DE261661C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

CLASS 47g. GROUP 21.

, There are known valves that increase or decrease when the voltage rises or falls open or close; Valves are also known which are used in the transition from vapors to the liquid state automatically drain the condensate, and also those whose valve body are influenced by the temperature of any room, so that the valves open more or less, as the case may be the temperature of a room falls or rises.

All of the embodiments just mentioned have the purpose of either removing the condensate to derive automatically or to keep the room temperature constant. The invention exists now that the valve is influenced by the temperature of the gas which to flow through the valve, in such a way that the cross section is larger becomes as the temperature rises and smaller as the temperature falls.

The importance of this device arises from the fact that gases such as ζ. Β. the blast furnace gas, have very different temperatures within a short time and accordingly if only a manually adjusted valve is available, very different amounts of gas flow to the consumption points.

The expansion coefficient of the gas is very high, so that the gas volume changes very quickly, while the gas weight per cubic meter decreases accordingly and thus also the calorie content per cubic meter.

Another case where an even supply of gas is very important is with Rotary kiln operation in cement production. This is the preheated one Air for the rotary kiln firing. Depending on the temperature of this air increases or decreases, the volume becomes larger. This results in the need, the setting to change the air valves by hand.

It is now understandable that for such cases, where it matters, the same gas or To supply air weights per unit of time at any point in the event of strong temperature fluctuations constant readjustment of the shut-off valve has to be carried out in order to cope with the volume changes.

The invention consists in that a valve, which is also still by hand can be adjusted, automatically adjusts itself so that the passage cross-section is proportional grows with the expansion of the gases or liquids or the increase in temperature. It does this by using a hollow vessel is connected to the valve body, the one or more flexible Has walls, and that this hollow vessel is filled in a known manner with liquid or gas will.

Two examples are indicated in the drawing. The gas passes through the valve in the direction of the arrows. In Fig. 1, the valve body V is directly connected to the expansion

body A connected by the spindle S. The expansion body A can be raised or lowered by means of the spindle B and the handwheel H. The hollow body A is filled with expansion mass, that is to say gas or liquid.

At any given temperature, the passage of the valve is adjusted by raising and lowering the spindle B according to the operating conditions. After this, the valve is only adjusted if operation requires a change in the air weight. The temperature changes act automatically on the valve in that the diaphragm of the expansion body A moves downwards when the air temperature rises, thus releasing a larger cross section on the valve body V. It is the other way around when the temperature drops; then the diaphragm of the expansion body A will move upwards and throttling will take place at the valve.

In FIG. 2, a change is made in that a lever is connected between the expansion body A and the valve body V in order to obtain a greater deflection on the valve body V. FIG. The mode of operation is the same in that when the air becomes warmer or the gas warms up, the membrane of the expansion body A opens the valve and, when the temperature drops, throttles it.

It must be taken into account that the contents of the container A , in relation to the temperature unit, always expand in the same way. The valve plate will therefore always move by the same amount. Since the valve receives the first setting at the start of operation by means of the handwheel H and the expansion of the hollow body A causes a further opening, an additional opening at a constant height results with each initial position; it does not change in relation to the opening released at the beginning by the setting of the valve. A compensation must therefore be created through the design of the valve body.

If the opening cross-section of the valve in the initial position of the valve is designated by χ , the associated depression with h and the temperature-induced movement of the valve in the vertical direction with a, then the result is that the cross-section that belongs to depression h , is related to the cross-section, which belongs to the depression h - \ - α , like the volumes of equal air weights at the two associated temperatures. This results in a design of the valve cone similar to a paraboloid.

Claims (1)

Patent claim: Valve for liquids or gases whose setting is controlled by the temperature of the Liquids or gases is influenced, characterized in that the valve body is designed and arranged so that the passage cross-section is proportional to the expansion of the gases or liquids or the temperature increase increases. 1 sheet of drawings.