DE143937C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

In the known hydraulic gas valves for automatic opening and closing of the Gas supply through the gas pressure by means of displacement of a sealing liquid from the Two communicating rooms are combined gas paths into a third room Gas at the beginning of the lighting is forced through a certain column of liquid (sealing liquid) to flow through it before it can reach the burner unhindered. The hydraulic lock is only then complete canceled if, after a certain time, the pressure in both legs of the gas path is the same prevails. Until then, a flickering or twitching of the flames is noticeable, what its reason is that the sealing liquid is only gradually driven out of the gas path and the gas is forced to make its way through the sealing liquid in the form of bubbles to pave the way. This breakthrough of the gas through the shut-off liquid is at a a sudden increase in pressure is less noticeable than a gradual increase in pressure, such as this is common at all gasworks in order to avoid sudden pressure fluctuations.

In order to overcome this disadvantage, a tube is used, which is two with the barrier liquid Filled chambers of a four-part pipe connects with each other, while one of the other two chambers is known Way serves as a supply line for the gas and the other with a very wide container communicates. The peculiar arrangement of these four chambers in a single one Tubes are the subject of a particular invention.

When the gas pressure increases, the lower opening of this tube in the first chamber, which runs concurrently with the level of the shut-off liquid, is exposed so that the gas can penetrate evenly into the full cross-section of the opening of the tube. The gas displaces the liquid in the tube, unlike known hydraulic remote gas igniters, directly upwards into the second chamber and from there through the third chamber into the container, which has a cross-section about a hundred times larger than the chamber. Therefore, when the liquid falls in the first chamber by the increased gas pressure by about 2 mm, it is / mm rise in the third chamber only ² ₁₀₀ so that in the former, a gas pressure of 1.98 mm is produced against the liquid in the latter and thus the liquid standing in the tube at daytime pressure cannot fall into the first chamber, but has to be driven up through the tube into the second chamber. This explains the safe operation of the valve even with very small pressure fluctuations.

Fig. 1 is a vertical section through the hydraulic gas valve in connection with a Bunsen burner and pilot tube.

Fig. 2 is a cross-section along the line AB of Fig. 1.

3 and 4 show the roll-up of the pipe jacket c . For a better overview, the four chambers efg h are placed side by side; Fig. 3 shows the liquid level at normal daily pressures when the luminous flame is not burning, while Fig. 4 shows the

Fluid level in the evening or Night prints illustrated with a lit flame.

The hydraulic gas valve is switched on between the gas line α and the burner b. The same consists of a tube c, which is divided into four vertical chambers efg h by an insert d with a cross section, and a closed, flat one

ίο container i, which surrounds the tube c at the upper end and is connected to the upper end of the chamber h through an opening w . The chambers e and f are connected to one another at the upper end by a cutout Z of the insert d , the chambers fgh by an identical cutout m and η at the lower end of the insert. The chamber e is open at the lower end and is there in connection with the gas supply line α; the upper end of the chamber g is in open communication with a connecting piece ν to the burner b. A pipe ο branches off from chamber e , which feeds the pilot flame.
A tube ρ is located in the chamber g, penetrates the insert d and protrudes with its lower curved end into the chamber / so that the mouth of the tube lies in a horizontal plane.

The shut-off liquid (a mixture of glycerine and water) is in the chamber f at normal daily pressure up to a little above the lower mouth of the tube ρ and in the chambers gh up to the level of the liquid in the container f; the difference in height of the liquid in chambers f and g (Fig. 3) indicates the daily pressure. The chamber e is filled with gas, also by means of the opening / the upper part of the chamber /.

As soon as the gas pressure is increased, the liquid level in the chamber f drops below the lower mouth of the tube p. As a result, the gas can enter the tube uniformly through the full cross-section of the mouth and press the liquid contained therein over the full cross-section of the tube into the chamber g and into the container i connected to it by the chamber h .

In the upper part of chamber g , immediately after the gas has passed through the tube ρ, a pressure that is pretty much the same as that in chamber f (Fig. 4), because the cross section of the burner nozzle outlet is approximately Y _{10 of} the cross section of the tube ρ . By this pressure, the liquid in the chamber g is pressed down and the upper mouth of the tube ρ is kept free of the shut-off liquid, so that the gas can flow unhindered to the burner and the flames do not flicker.

The well-known filling screw q for regulating the height of the liquid level in the container is located on the container i.

The entire height of the liquid column is about 120 mm of water, so that even in the event of the pressure regulator failing, a secure seal against gas escaping through the opening w is guaranteed.

Claims (1)

Patent claim: ' Hydraulic gas valve for automatic opening and closing of the gas supply line by the gas pressure by means of displacement of a sealing liquid from the gas path composed of two communicating spaces into a third, also communicating with this space, which is connected at its upper end to a very wide container, characterized by a tube fpj, which is switched on as a second connection of the first rooms ff and g) , the lower horizontal opening of which is covered by the shut-off liquid at daytime pressure and is exposed at increased pressure so that the gas can enter this tube evenly through the full cross-section of the opening and the shut-off liquid inside it can displace above. 1 sheet of drawings.