DE4228412A1 - Fluid stop-valve with tapering plug - has passage, with inlet and outlet, into which tapered plug slides, having sealing faces in transverse outlet union - Google Patents

Abstract

The valve (1) has a passage (3) for it in a housing (2). A plug (4) with tapering sealing faces (5) slides in the latter, and works against mating faces (8) on shutting. The passage has inlet and outlet unions (3a, 3b) at right angles and joined by an intermediate section (3c). The matching faces (8) are formed in the outlet union. The sealing and mating faces can include an angle of 5 to 15 deg. When shut, the plug can extend into the top part (10) of the housing and in which mating faces for it are also provided (8). When open, the plug can be completely outside the intermediate passage-section. USE/ADVANTAGE - Partic. for abrasive or corrosive fluids. Long life even under extreme conditions.

Description

The invention relates to a shut-off device for fluid media, especially for fluid media that are subject to abrasion and / or trigger corrosion stresses, - with housing, current Mungskanal for the fluid medium, shut-off with each other wedge-shaped shut-off surfaces, which in a shut-off body peraufnahme of the housing with the help of a slide valve is movable, and complementary to the wedge shape of the shut-off body Sealing mating surfaces for the shut-off body in the closed position. - The fluid medium can be a gaseous medium or a liquid. The shut-off device can be used for Large and small nominal widths of the flow channel can be executed. It is especially designed for nominal sizes over 150 mm. It ver stands out that the housing is regularly made of several parts and installation aids, e.g. B. flanges, for installation in a pipeline having.

In the known shut-off device from which the invention is based (cf. LUEGER, "Lexikon der Technik", vol. 1, 1960, p. 467) the flow channel from an inflow section and one to it coaxial outflow section, the sealing mating surfaces on End of the inflow section and at the opposite End face of the outflow section are arranged. By doing The gap between these sealing mating surfaces works as Shut-off valve designed under this space is the so-called swamp. The so far known Shut-off devices are so-called wedge gate valves. You have chosen  proven many uses, but are particularly for Use with fluid media, the abrasion stress and / or trigger corrosion stresses, improve capable. In fact, the shut-off bodies can be premature Signs of wear occur that affect the service life of the shut-off organs reduce overall and the availability of the system restrict who is equipped with such shut-off devices. in the the rest often fine-particle solids collect in the swamp different origins. If this is the case, one is off sufficiently tight closing of the sealing surfaces of the shut-off body the sealing mating surfaces are no longer possible. It imagines narrow gap, in the area of which particularly pronounced ver signs of wear are observed. The situation is right similar to a modified embodiment in which the Arrangement of the shut-off body designed as a plate and that of Sealing mating surfaces unchanged, the inflow section or Outflow section, however, is angled by about 90 ° and the Swamp is missing.

The invention has for its object a shut-off to create the structure described above, which is characterized by long service life, even with extreme abrasive and / or corrosive Stresses, distinguished.

Starting from a shut-off device of the initially described Construction according to the invention is the object described above solved by combining the following features:

• a) the flow channel consists of an inflow section, on the other hand arranged at an angle of 90 ° th laxative section and a transition area between the inflow section and the discharge section,
• b) the sealing mating surfaces are in the discharge section orders,

the shut-off body at least in the fully open position largely outside the transition area. After a preferred embodiment of the invention, the shutoff surfaces and the sealing mating surfaces with a tightening angle in Range from 5 ° to 15 °.

The invention is based on the knowledge that in an Ab locking device of the structure described on the sealing surfaces of the Shut-off surfaces and Ver signs of wear no longer occur. This is because the direction of movement of the shut-off body during the closing movement corresponds to the direction of flow of the fluid medium, or during the opening movement opposite to the flow direction of the fluid medium runs, causing wear-causing storage reduced, but also reduces the effects of corrosion. In addition comes that a scraping cleaning movement of the Shut-off body on the sealing mating surfaces when the Shut-off body can be set up in the closed position, as will be described.

There are several in the scope of the invention Opportunities for further training and design. So can  the shut-off surfaces of the shut-off body in the closed position up to the upper part of the shut-off receptacle of the housing protrude and in this part of the shut-off valve holder additionally complementary sealing mating surfaces can be arranged. The order can also be made so that the shut-off areas of the Shut-off itself in the closed position Transition area between inlet section and discharge section extend and there arranged additional sealing mating surfaces are. In this way, a very complete seal can be made with extremely low leak rates can be achieved. Conveniently the shut-off body is fully open outside the transition area of the flow channel.

The outflow of the fluid medium. Then the flow channel runs in a shut-off device according to the invention overall practically angled shaped. But there is also the possibility to attach to the laxative piece, continuing the flow direction of the inflow section, to connect an outflow section of the flow channel. In this Trap runs the flow channel of an inventive Shut-off device as a whole Z-shaped.

With the shut-off device according to the invention, there is the possibility of to arrange so that the pressure drop caused by the fluid Medium experiences when flowing through the open shut-off device, is very low. To this end, the invention teaches that the shut-off surfaces of the shut-off body and, complementarily, the sealing mating surfaces Flow control training and / or flow control recesses have the pressure loss that the fluid medium in  Reduce flow through the flow channel. Essential for the invention, as already mentioned, is that the shut-off surfaces of the shut-off body during the closing movement and during the opening movement past the sealing mating surfaces can that solid deposits as it were pushed away and from be continued in the fluid medium. This effect can be caused by special material combinations for the housing with the Seal mating surfaces or for the elements that make up the seal wear mating surfaces, but also for the shut-off body or optimized for the shut-off areas. The movement Direction of the shut-off body should be parallel or if possible largely parallel to the sealing mating surface to be cleaned Housing run.

The shut-off device according to the invention is in material Hin view set up as the chemistry or physics of the fluid medium and the mechanical stress to be absorbed requests. In particular, there is the possibility of Arrangement to make so that the shut-off and / or the assigned elements carrying the sealing mating surfaces interchangeable wear parts, e.g. B. wear parts Engineering ceramics are reinforced. You can also completely look out Engineering ceramics exist. All of this also applies to the rest Areas of the flow channel. Is used with material pairings worked, including hard and softer wear parts belong, so in the shut-off device according to the invention softer wear parts preferably in the flow shadow of the fluid medium arranged, which is in an inventive  Shut-off device because of the angle described above shaped or Z-shaped course of the flow channel always is easily possible. It is within the scope of the invention Shut-off body to its actuator with the interposition of Connect spring components and the spring components at complete or partially in the open position shut-off to be arranged outside the flow path of the fluid medium. The Spring components avoid constraints, especially with the Closing movement and therefore lead to high tightness of the closed shut-off device with low leakage rates. Can too this way the degrees of freedom that it is set up enable the above-described scraping effect to be very pronounced to realize. For this purpose, the shut-off body on the side has the the cockroach effect should cause a cockroach on the discharge section edge and is the shut-off body during the closing movement this scraping edge along the associated sealing mating surface in Laxative section led. You can work with a tightening angle ten, which leads to an asymmetrical wedge shape of the shut-off body leads. However, it can also be used in relation to the movement direction of the shut-off body worked symmetrical wedge shape become.

In the following the invention will be explained in more detail with reference to a drawing showing only one exemplary embodiment. In the drawings in schematic representation, Fig. 1 shows a section through an inventive shut-off device in the direction of flow of the fluid medium, shut-off element in the open position,

Fig. 2 position to the object according to FIG. 1, in the closed shut-off,

Fig. 3 shows another embodiment of the subject of Fig. 1,

Fig. 4 is a schematic view for movement of a shut-off body with a scraping edge at erfindungsge MAESSEN shut-off device,

Fig. 5 shows the subject of Fig. 4 in a different functional position.

The shut-off device 1 shown in the figures is intended for fluid media, in particular for fluid media which trigger abrasive stresses and / or corrosion stresses. The basic structure includes a housing 2 with a flow channel 3 for the fluid medium, a shut-off body 4 with shut-off surfaces 5 arranged in a wedge-shaped manner, which shut-off body 4 can be moved in a slide-like manner in a shut-off body receptacle 6 of the housing 2 with the aid of an actuator indicated by the arrow 7 , and for Wedge shape of the shut-off body 4 complementary sealing mating surfaces 8 for the shut-off body 4 in the closed position. It is understood that the housing 2 is composed of several components, which was not drawn.

The flow channel 3 consists of an inflow section 3 a, in contrast arranged at an angle of 90 ° discharge section 3 b and a transition region 3 c between the inflow section 3 a and the discharge section 3 b. The sealing mating surfaces 8 are arranged in the discharge section 3 b. The arrangement is such that the shut-off body 4 is in the fully open position at least largely outside the transition area 3 c. In Fig. 1 it is located completely outside the transition area 3 c. The shut-off surfaces 5 and the sealing mating surfaces 8 are arranged with a tightening angle in the range from 5 to 15 ° to one another, in such a way that the shut-off body 4 runs symmetrically with respect to its central plane 9 . In this respect, the shut-off body could also be designed asymmetrically. In the embodiment form according to FIGS. 1, 2 and 4, the flow channel is angular in total.

It can be seen from the figures that, in the exemplary embodiment, the shut-off surfaces 5 of the shut-off body 4, in the closed position, protrude into the upper part 10 of the shut-off body receptacle 6 of the housing 2, and complementary sealing mating surfaces 8 are additionally arranged in the shut-off body receptacle 6 . In addition, the shut-off surfaces 5 of the shut-off body 4 in the closed position also extend into the transition region 3 c between the inlet section 3 a and the discharge section 3 b. Also there are additional sealing fitting surfaces 8 arranged. As a result, the sealing conditions are achieved in the closed position of the shut-off body 4 , which have been shown in FIG. 2.

In the embodiment according to FIGS. 1, 2 and 4, the outflow of the fluid medium also takes place via the discharge section 3 b. In contrast, has been illustrated in FIG. 3 that b to the Abführteilstück 3, the flow direction of Einströmteilstückes 3 a continuing, a Ausströmteilstück 3 d of the flow channel 3 is connected can be. In this respect, the flow channel 3 is, as it were, Z-shaped. It can be seen from the figures that one could arrange flow guiding and flow guiding recesses on the shutoff surfaces 5 of the shutoff body 4 and on the sealing mating surfaces 8 , which reduce the pressure loss that the fluid medium experiences when flowing through the flow channel 3 . They were not drawn. It has been indicated by hatching that the shut-off body 4 and / or the associated elements carrying the sealing mating surfaces 8 and / or other areas of the flow channel 3 by replaceable wear components 11 , for. B. wear parts made of engineering ceramics are reinforced. If hard and soft wear components 11 are paired, the softer wear components 11 are arranged in the flow shadow of the fluid medium, which is easily possible with the described guidance of the flow channel 3 . The shut-off body 4 can be connected to its actuator 7 with the interposition of spring construction parts. The spring components are located outside the flow path of the fluid medium, even when the shut-off body 4 is closed or only partially open.

In relation to the self-cleaning effect of the sealing surfaces described on the shut-off surfaces 5 and the sealing mating surfaces 8 on the housing 2 , which on the one hand is caused by the flow and in combination based on the fact that deposits are pushed off by the shut-off body 4 , a comparative analysis of FIG. 4 and 5 referenced. It can be seen that the shut-off body 4 on the abführteilstückseitig having the Einströmteilstück 3 a side facing a scraping edge 12th It is guided in the closing movement with this scraping edge 12 along the associated sealing mating surface 8 in the discharge section 3 b, which results from a comparative examination of FIGS. 4 and 5. It goes without saying that the scraping edge 12 could also be arranged on the other side of the shut-off body 4 .

Claims (13)

1. shut-off device ( 1 ) for fluid media, in particular for fluid media that trigger abrasion and / or corrosion stresses, - with
Housing ( 2 ),
Flow channel ( 3 ) for the fluid medium,
Shut-off body ( 4 ) with mutually wedge-shaped shut-off surfaces ( 5 ), which is movable in a shut-off body receptacle ( 6 ) of the housing with the aid of an actuator ( 7 ), and
to the wedge shape of the shut-off body ( 4 ) complementary sealing fit surfaces ( 8 ) for the shut-off body ( 4 ) in the closed position,
the combination of the following features is realized:

• a) the flow channel ( 3 ) consists of an inflow section ( 3 a), a discharge section ( 3 b) arranged at an angle of 90 ° and a transition area ( 3 c) between the inflow section ( 3 a) and the discharge section ( 3 b),
• b) the sealing mating surfaces ( 8 ) are arranged in the discharge section ( 3 b),

wherein the shut-off body ( 4 ) is at least largely outside the transition region ( 3 c) in the fully open position. 2. Shut-off device according to claim 1, wherein the shut-off surfaces ( 5 ) and the sealing mating surfaces ( 8 ) extend with a tightening angle in the range from 5 ° to 15 °. 3. shut-off device according to one of claims 1 or 2, wherein the shut-off surfaces ( 5 ) of the shut-off body ( 4 ) protrude in the closed position into the upper part ( 10 ) of the shut-off body receptacle ( 6 ) of the housing ( 2 ) and in this part ( 10 ) complementary sealing mating surfaces ( 8 ) are arranged on the shut-off body receptacle ( 6 ). 4. shut-off device according to one of claims 1 to 3, wherein the shut-off surfaces ( 5 ) of the shut-off body ( 4 ) in the closed position also in the transition region ( 3 c) between the inflow section ( 3 a) and the discharge section ( 3 b) and there additional sealing mating surfaces ( 8 ) are arranged. 5. shut-off device according to one of claims 1 to 4, wherein the shut-off body ( 4 ) is in the fully open position completely outside of the transition region ( 3 c). 6. Shut-off device according to one of claims 1 to 5, wherein to the discharge section ( 3 b), the flow direction of the inflow section ( 3 a) continuing, an outflow section ( 3 d) of the flow channel ( 3 ) is connected. 7. Shut-off device according to one of claims 1 to 6, wherein the shut-off surfaces ( 5 ) of the shut-off body ( 4 ) and, complementarily, the sealing mating surfaces ( 8 ) have flow-guiding formations and / or flow-guiding recesses which have the pressure loss which the fluid medium flows through Shut-off element ( 1 ), reduce. 8. shut-off device according to one of claims 1 to 7, wherein the shut-off body ( 4 ) and / or the associated, the sealing pass surfaces ( 8 ) bearing elements and / or the remaining parts of the flow channel ( 3 ) by replaceable wear components ( 11 ), for . B. wear parts made of engineering ceramics are reinforced. 9. shut-off device according to one of claims 1 to 8, wherein hard and softer wear components ( 11 ) are paired and the softer wear components ( 11 ) are arranged in the flow shadow of the fluid medium. 10 shut-off device according to one of claims 1 to 9, wherein the shut-off body (4) is connected to its adjusting drive (7) with the interposition of spring members and arranged the spring members with a completely or partially befindlichem in the open position shut-off body (4) outside of the flow path of the fluid medium are. 11. Shut-off device according to one of claims 1 to 10, wherein the shut-off body ( 4 ) has a scraping edge ( 12 ) and is guided in the closing movement with this scraping edge ( 12 ) along the associated sealing mating surface ( 8 ) in the discharge section ( 3 b). 12. Shut-off device according to one of claims 1 to 11, wherein the shut-off body ( 4 ) has a symmetrical wedge shape.