DE757030C - Circuit breaker with arc extinguishing by a flow of compressed gas - Google Patents

Description

The invention relates to an arc extinguishing circuit breaker by a pressurized gas flow in which, in a known manner, the movable switching contact used to interrupt the circuit with a piston arranged in the control room and acted upon by the extinguishing gas is coupled, which separates the movable switch contact from the fixed switch contact.

Such switches are already known; because with such switches but the compressed gas piston can only give a relatively small stroke, so far it has been used in series with the one driven by the extinguishing gas, movable switch contact to arrange a second movable switch contact, which the Circuit interrupted at a second point shortly after opening the first contact and holds interrupted while the movable switching contact od by a spring. Like. is returned to its starting days at the fixed switching contact. Such Switches which are then switched on by means of the second movable switch contact must be done, but become quite intricate in their construction.

Furthermore, switches of the type identified at the beginning are also known at which the mechanically driven switch contact faces a second switch contact, which is not completely fixed, but is carried by a piston,

which the pressure of the extinguishing gas raises. In this case there is only a single interruption path before, within which the two switching contacts move apart in opposite directions; unfortunately you have to move the piston, which is acted upon by the extinguishing gas, in Bring the immediate vicinity of the switching arc, and it is obvious that this affects the service life and operational safety ίο of the switch.

Compressed gas switches have also already been implemented in which the piston is fixed is connected to the switching pin and is acted upon by the pressurized gas that the Switching speed at the contact separation high, then greatly reduced and gradually the end of the switching path is increased again. With these switches, not only the Service interruption but also the safety separation of one and the same Piston controlled, which also works as a slide for the cylinder openings. This requires very long cylinders in which the piston acts as a result of its slide can execute a stroke corresponding to the switching path.

The invention relates to an improvement for switches of the type identified at the outset Kind, through the application of which one leads to extremely simple switch constructions of high Operational reliability and surprisingly high switching capacity achieved. The inventive Switch contains only a single movably arranged switching contact and is therefore characterized in that only the first part of the switch-off movement required to extinguish the arc is brought about by the pressure gas piston connected to this movable switching contact, while the subsequent Transfer of the · movable switching contact to its final switch-off position by a normal one outside the Switch room arranged and via a free lift coupling with the movable switch contact connected drive device takes place, which serves at the same time to said switching contact when closing the To bring the circuit into contact with the fixed switching contact. So it becomes the application of two separate switches connected in series to carry out the various necessary switching operations, namely the interruption of the circuit on the one hand and keeping it open and the closing of the same on the other hand, avoided. In a switch according to the invention leads, as well as with normal switches and also with compressed gas switches, and the same movable switching contact from all three mentioned operations. This switch contact is initially switched off by a device located in the switch room and under the pressure of the extinguishing gas Piston and on it by a drive device arranged normally outside the switch emotional. In addition to the aforementioned simplification, a switch according to the invention has compared to the known, means of the extinguishing gas, switching switches still have this advantage that its more mobile, the The switch contact cutting off the energy flow is gripped outside the switch can. Furthermore, since this switching contact can be carried out in this way without difficulty can that it be removed as a whole from the switch and inserted into the same can, while the fixed switch contacts and the piston with accessories in their place stay and possibly be under voltage, the control of the switch becomes very much relieved. Safety is also promoted because you have the moving switch contact remove it completely and therefore make it impossible to switch on if one z. B. connected to the switch Cable must work.

These and other features of the invention are illustrated below with reference to the drawings be explained. In the drawing represents

Fig. Ι a longitudinal section of part of a switch according to the invention when switched on Was standing,

Fig. 2 is a longitudinal section of part of another switch according to the invention when switched on Was standing,

3 shows a section as in FIG. 2, al> he of the switch during the interruption of the Circuit and

Fig. 4 is a section as in Fig. 2, but of the switch * in the switched-off state.

In the drawing (Fig. 1), 1 is a pipe made of insulation material that is attached to its lower end by a metal cap that is centrally located with a fixed switching contact 2 designed as a valve seat is provided. With this Switching contact, a pin-shaped movable switching contact 3 works together as a valve, with the fixed switching contacts 4 arranged in a circle, permanently in push connection stands. The fixed switching contacts 2 and 4 are attached to a vessel 5, 6 Metal rings 7 and 8 electrically connected, which are not Connect the connection conductor shown on the switch. The control room that is within of the tube 1 is closed at the top by a lid 9 with a Connector 10 is provided for connection to a non-visible device, by means of their gas under pressure through openings 11 can be brought into the control room.

When the switch is turned off, the switch contacts 2 and 3 are formed Valve opened, which forces the gas under overpressure out of the control room escapes. This creates the arc of flame drawn between contacts 2 and 3 initially to a pin arranged in the middle of a funnel-shaped gas exhaust 12 13 directed and blown out.

The switching pin 3 is attached to a rod 15 by an insulator 14. This fits with a sleeve-shaped end slidably around the pin-shaped end of a drive rod 16 which is connected to a drive device, not shown. The rods 15 and 16 are coupled to one another by means of a pin 17 and a groove 18 so that they have a free stroke with respect to one another. A compression spring is arranged between the rods 15 and 16, which makes it possible to exert pressure on the switch pin when the switch is switched on.

A piston 20 is slidably arranged around the rod 15. This piston is in one Cylinder space 21 of the cover 9 is movable and is pressed down by a spring 22. · When going up, the piston strikes against a shoulder 23 of the rod 15 and takes this, therefore, as well as the insulator 14 and the switching pin 3 upwards. The hub of the The piston is limited by a stop 24.

In the embodiment according to. Fig. 2, 3

and FIG. 4, the piston 20 is arranged so as to be slidable around a thickened part 25 of the switching pin 3 lying above the fixed switching contacts 4. This part ends in a sleeve 26 with an even larger pressure gauge, so that a stop for the piston is formed on the switch pin. The sleeve 26 slidably engages around a pin 27 and is coupled to the same by a free lift coupling in the form of a pin 17 and a groove 18. The pin 27 is attached to the drive rod 16 of the drive device by an insulator 28. A compression spring 19 is again connected between the switching pin 3 and the connecting pin 27. The cylinder 128, in which the piston is movable, is supported by an insulator 29 attached to the tube 1. The piston 20 is again loaded by a spring 22. The extinguishing gas is supplied through the space between the wall 5 and the pipe 1. It passes through holes 30 in the tube 1 into the control room.

The cylinder 128 is closed at the bottom by a bottom 31 in which there is a cylinder opening smaller in diameter than that of the piston 20. In the rest position of the piston, this opening is through a part 32 that fits therein of the piston 20 is closed. The purpose of this construction will be explained hereafter.

The effect of the switch shown is as follows: When the switch has to be switched off, gas is led under pressure either through the openings 11 (FIG. 1) or through the holes 30 (FIGS. 2 to 4) into the switch room has reached a certain pressure in this space, the piston is lifted against the force of the spring 22. In the switch according to Fig. 1, the intermediate rod 15> the insulator 14 and the switching pin 3 are taken with it the piston first has a free stroke before it hits the shoulder 23 and entrains the switch pin 3. Since the drive rod 16 is still held in place for the time being, the force of the spring 19 must be overcome as soon as the switch pin is moved upwards If the piston is in its highest position, ie if it strikes against the stop 24, the lower end of the switching pin 3 is in a relatively small distance in a manner known per se from the fixed switch contact 2 (Fig. 3), so that this contact is open and the gas under excess pressure in the switch room escapes with force through this contact. The arc of flame drawn by the separation of the switching contacts 2 and 3 is then first directed to the catch pin 13 and then blown out. In switches of this type, the flame arc therefore has a constant, relatively small length. A short time after which it can be assumed that the flame arc has been extinguished and the circuit is therefore interrupted, the drive rod 16 is pulled up by the drive device and the switching pin 3 is brought to a greater distance from a fixed damage contact 2, which is safe to keep the circuit open (Fig. 4). The switch is then definitely off. Simultaneously with or a short time after the drive rod 16 is brought up, the extinguishing gas supply is stopped. Since the switch is switched on, the drive rod 16 is moved downwards by the drive device. The piston device has no service when it is switched on.

In order to avoid that when the extinguishing gas pressure rises during the Look out the switch pin slowly through the piston of the fixed switch contact 2 removed and the circuit is therefore reluctantly interrupted or that the Gas pressure is too low for a good release effect when the contact is broken takes place is at the switch according to FIGS. 2 to 4

the effective cylinder space in the rest position of the piston is closed off by the base 31 and the piston part 32 which fits therein and which has a smaller diameter than the piston. The piston has a free stroke with respect to the switch pin. Only when the pressure of the extinguishing gas reaches a certain high value in this design, the force on the smaller piston part 32 is sufficient to overcome the force of the spring 19 and therefore to drive the piston up. But before the piston strikes against the shoulder 23 of the switching pin, the piston part 32 emerges from the cylinder base 31, whereby the entire piston area aew. is exposed to relatively high pressure. As a result, the switch pin is pulled off the fixed switch contact with great force and therefore at great speed. The circuit is therefore interrupted suddenly, which prevents the contacts from being burned.

In the case of the switches shown, the drive rod 16, the switching pin 3 and the connecting parts 14, 15 or 25, 26, 27, 28 lying therebetween are in the same line. In addition, the diameters of these parts are chosen so that the diameter of each higher part is greater than that of the part below, therefore that of the switching pin is the smallest and that of the drive rod is the largest. This design has the advantage that the entire assembled switching rod can be pulled out of the switch, while the fixed switching contacts 2 and 4 and the piston device remain in the switch.

The embodiment according to FIG. 1 has the advantage that the piston device can be attached directly to the switch cover and therefore has ground potential. On the other hand, however, is that the Celt not only has to lift the switch pin, but also the insulator 14 and the intermediate rod 15. In the construction according to FIGS. 2 to 4, the piston device has the same potential as the fixed contacts 4; : "'ä must therefore be arranged in an isolated manner with respect to the earth. This can, however, be taken into account as an advantage that the piston only moves the switch pin when switching off, so that the circuit is interrupted at high speed.

Claims (5)

Patent claims: i. Circuit breaker with arc quenching by a flow of compressed gas, at which is the movable switch contact used to interrupt the circuit when switching off is coupled to a piston which is arranged in the switch room and acted upon by the extinguishing gas, characterized in that only the first part required for arc extinction the switch-off movement by the connected to the movable switching contact Pressurized gas piston is brought about during the subsequent transfer of the movable switching contact in its final switch-off position by a normal, arranged outside the switch room and connected to the movable switch contact via a free lift coupling Drive device takes place, which serves at the same time to the said To bring the switching contact into contact with the fixed switching contact when the circuit is closed. 2. Circuit breaker according to claim 1, wherein the movable switching contact as Pin is designed, characterized in that the switching pin (3) via an insulator (14) on an intermediate rod (15) is attached, which, slidably passed through the piston, to Coupling provided with the same with a stop and by a pin and a sleeve coupling formed by a spring loaded free lift coupling with a drive rod of the drive device is coupled. 3. Circuit breaker according to claim 1, wherein the movable switching contact as Pen is carried out, characterized in that the switching pin with an outside of the space between the fixed switching contacts lying part (26) slidably passed through the piston (20), for coupling with the same provided with a stop and by a pin and bush coupling formed by a spring mastete free lift clutch with one on one Drive rod of the drive device attached insulator is coupled. 4. Circuit breaker according to claims ι to 3, characterized in that that the switch pin, the free lift clutch, the isolator, the intermediate rod (insofar present) and the drive rod of the drive device in the same line lie and form a composite whole that is pulled out of the switch or can be introduced into the same, while the fixed switching contacts and the piston in their place stay. 5. Circuit breaker according to the claims 1 to 4, characterized in that the piston is loaded by a spring burdens, on its side facing the Schaltrauni with a part (32) smaller diameter is provided, which in the rest position in an opening of a the bottom (31) closing the cylinder engages appropriately and so much free stroke in. With respect to the intermediate rod or the switching pin, that the effective cylinder space is opened before the piston is coupled to this rod or this pin is. To delimit the subject matter of the invention From the state of the art, the following publications are considered in the granting procedure been drawn: German Patent No. 716967; Swiss patent specification No. 190 816. 1 sheet of drawings © 5364 p. 5l