DE255584C - - Google Patents

Description

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IMPERIAL 7k

PATENT OFFICE.

PATENT LETTERING

- M 255584 CLASS Ag. GROUP

EHRICH. & GRAETZ. In BERLIN.

In previous attempts to manufacture regulating nozzles with built-in pressure regulators, used you have gas-tight ground pistons, which were exposed to the gas pressure on one side, and on the other the open air.

As a result of the small space available within a nozzle, were these pistons are very heavy because of their small size

ίο manufacture, and they were particular at Use of the nozzle for inverter burner in the long run to keep it inoperative, because they are caused by moisture separating from the gas or under the influence of the burner The rising heat quickly became unfit for use.

Attempts have also been made to use leaking pistons that open on the one hand from full gas pressure, on the other hand from one with the help of Throttling achieved reduced gas pressure were loaded, and has thereby on the Piston exerted one-sided positive pressure is used to through the piston passage openings for regulating the gas.

With these pressure regulators, however, there was the disadvantage that when enlarging or Reduction of the actual outflow opening of the nozzle by hand. between the pressure on one side and the other of the piston and that, as a result, the regulating ability of the piston is adversely affected became.

The present invention is now a regulating nozzle with a built-in Pressure regulator that works with a piston of the type described last, but with which at the same time when changing the outlet opening of the nozzle by hand towards the burner also the pressure difference between those acting on the piston Pressure is influenced in such a way that the piston - no matter how large the outlet opening of the nozzle after the burner - makes - the pressure prevailing immediately before this always on the same before fixed height -hold.

An embodiment of the invention is shown in the drawing.

The nozzle consists essentially of the body 3, over which the cap 2 is gastight is screwed. In its lower part, the body 3 carries, for example, a nozzle plate 8, in which the opening 9 for the entry of the gas into the mixing chamber of the Burner is attached. The opening 9 can be narrowed with the aid of a tapered spindle 7 or be expanded, depending on the point of the spindle 7 more or less is guided far into the opening 9. The spindle 7 is on a cylindrical Body 11 attached, with clearance in the likewise cylindrical bore 26 of the Body 3 is stored. The cylinder 11 is led through it at an angle Hole 6 provided. On this one moves. bead-shaped extension 5 of the regulating screw 4, which are gas-tight in a lateral connector 31 screwed to the body 3 is stored. Therefore, when the screw 4 is rotated forwards or backwards, the cylinder 11 becomes

with the spindle 7 raised or lowered. So far the control nozzle is known.

The cylinder 11 carries in its upper Part of a tube 12 which is closed at the top by a screw connection 15; after on the side, however, the tube 12 has one or more openings 14. The nozzle body 3 has a cylindrical bore 30 in its upper part. In this first a centering plate 24 is used, which as Guide for the tube 12 when the cylinder 11 moves up or down. In or on the plate 24 a pipe socket 20 is attached, which has a smaller diameter has as the bore 30 in the body 3, so that an annular gap remains between the two. On the tube 20 is a cover 17 with a conically tapered neck 18 is placed. The height of the The tube 20 and the cover 17 are selected so that the neck 18 encloses the screw connection 15. Finally, a hood 16 is placed over the cover 17, which covers the upper cylindrical Part 27 of the screw connection 15 encloses. The middle part of the fitting 15, which is currently in the neck 18 is located is conical. Remains between the neck 18 and the cone 15 therefore an annular gap, which has a larger or smaller cross-section, depending on the Screw connection 15 is screwed more or less deeply into tube 12. The parts 24, 20, 17 and 16 are with the help of the cap 2 against the body 3 and against each other pressed so that they cannot move. Projecting tabs or lugs 28 are provided on the hood 16, so that between the cap 2 and the hood 16 clearance for the passage of gas remains.

The gas flows through the threaded connector 1 into the nozzle. It partly gets between the cap 2 on the one hand and the hood and the tube 20 on the other hand through the holes 25 into the interior of the tube 20, namely into the space 32 below the piston 22. The piston 22 is inserted into the tube 20 with play; it has a cylindrical shape Guide sleeve 21, which slides loosely on the tube 12, while a snap ring 23 o. the sleeve 21 and the piston 22 connects to form a single whole.

The full gas pressure prevailing in the line is therefore effective under the piston 22.

From the nozzle 1, the gas also passes through the holes 19 under the hood 16 and from there through the annular gap between the parts 15 and 18 into the space 33 above the Piston 22. From here, the gas continues to flow through opening 14 into tube 12 and from this via the bore 6 into the space 26 in the body 3 and finally arrives into the space 10 above the nozzle plate 8. From there it flows through the opening 9 in the burner.

The annular gap between the parts 15 and 18 is now set so that a small Throttling of the gas takes place at this point. The gas therefore flows out of the Room 33 from faster than it can flow in. This creates a gas pressure in space 33, which is slightly smaller than that in the space 32. As a result, the piston 22 becomes raised and more or less closes the opening 14, thus allowing the entry of the gas after the room 10 more or less shut off.

With a suitable choice of the individual dimensions, the piston 22 controls the The width of the opening 14 is such that - whatever the pressure through the connecting piece 1 enters - the pressure in the space 10 is kept at a constant level.

Should the consumption of the burner now, for example, because another incandescent body has been has been changed, the spindle 7 raised or lowered. At the same time, however, the cone 15 also rises or falls and expands or narrows the annular gap existing between it and the cover 18. the The conicity of the body 15 is in relation to the tapering of the regulating spindle 7 tried so that at all altitudes of the spindle 7 by the piston 22 is practical always the same pressure is set.

If, for example, the regulating spindle 7 is raised, the same thing happens with the Cone 15, and the gap between parts 15 and 18 is increased. So it will in accordance with the more gases flowing out through the opening 9, somewhat more gas is also in the chamber 33 let in. It should also be noted that the enlargement of the opening 9 does not with the widening of the gap between the parts 15 and 18 per se in Needs to be consistent. Rather, the gap width must be regulated in such a way that that the piston 22 just causes the correct exit and the opening 14 so far no blocks that even under the changed conditions the correct pressure in room 10 is preserved.

. The piston 22 can therefore be inserted with a margin because the chamber 33 is filled with gas and the consumption of the burner is covered from this chamber. Small leaks in the piston 22 can therefore not impair the effectiveness of the device, provided that only the access openings for the gas into the chamber 32 are large enough.

The slope of the conical wall 15 and the taper of the spindle 7 are best determined once by trial and error.

When assembling the nozzle, the cone 15 is then so far into the tube 12 screwed in so that the desired pressure conditions are set. It can do this done very conveniently, since you can go through the connecting piece with a screwdriver the slotted head 27 of the cone 15 can grasp.

Claims (3)

Patent claims: i. Regulating nozzle, especially for invert gas incandescent light, with built-in pressure regulator and a regulating piston, which is on the one side is under the influence of a pressure chamber which is directly connected to the gas supply line, and which on the other hand is under the influence of a pressure chamber, which the Gas is supplied after flowing through a throttle point and from which the The gas supplied to the nozzle is withdrawn from the outlet opening, characterized in that that the throttle point (15, 18) when adjusting the nozzle valve according to the Enlargement or reduction of the outflow opening of the nozzle with regard to its passage cross-section is also enlarged or reduced. 2. Embodiment of the nozzle according to claim i, characterized in that the Throttle point by a suitably selected one protruding into the gas passage opening Cone (15) and the housing wall (18) surrounding it at a distance is, and that when the gas outlet opening from the nozzle is raised Spindle (7) also lifts the cone causing the throttling. 3. embodiment of the nozzle according to claim ι or 2, characterized in that that to form the acting on the regulating piston pressure chambers (32, 33) with a clearance in a cavity of the Nozzle arranged, top and bottom closed hollow cylinder (20) is used, which in its lower part directly is connected to the gas supply line, while the upper cover (17) has an opening has, within which the cone (15) used for throttling is arranged is. 1 sheet of drawings.