CN201450228U - Two-electrode spark gap gas switch - Google Patents
Two-electrode spark gap gas switch Download PDFInfo
- Publication number
- CN201450228U CN201450228U CN2009200335368U CN200920033536U CN201450228U CN 201450228 U CN201450228 U CN 201450228U CN 2009200335368 U CN2009200335368 U CN 2009200335368U CN 200920033536 U CN200920033536 U CN 200920033536U CN 201450228 U CN201450228 U CN 201450228U
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Abstract
The utility model relates to the manufacturing field of a high-voltage switch, in particular to a two-electrode spark gap gas switch which is suitable for a pulse power supply. The two-electrode spark gap gas switch comprises a long electrode block, a short electrode block, a long electrode arranged on the long electrode block, a short electrode arranged on the short electrode block, an insulation tube arranged between the long electrode block and the short electrode block and an insulated rod fixedly connecting the long electrode block with the short electrode block, wherein the long electrode block, the insulation tube and the short electrode block constitute an aeration chamber, and the long electrode and the short electrode are positioned in the aeration chamber. The utility model is characterized in that the long electrode and the short electrode are graphite electrodes, and the long electrode block and the short electrode block are metal electrode blocks. The metal electrode blocks are provided with blind holes, and the graphite electrodes are embedded in the blind holes of the metal electrode blocks in an interference fit mode.
Description
Technical field
The utility model relates to high-voltage switch gear and makes the field, and particularly a kind of two-electrode spark gap gas switch is applicable to impulse power electrical source.
Background technology
Two electrode gas switches have that through-current capability is strong, life-span length, working stability, do not have advantage such as heavy metal Hg pollution, and still, two electrode gas switches are by heavy current pulse the time, and electrode erosion seriously is the main cause that influences its reliability.In order to prevent of the ablation of big electric current to electrode, must select the good material of arc ablation resistance performance for use, general first-selected with the electrode material of alloys such as copper tungsten as arc ablation resistance, its advantage is to conduct electricity very well, can adopt soldering and welding such as other metal materials such as copper easily, but current amplitude greater than 100kA, the situation of transfer charge amount greater than 20C under, the deep layer fusing of alloy electrode is inevitable, this has just aggravated the ablation degree of metal electrode, cause electrode life short, the problem that the switch reliability is not high.
As everyone knows, graphite be a kind ofly conduct electricity very well, the material of high temperature resistant ablation, under excessive temperature, can not melt yet, electrode erosion mainly shows as the oxidation of graphite material, therefore, graphite electrode is particularly suitable for the electrode material as big electric current two-electrode spark gap gas switch.But, being connected and fixed between graphite electrode and the metal material is very difficult, because graphite material is general more crisp, under the situation by big electric current, require again to contact reliably between graphite electrode and the metal electrode seat, if contact-making surface out-of-flatness meeting produces local loose contact, cause that discharge in this place, spark phenomenon, influence the life-span and the reliability of switch.Therefore, the fixed installation technology between graphite electrode and the metal electrode seat is very crucial.
Gas switch for the big electric current of conducting, large charge transfer amount; the amplitude height of electric current not only; and the duration is longer; can reach a millisecond magnitude; variation may be moved in the position of electric arc between two electrodes, and the original position of electric arc also is uncontrollable, and electric arc arcing outside electrode gap takes place in regular meeting; make electrode tip holder that serious the ablation be taken place, graphite electrode connects, bearing breaks down thereby cause.
Summary of the invention
At the two-electrode spark gap gas switch of prior art at the big current amplitude of conducting, when big coulomb electric charge shifts, electrode erosion is serious, electrode life is short, the problem that the switch reliability is not high, the purpose of this utility model is to provide a kind of two-electrode spark gap gas switch, the big current amplitude of its conducting surpasses 300kA, once shifts the enclosed pasture amount greater than 100C, and the anti-ablation ability of electrode is greater than 150kC.
For reaching above purpose, the utility model takes following technical scheme to be achieved.
A kind of two-electrode spark gap gas switch, comprise the long electrode seat, the noncontinuous electrode seat, be arranged on the long electrode on the long electrode seat, be arranged on the noncontinuous electrode on the noncontinuous electrode seat, be arranged on the insulating cylinder between long electrode seat and the noncontinuous electrode seat, the insulated tension pole of fixedly connected long electrode seat and noncontinuous electrode seat, described long electrode seat, insulating cylinder and noncontinuous electrode seat constitute inflating cells, and be long, noncontinuous electrode is positioned at inflating cells, it is characterized in that, described length, noncontinuous electrode is graphite electrode, long, the noncontinuous electrode seat is the metal electrode seat, offers blind hole on the described metal electrode seat, and the graphite electrode interference fit is embedded in the blind hole of metal electrode seat.
Further improvement of the utility model and characteristics are:
Described graphite electrode is made up of with afterbody with head and interference fit discharge, described head and afterbody are two sections cylinders that are connected as a single entity, have the arc transition face respectively as the edge of the cylinder of head and with the afterbody connecting portion, and as the body diameter of the head overall diameter that is used for fixing the graphite electrode part greater than the metal electrode seat.
Described graphite electrode interference fit is embedded in the blind hole of metal electrode seat, is specially: the heating of metal electrode tip holder, and blind hole is embedded in graphite electrode, and the shrinkage of metal electrode seat clamps graphite electrode.
Described metal electrode seat axial centre is provided with the steam vent that is communicated with blind hole.
The graphite electrode of the utility model two-electrode spark gap gas switch and electrode tip holder compared with prior art have the following advantages:
1, this two-electrode spark gap gas switch adopts graphite electrode; its global shape is for being approximately mushroom; head adopts larger-diameter cylinder with arc transition face; this body diameter is greater than the overall diameter that is used for fixing the graphite electrode part of metal electrode seat; purpose with the metal electrode seat that reaches protection; can avoid the latter to be subjected to the ablation and the heating of electric arc, improve the reliability of electrode and electrode tip holder greatly.
2, this two-electrode spark gap gas switch adopts graphite electrode, and its afterbody is the less cylinder of relative head diameter, and this afterbody is diametric(al) is embedded in the blind hole of metal electrode seat fully with certain magnitude of interference among.This makes that the contact-making surface between graphite electrode and the metal electrode seat is not only tight, and contact area is very big, is particularly suitable for the electric current by big amplitude, and keeps the excellent contact face, thereby has improved the reliability of two electrode gas switches.
3, offer blind hole on the metal electrode seat of this two-electrode spark gap gas switch, the graphite electrode interference fit is embedded in the blind hole of metal electrode seat.Adopt heat metal electrode seat, after making the blind hole interior diameter expand into diameter greater than the graphite electrode afterbody, the graphite electrode afterbody is inserted in the metal electrode seat blind hole, and slowly cooling then reaches the blind hole of graphite electrode afterbody and metal electrode seat to inlay reliably fixing.Another advantage of this fixed form is once more the heating of metal electrode tip holder, replacing graphite electrode for convenience detach.
4, this two-electrode spark gap gas switch adopts in the graphite electrode, and its metal electrode seat axial centre is provided with the steam vent that is communicated with graphite electrode.Be embedded in the process of metal electrode seat blind hole in the graphite electrode interference fit, discharge is enclosed in the gas in the blind hole, so that graphite electrode can stretch into the blind hole bottom, make interference fit more reliable, simultaneously, increase the contact area of graphite electrode and metal electrode seat, improve the through-current capability of graphite electrode.
Description of drawings
The utility model is described in further detail below in conjunction with the drawings and specific embodiments.
Fig. 1 is the graphite electrode structural representation with two-electrode spark gap gas switch of the present utility model.
Fig. 2 is for using the structural representation of two-electrode spark gap gas switch of the present utility model.
Among Fig. 1-Fig. 2: 1, the head of graphite electrode; 2, the afterbody of graphite electrode; 3, gas-filled cavity; 4, long electrode seat; 5, insulating cylinder; 6, noncontinuous electrode seat; 7, insulated tension pole; 8, long electrode; 9, noncontinuous electrode; 10, switch air inlet; 11, switch gas outlet; 12, steam vent; 13, clamp nut.
Embodiment
As shown in Figure 1 and Figure 2, a kind of two-electrode spark gap gas switch of the present utility model has a gas-filled cavity 3 that is full of dried compressed air, and gas-filled cavity 3 is provided with switch air inlet 10 and switch gas outlet 11.Gas-filled cavity 3 is made of jointly insulating cylinder 5, long electrode seat 4 and noncontinuous electrode seat 6.
The bottom of long electrode seat 4 is a rosette, on the axis of disk, be processed with a metal cylinder, the top of metal cylinder offers larger-diameter blind hole, the axial centre of metal cylinder offers the steam vent 12 than minor diameter that is communicated with blind hole, blind hole is used for interference fit long electrode 8 is installed, steam vent 12 is used for discharging the air that is enclosed in the blind hole when long electrode 8 is installed.
Noncontinuous electrode seat 6 is the round metal tubbiness, the oral area of metal buckets is provided with the metal retainer plate, also be processed with metal cylinder on its bottom axis, the top of metal cylinder offers larger-diameter blind hole, the axial centre of metal cylinder offers the steam vent 12 than minor diameter that is communicated with blind hole, blind hole is used for interference fit noncontinuous electrode 9 is installed, and steam vent 12 is used for discharging the air that is enclosed in the blind hole when noncontinuous electrode 9 is installed.Symmetry offers switch air inlet 10 and switch gas outlet 11 on the barrel of metal buckets.
In assembling process, all coaxial installation of long electrode seat 4, insulating cylinder 5 and noncontinuous electrode seat 6, the rosette of long electrode seat 4 bottoms, insulating cylinder 5 and noncontinuous electrode seat 6 are formed gas-filled cavity 3.Rosette contact position, insulating cylinder 5 at insulating cylinder 5 and long electrode seat 4 all have sealing gasket to guarantee the sealing of gas-filled cavity 3 with the contact position of the retainer plate of noncontinuous electrode seat 6.The rosette of long electrode seat 4 bottoms and the retainer plate of noncontinuous electrode seat 6 are realized mechanical connection and fixing by insulated tension pole 7 and clamp nut 13.
In the course of work of two-electrode spark gap gas switch, the long electrode 8 that links to each other with long electrode seat 4 is anode, and the noncontinuous electrode 9 that is connected with noncontinuous electrode seat 6 is negative electrode, the electric insulation that insulated tension pole 7 and insulating cylinder 5 are realized between long electrode seat 4 and the noncontinuous electrode seat 6.When switch conduction, produce discharge channel in the air gap between negative electrode and anode and form electric arc.Long electrode 8, noncontinuous electrode 9 are graphite electrode in the utility model, and long electrode seat 4, noncontinuous electrode seat 6 are the metal electrode seat.
Graphite electrode is made up of with afterbody with head and interference fit discharge, described head and afterbody are two sections cylinders that are connected as a single entity, have the arc transition face respectively as the edge of the cylinder of head and with the afterbody connecting portion, and as the body diameter of the head overall diameter that is used for fixing graphite electrode part (metal cylinder) greater than the metal electrode seat.
The graphite electrode interference fit is embedded in the blind hole of metal electrode seat, is specially: the heating of metal electrode tip holder, and blind hole is embedded in graphite electrode, and the shrinkage of metal electrode seat clamps graphite electrode, and the size impact metal electrode seat of interference fit is to the graphite electrode clamping force.Two electrode gas switches need bear huge electrodynamic action in the big electric current of conducting, the too little meeting of the magnitude of interference causes graphite electrode to come off; The magnitude of interference is excessive then may to cause damage to graphite electrode, but those skilled in the art can find the suitable magnitude of interference through the test of limited number of time.Utility model people done a large amount of tests in practice process, obtained some preferably about the example experience of the magnitude of interference.
Embodiment 1
Present embodiment is a kind of impulse power electrical source two-electrode spark gap gas switch, and its graphite electrode electrode shape and construction of switch are as shown in Figure 1 and Figure 2.The material of long electrode, noncontinuous electrode 8,9 is the high-purity graphite electrode of high density, the material of metal electrode seat is the 35# carbon steel, afterbody 2 diameters of graphite electrode are 20mm, and dimensionally with the size interference fit of the corresponding blind hole of metal electrode seat, the magnitude of interference is 10~30 μ m.The wall thickness that the metal electrode seat is installed the graphite electrode place is 5mm.Adopt heat metal electrode seat, make its interior diameter expand into diameter greater than the afterbody 2 of graphite electrode after, the afterbody 2 of graphite electrode is inserted slowly cooling in the blind hole of metal electrode seats, graphite electrode and metal electrode seat are reached inlay reliably fixing.
Embodiment 2
Present embodiment is a kind of impulse power electrical source two-electrode spark gap gas switch, its graphite electrode electrode shape and construction of switch such as Fig. 1, shown in Figure 2. long electrode, noncontinuous electrode 8,9 material is the high-purity graphite electrode of high density, the material of metal electrode seat is the 45# carbon steel, afterbody 2 diameters of graphite electrode are 40mm, and dimensionally with the size interference fit of the corresponding blind hole of metal electrode seat, the magnitude of interference is that the wall thickness at 20~40 μ m. metal electrode seats installation graphite electrode place is that 8mm. adopts heat metal electrode seat, after making its interior diameter expand into diameter greater than the afterbody 2 of graphite electrode, the afterbody 2 of graphite electrode is inserted slowly cooling in the blind hole of metal electrode seats, graphite electrode and metal electrode seat is reached inlay reliably fixing.
Embodiment 3
Present embodiment is a kind of impulse power electrical source two-electrode spark gap gas switch, and its graphite electrode electrode shape and construction of switch are as shown in Figure 1 and Figure 2.The material of long electrode, noncontinuous electrode 8,9 is the high-purity graphite electrode of high density, the material of metal electrode seat is the 6061# aluminium alloy, afterbody 2 diameters of graphite electrode are 60mm, and dimensionally with the size interference fit of the corresponding blind hole of metal electrode seat, the magnitude of interference is 40~60 μ m.The wall thickness that the metal electrode seat is installed the graphite electrode place is 12mm.Adopt heat metal electrode seat, make its interior diameter expand into diameter greater than the afterbody 2 of graphite electrode after, the afterbody 2 of graphite electrode is inserted slowly cooling in the blind hole of metal electrode seats, graphite electrode and metal electrode seat are reached inlay reliably fixing.
Embodiment 4
Present embodiment is a kind of impulse power electrical source two-electrode spark gap gas switch, and its graphite electrode electrode shape and construction of switch are as shown in Figure 1 and Figure 2.The material of long electrode, noncontinuous electrode 8,9 is the high-purity graphite electrode of high density, the material of metal electrode seat is the Cr18Ni9Ti stainless steel, afterbody 2 diameters of graphite electrode are 80mm, and dimensionally with the size interference fit of the corresponding blind hole of metal electrode seat, the magnitude of interference is 60~100 μ m.The wall thickness that the metal electrode seat is installed the graphite electrode place is 15mm.Adopt heat metal electrode seat, make its interior diameter expand into diameter greater than the afterbody 2 of graphite electrode after, the afterbody 2 of graphite electrode is inserted slowly cooling in the blind hole of metal electrode seats, graphite electrode and metal electrode seat are reached inlay reliably fixing.
The mounting technology of interference fit all has application in a lot of fields, but majority is used for plant equipment, and is disposable assembling, can not the secondary dismounting.In two-electrode spark gap gas switch of the present utility model, because the thermal coefficient of expansion of selected electrode material graphite comprises: steel and aluminium alloy etc. much smaller than most of metal electrode seat materials.Therefore, adopt the mounting technology of interference fit, the metal electrode seat is heated to uniform temperature after, the diameter of bore of metal electrode seat becomes big because of thermal expansion, can easily graphite electrode be embedded in the electrode tip holder, but also secondary is dismantled graphite electrode easily.
Claims (4)
1. two-electrode spark gap gas switch, comprise the long electrode seat, the noncontinuous electrode seat, be arranged on the long electrode on the long electrode seat, be arranged on the noncontinuous electrode on the noncontinuous electrode seat, be arranged on the insulating cylinder between long electrode seat and the noncontinuous electrode seat, the insulated tension pole of fixedly connected long electrode seat and noncontinuous electrode seat, described long electrode seat, insulating cylinder and noncontinuous electrode seat constitute inflating cells, and be long, noncontinuous electrode is positioned at inflating cells, it is characterized in that, described length, noncontinuous electrode is graphite electrode, long, the noncontinuous electrode seat is the metal electrode seat, offers blind hole on the described metal electrode seat, and the graphite electrode interference fit is embedded in the blind hole of metal electrode seat.
2. a kind of two-electrode spark gap gas switch according to claim 1, it is characterized in that, described graphite electrode is made up of with afterbody with head and interference fit discharge, described head and afterbody are two sections cylinders that are connected as a single entity, have the arc transition face respectively as the edge of the cylinder of head and with the afterbody connecting portion, and as the body diameter of the head overall diameter that is used for fixing the graphite electrode part greater than the metal electrode seat.
3. a kind of two-electrode spark gap gas switch according to claim 1, it is characterized in that described graphite electrode interference fit is embedded in the blind hole of metal electrode seat, is specially: the heating of metal electrode tip holder, blind hole is embedded in graphite electrode, and the shrinkage of metal electrode seat clamps graphite electrode.
4. a kind of two-electrode spark gap gas switch according to claim 1 is characterized in that, described metal electrode seat axial centre is provided with the steam vent that is communicated with blind hole.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2009200335368U CN201450228U (en) | 2009-06-12 | 2009-06-12 | Two-electrode spark gap gas switch |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2009200335368U CN201450228U (en) | 2009-06-12 | 2009-06-12 | Two-electrode spark gap gas switch |
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| Publication Number | Publication Date |
|---|---|
| CN201450228U true CN201450228U (en) | 2010-05-05 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2009200335368U Expired - Fee Related CN201450228U (en) | 2009-06-12 | 2009-06-12 | Two-electrode spark gap gas switch |
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| CN (1) | CN201450228U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102625561A (en) * | 2012-03-23 | 2012-08-01 | 成都金创立科技有限责任公司 | 200KW non-transferred arc plasma generator and arc-striking method |
| CN105307367A (en) * | 2015-09-14 | 2016-02-03 | 西安交通大学 | Circuit used for prolonging service life of two-electrode gas switch and method |
| CN105405729A (en) * | 2015-11-06 | 2016-03-16 | 许继电源有限公司 | Two-electrode gas switch |
-
2009
- 2009-06-12 CN CN2009200335368U patent/CN201450228U/en not_active Expired - Fee Related
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102625561A (en) * | 2012-03-23 | 2012-08-01 | 成都金创立科技有限责任公司 | 200KW non-transferred arc plasma generator and arc-striking method |
| CN102625561B (en) * | 2012-03-23 | 2014-12-31 | 成都金创立科技有限责任公司 | 200KW non-transferred arc plasma generator and arc-striking method |
| CN105307367A (en) * | 2015-09-14 | 2016-02-03 | 西安交通大学 | Circuit used for prolonging service life of two-electrode gas switch and method |
| CN105307367B (en) * | 2015-09-14 | 2018-07-17 | 西安交通大学 | A kind of circuit and method extending two-electrode gas switch service life number |
| CN105405729A (en) * | 2015-11-06 | 2016-03-16 | 许继电源有限公司 | Two-electrode gas switch |
| CN105405729B (en) * | 2015-11-06 | 2017-09-08 | 许继电源有限公司 | Two-electrode gas is switched |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20100505 Termination date: 20180612 |