の第1、第2、第3、第4、第5又は第6の特徴にお
ける貫着孔が、上口縁全周に亙り面取り形成してなる水
抵抗器の貫植型主電極の軸合せ漏水防止組付け方法の構
成採用にある。A seventh feature of the method of the present invention is that the penetration hole in the first, second, third, fourth, fifth or sixth feature of the method of the present invention is formed over the entire periphery of the upper edge. The present invention resides in adoption of a method of assembling a water leakage preventing assembly of a transplant type main electrode of a water resistor formed by chamfering.
【0025】本発明方法の第8の特徴は、前記本発明方
法の第6又は第7の特徴における面取り形成が、Oリン
グの下部を食込み案内する楔テーパー面に形成してなる
水抵抗器の貫植型主電極の軸合せ漏水防止組付け方法の
構成採用にある。According to an eighth aspect of the method of the present invention, the chamfering in the sixth or seventh aspect of the method of the present invention is characterized in that the chamfer formation is formed on a wedge tapered surface which guides a lower portion of the O-ring. The present invention resides in the adoption of a method of assembling a water leakage preventing assembly of a transplantable main electrode.
【0026】本発明方法の第9の特徴は、前記本発明方
法の第6又は第7の特徴における面取り形成が、Oリン
グの下部を食込み状に収容する円弧溝面に形成してなる
水抵抗器の貫植型主電極の軸合せ漏水防止組付け方法の
構成採用にある。According to a ninth feature of the method of the present invention, a chamfer in the sixth or seventh feature of the method of the present invention is such that the chamfer formation is formed on an arc-shaped groove surface for receiving the lower portion of the O-ring in a biting manner. The present invention resides in the adoption of a method of assembling a water leakage preventing assembly of a transplantable main electrode of a vessel.
【0027】本発明装置の第1の特徴は、循環供給され
た所定量の水を内部に貯蔵する有底円筒形ベース電極の
底部中央の貫着孔に貫着した絶縁支持体の縦貫孔を縦貫
する導体ボルトの外出下端に電源装置の電源装置の電力
ケーブルを接続しかつ突出上端に底部中央を螺合した主
電極を直立する貫植装置において、前記導体ボルトに捲
き付けたシーリング弾性部材を前記主電極外底面と前記
絶縁支持体の前記縦貫孔上口縁間に当該上口縁内に均等
食込み自在に挾在する一方、前記絶縁支持体のフランジ
ヘッド下側アンダーカット部に捲き付けたシーリング弾
性部材を当該フランジヘッド下側と前記ベース電極底部
中央の前記貫着孔上口縁間に当該上口縁内に均等食込み
自在に挾在してなる水抵抗器の貫植型主電極の貫植装置
の構成採用にある。A first feature of the device of the present invention is that a vertical through hole of an insulating support penetrated through a through hole at the bottom center of a bottomed cylindrical base electrode for storing a predetermined amount of circulated water therein. In a penetrating device in which a power cable of a power supply of a power supply is connected to a lower end of a vertically extending conductor bolt and a main electrode whose bottom center is screwed to a protruding upper end thereof, a sealing elastic member wound around the conductor bolt is provided. Between the outer bottom surface of the main electrode and the upper edge of the vertical through-hole of the insulating support, the upper edge was sandwiched so as to be able to bite evenly, and was wound around the lower undercut portion of the flange head of the insulating support. A penetration type main electrode of a water resistor in which a sealing elastic member is sandwiched between the lower edge of the flange head and the upper edge of the through hole at the center of the bottom of the base electrode so as to be able to bite into the upper edge. In the configuration of the transplanting device
【0028】本発明装置の第2の特徴は、前記本発明装
置の第1の特徴におけるシーリング弾性部材が、断面円
形の無端リングである水抵抗器の貫植型主電極の貫植装
置の構成採用にある。A second feature of the device of the present invention resides in the structure of the device for implanting the implantable main electrode of a water resistor in which the sealing elastic member in the first feature of the device of the present invention is an endless ring having a circular cross section. In hiring.
【0029】本発明装置の第3の特徴は、前記本発明装
置の第2の特徴における断面円形の無端リングが、Oリ
ングである水抵抗器の貫植型主電極の貫植装置の構成採
用にある。A third feature of the device of the present invention resides in that the endless ring having a circular cross section in the second feature of the device of the present invention is an O-ring, and the structure of the implantable main electrode of the water resistor is adopted. It is in.
【0030】本発明装置の第4の特徴は、前記本発明装
置の第1、第2又は第3の特徴における絶縁支持体が、
フランジヘッド付円筒碍子である水抵抗器の貫植型主電
極の貫植装置の構成採用にある。A fourth feature of the device of the present invention is that the insulating support in the first, second or third feature of the device of the present invention is:
The present invention resides in the adoption of a penetrating device of a penetrating type main electrode of a water resistor which is a cylindrical insulator with a flange head.
【0031】本発明装置の第5の特徴は、本発明装置の
第1、第2、第3又は第4の特徴における導体ボルト
が、植込みボルトである水抵抗器の貫植型主電極の貫植
装置の構成採用にある。A fifth feature of the device of the present invention is that the conductor bolt in the first, second, third or fourth feature of the device of the present invention is such that the conductor bolt is a stud, and the penetrating type main electrode of the water resistor is studded. It consists in adopting the configuration of the planting device.
【0032】本発明装置の第6の特徴は、前記本発明装
置の第1、第2、第3、第4又は第5の特徴における縦
貫孔と貫着孔が、上口縁全周に亙り面取り形成してなる
水抵抗器の貫植型主電極の貫植装置の構成採用にある。A sixth feature of the device of the present invention is that the vertical through-hole and the through-hole in the first, second, third, fourth or fifth feature of the above-described device of the present invention are formed over the entire periphery of the upper edge. The present invention resides in the adoption of a structure of a planting device for a planting type main electrode of a water resistor formed by chamfering.
【0033】本発明装置の第7の特徴は、前記本発明装
置の第6の特徴における面取りが、Oリングの下部を食
込み案内する楔テーパー面に形成してなる水抵抗器の貫
植型主電極の貫植装置の構成採用にある。A seventh feature of the device of the present invention resides in that the bevel in the sixth feature of the device of the present invention is formed as a wedge tapered surface formed by a wedge tapered surface which guides a lower portion of the O-ring. The present invention resides in the configuration adoption of the electrode implanting device.
【0034】本発明装置の第8の特徴は、前記本発明装
置の第6の特徴における面取りが、Oリングの下部を食
込み状に収容する円弧溝面に形成してなる水抵抗器の貫
植型主電極の貫植装置の構成採用にある。An eighth feature of the device of the present invention resides in that the chamfer in the sixth feature of the device of the present invention is such that the chamfer is formed in an arc groove surface for receiving the lower part of the O-ring in a bite-like manner. The present invention resides in the adoption of the structure of the type main electrode implanting device.
【0035】[0035]
【発明の実施の形態】本発明の実施の形態をその装置例
と方法例につき図面を参照して説明する。 (装置例)図1は本装置例の中央縦断面図であって
(a)はその組付け構造図、(b)は縦貫孔及び貫着孔
の上口縁を面取り形成した円弧溝面の中央縦断拡大図で
ある。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described with reference to the drawings with reference to an example of an apparatus and an example of a method thereof. (Example of Apparatus) FIGS. 1A and 1B are central longitudinal sectional views of an example of the present apparatus, wherein FIG. 1A is an assembled structural view thereof, and FIG. It is a center longitudinal enlarged view.
【0036】なお、同図中、図2に示す従来の貫植装置
αと同一部材は同一符号を付して説明の重複を避けた。
図中、γは本装置例の貫植装置、16、17は導体ボル
ト3と円筒碍子2アンダーカット部2fにそれぞれ捲き
付けた断面円形の無端リングたるOリング、18、1
9、20、21は縦貫孔2bと貫着孔4aの上口縁2
c、4b全縁に亙りそれぞれ面取り形成した楔テーパー
面と円弧溝面である。In the figure, the same members as those of the conventional transplanting device α shown in FIG.
In the figure, γ is a transplanting device of the present device example, 16 and 17 are O-rings, which are endless rings having a circular cross section wound around the conductor bolt 3 and the cylindrical insulator 2 undercut portion 2f, respectively.
9, 20 and 21 are the upper edge 2 of the longitudinal through hole 2b and the through hole 4a.
c and 4b are a wedge taper surface and a circular arc groove surface formed by chamfering over the entire edges, respectively.
【0037】本装置例は従来の貫植装置αのパッキン1
3、14に代えてOリング16、17を採用したもので
ある。当該Oリング16は、導体ボルト3の突出端螺子
部3a下端外周に巻装して主電極1外底面1aと円筒碍
子2の縦貫孔2bの楔テーパー面18又は円弧溝面20
間に下部が均等食込み自在に挾在する。当該Oリング1
7は、円筒碍子2のアンダーカット部2b外周に巻装し
てフランジヘッド2a下側面とベース電極底板4中央の
貫着孔4aの楔テーパー面19又は円弧溝面21間に下
部が均等食込み自在に挾在する。This device example is a packing 1 of a conventional transplanting device α.
O-rings 16 and 17 are used in place of 3 and 14. The O-ring 16 is wound on the outer periphery of the lower end of the protruding end screw portion 3 a of the conductor bolt 3, and the wedge taper surface 18 or the arc groove surface 20 of the outer bottom surface 1 a of the main electrode 1 and the longitudinal through hole 2 b of the cylindrical insulator 2.
The lower part is sandwiched evenly between the lower part. O-ring 1
Numeral 7 is wound around the undercut portion 2b of the cylindrical insulator 2 so that the lower portion is evenly cut between the lower surface of the flange head 2a and the wedge tapered surface 19 or the arc groove surface 21 of the through hole 4a at the center of the base electrode bottom plate 4. Interposed in
【0038】(方法例)当該本装置例に適用した本方法
例を図1について説明する。主電極1と円筒碍子2と導
体ボルト3が集合する部分にOリング16を挾在するこ
とにより、Aからの電極水の浸入はOリング16の接触
面aとcで水封できる。Bからの電極水の浸入はOリン
グ16の接触面aとbで水封できる。(Example of Method) An example of the method applied to the example of the present apparatus will be described with reference to FIG. By sandwiching the O-ring 16 at a portion where the main electrode 1, the cylindrical insulator 2, and the conductor bolt 3 are gathered, the infiltration of the electrode water from A can be sealed by the contact surfaces a and c of the O-ring 16. The infiltration of the electrode water from B can be sealed by the contact surfaces a and b of the O-ring 16.
【0039】これにより縦貫孔2b内面に浸入伝わる漏
水は防止できる。Oリング16の締付圧力は、ナット9
で加減でき、締め過ぎトルクは主電極1と円筒碍子2の
挾力となりOリング16は食込みが深くなるだけでより
水密性を高める結果となる。Thus, water leakage that penetrates into the inner surface of the through hole 2b can be prevented. The tightening pressure of the O-ring 16 is
The overtightening torque acts as a clamping force between the main electrode 1 and the cylindrical insulator 2, and the O-ring 16 is not only deeper but also more watertight.
【0040】円筒碍子2のアンダーカット部2fとベー
ス電極底板4との貫合部分にOリング17を挾在するこ
とにより、Cからの電極水の浸入はOリング17の接触
面dとeでの水封で漏水を防止する。又、円筒碍子2と
ベース電極底板4の締付圧力は抑えリング5に付いた調
圧ボルト6で加減できる。Since the O-ring 17 is sandwiched between the undercut portion 2 f of the cylindrical insulator 2 and the base electrode bottom plate 4, the infiltration of the electrode water from C is caused by the contact surfaces d and e of the O-ring 17. Prevent water leakage with a water seal. Further, the tightening pressure between the cylindrical insulator 2 and the base electrode bottom plate 4 can be adjusted by a pressure adjusting bolt 6 attached to the restraining ring 5.
【0041】同時に、縦貫孔2b及び貫着孔4a上口縁
2c、4bを楔テーパー面18、19又は円弧溝面2
0、21に面取りすることにより主電極1、円筒碍子
2、導体ボルト3及びベース電極底板4の貫着孔4aの
全軸心を一致させるガイドの役目もする。At the same time, the upper through-edges 2c and 4b of the longitudinal through-hole 2b and the through-hole 4a are connected to the wedge tapered surfaces 18 and 19 or the arc-shaped groove surface 2.
By chamfering 0, 21, the main electrode 1, the cylindrical insulator 2, the conductor bolt 3, and a guide for aligning all the axes of the through-holes 4 a of the base electrode bottom plate 4 are also provided.
【0042】[0042]
【発明の効果】かくして、本発明によれば、各部材相互
間の水封と軸合せを同時に行って精確に組付けされ、ベ
ース電極内の中心に熟練を要せず簡易に主電極を同心植
立し得るので従来の偏心植立の弊害としての電蝕やアー
ク放電や絶縁破壊等による種々の悪影響を排し寿命を伸
ばすとともに安全かつ安定に試験測定を行い得る。As described above, according to the present invention, the water sealing and the axial alignment between the members are performed at the same time, and the components are accurately assembled, and the main electrode is easily concentric with the center of the base electrode without any skill. Since the plant can be planted, various adverse effects due to electric erosion, arc discharge, insulation breakdown, and the like, which are the disadvantages of the conventional eccentric planting, can be eliminated, and the life can be extended, and test measurement can be performed safely and stably.
【0043】しかも、Oリングは導体ボルトの外周かつ
円筒碍子の中央に近い部分に位置し、導体ボルトと同電
位となり、高電圧とアーク放電に晒されない為、傷みが
少ない等の優れた効果を奏する。Furthermore, the O-ring is located at the outer periphery of the conductor bolt and near the center of the cylindrical insulator, has the same potential as the conductor bolt, and is not exposed to high voltage and arc discharge. Play.
【図1】本発明の実施形態例の装置例を示し、(a)は
中央縦断面図、(b)は円筒碍子とベース電極底板のそ
れぞれ上口縁に面取り形成した円弧溝面の拡大断面図で
ある。1A and 1B show an example of an apparatus according to an embodiment of the present invention, in which FIG. 1A is a central longitudinal sectional view, and FIG. 1B is an enlarged sectional view of a circular arc groove surface chamfered on upper edges of a cylindrical insulator and a base electrode bottom plate. FIG.
【図2】(a)は従来装置例の中央縦断面図、(b)は
抑えリングの拡大平面図、(c)は同図(b)中IIc-II
c 線視断面図、(d)は二つ割カットリングの拡大平面
図、(e)は同図(d)中IIe-IIe 線視断面図である。2 (a) is a central longitudinal sectional view of an example of a conventional device, (b) is an enlarged plan view of a holding ring, and (c) is IIc-II in FIG. 2 (b).
FIG. 2D is a sectional view taken along line c, FIG. 2D is an enlarged plan view of a split cut ring, and FIG. 2E is a sectional view taken along line IIe-IIe in FIG.
【図3】電流分布と電極水流量分布を説明するため主電
極をベース電極内に偏心して植立配置した平面図であ
る。FIG. 3 is a plan view in which a main electrode is eccentrically planted in a base electrode to explain a current distribution and an electrode water flow rate distribution.
【図4】他の従来装置例の中央縦断面図である。FIG. 4 is a central longitudinal sectional view of another example of the conventional apparatus.
α、β、γ…貫植装置 1…主電極 1a…外底面 2…円筒碍子 2a…フランジヘッド 2b…縦貫孔 2c、4b…上口縁 2d…カットリング係合環溝 2e…貫通部 2f、5b…アンダーカット部 3…導体ボルト 3a…突出端螺子部 4…ベース電極底板 4′…ベース電極 4a…貫着孔 5…抑えリング 5a…螺子孔 6…調圧螺子 7…二つ割半円弧カットリング 8…ワッシャー 9…ナット 10…ダブル締付ナット 11…圧着端子 12…ワイヤー 13、14…パッキン 15…キャップ碍子 16、17…Oリング 18、19…楔テーパー面 20、21…円弧溝面 A,B,C…電極水浸入部 a,b,c,d,e,f…接触面 P…電流 .alpha., .beta., .gamma .: Transplanting device 1. Main electrode 1a. Outer bottom surface 2. Cylindrical insulator 2a. Flange head 2b. Vertical through hole 2c, 4b. 5b: Undercut portion 3: Conductor bolt 3a: Protruding end screw portion 4: Base electrode bottom plate 4 '... Base electrode 4a: Penetration hole 5: Holding ring 5a: Screw hole 6: Pressure adjusting screw 7: Split semicircular arc Cut ring 8 ... Washer 9 ... Nut 10 ... Double tightening nut 11 ... Crimping terminal 12 ... Wire 13,14 ... Packing 15 ... Cap insulator 16,17 ... O-ring 18,19 ... Wedge taper surface 20,21 ... Arc groove surface A, B, C: Electrode water penetration part a, b, c, d, e, f: Contact surface P: Current
Claims (17)
る有底円筒形ベース電極の底部中央の貫着孔に貫着した
絶縁支持体の縦貫孔を縦貫する導体ボルトの外出下端に
電源装置の電力ケーブルを接続しかつ突出上端に底部中
央を螺合した主電極を直立する貫植装置を組付けるに当
り、 前記導体ボルトに捲き付けたシーリング弾性部材を前記
主電極外底面と前記絶縁支持体の前記縦貫孔上口縁間に
当該上口縁内に均等食込み自在に挾在して当該絶縁支持
体に対する前記導体ボルトの軸合せと前記縦貫孔の水封
とを同時に行う一方、 前記絶縁支持体のフランジヘッド下側アンダーカット部
に捲き付けたシーリング弾性部材を当該フランジヘッド
下側と前記ベース電極底部中央の前記貫着孔上口縁間に
当該上口縁内に均等食込み自在に挾在して当該貫着孔に
対する前記絶縁支持体の軸合せと当該貫着孔の水封とを
同時に行ってなる、 ことを特徴とする水抵抗器の貫植型主電極の軸合せ漏水
防止組付け方法。1. A bottom end of a conductor bolt penetrating through a through hole of an insulating support penetrating through a through hole at the bottom center of a bottomed cylindrical base electrode for storing a predetermined amount of circulated water therein. In connecting the power cable of the power supply device and assembling the transplanting device that erects the main electrode having the bottom center screwed to the protruding upper end, the sealing elastic member wound around the conductor bolt is attached to the main electrode outer bottom surface and the main electrode. The upper edge of the vertically extending hole of the insulating support is sandwiched between the upper edge of the insulating support so as to be able to bite evenly, and the alignment of the conductor bolt with the insulating support and the water sealing of the vertically extending hole are simultaneously performed. A sealing elastic member wound around the lower undercut of the flange head of the insulating support can be evenly cut into the upper edge between the lower edge of the flange head and the upper edge of the through-hole at the center of the base electrode bottom. Sandwiched between The insulation comprising performing support shaft combined with a water seal of the transmural attachment holes simultaneously, axial combined leakage prevention assembling method of transmural plant type main electrode of the water resistor, characterized in that for the transmembrane adhesion hole.
電極の軸合せ漏水防止組付け方法。2. The method of claim 1, wherein the sealing elastic member is an endless ring having a circular cross section.
電極の軸合せ漏水防止組付け方法。3. The method as claimed in claim 2, wherein the endless ring having a circular cross section is an O-ring.
の貫植型主電極の軸合せ漏水防止組付け方法。4. The assembly for preventing axial leakage of a transplantable main electrode of a water resistor according to claim 1, wherein the insulating support is a cylindrical insulator with a flange head. Method.
抗器の貫植型主電極の軸合せ漏水防止組付け方法。5. The method according to claim 1, wherein the conductor bolt is a stud. 5. The method of claim 1, wherein the conductor bolt is a stud.
水抵抗器の貫植型主電極の軸合せ漏水防止組付け方法。6. The shaft of a through-type main electrode of a water resistor according to claim 1, wherein the longitudinal through hole is chamfered around the entire periphery of the upper edge. Water leakage prevention assembly method.
載の水抵抗器の貫植型主電極の軸合せ漏水防止組付け方
法。7. The water-impregnated main body of a water resistor according to claim 1, wherein the penetration hole is chamfered around the entire periphery of the upper edge. A method for assembling electrodes to prevent water leakage.
る、 ことを特徴とする請求項6又は7に記載の水抵抗器の貫
植型主電極の軸合せ漏水防止組付け方法。8. The water leakage for axial alignment of a transplantable main electrode of a water resistor according to claim 6, wherein the chamfer is formed on a wedge tapered surface that guides a lower portion of the O-ring. Preventive assembly method.
る、 ことを特徴とする請求項6又は7に記載の水抵抗器の貫
植型主電極の軸合せ漏水防止組付け方法。9. The shaft of the water-resistant main electrode according to claim 6, wherein the chamfer is formed on an arc-shaped groove surface for accommodating a lower portion of the O-ring in a bite-like manner. Water leakage prevention assembly method.
する有底円筒形ベース電極の底部中央の貫着孔に貫着し
た絶縁支持体の縦貫孔を縦貫する導体ボルトの外出下端
に電源装置の電源装置の電力ケーブルを接続しかつ突出
上端に底部中央を螺合した主電極を直立する貫植装置に
おいて、 前記導体ボルトに捲き付けたシーリング弾性部材を前記
主電極外底面と前記絶縁支持体の前記縦貫孔上口縁間に
当該上口縁内に均等食込み自在に挾在する一方、 前記絶縁支持体のフランジヘッド下側アンダーカット部
に捲き付けたシーリング弾性部材を当該フランジヘッド
下側と前記ベース電極底部中央の前記貫着孔上口縁間に
当該上口縁内に均等食込み自在に挾在する、 ことを特徴とする水抵抗器の貫植型主電極の貫植装置。10. A bottom end of a conductor bolt penetrating through a through hole of an insulating support penetrating through a through hole at the bottom center of a bottomed cylindrical base electrode for storing a predetermined amount of circulated water therein. In a penetrating device for connecting a power cable of a power supply device of a power supply device and erecting a main electrode having a bottom center screwed to a projecting upper end, a sealing elastic member wound around the conductor bolt is insulated from the main electrode outer bottom surface. A sealing elastic member wound around the lower undercut of the flange head of the insulating support is inserted between the upper rim of the vertical through hole of the support so as to be able to bite into the upper rim. A penetrating type main electrode for a water resistor, wherein the penetrating hole is provided between the upper edge of the through hole and the upper edge of the base electrode at the center of the bottom of the base electrode.
主電極の貫植装置。11. The implantable main electrode implantation device for a water resistor according to claim 10, wherein the sealing elastic member is an endless ring having a circular cross section.
主電極の貫植装置。12. The implantable device for implantable main electrodes of a water resistor according to claim 11, wherein the endless ring having a circular cross section is an O-ring.
抵抗器の貫植型主電極の貫植装置。13. The implantable device for the implantable main electrode of a water resistor according to claim 10, wherein the insulating support is a cylindrical insulator with a flange head.
載の水抵抗器の貫植型主電極の貫植装置。14. The device according to claim 10, 11, 12 or 13, wherein the conductor bolt is a stud.
4に記載の水抵抗器の貫植型主電極の貫植装置。15. The vertical through hole and the through hole are chamfered over the entire periphery of the upper edge.
5. The device for implanting a main electrode of a water resistor according to claim 4.
る、 ことを特徴とする請求項15に記載の水抵抗器の貫植型
主電極の貫植装置。16. The device according to claim 15, wherein the chamfer is formed in a tapered wedge surface that guides a lower portion of the O-ring.
る、 ことを特徴とする請求項15に記載の水抵抗器の貫植型
主電極の貫植装置。17. The device according to claim 15, wherein the chamfer is formed in an arcuate groove surface for accommodating a lower portion of the O-ring in a bite-like manner.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1435997A JP2828968B2 (en) | 1997-01-28 | 1997-01-28 | Method for assembling water leakage prevention and alignment of main electrode for water resistor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1435997A JP2828968B2 (en) | 1997-01-28 | 1997-01-28 | Method for assembling water leakage prevention and alignment of main electrode for water resistor |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH10214707A true JPH10214707A (en) | 1998-08-11 |
JP2828968B2 JP2828968B2 (en) | 1998-11-25 |
Family
ID=11858881
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP1435997A Expired - Lifetime JP2828968B2 (en) | 1997-01-28 | 1997-01-28 | Method for assembling water leakage prevention and alignment of main electrode for water resistor |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2828968B2 (en) |
-
1997
- 1997-01-28 JP JP1435997A patent/JP2828968B2/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
JP2828968B2 (en) | 1998-11-25 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US6364677B1 (en) | Arrangement in terminating a cable | |
US3800064A (en) | Universal power cable joint with closed-cell sponge stress relief element | |
CA1116649A (en) | Seal plug | |
ES2335648T3 (en) | CABLE PRESS SETS. | |
KR101682286B1 (en) | Battery | |
US6934588B1 (en) | Pacemaker housing with lead connection assembly | |
US4382651A (en) | Transformer bar connector | |
US8734025B2 (en) | Cable termination device | |
US5338213A (en) | Submersible pump pothead test plug | |
EP0601826A1 (en) | Generator rotor collector terminal stud hydrogen seal | |
US3961127A (en) | Universal power cable joint for use with power cables having various insulations | |
EP0723707B1 (en) | A connection device for the poles of electric accumulators | |
GB2116381A (en) | High voltage electrical connector | |
JP2828968B2 (en) | Method for assembling water leakage prevention and alignment of main electrode for water resistor | |
US5331114A (en) | Method and apparatus to pressure seal cable splices | |
US4614397A (en) | Terminal plate assembly | |
US20200303846A1 (en) | Cable connector plugs and cable connector systems, cover systems and methods including same | |
US4806113A (en) | High voltage connector for x-ray equipment | |
EP0325699B1 (en) | Electrical cable termination-connector for electrically connecting one-core cables to an equipment terminal | |
US4934046A (en) | Method of establishing a hermetic seal about a terminal post of a battery | |
US3721745A (en) | Pothead construction and method of terminating a power cable therewith | |
US5046962A (en) | Cable terminal assembly | |
GB2040603A (en) | Sealing conduits | |
RU2368773C2 (en) | Electric well top system | |
DE4135390C1 (en) | Current connecting plug for power supply - has rotatable fixing ring on housing allowing connection to housing of cooperating socket |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
EXPY | Cancellation because of completion of term |