DE392127C - Automatic gas water valve for liquid heater - Google Patents

Description

Automatic gas water valve for liquid heaters. The subject of the invention belongs to the class of automatic gas water valves for liquid heaters water chamber sealed against the gas chamber by a membrane.

Due to the special design of the sealing membrane Chamber causes the gas valve, through the membrane slowly, gradually and is controllably opened while the gas valve closes after the tap has been shut off takes place with acceleration. As a means of bringing about this effect, a Check valve used, through which the water passage cross-section automatically is changed.

This means is known per se. The invention resides in transmission same on valves of the type described in the first paragraph. It is a Simplification of the arrangement achieved by using the membrane both as a sealing means, as well as to adjust the valve. -In the drawing is the subject of the invention illustrated in two exemplary embodiments. Fig. I shows in longitudinal section one embodiment, Fig. 2 in longitudinal section the second.

The embodiment according to Fig. I, which is for use on a water heater or gas bath heater with water outlet directly on the furnace, i.e. not under high water pressure works, and at which the water flow before entry is regulated in the furnace by valve, faucet or the like. Has a water flow faucet i, a on. If this is opened, the water flows from the nozzle 3 into the chamber 7, and from there through nozzles 5 to the furnace. A throttle device, e.g. Legs Throttle screw 6, throttles the passage cross section of the nozzle 5 and leads this creates an overpressure in the chamber 7. This is planted through the openings 8 and through the narrow bore io of the check valve 9 after the chamber i a - and thus proceed to the sealing membrane i i. Under this overpressure, the protruding The membrane flattens and pushes the gas valve i4 by means of the spindle 13 opposite the action of the spring 18, so that now the gas from the inlet port 15 through Chamber 16 flows after the outlet nozzle 17 and from there to the burner of the heater. This opening of the Gasv entiles 14 takes place gradually and evenly, as the pressure increases only slowly in the diaphragm chamber 12 by virtue of the throttle opening 1o. Included can this effect by adjusting the throttle screw 6 in the @Vasserkaanmer 7 rules.

If the water tap 1, 2 is closed, the Water pressure between Mernbrankkammer 12 and water chamber 7, and immediately quickly, because now the check valve 9 opens and consequently the water can suddenly escape from the membrane chamber 12 to the chamber 7.

Another regulation of the opening speed of the gas valve is possible by regulating the clear width of the throttle channel io. Also could a regulating screw that can be adjusted from the outside in a special channel between the xlembrane chamber and water chamber, through which next to the bore 1o in the check valve9 a second connection for pressure equalization between chamber 12 and chamber 7 would be created.

The embodiment according to Fig. 2 has a special control piston d in the water chamber. When the taps are closed, there is, on the one hand, in front of and behind this control piston, and, on the other hand, complete pressure equalization in the diaphragm chamber b. If water is withdrawn from any tapping point on the hot water pipe, the pressure behind piston a drops, causing it to be displaced under the action of the full water pipe pressure on the opposite side of the piston. This displacement of the control piston a is transmitted by the piston rod e to the shut-off membrane c in the membrane chamber b and also to the gas valve d. The membrane c must of course have a smaller free cross-section than the piston a. The gas valve is thus detached from its seat and allows the gas to flow through from inlet f to outlet g. During the ottenning movement, the membrane r must displace part of the water from chamber b. However, this can only happen slowly because a check valve i with a narrow bore h is arranged in a channel between the membrane chamber and the water chamber, through which the water displaced by the membrane c can only slowly exit to the water chamber. If the hot water taps are closed, an overpressure is established in the water housing, which suddenly opens the check valve i, so that an immediate equalization of the water pressure between membrane chamber b and water chamber takes place and the gas valve d closes quickly.

Claims (3)

PATENT CLAIMS: 1. Automatic gas water valve for liquid heaters with sealing of the water chamber against the gas chamber by a membrane, which through one-sided water pressure affects the gas valve moves, characterized that the membrane (11, c) in a special membrane chamber between the gas and water chambers is arranged, which is connected to the water chamber by a throttle device (1o, d) is connected, which after opening the tap the equalization of the pressure in the membrane chamber with that in the water chamber only gradually allowed while conversely, when the tap is closed, there is a sudden pressure equalization between the diaphragm chamber and water chamber takes place by opening a check valve (9, i). 2. Automatic Gas water valve according to claim i, which does not fall after the tap is closed Water line pressure is, characterized in that when the gas valve closes the sealing membrane (11) through the closing spring (18) of the gas valve into the membrane chamber is bulged and that the check valve (9) with a fine bore (1o) at overpressure closes in the water chamber. 3. Automatic gas water valve according to claim 1, which is under water line pressure when the tap is closed, characterized in that the membrane (c) is flattened at the closure of the gas valve and that the check valve (i.) Opens when there is overpressure in the water chamber. Automatic gas water valve according to claim i, characterized in that, in addition to the adjustable throttle bore in the check valve (i.), A second throttle channel is arranged between the membrane and water chimney, the flow cross-section of which can be adjusted from the outside by means of a throttle screw.