DE1043739B - Shut-off device for flowing media - Google Patents

Description

GERMAN

The invention relates to a shut-off device for flowing media with actuation through a servomotor acted on on one side by a pressure medium, which is under the pressure of the pressure medium optionally opens or closes.

It is known, in remotely operated diaphragm-controlled valves, the membrane either on the one or to let the other side acted upon by the pressure medium to either open or close the Valve under the control force. This type of construction has the disadvantage that you have to rely on the valve housing facing side of the membrane must provide a special stuffing box to the required To obtain sealing of the diaphragm housing against the valve rod. Such a stuffing box makes it more expensive the structure, requires regular maintenance and increases friction and wear between the moving parts.

There are also membrane-controlled valves known in which the membrane is only on one side of the Pressure medium is applied and depending on the structural design of the valve housing as well the arrangement of valve seat and closure piece can be opened or closed either under pressure. This type of construction has the disadvantage that different valve housings and locking pieces are used for both operating modes are required and that it is not possible to switch during operation.

The invention is based on the object of eliminating these disadvantages and providing a shut-off device of the type described, which is characterized by a particularly space-saving structure, simple manufacture, flawless sealing, sufficient for a very wide pressure range, with light Adjustability is characterized and can be selected during operation with just a few simple steps Open or close under pressure is to be converted. Thanks to these properties it arises as an additional The advantage of extensive typing and consequently also limited to a few types, i.e. correspondingly simple storage.

According to the invention, the problem posed is solved in that as a closure piece a to siclr known piston with a leading and a controlling section full and one in between Reduced diameter section is used.

Advantageously, the above-mentioned piston consists of an intermediate piece which can be changed in length from a sleeve and a threaded spindle, connected to the servomotor, whereby the screw-in depth this threaded spindle and thus also the starting position of the controlling piston section for the seat seal is clearly defined by a cross pin.

Shut-off device for flowing media

Applicant:

Rieh. Klinger Aktiengesellschaft,
Vienna-Gumpoldskirchen

Representative: Dipl.-Ing. H. Marsch, patent attorney,
Schwelm (Westphalia), Drosselstr. 31

Dipl.-Ing. Johann Zsalatz, Idstein (Taunus),
has been named as the inventor

It has also already been proposed that throttle valves and the like be driven by a pressure medium can be opened or closed either under pressure by means of a coupling sleeve.

In the context of the invention, it can also be advantageous, the piston together with the servomotor to one to summarize the structural unit that is slidably arranged with respect to the valve housing as a whole is.

Further details of the invention will be explained with reference to the drawing, in which two exemplary embodiments of the new shut-off device are illustrated as follows are.

Fig. 1 shows a diaphragm-controlled shut-off device according to the invention in longitudinal section at a Setting to open under pressure,

2 shows a partial section of the same shut-off device after the switch to closing under pressure and

3 shows a second embodiment of a shut-off device in longitudinal section, in which the conversion

- "■ by moving the membrane housing against the Valve housing takes place.

The shut-off device according to FIGS. 1 and 2 has the valve housing 1 and that in this housing seated lantern 8 with the sealing rings 19 and 20. A piston can be displaced within the lantern 8, which consists of a shorter steering section 21 and a longer leading section 7. Both Sections are connected by a section 22 of reduced diameter. The sealing rings 20 and 19 are adjustable from the outside by means of a screw cap 23, the lantern 8 the mutual

• -.- - - - .. 809 67ίι / 649 ·

Distance between the sealing rings 19 and 20 is determined. Instead of the drawn seals, one could also automatic, d. H. Use seals acted upon by the liquid pressure, which can then be used, for example, in Floating ring grooves arranged alternately on the inside and outside of the lantern could.

In the head end of the piston 7, 21, 22 is a threaded spindle 9 used, which is screwed to a sleeve 12. The correct screw-in depth and thus the exact starting position of the piston section 21 relative to the seat seal 20 is also determined by a Ouerstift 17 guaranteed. The head end of the sleeve 12 is connected to a second spindle 24, which is guided in the membrane housing 3 and carries a plate S for the membrane 25 at the top. The plate 5 is guided in the upper part of the diaphragm housing 3 so that the entire diaphragm drive does not become blocked can. At the top, the membrane housing is closed by a cover 26, which also has the Contains connecting thread for the line of the pressure medium. The plate 5 and the linkage sitting on it including the piston are under the influence of two compression springs 15, 16, which strive to the 'valve parts hold together with the membrane in the position shown in FIG. The bias of these springs can change by means of the nut 14 within wide limits.

1 and 2, the pressure-opening shut-off device illustrated in FIG. 1 can be converted into a shut-off device according to FIG. 2 that closes under pressure by screwing the threaded spindle 9 into the sleeve 12. The piston 7, 21, 22 is pulled up so far by this changeover process that the end face of the section 21 comes to rest over the openings 18 of the lantern 8. The exact starting position of the section 21 in relation to the seat seal 20 when the diaphragm chamber is depressurized is ensured by the Ouerstift 17, which is now inserted into the upper Ouerbbohrung of the sleeve 12. It is not necessary to make any changes to the pressure medium connection or to the membrane. This changeover is possible if the membrane is only exposed to one side.

In the embodiment according to FIG. 3, the structure is very similar, only here the membrane attachment 2 together with the membrane housing 3 is arranged displaceably on the neck part 27 of the valve housing 1 and can be locked. In this case, the linkage is also appropriately subdivided. In this embodiment it is therefore only necessary to move the attachment 2 upwards until the piston 7, 21, 22 has reached the position shown in FIG. 2, and then to fix the attachment 2 against the valve housing 1.

The sleeve 12 is advantageous in whole or in part

made of heat-insulating material in order to prevent a direct heat transfer from the piston 7, 21, 22 to the membrane 25, especially at higher operating temperatures.

Claims (5)

PATENT CLAIMS: ίο 1. Shut-off device for flowing media with actuation by a servo motor acted on on one side by a pressure medium, the optionally opens or closes under the pressure of the pressure medium, characterized in that as a closure piece a known piston (7, 21, 22) with a leading (7) and one controlling section (21) full and an intermediate section (22) reduced Diameter is used. 2. Shut-off device according to claim 1, characterized in that the piston (7, 21, 22) is connected to the servomotor (5, 25) via an intermediate piece of variable length, consisting of a sleeve (12) and a threaded spindle (9) is connected and that the screw-in depth of the threaded spindle (9) and thus also the initial position of the piston section (21) to the seat seal (20) is clearly determined by a transverse pin (17) (Fig. 1 and 2). 3. Shut-off device according to claim 1 or 2, characterized in that the piston (7, 21, 22) together with the servo motor (5, 25) is combined to form a structural unit that is as a whole is arranged displaceably with respect to the valve housing (1) (Fig. 3). 4. shut-off device according to one of claims 1 to 3, characterized in that as Servomotor a diaphragm (25) is used, which can be adjusted in its bias under the action of Return springs (15, 16). 5. shut-off device according to one of claims 2 to 4, characterized in that the Sleeve (12) ordered entirely or partially made of heat-insulating material. Considered publications: German utility model No. 1 683 971;
Austrian Patent No. 115,934;
British Patent No. 471,320;
U.S. Patent Nos. 2,211,318, 2,697,599; Leaflet of the company Gustav Mankenberg, Lübeck, "Membrane-Valves", table 22, list no. 5265. Legacy Patents Considered:
German Patent No. 1 005 334. 1 sheet of drawings