WO2007016882A1 - Holding apparatus with field control properties - Google Patents

Abstract

In order to provide a holding apparatus (9) for holding an interrupter (6) in a supporting frame (2) of a switch pole (1) with a holding section (20), which has a through-opening (22) and is designed to bear against a front face of the interrupter (6), a flange section (21), which is fixedly connected to the holding section (20) and at least partially surrounds the outer contour of the front face, and a supporting frame fixing (10) for fitting the holding apparatus to the supporting frame (2), with which holding apparatus a more compact design of a switch can be brought about given the same operating voltage or an increased operating voltage can be brought about given the same design, the invention proposes a field control element (20, 24) for limiting an electrical field, which element, during operation of the interrupter (6), can be conductively connected to a constituent part of the interrupter (6) which is at a high-voltage potential during operation of the interrupter (6).

Description

description

Holding device with field control features

The present invention relates to a holding device for holding a switch tube in a support frame of a switch pole having a through opening having a holding portion which is adapted to abut on an end face of the interrupter, a fixedly connected to the holding portion flange portion, the outer contour of the end face at least partially encloses, and a support frame attachment for mounting the holding device to the support frame.

Such a holding device is already known from US 2001/0025829 Al. The previously known holding device is designed to hold a vacuum interrupter and has a circular-plate-shaped holding section which, in operation, bears against an end face of a vacuum interrupter, through which a switching bar movable in a longitudinal direction extends. The holding section is connected to a holding section extending substantially at right angles thereto, which extends in an installed position around the contour of the inserted vacuum interrupter and thus prevents the vacuum interrupter from slipping off or slipping on or on the flat section. To simplify the assembly, the prior art holding device on one side of a kind of hinge with which two halves of the holding device can be folded apart. On a side opposite the hinge, the holding device further has a snap mechanism, so that a

Clamping the inserted vacuum interrupter tube is possible. For attachment in a support frame, the holding device has retaining rails which can be inserted into complementary form the grooves of the support frame, so that the vacuum interrupter is held by the holding device on its drive side reliable and centered in the support frame, at the same time the mobility of the shift rod is made possible. However, the prior art fixture adheres to the disadvantage that it is made of a non-conductive plastic, so that arise at acute or angularly acted upon with a high voltage potential portions of the interrupter high e- lektrische fields or leakage currents. The switches equipped with the known holding devices therefore either have a pole center distance that takes account of these high electric field strengths and thus have a large-area design or are limited to correspondingly reduced operating parameters with regard to the permitted operating voltages.

Object of the present invention is therefore to provide a holding device of the type mentioned above, with the same operating voltage of the switch, a more compact design of a switch or a constant design, an increased operating voltage can be brought about, which has such a holding device.

The invention solves this problem by a field control element for Absteuern an electric field, which during operation of the interrupter conducting with a component of

Interrupter is connected, which is during operation of the interrupter at high voltage potential.

According to the invention, a field control element is provided in or on the holding device, which has the potential during operation, that is to say when a switching tube is applied with voltage, which is acted upon by the component of the interrupter which the field control element contacts. The dismantling of the e- Lektrischen field therefore no longer takes place as in the prior art between the lying on high voltage potential component of the interrupter and a lying on ground potential component of the switch, but between the field control element and the component. As usual, the field control element is designed in such a way that tips, sharp edges or the like are avoided, at which high field intensities could arise. Since the field control element is encased with an insulating material, the high electric field is dissipated in the insulating material. In other words, it comes according to the present invention to a more controlled Absteuern the electric field. The holding device therefore not only has a holding function or possibly a centering effect, but also allows the generation of homogeneous field courses within the Schalterpols. The risk of leakage currents, partial discharges or the like is therefore reduced according to the invention, so that more compact designs or higher operating voltages are made possible. According to the invention, the configuration of the field control element is arbitrary, for example only embedded metallic network structures or electrically conductive surface layers made of plastic, paint, metal or the like may be mentioned.

The flange portion advantageously extends at an angle and in particular at right angles to the preferably annular disk-shaped holding section. The flange section encloses the contour of the end face of the interrupter. In the case of a cylindrical interrupter, therefore, the holding section is designed in the manner of an annular disc, wherein the flange section extends on the outer contour of the annular section. During operation, the flange section projects laterally beyond the interrupter tube and in this way prevents the interrupter from sliding or slipping off the interrupter tube. se on the holding section. The flange portion may be closed around the holding portion. In the context of the invention, however, it is also possible that the flange portion extends only at certain portions of the outer contour of the holding portion. Thus, for example, it is possible that the flange portion consists of three evenly distributed over the circumference web portions.

Advantageously, the field control element extends in or on the flange portion. Due to the arrangement of the

Flange portion outside of the holding portion has this to the components of the switch pole, which are at a ground potential, the shortest distance. For this reason, the Feldabsteuerung preferably takes place between the arranged in the flange portion field control element and lying at ground potential components.

Advantageously, the field control element comprises a metallic core region of the flange portion, which is surrounded by an insulation. According to this advantageous further development, the field control element is at least partially formed by a solid metallic core region of the flange section. The flange portion can thus consist almost exclusively of the field control. For isolation, the core area is surrounded only by a thin-walled insulation, for example. The thin-walled insulation is applied by injection molding, for example.

Expediently, the field control element forms the holding section. According to this advantageous further development, the holding section is at least part of the field control element, wherein this either comprises a core region of the flange section or else via expediently curved flat surface Has wire nets that extend in a plastic part of the flange.

According to a preferred development of the invention, the holding section is metallic and integrally formed with a likewise metallic core region of the flange section, wherein the core region is surrounded by insulation, so that the field control element is formed by the flange section and the core region. The retaining device designed in this way is particularly cost-effective, since the core region of the flange section and the retaining section can be produced by conventional metal production methods, for example by metal diecasting. Finally, the core area is surrounded by a thin-walled plastic layer by injection molding.

According to an advantageous development centering means are provided, which are connected to the holding portion and facing the passage opening. The centering means are provided for centering the holding device with respect to a switching rod, which is fixedly connected to a moving contact of the interrupter and extends through the held by the holding device end face of the interrupter.

Advantageously, the centering on mutually parallel headband, which have a receiving groove, wherein threaded plates are arranged in the receiving groove through which extends a aligned on the through hole centering. According to this further development, the centering means comprise simple retaining clips, which may for example be formed integrally with the retaining section. The production of the centering is therefore inexpensive, as well as the subsequently necessary threaded plates are low in price. The invention further relates to a switch pole with at least one holding device according to the invention.

The switch pole advantageously comprises a support frame, which consists for example of a mechanically stable plastic. Attached to the support frame are an input port and a discharge port, with a switching tube, such as a vacuum interrupter, extending between the input and output ports. The vacuum interrupter has a hollow cylindrical housing made of an insulating material, which is connected at its two end faces with metallic covers. The metallic covers of the end faces and the insulating housing form a vacuum-tight vacuum tube housing, with a fixed fixed contact pin extending through the metallic cover on a fixed contact side of the vacuum tube housing. The fixed contact pin carries at its projecting into the vacuum tube housing end a fixed contact piece. This is located in a longitudinal direction against a longitudinally guided moving contact piece, which is attached to the free end of a shift rod. The shift rod extends through the metallic cover opposite the fixed contact pin, wherein a metal bellows, which is fastened on the one hand to the moving contact piece or to the shift rod and on the other hand to the metallic cover, enables the mobility of the moving contact piece. In a contact position, the moving contact piece contacts the fixed contact piece, so that a flow of current through the vacuum interrupter is made possible. During a switching operation, the moving contact piece is separated from the fixed contact piece, wherein between the contact pieces an arc is drawn, which is extinguished at a current zero crossing in the vacuum of the vacuum interrupter. The holding device is adapted to receive the interrupter within the flange portion, which prevents lateral slipping of the vacuum interrupter with its front side of the holding portion. If the holding device is arranged on the drive side of the interrupter, the shift rod extends through the passage opening provided in the holding section, so that a longitudinal movement of the interrupter is made possible. If the holding device is arranged on the end face of the interrupter facing away from the drive side, the fixed contact pin projects through the passage opening. For fixing the holding device to the support frame, the holding device has appropriate support frame fastenings.

Further expedient embodiments and advantages of the invention are the subject of the following description of embodiments of the invention with reference to the figures of the drawing, wherein

FIG. 1 shows an exemplary embodiment of a switch pole according to the invention,

FIG. 2 shows a further exemplary embodiment of the switch pole according to the invention,

FIG. 3 shows a cross-sectional view of the switch pole according to the invention according to FIG. 2,

Figure 4 shows an embodiment of the holding device according to the invention and

Figure 5 show the holding device according to Figure 4 in a cross-sectional view. FIG. 1 shows a perspective view of a first exemplary embodiment of a switch pole 1 according to the invention. The switch pole 1 has a mechanically fixed support frame 2, to which a pole head section 3b of an input connection 3 is firmly screwed. This purpose is served by a transversely extending fastening web 4 with mounting holes for screwing the pole head section 3b. The fastening web 4 further has a through-opening 5, through which a screwing of a vacuum interrupter 6 as a interrupter at the input connection 5 is made possible. The vacuum interrupter 6 consists of a hollow cylindrical ceramic housing 7, which is composed of two parts which are interconnected in the middle of the ceramic housing with the interposition of an intermediate flange. At the end faces, the ceramic housing 7 is closed by metallic covers, which are not visible in Figure 1, so that a vacuum-tight housing is formed. On the upper side of the vacuum interrupter 6 in FIG. 1, a fixed contact pin projects through the upper metallic cover, wherein a fixed contact piece is held stationary on the free side of the fixed contact pin arranged in the vacuum housing. The fixed contact piece opposite a longitudinally movably guided Bewegkontaktstück is provided, which is movably held by a shift rod. The shift rod passes through a metallic cover facing an outgoing connection 8, a metal bellows providing the axial freedom of movement of the shift rod. For holding the vacuum interrupter 6 on its side facing away from the fastening web 4 side, a holding device 9 is provided which has a support frame attachment 10, with which the holding device 9 is firmly anchored in the support frame 2. Another holding device 9 is arranged on the end face of the vacuum interrupter 6, which faces the fastening web 4.

To drive the Bewegkontaktstückes the shift rod is connected via a suitable lever mechanism 11 with a drive that generates the necessary kinetic energy for switching.

FIG. 2 shows a further exemplary embodiment of a switch pole 1 according to the invention, which has the same support frame 2 as the exemplary embodiment according to FIG. In this exemplary embodiment, however, the insulation is reinforced by additional insulating covers 12 which can be latched into suitable locking grooves, which are not shown in FIG.

FIG. 3 shows the embodiment according to FIG. 2 in a cross-sectional view. In this view, it can be seen that the input terminal 3 next to the pole head section 3b shown in FIG. 1 also comprises a longitudinal section 3a. The pole head portion 3b is bolted to the fixed contact pin 13 of the vacuum interrupter 6, while the longitudinal portion 3a attached to the pole head portion 3b, for example, is screwed. Over the length of the releasably attached Längsab- section 3a is thus easily the jaw width of

Schalterpols, so the distance of a conductor attached to the input terminal 3 of a conductor attached to the outlet terminal 8, adjustable.

A the fixed contact pin 13 opposite shift rod 14 is connected via a flexible current band 15 to the outgoing connector 8. For isolation of the shift rod 14, a pot-shaped insulation 16 is provided, via which the shift rod 14 is connected to the lever mechanism 11. It can also be seen in FIG. 3 that the shift rod 14 projects through an end face 17 of a metallic cover 18 of the vacuum interrupter 6, wherein a guide sleeve 19 is firmly connected to the cover 18. The end face 17 rests on the holding device 9. At the attachment web 4 facing end side of the vacuum interrupter 6, a further holding device 9 is provided for centering the vacuum interrupter 9 and for controlling the electric field.

FIG. 4 shows a perspective view of the holding device 9, which has an annular disk-shaped holding section 20 and a flange section 21 extending at right angles thereto. The holding portion 20 has a passage opening 22 through which the shift rod 14 and the guide sleeve 19 extend in the installed state. Facing the through-opening 22, centering means in the form of holding brackets 23 arranged parallel to one another are provided which are each set up to receive a threaded plate. In this case, each threaded plate has a threaded screw which extends toward the passage opening 22. By screwing the threaded screw into the threaded plate, the latter makes contact with the guide sleeve 19 fixedly connected to the vacuum shaft tube, so that centering of the vacuum interrupter 6 in the holding device 9 is made possible by the position of the centering screws. The flange portion 21 is connected to two claw-shaped support frame fastenings 10, which, as can be seen in Figure 1, are adapted to hold the holding device 9 in the support frame 2.

FIG. 5 shows the holding device 9 according to FIG. 4 in a cross-sectional view. In this illustration, it can be seen that the flange portion 21 consists of a core portion 24 formed integrally with the holding portion 20 and surrounded by a thin-walled insulation 25. In this case, the holding portion 20 is conductive during operation on the metallic cover 18 of the vacuum interrupter 6, so that a field control element is formed by the core portion 24 and the holding portion 20. In FIG. 5, it can further be seen that the holding device 9 has an inner diameter bounded by the flange section 21, which is slightly larger than the outer diameter of the ceramic housing 7 of the vacuum interrupter 6. In other words, the holding device 9 is designed complementary to the end face of the vacuum interrupter 6 , In addition, the inner diameter of the through hole 22 is adapted to the outer diameter of the guide sleeve 19, so that it can be passed through the through hole 22. In a figuratively not shown modification of the invention, the inner diameter of the flange portion 21 is only slightly larger than the outer diameter of the metallic cover 18, but slightly smaller than the outer diameter of the ceramic housing 7 of the vacuum interrupter 6. In other words, form the metallic cover 18 and the ceramic housing. 7 a circumferentially closed circumferential stage of the vacuum interrupter 6, wherein only the metallic cover 18 is received by the flange portion 21 and has a length adapted to this.

Claims

claims A holding device (9) for holding a switching tube (6) in a support frame (2) of a switch pole (1) having a holding portion (20) having a through hole (22) adapted to abut against an end face of the interrupter (6) a flange portion (21) fixedly connected to the holding portion (20), which at least partially surrounds the outer contour of the end face, and a support frame fastening (10) for mounting the holding apparatus to the support frame (2), characterized by a field control element (20, 24 ) for shutting off an electric field, which is conductively connected during operation of the interrupter (6) with a component of the interrupter (6), which is at high voltage potential during operation of the interrupter (6). 2. Holding device (9) according to claim 1, characterized in that the field control element (20, 24) extends in or on the flange portion (21). 3. Holding device (9) according to any one of claims 1 or 2, d a d e r c h e c e n e s in that there is a metallic core region (24) of the flange portion (21), which is surrounded by an insulation (25). 4. Holding device (9) according to claim 3, characterized in that the insulation (25) is thin-walled. 5. Holding device (9) according to one of the preceding claims, characterized in that the field control element forms the holding section (20). 6. Holding device (9) according to any one of the preceding claims, characterized in that the holding portion (20) is metallic and integral with a likewise metallic core portion (24) of the flange portion (21), wherein the core portion (24) of an insulation (25 ), so that the field control element is formed by the flange portion (20) and the core portion (24). 7. Holding device (9) according to one of the preceding claims, e e c e n e c e n e d d e r c h Centering means (23) which are connected to the holding portion and the through hole (22) facing. 8. Holding device (9) according to claim 7, characterized in that the centering means mutually parallel retaining bracket (23) which have a receiving groove, wherein threaded plates are arranged in the receiving groove through which extends a aligned on the through hole centering screw , 9. switch pole (1) for interrupting an alternating electrical current, at least one holding device (9) according to one of the preceding claims.