DE656415C - Fire chamber fluid switch - Google Patents

Description

RICH

NTAMT

The invention relates to an extinguishing chamber liquid switch with one located in the closing body of the chamber, connected to the channel for the movable switching contact Channel system in which the hollow, movable switch contact with side openings controls the flow of the extinguishing agent in the extinguishing agent channel system controls such that the pressure flow out of the chamber during the switch-off process through the hollow part of the movable contact and the side Passage openings in the extinguishing channels takes place even before the end of the movable Contact passes the confluence points of the extinguishing channels.

According to the invention, the individual, channels emanating directly from the through-channel for the movable switching contact in the closure body of the chamber into the space receiving the ejected extinguishing agent, i.e. without the path of the movable contact again to cut. As with the switch of the main patent, the outflow channels are expediently in the switching direction or in the circumferential direction or in both ways offset from one another. In this In the sense, several outflow channels can also be used in the passage for the movable switching contact start at the same amount. For a favorable extinguishing effect, the process of leakage can be divided by As in the main patent, the outflow is restricted or blocked at certain time intervals. As soon as the outflow then is released again, one or more channels can be used at the same time as the previous one The outflow cross-section can be shut-off depending on the path. The outflow can besides this path-dependent graduation also designed in a way that is novel in itself, pressure-dependent will. For this purpose z. B. at the outlet cross-section of the channels in which the ejected extinguishing agent receiving space pressure valves provided. The vote can be for the individual Valves or groups of the same are selected differently, so that the release of the individual Channels according to any characteristic, depending on the switch-off process he follows. This structure of the switch is particularly beneficial when

*) The patent seeker stated as the inventor:

Hermann Kergel in Radeberg b. Dresden.

when small services are to be switched, which generally cause greater difficulties by z. B. with insufficient pressure for a certain intense flow of the. or the channels in question have not yet been given; the arc remains ' $$ ($; < , and the pressure in the cap: mer increases. The extinguishing flow only begins when there is sufficient pressure in the chamber ίο after the valves have been opened and then, if necessary, simultaneously through several discharge channels this guarantees that there is no loss in the storage of the print before it has reached the height required for effective deletion.

To explain some exemplary embodiments, refer to the figures in the drawing Referenced.

ι denotes a cup-like body, on the bottom of which the stationary contact 2 is arranged. The closing body 3 of the switching chamber, which consists of insulating material and through which the movable contact 4 runs, is inserted into the cup. Above this closing body, the cup ι together with the plate 5, which is supported by two concentric cylinders 6 and 7 against the closing body 3, forms a space for collecting the extinguishing agent thrown out of the switching chamber during the shutdown process. The movable contact 4 is hollow at the contact end and has rows of lateral outlet openings 4 " to 4 ° . In the closing body, the outflow channels 3" to 3 ^{f are provided} with the same pitch as those outlet openings.

As you can see from the pictures, two of each start on the same diameter Channels on the through-channel that diverge perpendicular to the disconnection direction, namely in three superimposed Levels, although the channels in the

-5.5 different levels are offset from one another in the circumferential direction. At the radial parts of each outflow channel, e.g. B. 3 "', is followed by a vertical 2> ^a " , which is formed by a recess in the closure body and the inner jacket of the cup-shaped body. Fig. 5 ⁰ shows the plan view of another embodiment of the closing body, whereby umao ° in the circumferential direction offset from one another are used outflow channels whose axes lie in the same plane perpendicular to the disconnection direction. Similarly W ^T else as in the previous embodiment are again above the other in the disconnection direction such channels. This arrangement is evident from the sectional views according to FIGS. 1 "to 4". They show the movable switching contact in different positions during the switch-off process. In Fig. 1, the top row of the switch-off openings of the movable contact is connected to the bottom row of the outflow channels after the arc has arisen. In the illustrated below position 2 ", the effluent is again locked. The position of the movable contact further illustrated by 3 ^a shows all the lateral outlet openings of the movable contact in connection with the outflow channels in the final body of the switching chamber. According to Fig. 4" passes through the top row of Lateral outlet openings of the movable contact the collecting space for the ejected extinguishing agent, the other rows of outlet openings are in connection with the outflow channels of the closing body, and at the same time the end of the movable contact allows direct flow into the bottom row of the outflow channels of the closing body.

Various ways can be chosen for the production of the closure body. One such is the switching chamber closure, as with other switches known from a stack of annular disks placed next to one another in the disconnection direction put together. In order to achieve the radial channels in a simple way, ring sectors can also be used between two ring disks, which Leave corresponding spaces free. According to another structure, the switching chamber closure body made of cylinder ring sectors juxtaposed in the circumferential direction will. The channels can be achieved in a simple way by * in the abutting surfaces of the parts of the closure body to be assembled Grooves are provided, which together with the surface of the adjacent body or form a counter-groove of the same outflow channels. This production of the channels leaves also choose when building the closure body as a stack of disks. The outflow channels can, in deviation from the exemplary embodiments, also only in the closing body the switching chamber.

Claims (11)

Patent claims: 1. extinguishing chamber switch according to patent 641 544, characterized in that the individual extinguishing channels (3) emanating from the switching contact channel directly open into the catchment area for the ejected extinguishing agent. 2. arcing chamber switch according to claim i, characterized in that, that the Outflow channels in the closing body of the switching chamber in the circumferential direction are offset from one another. 3. Quenching chamber switch according to the An-Proverbs 1 itnd 2, characterized in that several outflow channels begin at the same height on the passage for the movable switching contact in the closing body of the switching chamber.
. 10 4. extinguishing chamber switch according to claim ι to 3, characterized in that that the switching chamber closure body strung together as a stack of in the disconnection direction Ring washers made of insulating material is put together. 5. extinguishing chamber switch according to claim 4, characterized in that for Formation of the radial outflow channels between two ring disks ring sectors made of insulating material are used. 6. extinguishing chamber switch according to claims ι to 3, characterized in that that the switching chamber closure body lined up in the circumferential direction Cylinder ring sectors is put together. 7. extinguishing chamber switch according to claim 1, 4 and 6, characterized in that that the parts of the closing body of the switching chamber which are to be lined up together in the mutually opposing parts during assembly Surfaces have grooves which complement the adjacent part to form the outflow channels. 8. Extinguishing chamber switch according to An-Proverbs 1 to 7, characterized in that that the last part of each discharge channel through recesses between, -the closure body the switching chamber and the quenching chamber cylinder is formed. 9. extinguishing chamber switch according to claim ι to 8, characterized in that that the partitions of the lateral outlet openings on the movable contact and the inlet openings of the channels are the same in the through-channel for the movable contact in the switching chamber closure body. 10. extinguishing chamber switch according to claim ι to 9, characterized in that that the outlet cross-sections of the outflow channels are completed by pressure valves are. 11. arcing chamber switch according to claim 10, characterized in that the valves are dimensioned individually or in groups for different response pressures. For this purpose ι sheet of drawings