DE622805C - Switch with arc extinguishing by compressed gas - Google Patents

Description

In the main patent, a switch with arc extinguishing by compressed gas is protected, the switch room is formed by an insulating body, the top of a chimney-shaped fixed contact is complete. The moving contact element arranged inside the insulating body is driven by a pressurized gas operated switch Piston, the cylinder of which is made of insulating material and is also arranged inside the insulating body.

The invention aims at a further development of this arrangement and solves the problem of a suitable guide device for to provide the moving contact, which takes up little space and is convenient is adjustable.

According to the invention, the guide device for the movable contact consists of one arranged in the axis of the drive cylinder made of insulating material and as a power supply to the movable contact serving mandrel. The thorn will here in a simple manner on the insulating

s5 fabric attached to the existing shift cylinder and is so easily isolated from earth. At the same time, all live Parts surrounded by insulating material. A major advantage of the invention is that the moving parts, namely the Drive piston and the contact piece, due to the arrangement of the dome in a simple manner be centered. This considerably simplifies the installation of the switch and thus making its production cheaper. Also, the use of an insulating material results existing shift cylinder, which itself serves to shield the live parts, as in the main patent is mentioned, the advantage of a compact design and also a simple feed option of the pressurized gas used for the drive, since no lateral supply pipes have to be provided, the pressurized gas supply rather, it can take place centrally on the two end faces of the insulating cylinder. It should also be taken into account that the guide mandrel is a much more perfect mechanical one Guidance of the moving contact ensured than would be the case with the arrangement of a tubular sliding contact in which the risk of jamming can never be completely eliminated.

Exemplary embodiments of the invention are shown in the drawing.

Figs. 1 and 2 show a pressure gas switch in which a gas supply space ι the support 4 is arranged, which is closed at the top by the cap 5. At the Cap 5 of the nozzle contact 6 is adjustable

attached. On the underside of the gas supply space ι is by means of the Montageflanscb.es 17 of the tubular support 29 made of insulating material attached to his The lower end is provided with the fastening ring 30. On this fastening ring 30, the plate 20 is attached to the connection 21, which in turn is designed as a mandrel Power supply piece 16 carries. In the paddock 17 and the tubular Extension 19 of the fastening ring 30 is an insulating tube 18 cemented through which the Switch-on gas is supplied. The movable contact slides on the guide mandrel 16 7, which is provided with the piston 10. The switch-on position is shown. To accommodate the end joints of the contact piece 16 compression inhibitors are mounted in the mandrel. The moving contact piece 7 has at the end of the rod 8 the stop 15, which is in the switched position Has taken compression piston 14 upwards and thus inhibits the movement of the contact piece 7 in the last part of the stroke. For the switch-off position, the piston 22 is provided in the mandrel 16, which in the last Part of the switch-off movement is taken along by the contact piece 7 or its stop 15 will. The air below it must escape through small openings 23. Both compression pistons 14 and 22 are returned to their initial position by springs 25. Connected to the compression piston 22 is the rod 24 which is an indicating device can control. With the piston .10. a lock is connected, which holds the contact piece in the end positions depending on the pressure. In the drawn Representation are two or more levers χι shown, which are moved inward by the spring 12: You will find their abutment on the locking piece 13 of the guide pin! 16. A movement of the piston 10 and thus of the contact piece 7 is therefore only possible after adjustable pressure over the piston 10 possible, the lever 11 against the Dodge spring 12 to the outside. For the switch-off position 16 are not in the mandrel here Drawn openings are provided in which the lever H lock. As a carrier of the Strbmzuführungsstückes 20 serves the fastening ring 30, which is arranged on the tubular support 29, which in the Support 4 protrudes and over the flange 17 is releasably attached to the gas supply space. The tubular support 29, which at the same time serves as a drive cylinder, is provided at its upper end with the ring 9, the the inflow opening of the pressure gas flowing through the support 4 into the Shift cylinder 29 reduced in size. This reduces the pressure drop at the switching point. The gas supply space 1 has two channels 2 and 3. Through channel 2 the gas flows to turn off the switch, which from there through the Supporter 4 enters the switching point on the nozzle 6 and at the same time through the opening of the Ring 9 flows over the piston 10. The gas flows through channel 3 to the shuttering part of the switch to the tube 18 and from there through the tubular extension of the ring .30 on the underside of the piston 10.

The switching piece 7 is guided on the mandrel 16, which is fastened to the same fitting parts as the insulating switching cylinder 29. The nozzle contact 6, which is movably attached to the part 5, is then aligned after the built-in "contact piece 7. The gas supply spaces 2 and 3 are attached to the gas collection space 26 via the flange 31. The gas collection space 2.6 is divided into two collection spaces 27 and 28 , of which the space 27 supplies the gas for switching off the three poles and is connected to the channel 2, while the space 28 serves to supply the switch-on pressure gas through the channels 3. The gas collection space 26 serves to fasten the three poles and the entire switch The insulating switching cylinder 29 can be removed downwards with the insulating tube 18 together with the mandrel 16 and the contact piece 7 with the piston 10. To check the contacts, the plate 20 with the mandrel 16 and the contact piece 7 be pulled out with the piston 10. The individual poles, each of which is operated separately and which are only pneumatically coupled through common gas spaces, are, as can be seen from Fig. 2, attached to the common gas collection space 26. The connections of the arrangement are at 21 and 6.

While in Fig. 1 the insulating cylinder 29 is detachably connected to the gas supply spaces, Fig. 3 shows an arrangement n ₀ in which the insulating cylinder 29 is firmly connected to the gas supply spaces ^ 1. The support 4 with the fastening cap 5 and the ng nozzle 6 is mounted on these gas supply spaces 1 in the same way as in FIG. It concentrically surrounds the isolating cylinder29. To supply the switch-on compressed gas to the bottom of the piston 10, a support 32 is provided, which is designed like the support 4 and _{concentrically surrounds the generally} lower side of the insulating switch cylinder 29. The supporter 32 carries

the power supply cap 20 with the connection 21 and also the power supply serving mandrel 16. On this the switching piece 7 is guided, which with the piston 10 is united, which slides in the insulating cylinder 29. The lower end of the switching piece 7 is designed as a pipe contact and conveys the current transfer from the guide pin 16 to the contact piece 7. The lower one Supporter 32 is detachably connected to the compressed gas supply spaces 1 via the flange 17 and can be removed downwards to check the contacts and the like. Of the Isolating cylinder 29 also has a ring 9 here, which is used to reduce the size of the gas inflow opening serves at its upper end. The gas supply space 1 has the channels 2 in the same way as in Fig. 1 and 3, those for supplying the on or off switching pressure gas from the spaces 28 and 27 to serve. Here, too, the entire switch is carried by the compressed gas supply space 1 and attached to the common compressed gas collection space 26 via the flange 31.

Not shown here are, inter alia. the pressure-dependent interlocks of the contact piece as well as devices for picking up the end impacts of the moving contact piece. The arrangements described in Fig. 1 can of course also be used here, how in general what was said there can be applied analogously here.

While in Figs. 1 to 3 the switch consists of several insulating parts, an arrangement is shown in Fig. 4 in which a bushing-like insulating piece 4 and the nozzle contact 6 via the ring 5 as well as the guide mandrel 16 via the plate 20 and the fastening ring 30. the Pressurized gas is supplied after the switching point and after the top of the piston 10 by a tubular extension 33 of the insulating part 4. The insulating switching cylinder 29 is attached to the same plate 20 that carries the guide mandrel 16, and is from below inserted into the insulating piece 4. The insulating piece 4 is somewhat at the gas supply point expands and concentrically surrounds the insulating switching cylinder 29 used, the one above the gas supply point ends and serves to increase the insulation to earth. With the tubular extension 33 is connected to a metal fitting 34, which via the pipe 35 is connected to the mounting flange 31. The whole switch is through the support fitting 1 is held and via the parts 31, 34 and 35 to the gas collection space 26 tied together. The switch-on pressure gas is supplied to the pipe socket 36 via the insulating pipe 18 and the tubular Extension 19 of the fastening ring 30, which has the inflow channel 37. Here too is the insulating switching cylinder 29 is provided at its upper end with a ring 9, which the Reduced inlet cross-section of the switch-off pressure gas in the insulating switch cylinder. Of the whole switch is attached to the compressed gas collecting chamber 26 via the parts 33, 35 and 31, which is common to all three poles. This also applies here to the images described above What was said about pressure-dependent locking, buffering and gas supply.

Claims (5)

Patent claims: 1. Arc-quenching switch Compressed gas according to additional patent 622 168, characterized in that the guide device for the movable contact (7) from a drive cylinder in the axis of the insulating material (29) arranged and serving as a power supply to the movable contact (7) mandrel (16). 2. Switch according to claim 1, characterized in that the guide pin (16) on the metal, with the power connection (21) provided cover (20) of the Drive cylinder is attached (Fig. 1 and 4). 3. Switch according to claim 1, characterized in that the guide pin (16) attached to a metal cap (20) provided with the power connection (21) is that on a special the drive cylinder (29) concentrically enveloping The insulator (32) is seated (Fig. 3). 4. Switch according to claim 1 to 3 with damping devices for the moving Switching piece, characterized in that the Diämipfungsvorrichtungeiirj in particular Compression piston (14 and 22), inside the tubular guide mandrel (16) are arranged (Fig. 1). 5. Switch to. Claim 1 to 4 with Pressure-dependent interlocks in the end positions of the contacts, which only allow switching at a certain gas pressure, characterized in that, that the lever-shaped locks (11, 13) in openings in the guide pin (16) engage (Fig. 1). 1 sheet of drawings