DE492999C - Differential draft regulator for furnaces - Google Patents

Description

Differential draft regulator for furnaces The invention relates to a differential draft regulator for furnaces where the pressure is in the combustion chamber and that immediately in front of the smoke flap prevailing pressure in the exhaust duct jointly on a control device for the smoke flap act.

The invention has the task of bringing about a regulation in such a way that that the pulling effect is independent of irregularities in other processes, e.g. B. regardless of the thickness of the fuel layer and the like, and that with a higher fuel load @respectively. With increasing load, a stronger negative pressure occurs in the furnace.

It is known to produce gases in a certain ratio with one another to be able to regulate a throttle in a gas line through a membrane, _ one side of which is exposed to pressure in another gas line, which is a The second gas leads, while the other side of the membrane to a partial pressure of the throttle containing line is exposed. In contrast, the invention does not the purpose of regulating pressures and proportions of several gases and keeping them constant, rather a regulation and change of the pressures at two different points of the bring about the same gas and further bring about that this change a produces a special result, namely an effect on the negative pressure a boiler.

For this purpose, according to the invention in the from the flue outgoing measuring line built-in throttle valves, which allow the control device set the effective pressure by hand. By only having one Part of the pressure prevailing in front of the smoke flap act on the control device lets succeed in achieving the desired goal.

An exemplary embodiment of the invention is shown in the drawing.

The boiler i has a combustion chamber 2, one with an exhaust flap provided gas vent 3 and an air supply tube 5, in which a flap 6 for Control of the amount of air supplied to the furnace is built in.

The exhaust flap q. is connected by a crank arm 7, 8 and a lever 9 to a rod io which is attached to a diaphragm ii working in a housing 12. The lever 9 is rotatably mounted on a fixed support 13 and can be provided with an adjustable load, for example a spring 1q., The tension of which is variable by means of a screw 15. The rod io has a piston 16 which is guided in a cylinder 17 and acts as a delay device. The space 17 'above the membrane is connected to the combustion chamber 2 by a line 18, while the space ig below the membrane is connected by a line 2o to the exhaust duct directly below the control flap. A branch line 21 leads from the tube 2o with the outside air and forms a means of suction in the pipe 2o and, therefore, in the space 9 to reduce 1. Taps 22 and 23 in the air inlet pipe 21 or the line 2o make it possible to return the draft in the flue duct to the desired amount, so that the pressure in the chamber ig compensates the pressure in the combustion chamber in the chamber 17. So if it is desired to have a ten times greater negative pressure in the fume cupboard than in the combustion chamber, the valve 23 is partially closed and the valve 22 partially opened until the pressure .Ün Raum ig is a tenth of the pressure prevailing in the fume cupboard.

The mode of operation of the control device is as follows: At minimum charge of the boiler. the exhaust flap is almost closed; .the train will then be small and the pressure in the combustion chamber be only a little less than atmospheric pressure. An increase in the air supply to the furnace as a result of increased output is initially carried out Increase the pressure in the combustion canister by a small amount, so that the Train above the membrane is reduced. The membrane will then come into action and open the flap. This opening of the siphon flap becomes an increase in the train under the flap and therefore an increase in the train only by a small amount immediately above the fuel layer. A small part of the increase in the train under the flap is transferred to the underside of the membrane, and this change causes the flap to open even wider, creating suction in the Combustion chamber is created, which is greater than when the latter pressure would have been effective only on the control member. By adjusting the taps 22 and 23- can any fraction of the pull in the flue of the passage to the bottom the membrane. be made possible, so that the desired increase in negative pressure can be obtained; the most favorable conditions exist when the train is in the The square of the fuel load grows. It should be noted that with the new on this Way caused by a change in the furnace charge the exhaust flap the Melnbran. comes back into balance, just with greater negative pressure on its upper side, corresponding to that in the combustion chamber draft prevailing over the fire, and also with a correspondingly greater negative pressure on its underside, which is the fraction of the much larger pull in the flue below the flap.

The setting of the combustion chamber pressure can be seen without consideration to all other variable quantities on the which are dependent on the combustion state correct values of the negative pressure maintained. Like the fuel layer thick or be low, the artificial draft may be strong or weak: the regulator will the negative pressure completely independent of these variables and independent of them Control devices secure, but there will always be an increase in the draft of the combustion chamber cause according to the enlargement of the feed and air volume supply.

Claims (2)

PATENT CLAIMS: i. Differential draft regulator for furnaces, at. where the pressure in the combustion chamber and the pressure in the exhaust duct immediately in front of the smoke flap jointly act on a control device for the smoke flap, characterized in that - in the measuring line (2o) outgoing from the exhaust duct, throttle valves (22; 23) are installed, in order to be able to change the pressure acting on the regulating device by hand. 2. Draft regulator according to claim 1, characterized in that that from the - measuring line (2o) branches off a secondary line (21) which passes through a valve (22) leads outside.