DE1185435B - Stopcock with a ring piston seal for the plug - Google Patents

Description

Stopcock with an annular piston seal for the plug Addition to patent 1151 417 Stop cocks are known in which the spherical plug is sealed by the annular piston, which is pressed against its surface by the liquid pressure and which surrounds the inflow and outflow opening of the cock housing, which in turn is sealed by a seal pressed against the housing - and spring washers are sealed.

Such a shut-off valve is protected by the main patent placed, in which the annular piston is housed in an annular groove and in the rear formed him, in the installation position in the radial direction a greater extent than in the axial direction having a sealing and spring washer with a non-compressed chamber State round cross-section is provided, the chamber bounded by flat surfaces is so that the sealing and spring ring migrate in the radial direction and depending on Direction of flow to one of the walls delimiting the chamber in radial extent create a seal, giving the medium a sufficiently large area on the back of the annular piston can act.

In this embodiment it is provided that the annular piston has a different one Have inner diameters than the flow bores.

The additional invention is based on the task of such Stopcock to improve the flow conditions. The solution according to the invention this task is that the annular piston in a known manner have the same inner diameter as the through hole of the stopcock plug.

In the F i g. 1 to 5 exemplary embodiments are shown.

F i g. 1 shows a longitudinal section through the one designed according to the invention Stopcock; in Figs. 2, 3, 4 and 5 are different embodiments of the the guide walls delimiting the annular groove serving to accommodate the sealing ring of the annular piston, the valve body and the guide sleeves of the latter.

The in F i g. 1 illustrated shut-off valve with ball plug has a housing 1 with a transverse bore 2 and a longitudinal bore 3, which widens at both ends to form threaded bores 4 and 5. Connection pieces 6 and 7 are screwed into the threaded bores 4 and 5 and fixed by locking screws 8 and 9. The connecting pieces 6 and 7 are equipped with external threads 10 and 11 and with through-flow bores 12 and 13 for the connection of hose or pipelines. A ball plug 16 carrying cylindrical extensions 14 and 15 is mounted in the transverse bore 2 of the housing 1. For sealing purposes, sealing rings 19 and 20 are inserted into annular grooves 17 and 18 of the cylindrical extensions 14 and 15. A square shaft 21 is firmly connected to the cylindrical extension 15, on which an actuating lever 22 and a recessed stop disk 23 are placed, which work together with a stop pin 24 inserted in the housing 1 to limit the rotational movement of the ball plug 16.

To seal the ball plug 16, annular pistons 26 and 27 are arranged in the longitudinal bore 3 of the housing 1 coaxially to the flow bores 12 and 13 of the connecting pieces 6 and 7. Each annular piston has two cylindrical side surfaces 28 and 29 which are arranged concentrically to one another and which work together with corresponding guide surfaces 30 and 31 of the housing 1. The guide surface 31 is formed by the wall of the through hole 3. A limited annular chamber 34 is formed by the cylindrical side surfaces 28 and 29 of the annular piston 26 and 27 and by the guide surfaces 30 and 31 of the housing 1 as well as by the rear side 32 of the annular piston 26 and 27 and a housing surface 33 extending transversely to the flow bore . In this a sealing and spring ring 35 is arranged, which is designed as an O-ring.

The dimensions of the annular piston and housing surfaces are made in such a way that that the depth of the chamber 34 measured in the direction of flow is smaller than the cross-sectional diameter of the O-ring 35 arranged in this cavity. This exercises on the Ring piston 26 and 27 have an elastic Pressure and squeezes the Ring piston against the surface 36 of the ball plug 16. In the shape of the ball plug 16 adapted front end 37 of the annular piston 26 or 27 is a sealing ring 38 made of suitable sealing material, e.g. B. made of rubber or plastic, in particular fluorine-containing ethylene polymers. The mean diameter of the in the chamber 34 behind the annular piston 26 or 27 lying O-ring 35 corresponds in the unstressed state approximately the mean diameter of the annular chamber 34, however, its radial width is greater than the cross-sectional diameter of the O-ring 35 is.

The inner diameter of the annular piston 26 or 27 corresponds to the diameter the flow bores 12 and 13 of the connecting pieces 6 and 7 and the diameter the bore 25 of the ball plug 16. By the cylindrical side surfaces 28 and 29 of the annular piston 26 or 27 and the corresponding guide surfaces 30 and 31 of the cock housing 1, the annular piston is guided in the latter such that it can be longitudinally displaced. The pressure of the flowing medium can increase along the guide surfaces of the housing reach the back of the annular piston 26 and 27 and this with a liquid pressure Press the appropriate pressure on the surface 36 of the ball plug 16. At a by the arrow 40 indicated flow direction and in the closed position of the ball plug 16, the flowing medium enters the cavity 34 behind the annular piston 27 along the guide surface 30 and presses the one lying in this cavity O-ring 35 radially outwards so that it closes the gap between the outer side surface 29 of the annular piston 27 and the guide surface 31 of the housing 1 seals.

Should nevertheless in the closed position of the ball plug 16 the liquid under the line pressure reach the annular piston 26, so this liquid occurs along the guide surface 31 of the housing 1 in the the back of the annular piston 26 located cavity 34 and presses thereby the arranged in this cavity O-ring 35 radially inward, so that it the gap between the inner guide surface 28 of the annular piston 26 and the guide surface 30 of the housing 1 seals. This way it also builds up on the back of the The annular piston 26 exerts a pressure which also applies the annular piston 26 to the surface 36 of the ball plug 16 presses. The same effect occurs in the opposite sense, when the pressure gradient is in a direction opposite to arrow 40.

Since the O-ring 35, depending on which side the liquid enters the cavity 34 behind the annular piston 26 or 27, this cavity after one or the other side shuts off and thereby the structure of the ring piston on the surface of the ball plug 16 pressing on the back of the Enabled ring piston, a secure sealing of the ball plug 16 can also then can be achieved if such an annular piston is only on one side of the ball plug is arranged. It doesn't matter from which side the pressure comes.

The F i g. 2 to 5 show the seals of the ball plug 16 on an enlarged scale Scale. The in F i g. The sealing device illustrated in Figure 2 differs of the in F i g. 1 shown only in that the boundary walls of the Chamber 34 consist only of guide surfaces of the connecting piece 7 and the annular piston 26. F i g. 5 shows a modified embodiment.

In the embodiment according to FIG. 3 is on the ball plug 16 facing away from the rear side of the annular piston 26, an annular bar 41 is attached, which dips into an annular groove arranged in the connection piece 7. In this ring groove the annular piston 26 is guided axially displaceably.

In Fig. 4 shows the reverse arrangement. There jumps from a wall of the connection piece 7 that is perpendicular to the through-flow bore 13 a ring strip 42 protrudes, which is located on the back of the annular piston 26 in a Ring groove engages.

In all of these cases, a annular chamber 34 is formed in which an O-ring 35 is arranged.

Claims (5)

Claims: 1. Stopcock whose spherical plug on the The inlet and outlet side is sealed by ring pistons, which in turn of the inlet and the outlet side of the housing are arranged coaxially therewith, each annular piston sealed on the back by a sealing and spring ring and resilient it is pressed as well as by the flow medium against the chick and the chambers between the annular piston and the housing, which accommodate the sealing and spring rings, in have a greater extent in the radial direction than in the axial direction and are limited axially by parallel, radially by concentric surfaces, which are through Ring piston, housing and connection sleeves can be formed so that the sealing and Spring washers can migrate in the radial direction and thus the medium has a large Surface on the back of the annular piston can act, according to patent 1151417, d a d u r c h e k e n n n z e i c h n e t that the annular piston (26) is known per se Way have the same inner diameter as the bores (40, 25) in the housing (1) and in the chick (16). 2. Stopcock according to claim 1, characterized in that from the rear of the annular piston (26 or 27) facing away from the ball plug (16) a rectangular, the radial width of the housing surface (33) of the annular chamber (34) having ring bar (41) protrudes, which for the axial guidance of the ring piston (26 or 27) in the connecting pieces (6, 7) of the housing (1) or in the latter serves (see Fig. 3). 3. Stopcock according to claim 1, characterized in that the rear side of the annular piston (26 or 27) facing away from the ball plug (16) one the radial width of the housing surface (33) which receives the sealing ring (35) annular chamber (34) having rectangular annular groove is provided in the a correspondingly wide, from the perpendicular to the flow hole (25) of the stopcock standing wall of the connecting pieces (6, 7) of the housing (1) or the latter protruding annular guide strip (42) dips (see FIG. 4). 4. Stopcock according to claim 1, characterized in that two mutually perpendicular standing Surfaces of the annular piston (26 or 27) a guide surface (31) of the housing (1) and one on this perpendicular surface of the connecting pieces (6, 7) of the housing (1) enclose the annular chamber (34) (see: F i g.1). 5. Stop cock after Claim 1, characterized in that two mutually perpendicular surfaces of the annular piston (26 or 27) and two surfaces that are also perpendicular to one another of the connecting pieces (6, 7) of the housing (1) enclose the annular chamber (34) (see Figs. 2 and 5). Documents considered: British Patent Specification No. 669,933; USA: Patent No. 2,628,060.