DE916125C - Flow regulator - Google Patents

Description

Flow regulator With flow regulators for gases or liquids it is well known the control element that determines the flow through the regulator (valve, slide valve, etc.) like.) by an adjusting element (membrane, bell, piston, floating disk or the like.) moves, under the influence of the pressure difference in front of and behind one in the Flow path arranged throttle point is. The flow cross-section of this throttle point must be adjustable if the controller is adjustable for different flow rates should be. In known regulators, the flow cross-section is changed the throttle point by means of an annular rotary valve in the regulator housing is rotatably mounted and for regulators with internal adjustability only after opening of the controller housing is adjustable, but for controllers with external adjustability adjusted from the outside by an adjusting device penetrating the regulator housing can be.

The invention relates to volume regulators with external adjustability, So where the to influence the pressure difference on both sides of the Adjusting member of the control body serving rotary slide is adjustable from the outside. The invention consists in that the rotary valve terminates with the regulator housing Cover connected to rotate and the cover itself rotatably mounted on the controller housing is. This results in a significant simplification of the controller, because the otherwise The setting devices that penetrate the regulator housing are no longer required. the The invention is illustrated in the drawing using several exemplary embodiments.

Figs. I to 3 show a gas flow regulator, called the rotary valve is firmly connected to the cover of the controller housing. lo is the inlet port, 12 the outlet port of the regulator. In your controller housing 13 is a bottom and top open float housing 14 arranged, which in the controller shown with the Controller housing 13 consists of one piece. The float housing 14 takes a float washer 15 in itself, which is guided by means of a slide sleeve 16 on a tube 17, which is provided with control openings 18. On the cover 1g of the controller housing, the held in place by a bolt 2o penetrating in the middle and a nut 21 is that it can be rotated, an annular rotary valve 22 is attached, which is guided tightly in the controller housing 13, which it at least along a sealing edge touches, which separates the unregulated admission pressure from the regulated consumption pressure and also seals against the float housing 14, on which it is placed like a lid is. This rotary valve 22 is provided with a cutout 23, the free Cross section by turning the cover 1g and the rotary valve connected to it 22 can change (Fig. 2).

The mode of action of this regulator is as follows: The one flowing in at io Gas acts with its full pressure on the underside of the float disk 15, while on the top, the float washer just a by the pressure drop at the as a throttle point acting rotary valve opening 23 reduced gas pressure acts. The float washer 15 is therefore due to the pressure difference this acting on both sides Gas pressures increased until the slide sleeve 16 by reducing the size of the control openings 18 again a state of equilibrium on both sides of the float disk 15 made. By turning the housing cover 1g you can adjust the opening of the Cutout 23 and thereby make the control range larger or smaller.

Figs. 4 to 6 show a regulator that differs from that in the Fig. I to 3 shown controller differs only in that the float housing 14 'does not form one piece with the controller housing 13, but loosely, but all around A cutout 2 is inserted sealingly into the controller housing. on the inlet side of the float housing 14 'enables access to the full gas pressure on the underside of the float disk 15. A dowel pin 25 holds the float housing 1d. in the right one Position to the inlet of the regulator housing.

In Fig. 7 to g, another gas flow regulator is shown at which the rotary valve 22 "connected to the housing cover 1g reaches down so deep, that it surrounds the float housing like a sleeve and also the one on the underside the inlet 24 "of the float housing 14 leading to the float disk 15" controlled. He is therefore provided at this point with a further cutout 26, the so is created that it over the entire adjustment range of the upper throttle cutout 23 "is fully open, but then completely by further turning the rotary valve 22" can be locked. In this way it is possible to use the controller at the same time to be used as a shut-off valve, the rotary slide 22 'serving as a shut-off device.

Fig. Lo to 12 finally show a regulator in which the float housing 1: I "'arranged rotatably and both with the leading under the float disc Inlet opening 24 '"as well as corresponding to the opening 23 of Fig. I with one to the Upper side of the float disk leading throttle opening 27 is provided. The at the previous embodiment from the float housing separate rotary valve in this case forms a sleeve-shaped insert with the float housing, which is guided gas-tight in the controller housing and rotatably mounted. In this case it is on the housing cover 1g only one driver 28 is provided, which in this Fall at the same time serving as a rotary valve float housing 14 ″ with the cover Rotation connects. In this case, too, the flow regulator can be used as a shut-off valve by turning the float housing i4. "until the lower inlet opening ar "is locked.

Instead of the float disk 15, the housing part 14 could of course also another adjusting member, e.g. B. a piston or a membrane, be provided, actuated by the difference in gas pressures acting on its two sides will.

Claims (7)

PATENT CLAIMS: i. Externally adjustable volume regulator for gases or liquids with a purpose of changing the on the adjusting member of the regulator acting pressure difference adjustable rotary valve, characterized in that that the rotary valve is connected to the cover of the regulator housing for rotation and the housing cover itself is rotatably mounted on the controller housing. 2.; Volume regulator according to claim i, characterized in that the rotary slide valve with the housing cover is firmly connected. 3. Quantity regulator according to claim i, characterized in that the rotary valve is rotatably mounted in the controller housing and with the housing cover is connected to rotation by a driver. d .. Quantity regulator according to claim i and 2, characterized in that the rotary slide valve in a recess in the regulator housing is guided so that it also forms the axis of rotation for the housing cover. 5. -Quantity regulator according to claim i, characterized in that the rotary slide valve is the regulator housing touches along a sealing edge, which the unregulated form from regulated consumption pressure separates and at the same time the passage width of the throttle cutout limited in the rotary valve. 6. Quantity regulator according to claim i, characterized in that that the rotary valve sits like a cover on a housing (i4) that is open on both sides, which accommodates the adjusting element of the regulator. 7. Quantity regulator according to claim 2, characterized in that the rotary valve is designed so that it also the Entrance to the fully loaded side. of the Vex control element and shut it off can. B. flow regulator according to claim 7, characterized in that the rotary valve the housing part, which receives the adjusting element and is secured against rotation, in the form of a sleeve surrounds. G. Quantity regulator according to Claim 3, characterized in that the rotary slide valve and the housing part (i4. "') serving to accommodate the adjusting element together Form a sleeve-shaped insert, which is guided in a gas-tight manner and rotatable in the controller housing is stored.