DE1102857B - Fuse disconnector - Google Patents

Description

Fuse disconnector It is already in the case of fuse disconnectors known to touch live parts when replacing a fuse To prevent the interposition of a special protective wall. This protective wall is from Switching cover controlled in such a way that it opens the opening when the switching cover is opened in the front panel and thus: covers the live receiving contacts while it is moved so far when closing the switch cover that the knife ends the fuse can be inserted into the receptacle contacts. The movement of the Protective wall requires the drive to be transferred from the switch cover by a lever system or similar facilities. As a result of the installation of a protective wall and the drive transmission the space inside the fuse disconnector is very narrow and allows installation further facilities, for example for arc extinguishing, are no longer permitted.

The present invention relates to a fuse disconnector with two protective walls controlled by the switch cover and movable in opposite directions in the switch housing, the live parts when opening the switch cover .einer connection side except for slots for the blade contacts to pass through. The essentials The feature of the invention is that the adjacent, different-phase Receiving contacts separated by partitions connected to the two protective walls are and the protective walls with the partition walls switching chambers for the individual receiving contacts form, which contain means for arc extinguishing.

The use of two-part protective walls from the switch cover are movable and cover the live parts when the switch cover is opened, is known per se. It is also known to use the fixed receiving contacts of a fuse disconnector to be provided with switching chambers, either constantly the contacts surround or when the switch cover is opened from several parts Assemble to form a sleeve surrounding the contacts. This has the disadvantage on that the necessary for the passage of the contact knife slots in the switching chambers cannot cause sufficient arc extinction. Also take the switching chambers takes up a considerable amount of space and therefore increases the size of the fuse disconnector.

With the arrangement according to the invention, it is possible to reduce the dimensions of the fuse disconnector by the fact that the switching chambers -by the protective wall that can be moved from the switch cover and the partition walls connected to it are formed. In this way, permanent magnets can also be used in the switching chambers are accommodated, which cause an arc extinction in a manner known per se. Since the permanent magnets are on the movable protective wall, a The arcing that occurs on the contacts is quickly extinguished.

The switch cover of the fuse disconnector is trough-shaped, whereby an enlargement of the switching chambers is possible for the accommodation the permanent magnets can also be used. The latter consist of disk-shaped Bar magnets, which are arranged side by side on the partition walls. Become useful the permanent magnets arranged in a row at an angle to the contact movement.

Another embodiment of the invention provides in place of both protective walls, each with a known arcuate rotatable part, box-shaped parts that can be moved parallel to the front surface. The protective walls are in a known manner through the switch cover on the side walls the switch arranged lever system moves.

Exemplary embodiments of the invention are shown in the drawing. It shows Fig. 1 a section along the line I-I of a fuse disconnector According to Fig.3 with the switch cover closed, Fig. 2 a section along the line I-I of Fig. 3 with the switch cover open, Fig. 3 is a plan view of the fuse disconnector According to Fig. 2, Fig.4, 5 side views of a fuse disconnector of a different design in the switched-on and switched-off state, Fig. 6, 7 section along the line II-II of a fuse disconnector according to Fig. 9 with closed and open Switch cover, Fig. 8 is a partial section along the line III-III of Fig. 7, Fig. 9 a top view of the switch according to Fig. 7. The fuse disconnector according to Fig. 1 to 3 is built into a housing 1 and is by a around the axis 2 rotatable switch cover 3 actuated. On the base plate 4 of the housing are the Receiving contacts 5, 6 are arranged, on the connection tabs 7, 8 of which the supply cables be connected. The securing element 9 is attached to the switch cover 3. It is inserted with its knife ends 10, 11 into the receiving contacts 5, 6.

There are arcuate parts 12 above the receiving contacts 5, 6, 13, which are due to their connection via a lever system 14, 15, 16 when actuated of the switch cover 3 move in opposite directions to each other and in the closed state form a protective wall. For this purpose, the parts 12, 13 are via arms 17 or Partition walls 26 rotatably mounted in axes 18, 19. With the switch cover closed 3, the parts 12, 13 are held in the non-use position by means of springs 20, 21 (see Fig. 1).

If the switch cover 3 on the handle 22 is pivoted out of the plane of the front plate 23, the part 24 of the switch cover presses on the edges of the arms 17 and thus moves the part 13 over the receiving contact 6. The lever system 14 to 16 simultaneously causes the part 12 to move towards the part 13 until both parts complement each other to form the protective wall closing the opening 25 of the front plate 23.

The part 12 has on its underside designed as partitions 26, 27, 28, 29 side parts which laterally separate the receiving contacts 5, 5 a, 5 b from one another (see FIG. 3). The front of these partitions is connected by a front partition 30, so that individual switching chambers for the receiving contacts 5, 5 a, 5 b are formed. Slits 31, 32, 33 partially penetrate the end face of part 12 with its switching chambers and thereby enable the knife ends 10 of the fuse elements 9, 9a, 9b to be inserted into the receiving contacts. In the part 13 slots 34, 35, 36 are also provided for the passage of the knife ends 11 of the securing elements 9, 9a, 9b. In contrast, the partitions have been omitted for the sake of simplicity.

When the switch cover 3 is closed, the front partition 30 lies against the front side of the receiving contacts 5, 5 a, 5 b, while the part 12 covers the receiving contacts 5, 5 a, 5 b and the connection tabs 7. At the same time, the part 13 lies over the receiving contacts 6, 6 a, 6 b and the connection lugs B. When the switch cover 3 is open, the front edges of the parts 12, 13 come together and form, apart from the slots 31, 32, 33 and 34, respectively , 35, 36 a closed protective wall. The protective wall prevents touching the live receptacle contacts when the switch cover 3 is open.

The embodiment according to A, bb. 4 and 5 makes of one parallel to use the front panel 37 sliding protective wall, which consists of the flat parts 38 and 39 composed. Partition walls are located on the underside of the parts 38, 39 40, 41, which the receiving contacts 42, 43 from the neighboring receiving contacts separate. The part 38 also has an end partition 44 so that Switching chambers for the juxtaposed receiving contacts 42 are formed. The parts 38, 39 are driven, as in the previous embodiment, by means of a switch cover not shown in the drawing. A lever system ensures for the opposite movement of the parts 38, 39.

Is the switch cover closed and thus the securing element 45 switched on, the parts 38, 39 are under spring force in their non-use position held (see Fig. 4). When the switch cover is open, the parts 38, 39 are inevitable pushed together so that they the opening 46 in the front panel 37 except for the slots 47, 48 cover.

In Figs. 6 to 9 a fuse disconnector is shown, which corresponds in its structure to the embodiment according to Fig. 1 to 3 and is provided with the same reference numerals. In addition, however, permanent magnets 49, 50 or 51, 52 and 53, 54 are provided in the switching chambers of part 12 of the protective wall formed by the partition walls 26, 27, 28, 29. The permanent magnets are designed as short bar magnets and their longitudinal axes are arranged perpendicular to the direction of movement of the protective wall. In order to achieve a particularly good extinguishing effect of the permanent magnets 49 to 54, they are arranged at the greatest possible distance above the receiving contacts 5, 5a, 5b . For this purpose, the arcuate part 12 of the protective wall is increased as much as the end wall of the closed switch cover 3 allows. By raising the protective wall, the associated switching chambers have also been enlarged, creating space to accommodate additional or stronger permanent magnets. In addition, there is the possibility of an inclined arrangement of the permanent magnets, whereby the breakaway arc can be blown off in a certain direction.

According to Fig. 8, unlike poles 1 ″, S are different more permanent ones Magnets 49, 50 opposite each other. When opening the switch cover 3, the breakaway arc distracted or pulled apart by the permanent magnets activated by the protective wall, so that it goes out quickly and the contacts are not damaged. the Extinguishing effect is increased by several permanent magnets arranged one behind the other.

Claims (7)

PATENT CLAIM: 1. Fuse disconnector with two protective walls that are controlled by the switch cover and move in opposite directions in the switch housing, which when the switch cover is opened cover the live parts on each connection side except for slots for the blade contacts to pass through. B. 5, 5a, 5b) a connection side of the switch by the two protective walls (12, 13) connected partitions (z. B. 26, 27, 28, 29) are separated and the protective walls with the partitions switching chambers for the individual receiving contacts form, which contain means for arc extinguishing. 2. Fuse disconnector according to claim 1, characterized in that a movable one between the partition walls (26, 27, 28, 29) Protective wall (12) in a manner known per se, permanent magnets (49, 50) for extinguishing arcs are arranged. 3. Fuse disconnector according to claim 1 and 2, characterized in that that the switch cover (3) is trough-shaped and thereby won Space for the switching chambers and their permanent magnets (49, 50) is also used. 4. fuse disconnector according to claim 1 to 3, characterized in that the Permanent magnets (49, 50) from a number next to each other, on the partition walls (26, 27, 28, 29) arranged disc-shaped bar magnets exist. 5. Fuse disconnector according to claim 1 to 4, characterized in that the permanent magnet rows (49, 50) are arranged at an angle to the contact movement. 6. Fuse disconnector after Claim 1 to 5, characterized in that the two protective walls (12, 13) take place each from a known, arcuate rotatable part each from a box-shaped Part (38, 39) displaceable parallel to the front surface exist. 7. fuse disconnector -according to claim 1 to 6, characterized in that the protective walls (12, 13) are moved in a manner known per se through the switch cover (3) via a lever system (17, 24) arranged on the side walls of the switch. Considered publications: German utility model No. 1725 877, 1778 251, 1779 892; German patent application P 7551 VIII b / 21 c (published on September 23, 1954); German exposition V 6981 VIII b / 21 c (published June 7, 1956); French Patent No. 1156 408; . USA. Patent Nos 2,015,561, 2,411,892, 2,506,991; ETZ-A dated September 11, 1956, page A 93.