DE753640C - Extinguishing chamber switch - Google Patents

Description

Extinguishing chamber switch A release chamber holder is known, its inner piston-like part fixed and its outer cylinder part movable is arranged. The pumping effect is generated here by the vom-arc Combined pressure produced. With this switch, the arc is triggered by a Wall opening drawn into a room that is relatively large and “a lot of liquid contains, which cannot be used for the erasure of the eyelid arches. To delete of the arc, the amount of liquid in the pump chamber is required, to be pumped over the arc. In addition, a certain amount of liquid must be used be present at the point of contact, the initiation of the contact separation through the resulting arc is evaporated and the pressure increase causes the sufficient to set the pump member in motion. In addition, there is a reservoir of liquid unnecessary and disadvantageous in the quenching chamber. This takes place in the well-known extinguishing chamber the arc resolution not already with a short contact separation, rather becomes the Arc drawn out long or even through the chamber opening from the quenching chamber pulled out, the formation of vapor from the abundant amount of liquid is produced so strong and thus the pressure peak occurring in the chamber so high that the danger is that the. Extinguishing chamber is blown up. Through the invention this disadvantage is eliminated and the space required for the arcing chamber is reduced. For this purpose, with a fire chamber switch, the fire chamber slides a fixed, piston-like inner part and a movable, differential pump cylinder Serving outer part has the chamber pressure generated by the arc is moved opposite to the disconnection direction of the contact pin and the extinguishing liquid from the narrowing pump chamber through a radial to the arc pumps the contact pin tightly enclosing the ring channel to the arc, according to the Invention of the contact pin moving away from the resting contact after exposure the ring channel into a sleeve adjoining the ring channel and tightly encompassing the pin, the outer surface of which is at the same time the boundary wall of the narrowing Purnpraurnes forms.

With the new switch, everyone will be above the. absolutely necessary Liquid space in addition to the extinguishing chamber for the superstructure parts of the extinguishing chamber exploited. If the arc is drawn out for a long time, it only burns in the narrow one Channel of the guide sleeve for the channel pin. Since far less liquid than with the well-known switch for evaporation is in stock, so can also the dangerous The pressure peak in the extinguishing chamber does not look so high. The extinguishing chamber remains spared from breakage, even if the arc chamber burns dry should.

In the description of the exemplary embodiment for the invention still further details of the invention explained in more detail. The arcing chamber is through a holder i carried. The stationary contact segments stand with this holder a and the chamber wall 3 closing off the contact space. The chamber wall 3 carries at its lower end a sleeve-shaped approach .I through which the contact pin 5 slides. These parts are driven by a movable cylinder serving as a pumping member 6 surrounded with its lower bottom opening on the outer periphery of the approach d. sealingly slides. The upper cylinder base is formed by a screw piece 7, the mi: its bottom opening the pump cylinder as it moves on the unifang of the holder 1 centered. The outer diameter of the holder i for the stationary one Contact a is smaller than the outer diameter of the contact segments and smaller than the outer diameter of the guide sleeve surrounding the contact pin , I kept. This ensures that the upper cylinder base 7 is the larger Represents the drive surface of the pump cylinder. All extinguishing chamber parts move as far as possible close to the switch axis, so that the diameter of the arcing chamber to one small value shrinks. It is here -the contact space 8 that is expanding The pump chamber and the space 9 adjoining the smaller piston surface is the narrowing one Pump room.

The embodiment of the drawing shows the switch in the on position. If the contact pin 5 is moved down, an arc is created between the two contact members as soon as the pin leaves the contact segments 2. The arc evaporates part of the liquid in the space surrounding it. The hierdurali The resulting increase in pressure in space 8 acts on the upper floor surface of the pump cylinder C and wants to move it. The cylinder 6 can only then move upwards move when the contact pin 5, the outlet opening of the L'berströtnkanals io has uncovered. Only from this moment on can hydraulic fluid come out of your pump cream 9 through the channel io over the arc towards your expanding space 8 arrive. Some of the usc: h liquid flowing over the arc is evaporated and as a result, the drive force for the pump cylinder is continuously generated. After deletion, the contact pin leaves the lower Fülirungsli @ ils 1, so that a pressure equalization takes place between your interior and the exterior of the extinguishing chamber. If the arc has not yet been released in the case of very hard shutdowns, it will from your contact pin through the guide neck d @ liindttrülige and from two In the opposite direction running Löschmittelstr8inen flushed and to Brought to extinction.

The upper cylinder base 7 of the Punip cylinder 6 engages the part i in, it clearance, so that between your part 7 and part i a ring opening i i exists. This should let C) 1 or gases escape from your room 8 and thereby prevent an excessively high pressure surge at the beginning of the contact separation can affect the chamber wall. With the subsequent Punip movement of the cylinder 6 becomes the annular as a result of the conical configuration of the part i Outlet opening 11 reduced in size and finally closed to avoid unnecessary solvent losses to be avoided during the deletion process. This variable setting of the ring opening i i is permissible because there is an increase in volume in the quenching chamber during the puncturing process arises and any pressure surge is elastically absorbed by the chamber and can no longer be dangerous for the chamber.

In your extinguishing canister holder i, which is also at the same time the stationary contact: 2 carries, a cavity 1z is provided in which always a part the shutdown gases remain. The enclosed gas cushion also has a cushioning effect responds to a pressure surge occurring in the chamber. Even if in itself the accommodation of a gas buffer space in an extinguishing chamber is known: so it is in this special case achieved through the gas space above the stationary hollow contact, that the reduction of the injection surge can be taken so far that the pump cylinder moves only a little or even completely in its initial position remains. But also when switching off there is a strong alleviation of the pressure surges caused by the gas space and thus the beneficial effect of the intended Sleeve. still supported.

Claims (1)

CLAIMS: i. Extinguishing chamber switch, the extinguishing chamber of which one fixed, piston-like inner part and a movable, as a differential pump cylinder Serving outer part has the chamber pressure generated by the arc is moved opposite to the switch-off direction of the contact pin and the extinguishing liquid from the narrowing pump chamber through a radial to the arc, pumps the contact pin tightly enclosing the ring channel to the arc, characterized in that that the contact pin moving away from the resting contact after exposure of the ring channel in a subsequent to the ring channel, the pin slides tightly encompassing sleeve, whose The outer surface also forms the boundary wall of the narrowing pump chamber (9). z. Extinguishing chamber switch according to Claim i, characterized in that the outer diameter of the arcing chamber holder (i), on which the cylinder pump part slides, not only smaller than the outer diameter of the guide sleeve (q.), but also smaller than the outer one Diameter of the contact segments (a) is held. 3. Extinguishing chamber switch according to the Claims i and 2, characterized in that in the Uschkatnmerhalter (i), * the also at the same time carries the stationary contact, a cavity (1z) is provided in which always remains a part of the shutdown gases. To demarcate the subject matter of the invention from the state of the art, Germans were taken into account in the grant procedure Patent No. 68i -36.