DE451552C - Control device for firing systems for liquid fuel - Google Patents

Description

Control device for firing systems for liquid fuel, The invention relates to a control device for firing systems, which with be operated by compressed air atomized liquid fuel, with a the diaphragm housing connected to the compressed air line.

The device according to the invention differs from the bis..her known in that the membrane housing, the membrane of which for the purpose of regulating the Compressed air supply to the burner is connected to the control means in the air pipe, with two outlet ports in communication, one of which is through a temperature or means that respond to the pressure in the heated system (thermostat or manometer) regulated and the other can be controlled from a remote location.

The drawing shows, for example, an embodiment of the subject matter of the invention. Fig. I is a vertical section through part of a heating system; Fig. 2 is a different forra of a detail.

A per se known thermostat is attached to the boiler io of a heating system, the temperature of which is to be regulated. He could also be exposed to the heat of the flame in the stove. It consists of the tube i i, which is partially submerged in the boiler io, of a metal with a very large expansion coefficient, such as. B. Brass. This pipe ii is fixedly connected at one end to the boiler wall and carries at its other end a rod 12, of a metal with very low ringem expansion coefficient. At its free end, the rod 12 carries an adjusting nut II which is provided with a graduation and can be moved relative to a partial mark '14. A lever 1 5 is supported on the nut 13, and by means of. an Fe (#, he 1 6 is ensured that these two parts always remain in contact. The lever 15 is rotatably supported at one end and carries at the other end a valve flap 17 which is attached to a sliding through an opening pin 18 The pin 18 is provided with a head, and a spring 20 is provided between the flap 17 and the lever 15. During operation, this valve flap 17 more or less closes the outlet opening of an air line 21 which is connected to the control member. consists of a diaphragm housing 23 connected to the compressed air line 2-, the diaphragm 24 of which acts on a spring-loaded disk 25. The connection between the diaphragm housing 23 and the line 22 has a smaller cross-section than the line 2 1. A slide rod 26 is attached to the disk 25, the free end of which is rotatably connected to one end of a lever 27. This lever 27 is rotatably mounted on the diaphragm housing 23 and on its other End connected to a push rod 28 through which the throttle valve 29 of the compressed air line 22 is actuated. The housing 23 is, as already mentioned above, connected to the line 2 1, and d 'hese is connected to a secondary line 3o, which leads to a subsidiary outlet 31, which are closed by a movable means of the handwheel 33 control spindle 32 completely or can be opened more or less. A pointer 34 attached to the wheel, which moves over a graduated disk 35, enables the precise position of the spindle 32 to be determined.

This device works as follows: It is assumed that the burner is lit when the boiler is cold and the opening 3i is closed by the lockers 132. It then provides the first adjusting nut 13 in such a way that the Teih-narke 14 indicative of the temperature expected in the system is to meet the flap 17 closes the outlet opening of the tube 21. In this state prevails in the compressed air line 22, in the diaphragm chamber 23 and in the lines - i and 22 the same pressure. As a result, the disk 25 is pressed completely outwardly by the membrane 24 against the Fearerwirkung, so that the throttle valve 29 is fully opened by the levers 26 and 28 and the burner 9 burns with the greatest flame. To the same extent as the temperature in the boiler io increases, tube ii extends in the direction of the arrow, as a result of which the rod 12 with the nut 13 is moved. Since the spring 16 always pulls the lever 1 5 against this nut 13 , the end of the lever 1 5 gradually approaches the head 1 9 of the pin 1 8 of the flap 17 is reached, the lever touches the head ig. and begins to lift the flap 17 from its seat, so that a slight escape of air from the tube 21 takes place. Since the air inlet to the housing 23 is of a smaller cross-section than that of the tube 2i,. As a result of this escape, the pressure in the membrane chamber drops immediately, specifically in relation to the opening of the flap 17.

The spring-loaded disk 25 is immediately moved by a corresponding amount towards the interior of the housing 23, whereby the flap 29 is rotated in the sense of "shutting off the line 22. This movement continues as long as the temperature in the boiler increases and stops as soon as between Kesselwänne, heat generated at the burner and the temperature set on the nut 13 equilibrium prevails.

If the temperature is to be regulated from a remote location, the maximum temperature to be reached is first set on the nut 13, after which the whole device works as described above. If one now opens the secondary outlet 31 by means of the handwheel 3 and the control spindle 32, the same is achieved artificially on the line 3o as the thermostat automatically does on the line 2 1, i.e. H. a pressure decrease in the housing 23. Durcl-1 a corresponding division of the disc 3 5, it is possible to determine exactly the amount by which the set of the nut 13 Höchstteiiii) # rätur is changed by turning the handwheel and the spindle 3 3 3 2nd

Instead of a thermostat, a pressure gauge known per se could also be attached to the boiler, for example, as shown in Fig. 2. This manometer consists of a thin-walled chamber 36 which changes its shape under the action of the boiler pressure. An adjusting nut 13 is arranged on the chamber 36 in the same way as on the thermostat described above. The lever 1 5 and the flap 1 7 of Leitur # g 21 then work as described earlier. .

It goes without saying that the minebran housing is designed differently could be as shown on the drawing.

Claims (1)

PATENT CLAIM: Control device for firing systems, which are operated with liquid fuel atomized by compressed air, with a membrane housing connected to the compressed air line, characterized in that the membrane housing (23), its membrane, is connected to the control means in the air pipe for the purpose of regulating the compressed air supply to the burner is connected to two outlet openings (2 1, 3 1), one of which (2 1) is regulated by a means (thermostat or manometer) responsive to the temperature or pressure in the heated system and the other (31) can be controlled from a remote location.