CN202601500U - Insulation barrel and main loop structure adopting same - Google Patents
Insulation barrel and main loop structure adopting same Download PDFInfo
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- CN202601500U CN202601500U CN 201220248903 CN201220248903U CN202601500U CN 202601500 U CN202601500 U CN 202601500U CN 201220248903 CN201220248903 CN 201220248903 CN 201220248903 U CN201220248903 U CN 201220248903U CN 202601500 U CN202601500 U CN 202601500U
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- ground connection
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- insulating cylinder
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Abstract
The utility model relates to an insulation barrel and a main loop structure adopting the same. The insulation barrel comprises an insulation barrel main body, as well as a first conductive insert and a second conductive insert, which are arranged in the insulation barrel; a primary grounding cavity, an isolation cavity, an arc extinguish cavity and a secondary grounding cavity are arranged in the insulation barrel main body side by side; the first conductive insert is connected with the primary grounding cavity and the isolation cavity; the second conductive insert is connected with the arc extinguish cavity; and the main loop structure adopting the insulation barrel further comprises a main grounding guide bar and a main grounding contact, which are both arranged in the main grounding cavity, an isolating and insulating pull rod, an isolation conductive block, an isolation guide bar and an isolation contact which are arranged in the isolation cavity, a vacuum arc extinguish cavity and an insulation pull rod of the arc extinguish cavity which are arranged in the arc extinguish cavity, and a secondary grounding guide bar and a secondary grounding contact which are arranged in the secondary grounding cavity. According to the insulation barrel and the main loop structure adopting the same, the space is saved, three positions for working, insulation and grounding can be achieved, and environmental requirements can be met.
Description
Technical field
The utility model relates to high voltage electrical apparatus technical field, relate in particular to a kind of in the high-voltage switch gear field a kind of insulating cylinder and adopt the major loop structure of this insulating cylinder.
Background technology
The ring main unit of prior art generally adopts gas-insulated, i.e. air insulation or SF
6Gas-insulated.That is to say that the major loop that is installed in the ring main unit insulating cylinder partly adopts air or SF
6Gas is as its dielectric.Wherein, the air insulation ring main unit is because its insulating properties and fail safe are relatively poor, the requirement that gradually can not adaptive technique develops.SF
6The gas ring main unit is compared with the air insulation ring main unit,, all insulation little because of its volume, hermetically sealedly makes insulating properties and fail safe improve greatly, therefore is widely used in the urban distribution network.But, SF
6Gas is one of generally acknowledged greenhouse gas in the whole world, and its greenhouse effect are CO
22500 times of gas, the survival life-span in atmosphere can reach 3400, and can under high pressure arc extinguishing environment, produce toxic gas fluoride (SF for example
4, S
2F
10), thereby serious environment pollution.In addition, because SF
6Gas can produce toxic gas under high pressure arc extinguishing environment, for anti-heads, and general SF
6The gas ring main unit is high to sealing requirements, processing technology is complicated, thus cause the casing cost high and safeguard detection of complex make make and maintenance cost high.In addition, expose at SF owing to electrified body
6In the gas, be prone to be etched, cause the class of insulation to reduce, very easily cause human casualty accident.
Solid isolated vacuum ring main unit is considered to the optimal selection of place of gas insulation ring main unit because of its good insulation performance property and stable, pollution-free and manufacturing and easy to maintenance, with low cost.But the switch in the existing solid ring main unit generally adopts work, isolate and the mode of two stations of ground connection, and the main load-side that is isolated into isolates, and main bus bar must cut off the power supply when maintenance, has reduced the reliability of power supply.
Therefore, need a kind of novel insulating cylinder and adopt the major loop structure of this insulating cylinder, make main the isolation be positioned at the main bus bar side; Be convenient to the maintenance of switch; Adopt the mode of work, isolation, three stations of ground connection simultaneously, improve the insulation characterisitic of product, and further improve security of products.
The utility model content
In view of the problems referred to above that exist in the prior art, the utility model provides a kind of novel insulating cylinder and has adopted the major loop structure of said insulating cylinder.Said insulating cylinder is sealed in the leading electricity part of vacuum interrupter, isolation and the earthed switch of switch (circuit breaker or on-load switch) by in the epoxy resin enclosed cavity, has both saved space and material, has improved security of products again.And, adopt vacuum as interior insulation and arc-extinguishing medium and with solid insulating material as the external insulation medium, do not have the discharging of any noxious substance, complete compliance with environmental protection requirements.Simultaneously, said insulating cylinder and adopt the design of the major loop structure of this insulating cylinder to meet the requirement of GB and relevant criterion is provided with visible isolation fracture, promptly through observation window, realizes the identification to isolating switch service position and isolated location.
To achieve these goals, the utility model has adopted following technical proposals:
A kind of insulating cylinder comprises the insulating cylinder body, it is characterized in that: said insulating cylinder also comprises and is positioned at intrinsic first conductive insert of said insulating cylinder and second conductive insert; Main ground connection cavity, isolated chambers, arc control device cavity and inferior ground connection cavity have been arranged side by side in the wherein said insulating cylinder body; Said first conductive insert couples together said main ground connection cavity and said isolated chambers; Said second conductive insert is connected with said arc control device cavity.
In one embodiment, also be provided with main ground hole on the said insulating cylinder body, main bus bar connects hole, adapter sleeve pore and observation window.
In one embodiment, said second conductive insert is from the side outlet of said insulating cylinder body.
In one embodiment, said insulating cylinder adopts the epoxy resin integral cast to process.
In one embodiment, said first conductive insert and said second conductive insert by die casting in said insulating cylinder body.
In one embodiment, said major loop structure adopts aforesaid insulating cylinder; Said major loop structure also comprises main ground connection guide rod and the main grounding contact that is arranged in the said main ground connection cavity; Be arranged on isolated insulation pull bar, isolate conductive piece, isolation guide rod and the insulating contact of said isolated chambers; Be arranged on the vacuum interrupter and the arc control device insulated tension pole of said arc control device cavity; And the inferior ground connection guide rod and time grounding contact that are arranged on said ground connection cavity; Wherein, between said isolate conductive piece and said vacuum interrupter, be provided with and be flexible coupling.
In one embodiment, the lower end of said isolated chambers is fixed with the main bus bar that is arranged in the main bus bar sleeve pipe, and said main bus bar is isosceles triangle and arranges.
In one embodiment, an end of said vacuum interrupter is that quiet end also is connected with said second conductive insert through quiet guide rod, and the other end of said vacuum interrupter is that the moved end also links to each other with said arc control device insulated tension pole through moving guide rod.
In one embodiment, said isolate conductive piece links to each other with said first conductive insert; Be provided with fingertip in the said isolate conductive piece, an end of said fingertip and said isolation guide rod is slidingly connected, and the other end of said isolation guide rod links to each other with an end of said isolated insulation pull bar; Main ground connection piece is fixed on the upper end of said main ground connection cavity, is provided with fingertip in the said main ground connection piece, so that be slidingly connected with said main ground connection guide rod; Said main grounding contact is fixed on said first conductive insert; With, joint sleeve is fixed on the lower end of said ground connection cavity, and said grounding contact is positioned at an end of said ground connection cavity.
In one embodiment, said major loop is outside equipped with operating mechanism; One end of said main ground connection guide rod links to each other with said operating mechanism; The other end of said isolated insulation pull bar links to each other with said operating mechanism; One end of said arc control device insulated tension pole links to each other with said operating mechanism; And said time the ground connection guide rod links to each other with said operating mechanism; Wherein: drive said main ground connection guide rod through said operating mechanism and move upward with time ground connection guide rod and make said main ground connection guide rod and time ground connection guide rod break off a distance with said main grounding contact and time grounding contact respectively; Driving said isolation guide rod through said operating mechanism via said isolated insulation pull bar moves downward and makes said isolation guide rod insert said insulating contact; And move downward through the moving guide rod that said operating mechanism drives said vacuum interrupter via the arc control device insulated tension pole and to make said moving guide rod drive moving contact to contact conducting that the realization switch is in the combined floodgate service position with fixed contact on the quiet guide rod; The moving guide rod that drives said vacuum interrupter via said arc control device insulated tension pole through said operating mechanism moves upward and makes moving contact and the fixed contact on the quiet guide rod on the said moving guide rod break off; And drive said isolation guide rod through said operating mechanism via said isolated insulation pull bar and move upward and make said isolation guide rod and said insulating contact break off a distance, realize that switch is in the isolated location; Drive said main ground connection guide rod through said operating mechanism and move downward with time ground connection guide rod and make said main ground connection guide rod and time ground connection guide rod insert said main grounding contact and time grounding contact respectively, realize that switch is in earthing position.
But should be pointed out that each characteristic combination in any in the foregoing description, to realize the technique effect of the utility model.
Compared with prior art, the insulating cylinder of the utility model and adopt the major loop structure of said insulating cylinder to have following advantage and effect:
1) insulating cylinder of the utility model and adopt the major loop structure of said insulating cylinder to save space and material and improved security of products; Do not discharge any poisonous material, fully compliance with environmental protection requirements;
2) insulating cylinder of the utility model and adopt the design of the major loop structure of said insulating cylinder to meet the requirement of GB and relevant criterion; Can switch be located at service position, isolated location, earthing position; And be provided with visible isolation fracture (promptly observe and confirm residing position of switch and switch internal work state, can avoid) because inefficacy that operating mechanism is connected with pull bar or the safety problem that possibly cause owing to operating mechanism can not drive effectively that the internal switch parts put in place through observation window.
3) insulating cylinder of the utility model and the major loop structure that adopts said insulating cylinder are arranged on the lower end of insulating cylinder isolated chambers with main bus bar, are isosceles triangle and arrange, and can be used for multichannel wiring and fixing and help the insulation between wiring place.
Description of drawings
Embodiment below reading in conjunction with the drawings can be understood the utility model better.In the accompanying drawings, identical Reference numeral is represented identical/similar parts.Wherein:
Fig. 1 is the structural representation according to the insulating cylinder of an embodiment of the utility model.
Fig. 2 is the sketch map according to the major loop structure of the employing insulating cylinder shown in Figure 1 of an embodiment of the utility model, and wherein major loop is in work (combined floodgate) position.
Fig. 3 is the sketch map according to the major loop structure of the employing insulating cylinder shown in Figure 1 of an embodiment of the utility model, wherein major loop (isolation) position that mediates.
Fig. 4 is the sketch map according to the major loop structure of the employing insulating cylinder shown in Figure 1 of an embodiment of the utility model, and wherein major loop is in maintenance (ground connection) position.
Embodiment
To combine accompanying drawing and specific embodiment to insulating cylinder of the utility model and further detailed description of major loop structure work of adopting this insulating cylinder below.
Fig. 1 shows the structural representation according to the insulating cylinder of an embodiment of the utility model.As shown in Figure 1, first conductive insert 103 and second conductive insert 104 that insulating cylinder 100 comprises insulating cylinder body 102 and is positioned at insulating cylinder body 102.Insulating cylinder body 102 can adopt epoxy resin or other insulating material integrated poured, makes through the automatic pressure gel technology.First conductive insert 103 and second conductive insert 104 can be fixed on the inside of insulating cylinder body 102 by rheo-die-casting or through alternate manner.In the present embodiment, the material of first conductive insert 103 and second conductive insert 104 can be selected copper or aluminium.Certainly, other material that is suitable for also is feasible.
Be provided with main ground connection cavity 108, isolated chambers 109, arc control device cavity 110 and inferior ground connection cavity 111 in the insulating cylinder body 102.Can see that by Fig. 1 first conductive insert 103 couples together main ground connection cavity 108 with isolated chambers 109, thus inner conducting.Second conductive insert 104 is positioned at the lower end of arc control device cavity 110, and from side (for example right side) outlet of insulating cylinder body 102.Should be appreciated that second conductive insert 104 shape, go out line position and direction can change according to actual needs, and Fig. 1 is merely one of them embodiment.For example, second conductive insert 104 can be connected with arc control device cavity 110, from the side outlet of insulating cylinder body 102.
In addition, also be provided with main ground hole 106 on the insulating cylinder body 102, main bus bar connects hole 107, adapter sleeve pore 112 and observation window 105.
As shown in Figure 1, main ground connection cavity 108, isolated chambers 109, arc control device cavity 110 and inferior ground connection cavity 111 are arranged side by side.But should be appreciated that the arrangement mode of each cavity and order can change according to design demand.In circuit application, each cavity can be sealed electric component separately, thereby has realized well insulation between the electric component, has reduced volume of switch, has simplified manufacturing process.In addition, can observe the insulating cylinder body interior, the operating state of for confirmation and inner each parts of inspection through the observation window 105 that is arranged on the insulating cylinder body 102.
Fig. 2-4 shows an embodiment according to the utility model, adopts the major loop structure of insulating cylinder shown in Figure 1 to be in the sketch map of combined floodgate, isolation and earthing position respectively.For ease of understanding, identical with insulating cylinder shown in Figure 1 in Fig. 2-4/similar parts are still continued to use the Reference numeral among Fig. 1.Shown in Fig. 2-4, major loop structure comprises: insulating cylinder 100; Be arranged on main ground connection guide rod 201, the main grounding contact 218 of main ground connection cavity 108 and pass the main ground connection piece 220 of main ground hole 106; Be arranged on isolated insulation pull bar 202, isolate conductive piece 219, isolation guide rod 217 and the insulating contact 216 of isolated chambers 109; Be arranged on vacuum interrupter 210 and arc control device insulated tension pole 203 in the arc control device cavity 110; Be arranged on the inferior ground connection guide rod 204 and time grounding contact 207 of time ground connection cavity 111; And the joint sleeve 208 of drawing from the inferior ground connection cavity lower end of insulating cylinder.Should be appreciated that joint sleeve 208 also can be designed to one with insulating cylinder 100.Wherein, between isolate conductive piece 219 and vacuum interrupter 210, be provided with and be flexible coupling 206; Insulating contact 216 is fixed on the main bus bar sleeve pipe (main bus bar sleeve A 215, main bus bar sleeve pipe B 214 and main bus bar cannula C 213 shown in figure); Main bus bar sleeve pipe 213,214 and 215 is separately fixed at isolated chambers 109 lower ends of three major loops, is isosceles triangle and arranges.
Shown in Fig. 2-4, vacuum interrupter 210 is fixed in the arc control device cavity 110 of insulating cylinder 100, and the one of which end is quiet end, and the other end is the moved end.In the present embodiment, the quiet end of vacuum interrupter 210 is downward, and quiet guide rod 211 is connected with second conductive insert 104 through screw or other securing member; The moved end of vacuum interrupter 210 upwards makes guide rod 209 link to each other with arc control device insulated tension pole 203.But filling gel layer between vacuum interrupter 210 and the insulating cylinder 100 perhaps directly is encapsulated in vacuum interrupter 210 in the insulating cylinder 100 when insulating cylinder 100 die casting.The moved end end face of vacuum interrupter 210 is provided with and is flexible coupling 206.206 the end of being flexible coupling is pressed on the end face of moved end through arc control device insulated tension pole 203, and 206 the other end of being flexible coupling is fixed on the isolate conductive piece 219 with screw (or adopting Type of Welding).Arc control device insulated tension pole 203 is connected to operating mechanism 205 with the relative other end of an end that is pressed on the end face of moved end.Isolate conductive piece 219 links to each other with first conductive insert 103.In addition, being provided with fingertip in the isolate conductive piece 219 is slidingly connected with isolation guide rod 217; And the upper end that isolates guide rod 217 links to each other with an end of isolated insulation pull bar 202, and the other end of isolated insulation pull bar 202 links to each other with operating mechanism 205.Main ground connection piece 220 is fixed on the upper end of main ground connection cavity 108, is provided with fingertip in it, so that be slidingly connected with main ground connection guide rod 201.The upper end of main ground connection guide rod 201 links to each other with operating mechanism, and main grounding contact 218 is fixed on first conductive insert 103.Joint sleeve 208 is fixed on the lower end of time ground connection cavity 111, and the end (for example lower end) in the inferior ground connection cavity 111 is provided with time grounding contact 207.The upper end that is arranged on the inferior ground connection guide rod 204 in time ground connection cavity 111 links to each other with operating mechanism 205; And drive time ground connection guide rods 204 through operating mechanism 205 and slide up and down; So that the other end of inferior ground connection guide rod 204 can insert time grounding contact 207, realize conducting ground connection.
In the embodiment shown in Fig. 2-4, for the sake of clarity, the operating mechanism 205 on major loop structure top represented by the square of dotted lines, and operating mechanism 205 can be spring operating mechanism, also can be the operating mechanism of other suitable type.Visible from figure, main ground connection guide rod 201 links to each other with operating mechanism 205 respectively with time ground connection guide rod 204.In addition, isolate guide rod 217 and link to each other with operating mechanism 205, and the moving guide rod 209 of vacuum interrupter 210 links to each other with operating mechanism 205 through arc control device insulated tension pole 202 through isolated insulation pull bar 202.
When work, major loop structure drives each guide rod/backward stick action through operating mechanism 205 and realizes that switch is in service position, isolated location and earthing position respectively.
Fig. 2 shows the sketch map that switch is in work (combined floodgate) position.When switch moves; Main ground connection guide rod 201 can move upward under the drive of operating mechanism 205 with time ground connection guide rod 204; Make winner's ground connection guide rod 201 and time ground connection guide rod 204 break off certain distance (this distance reaches the GB required standard, for example greater than 125mm) with main grounding contact 219 and time grounding contact 207 respectively.Subsequently, operating mechanism 205 drives through isolated insulation pull bar 202 isolates guide rods 217 and moves downward, make isolate that guide rod 217 inserts insulating contacts 216 in case with main bus bar 221 conductings.Subsequently, operating mechanism 205 moves downward through the moving guide rod 209 that arc control device insulated tension pole 203 drives vacuum interrupters 210, makes moving guide rod 209 drive moving contacts so that contact conducting with fixed contact on the quiet guide rod 211.At this moment, switch is accomplished and is closed a floodgate, main bus bar 221 and leading-out terminal 212 conductings (seeing black bold line among Fig. 2), and switch puts into operation.
Fig. 3 shows the sketch map that switch is in isolation (centre) position.In Fig. 3, operating mechanism 205 moves upward through the moving guide rod 209 that arc control device insulated tension pole 203 drives vacuum interrupter 210, makes that moving contact and the fixed contact on the quiet guide rod 211 on the moving guide rod 209 breaks off, thereby accomplishes the switch separating brake.Subsequently, operating mechanism 205 drives isolation guide rod 217 through isolated insulation pull bar 202 and moves upward, and makes that isolating guide rod 217 breaks off certain distance (said distance reaches the distance of GB requirement, for example greater than 150mm) with insulating contact 216.At this moment, switch is in the isolated location.When the switch that is in the isolated location need get into the combined floodgate operating state, can repeat above-mentioned to the described operation of Fig. 2; When the switch that is in the isolated location needs ground connection (maintenance), then can make switch be in earthing position by the described operation of following combination Fig. 4.
As shown in Figure 4; Operating mechanism 205 drives main ground connection guide rod 201 and moves downward with time ground connection guide rod 204; Make winner's ground connection guide rod 201 and time ground connection guide rod 204 insert main grounding contact 218 and time grounding contact 207 respectively, thereby make switch be in earthing position, so that overhaul.
Of preamble, can observe each position component in the insulating cylinder through the observation window 105 that is arranged on the insulating cylinder, thus the state of inspection and definite switch.
Adopt in the major loop structure of insulating cylinder 100, the use of integrated insulating cylinder 100 has reduced volume of switch, improved insulation characterisitic and has improved stabilization of equipment performance; Adopt vacuum as interior insulation and arc-extinguishing medium, solid insulating material can not discharge any poisonous material as the external insulation medium.In addition, the main bus bar that is the isosceles triangle arrangement can be used for the multichannel wiring with fixing, and helps the insulation between wiring place.In addition, can observe each position component and operating state in the insulating cylinder, avoid because the inefficacy that is connected with pull bar of operating mechanism or the safety problem that possibly cause owing to operating mechanism can not drive effectively that the internal switch parts put in place through observation window.
The utility model is not limited to above-mentioned embodiment, and those skilled in the art can be according to the instruction of the utility model to the insulating cylinder of the utility model and adopt the major loop structure of said insulating cylinder to make various modifications and variation.All such modifications all should drop within the protection range of the utility model with changing.Though the most preferred embodiment of the utility model shown in the drawings; But in practical application; In order to obtain the whole of the utility model or some advantages, the insulating cylinder of the utility model and adopt the major loop structure of said insulating cylinder not necessarily to comprise the characteristic that all have illustrated fully.Therefore, the protection range of the utility model should be definite by the most preferred embodiment that discloses in the utility model, and should confirm according to the content of appended claims.
Claims (10)
1. an insulating cylinder comprises the insulating cylinder body, it is characterized in that:
Said insulating cylinder also comprises and is positioned at intrinsic first conductive insert of said insulating cylinder and second conductive insert;
Main ground connection cavity, isolated chambers, arc control device cavity and inferior ground connection cavity have been arranged side by side in the wherein said insulating cylinder body;
Said first conductive insert couples together said main ground connection cavity and said isolated chambers; Said second conductive insert is connected with said arc control device cavity.
2. insulating cylinder according to claim 1 is characterized in that:
Also be provided with main ground hole on the said insulating cylinder body, main bus bar connects hole, adapter sleeve pore and observation window.
3. insulating cylinder according to claim 2 is characterized in that:
Said second conductive insert is from the side outlet of said insulating cylinder body.
4. insulating cylinder according to claim 3 is characterized in that:
Said insulating cylinder adopts the epoxy resin integral cast to process.
5. insulating cylinder according to claim 4 is characterized in that:
Said first conductive insert and said second conductive insert by die casting in said insulating cylinder body.
6. major loop structure that adopts insulating cylinder is characterized in that:
Said major loop structure adopts like the described insulating cylinder of arbitrary claim among the claim 1-5;
Said major loop structure also comprises main ground connection guide rod and the main grounding contact that is arranged in the said main ground connection cavity; Be arranged on isolated insulation pull bar, isolate conductive piece, isolation guide rod and the insulating contact of said isolated chambers; Be arranged on the vacuum interrupter and the arc control device insulated tension pole of said arc control device cavity; And the inferior ground connection guide rod and time grounding contact that are arranged on said ground connection cavity;
Wherein, between said isolate conductive piece and said vacuum interrupter, be provided with and be flexible coupling.
7. according to the major loop structure described in the claim 6, it is characterized in that:
The lower end of said isolated chambers is fixed with the main bus bar that is arranged in the main bus bar sleeve pipe, and said main bus bar is isosceles triangle and arranges.
8. major loop structure according to claim 7 is characterized in that:
One end of said vacuum interrupter is that quiet end also is connected with said second conductive insert through quiet guide rod, and the other end of said vacuum interrupter is that the moved end also links to each other with said arc control device insulated tension pole through moving guide rod.
9. major loop structure according to claim 8 is characterized in that:
Said isolate conductive piece links to each other with said first conductive insert; Be provided with fingertip in the said isolate conductive piece, an end of said fingertip and said isolation guide rod is slidingly connected, and the other end of said isolation guide rod links to each other with an end of said isolated insulation pull bar;
Main ground connection piece is fixed on the upper end of said main ground connection cavity, is provided with fingertip in the said main ground connection piece, so that be slidingly connected with said main ground connection guide rod;
Said main grounding contact is fixed on said first conductive insert; With
Joint sleeve is fixed on the lower end of said ground connection cavity, and said grounding contact is positioned at an end of said ground connection cavity.
10. major loop structure according to claim 9 is characterized in that:
Said major loop is outside equipped with operating mechanism;
One end of said main ground connection guide rod links to each other with said operating mechanism; The other end of said isolated insulation pull bar links to each other with said operating mechanism; One end of said arc control device insulated tension pole links to each other with said operating mechanism; And said time the ground connection guide rod links to each other with said operating mechanism;
Wherein,
Driving said main ground connection guide rod through said operating mechanism moves upward with time ground connection guide rod and makes said main ground connection guide rod and time ground connection guide rod break off a distance with said main grounding contact and time grounding contact respectively; Driving said isolation guide rod through said operating mechanism via said isolated insulation pull bar moves downward and makes said isolation guide rod insert said insulating contact; And move downward through the moving guide rod that said operating mechanism drives said vacuum interrupter via the arc control device insulated tension pole and to make said moving guide rod drive moving contact to contact conducting that the realization switch is in the combined floodgate service position with fixed contact on the quiet guide rod;
The moving guide rod that drives said vacuum interrupter via said arc control device insulated tension pole through said operating mechanism moves upward and makes moving contact and the fixed contact on the quiet guide rod on the said moving guide rod break off; And drive said isolation guide rod through said operating mechanism via said isolated insulation pull bar and move upward and make said isolation guide rod and said insulating contact break off a distance, realize that switch is in the isolated location;
Drive said main ground connection guide rod through said operating mechanism and move downward with time ground connection guide rod and make said main ground connection guide rod and time ground connection guide rod insert said main grounding contact and time grounding contact respectively, realize that switch is in earthing position.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220248903 CN202601500U (en) | 2012-05-29 | 2012-05-29 | Insulation barrel and main loop structure adopting same |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220248903 CN202601500U (en) | 2012-05-29 | 2012-05-29 | Insulation barrel and main loop structure adopting same |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN202601500U true CN202601500U (en) | 2012-12-12 |
Family
ID=47319030
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 201220248903 Expired - Fee Related CN202601500U (en) | 2012-05-29 | 2012-05-29 | Insulation barrel and main loop structure adopting same |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN202601500U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US9269515B2 (en) | 2012-12-25 | 2016-02-23 | Beijing Huadong Senyuan Electric Co., Ltd. | Insulating cylinder and a main circuit structure using the same |
| CN110780093A (en) * | 2018-07-30 | 2020-02-11 | 江苏大全封闭母线有限公司 | Phase-isolated bus contact structure |
-
2012
- 2012-05-29 CN CN 201220248903 patent/CN202601500U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US9269515B2 (en) | 2012-12-25 | 2016-02-23 | Beijing Huadong Senyuan Electric Co., Ltd. | Insulating cylinder and a main circuit structure using the same |
| CN110780093A (en) * | 2018-07-30 | 2020-02-11 | 江苏大全封闭母线有限公司 | Phase-isolated bus contact structure |
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| 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 |
Granted publication date: 20121212 Termination date: 20160529 |