DE2254468A1 - INSULATOR - Google Patents

Description

Q 7 NOV 1972

WESTINGHOUSE Erlangen, ''

Electric Corporation 'Werner-von-Siemens-Str. 50

Pittsburgh, Pa. USA 9 9 RA £ RR

VPA 71/8709 Td / Dm WE-Case 39,241

Isolator

Purely this registration will be the priority of the corresponding one Claimed USA application Serial No. 201,758 dated November 24, 1971.

The invention relates to an insulator with a tubular Isolation device to which a plurality of overlapping flexible weather protection elements are attached, and it relates in particular on the construction of weatherproof housings for Switches, bushings and · insulating supports.

With certain types of outdoor units, the use of. Compressed gas, for example sulfur hexafluoride SFg, as an insulating agent common. Weather protection made of porcelain (weather protection housing), which has served well with conventional ones so far Has done oil switches, has various disadvantages when it is used in a device which a Pressurized gas used as an insulating medium. Porcelain weatherproof housings are mechanical when they are under tension weak, and they have low impact strength. These Properties create a hazard when used in a Internal gas pressure device.

With different designs of bushings and insulating supports weatherproof housings made of porcelain with internal gas pressure are used. The internal pressure to which the porcelain is subjected is approximately 1.75-3.50 kg / cm. However, especially at a failure of the system or a damaged component, the internal pressure could also rise to over 7 kg / cm. When a If the porcelain weatherproof housing is damaged by internal gas pressure, there is a high probability that a severe breakage or a Explosion of the porcelain case. These problems with porcelain require special care in the manufacture, testing, handling, shipping and use of electrical apparatus on which : ■ -; '-: ■■ · ■: \: ^; v. ^. "-2- -

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Porcelain weatherproof housings are used.

Another disadvantage of porcelain weather protection housings is that their production in large sizes is difficult and expensive.

Another disadvantage of the conventional porcelain weather protection housing is that it is difficult or impossible to mend even if little damage is done to one Weatherproof housing would occur.

The invention relates to an isolator consisting of a central elongated main insulating tube that forms a gas chamber, and several flexible weatherproof housings that longitudinally overlapping in series on the tubular Insulated are attached. The main insulating tube has a high tensile strength, a high impact resistance and it can withstand high internal gas pressures. Such an insulating tube can be made of wound fiberglass sheets or a other solid material impregnated with a spoxide or other suitable binder.

The flexible weatherproof housings are made of synthetic elastic material such as butyl rubber or other castable materials Pressed material. Each of the flexible weatherproof housings consists of an elongated tubular part and at least one Housing part that protrudes from the pipe part. These flexible housings are overlapped in a row along the axis of the main insulating tube. The inner diameter of the longitudinal pipe part of the flexible housing is a little smaller than the outer diameter of the main insulating tube, so that a tight fit is guaranteed and play between the longitudinal tube part of the flexible housing and the insulating tube is prevented. Sin insulating grease, such as silicone grease or insulating adhesive, can be applied to the jacket of the main insulating pipe to remove small air spots, which could possibly occur between the main insulating tube and the longitudinal tube part of the insulating tube if the flexible housing arranged on the main insulating tube to fill.

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A very small number of different sizes of flexible housings can be used for routing and switches of many different sizes using one ^; different numbers of flexible housings in series, since the main insulating part in these uses must generally vary in length and not in diameter. The weatherproof part of the flexible housing can be made in various sizes and shapes depending on the requirements of the user. A housing made of elastic material can be produced in such shapes that porcelain cannot achieve.

The invention relates to .ein isolating device in which the disadvantages of porcelain, which is usually used for weatherproof housing used are eliminated. A case after the Invention is more robust than one made of porcelain, and it can't can be damaged as easily as the previous porcelain cases. If it is already damaged, be it intentionally by stones or projectiles or unintentionally z * -B. when falling, then the damage to the housing is not so great. Gas that through the main insulating part escapes, can escape between the overlap of the housing parts without a sudden break or cause catastrophic destruction of the housing. If such a case is damaged, it can easily and can be quickly replaced without having to replace the entire housing.

The invention is explained in more detail with reference to the drawing.

Fig. 1 is a side view in section of the flexible weather

ι
Fig. 2 is a side sectional view of the tubular

Main insulating part,
3 is an enlarged view, partly in section of FIG

Gas feed-through from Fig. 4,
Fig. 4 is a sectional view of a gas duct

according to the invention,
Fig. 5 is a front view, partly in section, of a circuit breaker with two bushings and an upright insulator according to the invention;

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Pig. 6 is the front view, partly in section, of a circuit breaker consisting of a gas-filled one Switch and a gas feedthrough according to the invention and

Pig. Figure 7 is a side view in section of a flexible weatherproof housing or screen for use on horizontally mounted devices.

Specifically shows Pig. Figure 1 shows a flexible weather protection 10 having a generally tubular portion 12 and one thereon longitudinally attached weather protection part 14 around the pipe part is pressed and has an only slightly sloping angle from the longitudinal part 12. The flexible Tetterschutz 10 is made of one synthetic elastic material pressed, for example butyl rubber or other suitable pressable or castable Materials. The flexible weather protection 10 has, as in Pig. shown, a beveled edge 6 at the top of the tubular Part 12. The part 14 of the weather protection is pressed or cast as a whole with the tubular part 12 and it consists of the same material as the tubular part 12.

Pig. 2 shows a tubular main insulating tube 20, which consists of a very tensile material is made such as glass silk threads, Glass fiber foils or another suitable electrical insulating material with high tensile strength. The tubular Insulating part 20 is impregnated with epoxy resin or other suitable solid compatible resins of high strength. Of the outer diameter 24 of the tubular part 20 is insignificantly larger than the inner diameter 18 of the tubular part 12 of the weather protection 10 so that the weather protection 10 fits snugly around the main tubular insulating member 20.

Pig. 3 shows an enlarged part of a gas duct 30, which is shown in FIG. If, as Pig.3 shows, the flexible weather protection parts 10 on the tubular main insulating part 20 are knocked on each other, then the Beveled edge 16 on the weather protection 10 the possibility that the bottom edge 17 of the weather protection 10 is slightly on the

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beveled edge 16 of the previously placed weather protection 10 can rest so that it fits onto the upper part of the tubular Part 12 of the previously placed Schutzteil.es 10 fits. The beveled edge 16 also supports the area shown at 32 where the lower edge 17 of a weather shield on the upper edge 16 of a previously placed weather protection fits so that there is no gap. Between the jacket of the tubular insulating part 20 and the inner diameter of the flexible weather protection 10 must not be a gap, because a corona discharge can occur in a possibly forming air pocket. You could be radiation interference and the ozone generated by the discharge could, over time, attack the insulation exert and cause the electrical properties of the insulator to deteriorate. To get air pockets too prevent that may be present at 34, for example, an insulating pad 3 $, e.g. silicone grease, on the outer Surface 26 of the insulating tube 20 or the inner surface 22 of the flexible weather protection 10 applied. if the flexible weather protection 10 around the tubular main insulation ' Part 20 is mounted, the insulating grease 36 occupies the insulating tube 20 (Pig.3) and fills existing gaps 34 in the inner surface between the main insulating tube 20 and the Weather protection 10 are present. As explained above, the same result can be achieved by using an insulating adhesive instead of the insulating grease 36 can be achieved.

Pig. 4 shows a gas feedthrough 30 using the " Main features of the invention consisting of a guide pin 37, a floor clamp 38, an arc protector 40, a feed-through cap 42, an upper chamber 44, a support flange 46 and a «flexible weather protection 10, which extends in the longitudinal direction are slipped onto the tubular main insulating part 20. links were made to the bottom 38 and top 44. The lead pin 37 carries current between the ends and 38. The insulating means for this gas feed-through 30 is a gas with a high dielectric strength,

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for example sulfur hexafluoride SFg. The interior of the Implementation around the guide pin 37 denoted by 48 is old filled with an insulating compressed gas. Sine such implementation must be used in an arrangement which is sealed and insulated with an insulating gas because the bushing 30 is not sealed. Gas is passed through the guide pin 37, as shown in FIG. The gas flows now through a filter 50 and the inner channel 52 in the pin 37 and through connecting pipes 54 into the main insulation space 48. The gas pressure in the gas space 48 is the same as in the housing on which the gas feed-through 30 is attached.

Figure 5 shows a heavy duty switch 60 using gas such as feedthrough .30 described above. It consists of two gas feedthroughs 30, a main housing 62, a row of fixed contacts 64, a movable contact 66, a post insulator 68 and a high pressure gas container 70. The pressure in the high pressure gas container 70 is approximately 17.5 kg / cm. Of the normal working pressure inside 72 of main housing 62 is approximately 3.15 kg / cm. The gas feed-through is as described above 30 unsealed at the lower clamp 38, as shown in FIG. 5, so that the pressure inside the bushing is equal to the pressure in main housing 62, which is approximately 3.15 kg / cm. While the circuit breaker is in use « the contact parts 64 of the fixed contacts 63 are separated from the contact parts 67 of the movable contact 66. When the contact surfaces 64 and 67 are severed, an arc is formed between the fixed contact surfaces 64 and the movable contact surfaces 67. To extinguish this arc as quickly as possible, high pressure gas is used to blow the Blow out the arc. The high-pressure insulating gas is controlled through a blow valve 74, if the valve 74 fails, the pressure in the main housing 62 and in the passage 30 can rise the arc through a safety rupture disk 98 is extinguished. The interrupter disc should be in the event of a pressure blow over 7 kg / cm. The use of porcelain with these internal gas pressures are dangerous. I am defective or damaged «

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Porcelain could lead to failure and catastrophic destruction cause. With the present invention, as best seen in Figures 2 and 3, when the Break the inner wall 28 of the tubular main insulating part 20 Should the insulating tube show or show cracks, there is no danger through the .Wand 28 and between the overlaps 33 of the stacked flexible weather protection devices 10 escape. A post insulator 68 consisting of a tubular main insulating part 20 to the overlapping in its length flexible weather protection devices or housing 10 attached in series are is also in Pig. 5 shown. The post insulator 68 is also filled with a compressed gas.

Pig, 7 shows a flexible weather protection 10 which is particularly suitable for use in electrical devices, where the longitudinal axis is horizontal. The weather protection consists of a tubular part 12 and a weather protection part 15, which is generally claw-shaped in cross-section. This! Ceil 15 is mounted longitudinally and around the tubular part pressed. The flexible weather protection 10 is made of a synthetic one pressed elastic material, for example butyl rubber.

Pig. 6 shows a circuit breaker 76 with a breaker side 78 and a gas-filled feedthrough 30 utilizing the main features of the invention. The clamp 80 and the terminal 44- are provided with connections. Current flows through a breaker 79, internal connection 82 and through the gas-filled end socket 30. When the power is opened, the movable contacts 84 pull away from the stationary ones Contacts 86 away and it switches off. If the tubular insulating part 20 is connected to a breaker 79. is used, the internal gas pressure in the space 88 (Pig.6) formed by the insulating tube 20 is 17.5 kg / cm. Because of the high Pressure, this would be a particularly dangerous place when using porcelain. But with an arrangement according to Invention flows when the insulating tubes 20 torn or are broken, harmlessly by the overlap 33 of the flexible weather protection 10. The above description of the effect of the

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Breaker 79 is sufficient to take advantage of the invention to show. Reference is made to U.S. Patent 3,596,028 which describes a breaker 79 in detail.

An isolator according to the invention has several advantages. It is more robust than one made of porcelain and less sensitive. If the weatherproof housing fails, the failure will not be too severe and the gas that will leak through the main insulation tube 20 escapes, becomes harmless through the overlap 33 of the stacked flexible weather protection 10 into the atmosphere stream. If any parts of the weather protection 10 damaged, they can be removed from the tube 20 and replaced easily and quickly without replacing them to replace entire weatherproof housing. The invention creates a new weatherproof housing more easily Construction which is easy to assemble and repair and which is reliable in its effect.

Numerous changes can be made in the device described above can be made without departing from the invention. These similar devices are included in the present invention Invention.

6 claims

7 figures

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Claims (6)

- 9 -, VPA 71/8709 Claims . Insulator, characterized in that it consists of a central elongated main insulating tube (20), which forms a gas chamber (48) and several flexible ones Weatherproof housings (10) overlapping in a row lengthways the axis of the central elongated main pipe (20) are attached. 2. Isolator according to claim 1, characterized in that it contains a central guide pin (37) »which is the tip with the end connects and at the upper and lower end devices that have a closed gas chamber inside of the elongated pipe part and devices to introduce gas into the cavity and the gas chamber (48) to fill. 3. Isolator according to claim 1 and 2, characterized in that, that the flexible weatherproof housing (.10) consists of a pipe part (12) and a whole screen part attached lengthways to it (14) exists. 4. Insulator according to claim 1 to 3, characterized in that that the central elongated main insulating tube part (20) consists of glass fibers impregnated with resin. 5. Isolator according to claim 1 to 3, characterized in that that the central elongated main insulating tube part (20) consists of glass threads impregnated with epoxy resin. 6. Insulator according to claim 1 to 3, characterized in that the central elongated main insulating tube part (20) consists of a tube made of wound fiberglass sheets impregnated with epoxy resin and the flexible ones Weatherproof housing (10) are made of butyl rubber. 309822/0313