GAS-INSULATED MEDIUM VOLTAGE SWITCHGEAR WITH A CIRCUIT BREAKER POLE PART ARRANGEMENT

Abstract

A gas-insulated medium voltage switchgear includes: a circuit breaker pole part arrangement in a gastight compartment of the switchgear; a drive arrangement for switching actuation of the circuit breaker, the drive arrangement and the pole part arrangement being fixed on a common plate or frame, which is provided with the gastight compartment, and being configured to close the gastight compartment gastightly such that in a completely mounted position of the plate or frame, the circuit breaker pole part arrangement is positioned inside the gastight compartment, and the drive arrangement is positioned outside the gastight compartment; and a standardized circuit breaker drive adaptable to switchgear arrangements with different pole distances. The plate or frame is provided with holes, in which gastight mechanical feedtroughs are arranged, through which the standardized circuit breaker drive is coupled with each vacuum interrupter in the circuit breaker pole part arrangement.

Claims

1. A gas-insulated medium voltage switchgear, comprising: a circuit breaker pole part arrangement in a gastight compartment of the switchgear; a drive arrangement for switching actuation of the circuit breaker, the drive arrangement and the pole part arrangement being fixed on a common plate or frame, which is provided with the gastight compartment, and being configured to close the gastight compartment gastightly such that in a completely mounted position of the plate or frame, the circuit breaker pole part arrangement is positioned inside the gastight compartment, and the drive arrangement is positioned outside the gastight compartment; and a standardized circuit breaker drive adaptable to switchgear arrangements with different pole distances, wherein the plate or frame is provided with holes, in which gastight mechanical feedtroughs are arranged, through which the standardized circuit breaker drive is coupled with each vacuum interrupter in the circuit breaker pole part arrangement, and wherein by predefinable positioning of the holes, the plate or frame is configured to be adapted to the pole distance in the gastight compartment.

2. The gas-insulated medium voltage switchgear according to claim 1, wherein for a three phase arrangement of circuit breaker pole parts in one gastight compartment, the standardized circuit breaker drive is coupled with one common main shaft, which is configured to transform a rotational movement of a spring drive into a linear movement for each vacuum interrupter such that via a curve disc a rotational movement of the main shaft is transformed into a linear movement of a movable contact of the vacuum interrupter by three pairs of levers, and wherein the adaption to a predefined pole part distance is realized only by exchange of the common shaft and a coupling rod, adapted to a desired pole distance.

3. The gas-insulated medium voltage switchgear according to claim 1, wherein the standardized circuit breaker drive comprises a spring drive.

4. The gas-insulated medium voltage switchgear according to claim 2, wherein the levers are coupled by means of the coupling rod, which is configured to be moved by the levers in a direction perpendicular to an axis of the rod.

5. The gas-insulated medium voltage switchgear according to claim 1, wherein the pole parts of the circuit breaker pole part arrangement each comprise of a pair of two half shells, configured to be assembled together, with the vacuum interrupter between the half shells.

6. The gas-insulated medium voltage switchgear according to claim 2, wherein the coupling rod is, via its choosen length, adapted to the pole distance used in the switchgear.

7. The gas-insulated medium voltage switchgear according to claim 1, wherein elements of which are sampled or grouped on modules such that a spring mechanism for the drive and/or a motor configured to charge the spring mechanism is arranged on a separateable energy storage charging module, and/or that wherein movement transmission elements and/or the levers and the curve discs are arranged on a separateable transmission module, and/or wherein latching elements are arranged on a latching module.

8. A method for manufacturing or assembling the gas-insulated medium voltage switchgear according to claim 1, wherein for adaptation to different desired pole distances, apart from that, identical different plate or frame is used, with predefined holes in which the mechanical feedtroughs are located so as to match with the used pole distance of the circuit breaker pole parts.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] The present invention will be described in even greater detail below based on the exemplary figures. The invention is not limited to the exemplary embodiments. Other features and advantages of various embodiments of the present invention will become apparent by reading the following detailed description with reference to the attached drawings which illustrate the following:

[0024] FIG. 1: Embodiment with a pole distance x

[0025] FIG. 2: Embodiment with a pole distance y, different from x

DETAILED DESCRIPTION

[0026] In an embodiment, the present invention provides a medium voltage vacuum circuit breaker for gas-insulated switchgear that solves these problems.

[0027] In an embodiment, the present invention provides a method for manufacturing or assembling of such a medium voltage vacuum circuit breaker for gas-insulated switchgear.

[0028] Constructural basical features for the use of the invention are, that a standarized circuit breaker drive is adaptable to switchgear arrangements with different pole distances, and that the plate or frame is provided with holes, in which gastight mechanical feedtroughs are arranged in, through which the drive is coupled with each of the vacuum interrupters in the pole parts, and that by predefinable positioning of the holes, the plate or frame can easily be adapted to the pole distance in the gastight compartment. So the drive itself, which is located outside the gastight compartment, can be mounted independently from the arranged elements inside the gastight compartment. Also the maintenance service of the drive can be handled from outside the gastight compartment without the need of opening it.

[0029] Key feature of the invention in this context is, that a standardized circuit breaker drive can be used or can be easily adapted to switchgear arrangements with different pole-distances.

[0030] Additionally to that, the invention is, that the plate or frame is provided with holes, in which gastight mechanical feedtroughs are arranged in, through which the drive is coupled with each of the vacuum interrupters in the pole parts, and that by predefinable positioning of the holes, the plate or frame can easily be adapted to the pole distance in the gastight compartment. Important is, that standardized and same drives can be used in different arrangements with different pole distances.

[0031] A further important and advantageous embodiment is, that for a three phase arrangement of circuit breaker pole parts in one gastight compartment, the drive is coupled with one common main shaft, which transforms a rotational movement of the spring drive into a linear movement for each vacuum interrupter in such, that via a curve disc the rotational movement of the main shaft will be transformed into a linear movement of a movable contact of the vacuum interrupter by three pairs of levers, and that the adaption to a predefined pole part distance is realized only by exchange of the common shaft and the coupling shaft, adapted to the desired pole distance.

[0032] In a further advantageous embodiment, the drive is a spring drive.

[0033] The plate or frame is provided with gastight mechanical feedtrough or feedtroughs, through which the drive is coupled with the vacuum interrupter in the pole part. This leads to the above already mentioned advantages.

[0034] In a further advantageous embodiment, said levers are coupled by means of coupling rod which is moved by the levers in perpendicular direction to the axis of the rod.

[0035] A further important embodiment is given by predefinable positioning of the holes of the mechanical feedtroughs in the plate or frame, the plate or frame can easily be adapted to the pole distance in the gastight compartment, so that the drive can be adapted to the used pole-distance.

[0036] A further advantageous embodiment is, that the pole parts each consist of a pair of half shells, which will be assembled together, with the vacuum interrupter between the half shells.

[0037] In a further advantageous embodiment, the already aforesaid advantage can be caused in that the coupling rod is via its choosen length adapted to the pole distance, used in the switchgear.

[0038] A further and final important advantageous embodiment is, that the aforesaid elements are sampled on modules in such, that the spring of the drive and/or that a motor for charging the spring is arranged on a separateable charging module and/or that the movement transmission elements, and/or that means mechanical transmission elements like the levers and the curve discs are arranged on a separateable transmission module, and/or that finally latching elements are arranged on a latching module.

[0039] The assembling can be done stepwise by connecting fully premanufactured modules in such, that also an adaption to different pole distances is not disturbed, but supported by the module construction. The plate or frame with other feedtrough distances has to be exchanged, in cases of adapting to other pole distances. With that, the position of the curve discs and levers in main shaft and the coupling rod length has to be adapted.

[0040] A drive and a mechanical adaptable system for medium voltage vacuum interrupters for gas-insulated switchgear is shown in FIG. 1, and for a different pole distance in FIG. 2, which is able to drive the movable contacts inside the vacuum interrupters, also in use of switchgear arrangements with different pole-distances. The concerning drive 8 is based on a spring drive mechanism. The drive 8 is mounted on a stiff aluminum plate 2 which is fixed to the switchgear panel. The fixation of said aluminum plate to the panel is gastight, and not further detailed shown in the figures. The electric pole parts 1 of the circuit breaker are fixed on the opposite side of the drive 8 on the aluminum plate 2. The driving force from the circuit breaker drive 8 to the poles 1, or better saying, to the movable contacts of the interrupters inside the pole parts, is transmitted by push rods 9 through gastight mechanical feed throughs 3 in the aluminum plate 2. The distance between the feed throughs 3 depend on the pole-distance of the circuit breaker.

[0041] Within the aforesaid invention, related drive curve discs 7 are fixed on the right hand end, middle and left hand end of the rotating main shaft of the circuit breaker. Said curve discs transform the rotating motion of the main shaft 6 into a linear movement of three pairs of levers 5. Said levers 5 are coupled by means of a coupling rod 4, which is moved by the levers 5 in perpendicular direction to the axis of the rod. Said coupling rod comprises holes to which the drive rods of the poles of the circuit breaker are installed. The distance in between the holes and the aforesaid feedtroughs 3 is chosen according to the pole-distance x for which the drive is applicable. Thus one drive is applicable to circuit breakers of different ratings with different pole-distances by simply using different coupling rods with different distances between the holes in the rods. Thus all parts of the drive 8, except the coupling rod 4 are identical for different pole-distances x, y.

[0042] A special embodiment is where the drive 8 is installed in a circuit breaker with vacuum interrupter, where the poles are comprising the half shells, and consist of a vacuum interrupter, push rods, connecting parts etc., like it is shown for different pole-distances in FIGS. 1 and 2.

[0043] A further embodiment is where the length of the coupling rod depends on the pole-distance of the circuit breaker.

[0044] A further embodiment is where the drive is realized in a modular way i.e. consisting of e.g. an energy storage and charging module, a transmission module, a latching module etc.

[0045] A further embodiment is that the pole-distance measures 120 mm, 150 mm or 210 mm respectively.

[0046] While the invention has been illustrated and described in detail in the drawings and foregoing description, such illustration and description are to be considered illustrative or exemplary and not restrictive. It will be understood that changes and modifications may be made by those of ordinary skill within the scope of the following claims. In particular, the present invention covers further embodiments with any combination of features from different embodiments described above and below. Additionally, statements made herein characterizing the invention refer to an embodiment of the invention and not necessarily all embodiments.

[0047] The terms used in the claims should be construed to have the broadest reasonable interpretation consistent with the foregoing description. For example, the use of the article a or the in introducing an element should not be interpreted as being exclusive of a plurality of elements. Likewise, the recitation of or should be interpreted as being inclusive, such that the recitation of A or B is not exclusive of A and B, unless it is clear from the context or the foregoing description that only one of A and B is intended. Further, the recitation of at least one of A, B and C should be interpreted as one or more of a group of elements consisting of A, B and C, and should not be interpreted as requiring at least one of each of the listed elements A, B and C, regardless of whether A, B and C are related as categories or otherwise. Moreover, the recitation of A, B and/or C or at least one of A, B or C should be interpreted as including any singular entity from the listed elements, e.g., A, any subset from the listed elements, e.g., A and B, or the entire list of elements A, B and C.

NUMBERING

[0048] 1 pole parts [0049] 2 plate or frame [0050] 3 gastight mechanical feedtrough [0051] 4 coupling rod [0052] 5 lever [0053] 6 main shaft [0054] 7 curve disc [0055] 8 drive [0056] 9 push or drive rod [0057] x,y pole distances