DE327093C - Safety shut-off and control device for heating gases - Google Patents

Description

Safety shut-off and control device for heating gases. Safety shut-off and control devices for heating gases are known. With them is after entry a minimum pressure, the gas supply line is shut off, which does not turn on again can when the pressure rises.

The invention relates to such a shut-off device for heating gases (Blast furnace =, coke oven, generator gases), which is shown in the drawing.

So the known purpose becomes safe with new and simple means achieved, namely that when the gas pressure is released up to the Beringst permissible- Pressure, the gas line is automatically shut off and the gas only with the Beringst permissible gas pressure can be passed if the device is switched off by hand is operated so that there are no cases that the gas after the pressure had fallen below the permissible minimum pressure, when the pressure increased by itself could enter the furnace, mix there with the air and if ignited of the explosive mixture created in this way, the furnace and part of the pipelines destroyed. In addition, a control device installed at the same time the gas pressure in the line to the burner is kept at a maximum allowable pressure.

The device is installed in the gas line, namely the pipe a is connected to the double pipe section b, d to the pipe side b. The flange of the pipe side d is connected to the throttle valve e and this to the pipe f. The float box c is screwed to the lower part of the double pipe section b, d. This is followed by the pipe g with the water tank 1z and the riser pipe i . The three-way valve k sits on the riser pipe i and can connect the upper space of the float tank c to the riser pipe i by means of the pipe 1. A pipeline in is connected to the three-way valve k, which connects the riser pipe i to the outside air. The float n is located in the float box c. This is connected to the throttle valve p by the rod o. On the shaft of the throttle valve is located outside of the p lever q, r which by provided with a longitudinal slot and a set screw rod with the k on the Kükert the three-way cock - seated lever is connected s. The weight lever t is also seated on the plug of the three-way valve k.

The shut-off is done with water or another suitable liquid.

The method of operation of the device is as follows: When the device is shut off and when the entire pipeline is without pressure, the water level is rz. The float c, the throttle valve p, the weight lever t are in the dotted position of the drawing. The upper space of the float tank c is now connected to the riser pipe i by moving the three-way valve k through the pipe 1. The pipe m is closed. As a result, the pressure in the float box c is just as great as in the riser pipe i. If the pipe a receives pressure, the water rises in the pipe d. The water level ii. descends here; but not so far that gas can enter the tube d . The difference between the two water levels. in the float box c and in the pipe d cannot be greater than the gas pressure in cm of water column (maximum 30 cm). The content of pipe d is less than the amount of water from lower edge of pipe d to water level ii.

If the gas is to continue to flow, the weight lever t is turned off by hand to superscript; as drawn; this shuts off the pipe l and the riser pipe i brought into contact with the outside air through the pipe m. It is happening now the following: The gas pressure now only presses on the: water in the float box c. Of the The water level is pushed down in the float box c and rises. in the water tank h or in the riser pipe i. Is the gas pressure high enough (at least 5 cm water column), so the water level in the float box c falls below the lower end of the pipe d. This causes gas to enter the pipe'd and consequently it flows in the pipe d standing water in the float box c. The gas can now pass freely. -The floats move the throttle valve p by means of the rod o. Since the Throttle valve p increases with increasing pressure as a result of the lowering of the float n and more closes, an almost constant pressure in the pipeline f obtain.

If the gas pressure falls below the lowest admissible gas pressure (in this device about 5 cm water column), the following happens: The water level 2 in the float box c rises and with it the float n. This moves the throttle valve p and the one on the shaft of the throttle valve p seated lever q, which takes the lever with it through the pull rod r. The lever s turns the plug of the three-way valve h and thereby brings the weight lever t out of its rest position. The weight lever t continues to fall over, and in the process puts the stopcock plug of the three-way valve k completely into the new position. The pipe l is now connected to the riser pipe i , the pipe m is shut off. The pressure above the water level becomes the same through the connection of the float box c with the riser pipe i and is approximately level ii, whereby the pipe end of the pipe d is closed.

The end of the tube d is widened so that it only sinks slightly of the water level, the largest possible cross-section for the passage of the gas is released. For the same reason and for the same reason, the water space h has a fast one To cause the float to sink, -a large diameter.

It should also be mentioned that the device receives facilities which a water level that is too high for wet gases and a water level that is too low Prevent dry gases, which are not shown in the accompanying drawing are.

Claims (1)

PATENT REQUIREMENTS: Safe shut-off and control device for Heating gases at which the gas supply line is activated after a minimum pressure has been reached by the float is locked without the device being able to switch itself on again, characterized in that a throttle valve (p) with a float (c) and a Three-way cock (k) is articulated, which is arranged in a riser pipe (i) and the water level of the riser pipe (i) either with the outside air or with a float box (c) through a line (e).