AT32455B - Remote gas igniter activated by sudden pressure fluctuations in the gas pipe network. - Google Patents

Description

  

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   When gas is withdrawn from the network, these pressure fluctuations, which are relatively small and take place relatively slowly, are also gradually transferred into chamber d. The membrane therefore remains at rest for such slow pressure fluctuations.



   If, on the other hand, you wish to extinguish the gas flame and for this reason the pressure in the pipe network is suddenly reduced, e.g. B. by a sudden decrease in the load on the gas bell, the pressure in chamber a suddenly drops; since pressure changes are now only gradually transferred through tube I into chamber d, within a certain time there is a pressure difference between the two sides of membrane c, whereby it is moved downwards against the action of spring k and valve plate h is moved out of its in the position illustrated in the drawing, so that the valve 9 and the gas supply through pipe 1 to the burner is closed, thus extinguishing the flame.

   Gradually the pressure is now transferred from chamber d to chamber a, so that the same pressure prevails on both sides of the membrane.



   So that the valve is not opened by the spring k during this pressure equalization in the spaces a and d and also the movement of the valve plate from the open to the closed position takes place suddenly and safely, the valve plate h is a magnet and the stops o and i as well as also the valve seat is made of magnetic material. As a result, the valve plate is kept closed with a pressure which is greater than the spring action.



  Conversely, the parts o, i and g can be magnets and the plate h can be made of magnetic material. As a result, the valve plate h is held in its end positions by magnetism until it is overcome, the plate suddenly moving from its one end position to its opposite end position.



   If the flame is to be reignited, this is done by suddenly increasing the pressure in the pipe network, e.g. B. by increasing the load on the gas bell. As a result, the pressure suddenly rises in chamber a, but is not immediately transferred to chamber d. The pressure difference between a and d brings the membrane into the shape shown in the drawing
Position in which the gas through valve 9 and pipe i! flows to the burner.



   The wall m'der chamber d can be designed to be resilient, e.g. B. as a membrane influenced by a spring, thereby making the housing smaller. In the opposite
A small movement of the membrane causes a significant change in pressure in the trap
Chamber d. If the venting is to be opened by a sudden decrease in pressure and to be closed by a sudden increase in pressure, the valve g is relocated to the position of the
Stop j, where g then serves as a stop. The membrane c can possibly be replaced by a movable piston in a cylinder, the spaces on both sides of the piston with each other by a tube f or through fine holes in the piston or by a
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   PATENT CLAIMS: 1. Gas remote igniter activated by sudden pressure fluctuations in the gas pipe network,
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 Spaces (a, d), one of which (a) contains the gas inlet and gas outlet, are connected to one another by a very small amount of space in such a way that the pressure is only gradually transferred from one space to the other, whereby the in the closing valve enclosed in one room can only be actuated by the pressure difference in the two rooms caused by sudden pressure fluctuations.

 

Claims (1)

2. An embodiment of the device according to claim 1, characterized. that the valve plate (h) or the associated valve seat (g) is designed as a magnet for the purpose of causing a sudden opening or closing of the valve.