DE2551180A1 - Multiple purpose and directional valve - has valve element running length of housing to form control arrisses at pipe connections - Google Patents

Abstract

The multi-purpose valve can direct several streams in parallel, opposed, sequential cross of auxiliary manner with heat exchange possibility. A valve element (14) runs the length of the valve housing (12) to lay on guide surfaces via seals (50, 52, 54, 56). The housing (12) has a series of conduit connections (40, 42). The value element (14) can be adjusted and set along the longitudinal direction of the housing (12) to form control arrises. The housing can be formed from five separate pieces (18, 20, 22, 20, 18). The end (18) and intermediate (10) pieces are mirror image, of each other. Central elements (28, 48, 30) have a groove around their circumferences to receive seals (50, 52, 58, 56).

Description

Multipurpose valve

The invention relates to a multi-purpose valve for depending on different valve body positions to be realized production of parallel, Counter, cross, shunt, three, four and multi-way flows, if necessary with mutual heat exchange between them.

bs there is an open need for such multi-purpose valves, which can be used after a wide variety of seals, while it was previously only possible to use one and the same valve for a few switching options to meet what was required, several valves or, at best, valve groups the operation of which had to be learned, especially in emergencies to implement the required flow paths quickly and reliably, whereby not even in special cases the familiarization of the valve operation was sufficient, there are additional difficulties due to the spacing between the individual valves or valve groups emerged, which are not always sufficient to overcome them in terms of time Opportunity was available. Especially in large chemical processing plants of raw materials for the purpose of obtaining refined products, in drying and dewatering systems, in the synthesis of liquid fuels in particular and in the field in general the installation technology is a case of tasks that can only be carried out with the help of Multipurpose valves can be solved in an economical way, in particular also First installations are to be thought of, for which the Operating experience and the training of the operating team the arrangement of individual valves and valve groups seems appropriate. When training one Such a multi-purpose valve must also take into account that the valve basically, for the purpose Independence from remote controls and their Disturbances that enable manual operation and even from a distance Should make the switching position recognizable, which it einniiiut in each case, based on its physical structure itself, so aa. oie Ejedienune not on the approval depends on more distant information and instructions, which are very often caused by operating resources, Deposits of dirt and dust are difficult or impossible to read.

In order to meet this requirement, an according to The present invention proposed multi-purpose valve for depending on different Valve body positions to be realized production of parallel, one behind the other, Counter, cross, shunt, three, four and multi-way flows, if necessary. under mutual viwhärmetausch, through a valve housing with strung together Line connections penetrating its length in the longitudinal direction of the housing movably adjustable and adjustable, forming control edges and using seals on guide surfaces of the housing adjacent valve body.

by.

Various design options are available for this.

Apart from the fact that the valve housing consist of a single piece could, advantages result from the fact that it is made of juxtaposed in its longitudinal direction, ring-shaped, except from suitably matching end pieces, preferably from at least partially different and each required flow paths forming intermediate pieces, which are connected to the housing, for example by anchors are. Nevertheless, the individual pieces can be used regardless of whether they are end or Intermediate pieces act, with the effect of a one-piece valve housing through Arrangement of seals between the individual pieces are combined and thereby subsequently follow one another that these seals are preferably in to the individual connection piece open flowing grooves.

Belong to the control edges carried by the valve body or, for example Recesses, longitudinal and / or transverse channels, cross-sectional discontinuities or others known measures of this type formed local control bodies, so can in the simplest way the various flow paths can be realized such a multi-purpose valve is to deliver without the need for more complicated measures, to which it would belong, for example, that the control body in turn again in relation to the valve body would be adjustable, adjustable and lockable.

The solution to the additional task of the multi-purpose valve with a to equip manually movable valve bodies and to train them in such a way that the valve body position is already externally recognizable and designated for this purpose, would be sufficient that the valve body through the valve housing, preferably through end caps or end pieces is carried out for the purpose of forming actuating handles, on which information about valve body position and flow path switching, without further ado are arranged so that they can be read. The same is also true of the color schemes carried out To reach valve body ends.

sferaen surfaces of the valve housing facing the valve body, the control body on the valve body and / or recesses in both bodies as boundary surfaces adjoining (, flow paths and thereby forming the flow paths formed, the result is a simple, further and diversely involved Possibility of forming flow paths that are required or expediently to be provided. In order to achieve particularly favorable fluidic conditions, can adjoining the flow paths, the same valve housing individual, in particular -housing intermediate piece or the same valve housing longitudinal section with each other housing areas belonging to opposite connections as concentric to Longitudinal central axis of the valve housing each with a central angle not quite 1800 arched and the arches formed in this way run more centripetally with formation Housing projections be offset in opposite directions to one another in the axial direction.

Further details and advantages are shown in the drawings Embodiments and the following description of the same to recognize.

Fig. 1 shows in longitudinal section a through a multi-purpose valve designed according to the invention, an embodiment of the latter with a position of the valve body leading to a main line (not shown) to produce a shunt; 1a illustrates a partial longitudinal section of a multipurpose valve according to a further possible embodiment of the object of FIG. 1; body Fig. 2 gives the Ventz o arrangement 1 for the case again, the valve body position is to serve to generate a parallel flow; FIG. 3 shows a cross section through the valve arrangement according to FIG. 2 along line III-III of this figure; FIG. 4 shows again on the basis of a longitudinal section through a further embodiment of a valve arrangement according to the invention for the case that the valve body position is to lead to the implementation of a shunt, as can be achieved with the means of FIG. 1; FIG. 5 shows a valve arrangement according to FIG. 1 for the purpose of realizing an opposing parallel flow; FIG. FIG. 6 shows a cross section through the valve arrangement of FIG. 4 along the line IV-IV of the latter; 7 illustrates a longitudinal section through the valve arrangement according to a further modified embodiment in a valve body position in which a parallel flow running in opposite directions is again introduced, while FIG. 8 shows the valve arrangement according to FIG. 7 in a position of the valve body in which the implementation of Countercurrents are set at the intersection of their opposite directions of flow.

According to FIGS. 1 - 3 of the drawing, there is one designed according to the invention Multipurpose valve, designated as a whole by 10, a valve housing 12 and a valve body 14 on. The housing 12 surrounds an axially extending space 16 in which the valve body 14 is arranged with a straight ender control movement. When shown In the exemplary embodiment, the housing 12 consists of five individual pieces 18, 20, 22, 20 and 18. The end pieces 18 and the intermediate pieces 20 are mutually identical formed, their position, based on a plane of symmetry of the housing 12, corresponds to each other in a mirror-inverted manner. There is also a medium one Intermediate piece 22, which is in the position of the valve body according to figure 1 only serves to achieve a flow of the working medium, while Fig. 2 shows a control position of the valve body 14 in which a valve body arranged valve body 48, the two adjoining working spaces of the individual pieces 20 in relation to one another separates, which leads to the attainment of an opposite direction Parallel flow comes, which is illustrated in detail in the context of FIG. All individual pieces of the housing are connected by means of continuous anchors, whose clamping means can be seen in the form of screw nuts 24. In the case of the Embodiment find four such anchors application, although of course any other number can apply. The training of the individual pieces cohesive work equipment as a screwed anchor offers the possibility of individual housing pieces exchange or exchange for others.

The individual housing pieces 18, 20 and 22 make this possible a series of flow paths in housing 12.

The individual pieces can initially be made of metallic materials be. However, it is also possible to manufacture it from other suitable materials, preferably made of plastics, such as fiber-reinforced casting resins. The individual pieces can also consist of structured nylon. With casting resins there is no need for machining. When used in pairs identical individual pieces 18, 18 and 20, 20 can change the number of casting resin molds required would be significantly reduced.

According to the invention, depending on the type of use in question trained multi-purpose valves can of course number and design of the individual pieces be subject to strong fluctuations, if it is not preferred, the housing in one piece to be designed according to the exemplary embodiments of FIGS. 4-8, whereby for the materials the same applies to this one-piece housing as was already the case above for multi-piece housing has been executed.

The Linzel pieces are, as can be seen in the drawing, closing strung together and sealed against each other in that the end faces of the individual pieces directly to each other touch, except however the openings of the annular grooves 21 on the fitlrnfläcllen of the individual housings in which Sealing body 23 are housed under overhang beyond the end face, O-rings are also preferred as sealing bodies.

Under the tension of the., ChlieBanker the protruding The crests of the ring seals so that the individual pieces prevent the working fluid from escaping are to be secured.

To simplify the drawing, the reference numbers are missing in FIG. 2 21 and c, with the parts so marked.

The housing end pieces 18 have radially inwardly directed, annular Projections 26 in connection with control bodies 28 and 30 on the valve body 14 serve the rectilinear control movement of the valve body 14 according to FIGS. 1 and 2 to limit. End pieces 32 and 34 of the valve body 14, which protrude over the ends of the housing 12 located on the left and right, are used for manual actuation of the valve body 14 over the housing protruding area of the valve body 14 can be seen, identify the respectively prevailing position of the valve body 14 and thus the respectively set Flow path, so that at the same time which control movement to give the valve body 14 is to be able to realize a different flow path.

The overall arrangement in the case of housings consisting of several individual pieces is to be taken so that the individual pieces 18, 20 and 22 to the mutual abutment are in contact without the formation of burrs or radial dislocations, so that control movements of the valve body 14 always smoothly and without inclination to implement undesired control positions are feasible.

In addition, the flattened end faces of the valve body protrude 32 and 34 the possibility of exercising a finger pressure on one or other protruding valve body end or the valve body either in the to bring another limit position or intermediate positions, if provided and this makes it easier to find that a spring in one of the valve body formed detent jumps in and accordingly remains in this position for as long as the one that maintains the detent position Spring force not positive will conquer. The arrows 36 and 38 in Figures 1 and 2 indicate which the control forces exerted on the valve body 14 lead to the two limit positions, which are of importance in the context of the exemplary embodiment according to FIGS. The ratio in which, by hand or by means of devices, Remote control devices etc. adjustment forces exerted on the movement resistances on the one hand, depending on the sealing pressure at 5u, 52, 54 and 56 and, on the other hand, arise from the differential forces that arise between the the control body 28, 48 and 58 exerted surface forces and the counteraction of the Atmosphere auz the end faces 32, 34 arise.

As can also be seen from FIGS. 1-3, each of the Intermediate pieces 20 of the multipurpose valve 10 that act as control areas Figures 1 and 2 of the drawing, opposing pairs of connections 40 and 42. Each of these connections has an axially extending end, centrally arranged housing recess 16 via flow paths 44, 46 in connection. These Flow paths are limited by bulges of the housing 12, which under Inclusion of a central angle about a central longitudinal axis, which in each case does not quite reach 180 ° of the housing 12 and its central recess 16 which forms the main control space get lost. As a result, as shown in cross-section in FIG. 3, on the one hand centripetal, on the other hand, as evidenced by FIGS. 1 and 2, extending in the longitudinal direction of the housing Housing projections 45, the shape of which can be determined in such a way that Strömmitteluml Reductions with the lowest flow resistance and without the risk of the Flow or the formation of cavitations take place. The ones that form the vaulted surfaces Projections are, as evidenced by FIGS. 1 and 2, in opposite directions in the longitudinal direction offset to each other, so that also then fluidically favorable conditions arise when on the one hand, / Fig. 1, a radial flow leading from the outside in, which enters the valve housing at 40, from the radial direction to the axial direction 60 deflected and then again in the radial direction in that for discharge of the hteitsmittel serving terminal 42 is deflected, while on the other hand, at Control of parallel flows running in opposite directions according to the valve body position according to Fig. 2, the flow directions 64 and 66 following the inflow in the connections 40 and the outflow in the Connections 42 only displaced insignificantly from a radial central plane by the intermediate pieces 20 will. In detail, it can be seen from FIG. 2 that this is via the connection 40 in the direction of flow 66 entering working medium when flowing through the intermediate piece one after Describes the type of sine wave flowing current that also arises when the Parallel flow in direction 64 enters via port 40 and the one on the right Intermediate piece leaves via connection 42 in flow direction 64.

This applies in a corresponding manner to the in Figures 7 and 8 of Drawing shown design of a one-piece valve housing and for by the position of the valve body 14 'forced parallel flow, on the one hand in the Terminal 120 begins in the direction of arrow 136 and continues in the direction of arrow 138 is and via the connection 42- 'to the outlet of the working medium in the direction of the arrow 139 leads, while the parallel flow begins in connection 40 'in arrow direction 143, is continued in the direction of the arrow 142 and subsequently in the direction of the arrow 140 ends; the curvature in the upper part of the valve housing that is decisive for the first of the flows is denoted by 58 ', the curvature present in the lower part of the valve housing wtler is formed axially and offset in opposite directions. The same applies to the Housing training, which according to Figure 7 to the second parallel flow in the drawn Position of the valve body 14 'leads. The favorable aerodynamic effects both curvatures are also closed in the position of the valve body 14 'in FIG recognize.

The flow of the entering port 42 'in the direction of arrow 140' Working medium is created by the curvature in the upper part that is in the way of the flow of the valve housing displaced in the direction from right to left, so that forms a flow indicated by the arrow directions 144 from right to left, via the connection 42 'in the direction of arrow 139 for the outflow of the working medium leads. Further working fluid flows in at connection 40 'in the direction of the arrow 143 instead, so that there is a deflection of the flow, indicated by the directions of the arrows 146 is coming. This flow is through a longitudinal recess of the valve body 14 ' added, with a gradual deflection according to at the left end of this recess the direction of arrow 146 occurs, which leads to the fact that the second working medium flow exits via the connection 44 'on the left in the direction of arrow 136'.

The working medium flows therefore run in the area of the valve body longitudinal recess in opposite directions, the connection 40 on the right in the direction of arrow 143 incoming working medium flows around the valve body 14 'on the outside. Besides, it comes to train their seals after crossed working fluid flows, however without mixing of the working medium flows with each other. The one in the area of the longitudinal recess counter-currents entering the valve body can, however, be used to to bring about a heat exchange between the two flows.

Figures 1 and 2 also show the control body on the valve body 14 28, 48 and 30 are arranged, which have annular grooves on their circumference, in which Sealing bodies 50, 52, 58 and 56 are added, which are expediently used as O-rings are trained. The seals 50 and 56 seal those provided at 26 Feedthroughs of the valve body 14 through the end pieces 18 of the housing without to hinder the longitudinal displacement of the valve body. The seal 52 closes in the position of the valve body 14 in FIG. 1, all of them located to the right of it Valve housing spaces and accordingly also the intermediate piece 20 on the left against the located on the right, except for a rotation around the transverse central axis of the intermediate piece 12 to 1800 identical intermediate piece 20, so that the entire between the Control bodies 28 and 48 area of the area formed by recess 16 Main control room blocked off from all other areas of the latter and therefore ineffective (dead) in relation to the occurrence of work medium flows in it is. Likewise, the seal 54 closes within the arching surface forming and as a whole seen sleeve-like formed part 58 the spaces 46 and thus 44 against again the remaining areas of the main control room 16, so that the rooms 44, 46, the latter with connection 40, have no fluidic effect and are also dead. It finds thus only a working medium flow in the direction of arrow 60 in a partial area of the main control room 16 instead, with the flow in the port 40 on and over the connection 42 exits with the formation of a parallel flow. This circuit could Fluidic also be referred to as a short circuit because by far the largest part of the multipurpose valve 10 in the flow formation at all is no longer involved. In the essence of the arrangement shown in FIGS. 1 and 2 lies it thereby that the cross section of the valve body 14 in the area between the control bodies 30 and 48 is reducible bar, so that the flow resistances of the arrow 60 designated flow can be reduced by leaps and bounds without the undercut of the Recess 16 in These areas have to be changed, especially since cross-sectional reductions on the outer circumference of the recess 16 with consideration of cross-sections that are to be kept the same the control body 20, 48 and 30 would be inexpedient.

When the valve body 14 is shifted to the right, its result As illustrated in FIG. 2, the control body 48 penetrates with its seal 52 in the middle housing piece 22, so that a fluidic insulation of the two connected housing pieces 20 occurs in relation to one another.

likewise penetrates the entire control body 30 with its two seals 54, 56 into the end piece 18 of the housing located on the right, as well as finally the xteuerkkörper 28 lying within the left end piece 18 area of the Recess 16 by means of its seal 50 against the wider area of the recess 16 and thus closes and seals against the entire further housing. The length the recess 16 is dimensioned accordingly for this purpose. As already stated, are thereby the prerequisites for producing a run in opposite directions Realized parallel flow that the valve in the two directions 64 and 66 leave after going over the diametrically opposed ports had been fed to the valve. The spaces designated by 62 and 68 in FIG Surrounding areas of the valve body 14 can be according to length and free cross-section be dimensioned in the most varied of ways, in each case as a function of the respective existing purpose. There is also the possibility the connections, through which the working medium is let into the valve, along a unct the same surface line of the housing circumference to be arranged, so that also the exit takes place via connections in a surface line in the longitudinal direction of the valve lying one behind the other. Finally, it is not necessary to go to the entrance and outlet of the working fluid-carrying connections in each case by 180 ° in relation offset to each other, the offset can also be done with different central angles, based on the longitudinal axis of the valve housing.

In the training shown in Figures 1 and 2 are the same the pneumatic or hydraulic pressures within the valve housing essentially off so that the control body and likewise the valve body itself are not subject to unilateral forces when one is different from one another Pressing the work equipment itself refrains from, for example, in Figure 2 the control body 40 could have the effect that this is located in the right Intermediate piece 20 occurring overpressures in relation to the pressure of the working medium in the intermediate piece 20 located on the left is moved in the direction from right to left and the valve body 14 automatically moves from the position of the figure z into the position of Figure 1 would be relocated. In this case e ;; just the arrangement of one with the valve body ends 32, 34 cooperating pawl to such automatic To be able to exclude switchovers of the valve with certainty, unless that by arranging pressure regulators in the working medium flow would ensure that none on the control body unilaterally acting pressures are able to occur. Hence are seals carried by the control bodies are also pressure-relieved under these conditions, so that no special measures are required to put the sealing body in place and To hold position, unless it is the purpose of different overpressures of the work equipment, to bring the valve body consciously and according to plan in different control positions.

FIG. 1 a illustrates a different and further possible embodiment of the multi-purpose valve in the event that the manual is replaced by a hydraulic one or pneumatic actuation should occur. In this case it flows into the space of the selected left end piece 18 ', which is located between the grommet 70 for the valve body 14 and the control body 28111 with the seal 50 is located, a transverse recess 72 of the housing end piece 18 ', which is connected to a control line 74 is connected. In this way, means generated in the line 74 can be over and suppressing the valve body 14 as a whole in the respectively desired control position be brought, whereby of course the possibility arises, the tax management 74 devices, controls, Connect controllers etc.

In Figures 1-6 is another, for example illustrated Possible embodiment of a multi-purpose valve 76 designed according to the invention shown. The valve housing 78 is now made in one piece and is longitudinally movable in it the valve body 86 is arranged. FIG. 4 shows the valve body in a top view Short-circuit position called position, in the position of the valve body according to In FIG. 5, the multipurpose valve 76 is used to produce two parallel flows, however, their directions are opposite to those of the work equipment in the fiteXhng of the valve body 14 according to FIG. The connections are also different in the valve body housing 78 in the short-circuit line of the valve body 86 according to FIG 4, both in relation to the flow direction of the short-circuited working medium as well as that inflows and outflows of the working medium on the upper half of the Valve housing 78 is provided, while according to FIG. 1, the working medium flow takes place only in the lower half of the valve housing. Different is further the lack of substantially the entire length of the valve housing extended main control space, formed by the recess 16 in the embodiment according to Figures 1 and 2, in which the valve body and the control body are solid; on the other hand, the control body ofz6 according to FIGS. 4-6 has a hollow body an inner bore 88 executed, the end regions of which merge into Holilgewinde, the serve to accommodate the threaded plug 90, the training of which is made so that they the mode of action of the control body 28 and 30 in the first embodiment Take over formed end stops. Differing from the first embodiment is also the formation of the control edges, to which now no longer control bodies, but Recesses 80 are used, which lead to areas of reduced cross-section 96 and 98 of the control body 86 occur while the outer circumference of the same control body the inner circumference of a longitudinal bore of the valve housing 78 is adapted, in the the control body 86 is received in a longitudinally movable manner, with the arrangement of Sealing bodies 100, 102, 104 and 106, whose mode of operation essentially with that of the sealing bodies 50, 52, 54 and 56 of the first embodiment matches.

Entry takes place in the position of the valve body 86 according to FIG of the working medium in the direction of arrow 112 via the connection 82. Accordingly, lies the transverse recess 108 of a first through the flow resulting in this way the cross-sectional reductions of the valve body 86 formed control body that the Forms seat for the sealing body 102 and carries this seal.

This leads to a deflection of the working medium flow in the direction of the flow arrow 112. The working medium can accordingly above a transverse channel within another, by reducing the cross section of the valve body 86 formed control body to leave the valve body, in the direction of the arrow 112 over the connection 54. It can therefore be a bypass flow, related on a main flow, not shown, to take place, also called short-circuit currents is to be designated.

If the valve body 86 from the position of Figure 4 in that the figure 5 transferred, namely by a shift from left to right, so the parallel flow already mentioned occurs, the first branch of which occurs with the flow arrow 114 is generated using the port 82. on the Connection 3 84 the first of the two parallel flows occurs in the direction of the flow arrow 114 off. The second flow, which runs essentially parallel to this, occurs in the direction of arrow 116 into the connection 82 of the valve housing 78 and leaves it via connection 84 in the direction of arrow 116. The parallel flow runs therefore in opposite directions, namely on the left side of the valve housing in the direction from top to bottom and accordingly to the right in the direction from bottom to top.

Gradual length of the entry canal is not shown 103 and the outlet channel 110 in the valve body 86. This achieves that the deflection of the working medium is indicated by the flow arrows 112 @eg takes place flow-slippery, so that in the short-circuit position of the valve body 86 there are no unnecessary flow resistances. In the position of the valve body 86 according to FIG. 5 SinG, the transverse channels 108 and 110 are closed anyway and thus Fluidically ineffective, so the design of the transitions between the Channels 88 on the one hand, 108, 110 anyway no influence on the formation of the parallel flow able to take.

In the exemplary embodiment according to FIGS. 4-6, too, none occur undesired force effects of the working medium on the multipurpose valve 76, unless that is intended, which can naturally be achieved by when setting parallel flows based on the model of the valve body position According to FIG. 5, the working medium pressures can be set in different ways, uni such To be able to generate force effects.

In FIGS. 7 and 8, a third exemplary embodiment of a multi-purpose valve designed according to the invention has been shown in the drawing. In this exemplary embodiment, too, the valve housing 12 'is made in one piece and essentially based on the model of the design of the housing according to FIGS. 1 and 2. Accordingly, it could consist of several parts in the same way, that is, it could be designed as is illustrated in FIGS. 1 and 2 for this case. On the other hand, the design of the valve body 14 'is different, although it also has a longitudinal bore like the valve body 86 according to FIGS To let the valve body complete transverse control channels. However, in contrast to the exemplary embodiment according to FIGS. 4-7, there is again a main control chamber 68 ', which extends over the distance between two control bodies formed by the valve body, which serve to accommodate the sealing bodies 146, and these control bodies are used to penetrate the valve housing Connect serving end areas of the valve body which, in addition to guiding the control body in the valve housing, serve in the manner already mentioned to actuate the valve body and to display a respective position. Therefore, the design of the valve housing in the area 22 'corresponds to that of the housing center piece 22 according to Figures 1 and 2 and the same applies to the area 20' of the valve housing in comparison to the Linzelstück 20 of the housing 18 with the only exception that the mirror-inverted arrangement of the The intermediate housing piece 20 in FIGS. 1 and 2 is missing; rather, not only does the housing areas 20 'have the same design in the area 20', but also a matching arrangement of the same. This means that when the one-piece housing illustrated in FIGS. 7 and 8 is designed as a multi-part housing, only the modification needs to be made that the individual pieces corresponding to the housing areas 202 have to be arranged in the manner shown in FIGS. 7 and 8 is in order to be able to generate the working medium flows, which are to be realized by means of the design of the multi-purpose valve according to FIGS. 7 and 8 only the valve body 14 according to FIGS. 1 and 2 having to be replaced by the valve body 14 ′ according to FIGS. 7 and 8.

In the position of the valve body 14 'according to Figure 7 occur again Parallel flows of the working medium in accordance with the working medium flow according to Figure 5. The first working medium flow follows the direction of arrow 136 Introduction of the working medium via the connection 120, with one after Forms a type of sine wave running flow according to itrömungspfeil 124. above Terminal 42 'occurs the appearance of the first of the two parallel currents in the direction of arrow 139. The second working medium flow has the opposite direction, but again runs essentially parallel to the first working medium flow in FIG Shape of a sine wave in which Uber port 40? the introduction of the work equipment into the multi-purpose valve in the direction of arrow 143 in the direction from bottom to top he follows. The subsequent flow arrow 142 illustrates the transverse flow of the valve housing 12 ', whereupon it via connection 122 to the outlet of the working medium comes in the direction of flow 140. Terminal 44 'forms with the outer housing surface an orifice cross-section 120, which on the outlet side of the working medium of Mouth cross-section 122 of the connection 44 corresponds. By way of the approved work equipment is the housing bulge 58 ', which leads to that introduced in the direction 136 Current from work equipment is displaced from direction 124 in direction 138, whereupon the outflow takes place via the connection 42 'in the direction of arrow 139. In appropriate Way, the parallel current is influenced, which in the direction 143 via terminal 40 the Flow direction 44 'assumes, again a displacement of the parallel flow takes place in the direction 142, under the action of the housing curvature on the right 58 '. The exiting working medium assumes the flow direction 140 when it is over Terminal 44 emerges from the valve housing with the opening cross-section 122. Considerable in the whole it is that in the transition to a multi-piece housing after the Figures 1 and 2 solely by a mirror-image corresponding or wrong Arrangement of the relevant intermediate pieces 20 and 20 'is to achieve that the flow paths can be influenced as fundamentally as can be seen by comparing FIG. 8 with Figure 1 results, while the currents that set up according to Figures 2 and 7, be more similar to each other. There is hardly any need for a special one Indication that not only the flow directions by choosing appropriate Connections and mouth cross-sections, but also arbitrarily changeable are that the angular position of the connections and mouth cross-sections, related on the one hand on the drawing level, on the other hand related to the axial position of the connections and mouth cross-sections according to mutual distances and according to the distances the housing end faces nin, are variable.

Dalj the formation of the valve body 14 'that of the valve body according to the embodiment of Figures 1 and 2 with the exception of the limited length is similar to the longitudinal recess 126, has already been mentioned. This limitation of the Length range leads to the fact that the transverse channels 130 and 132 arise, with which the Possibility is opened up on the one hand to flow through the valve body with working media, on the other hand to flow around him with work equipment.

In addition, one designed according to FIGS. 7 and 8 is suitable Valve body to it, control body based on the model of Figures 1 una z on his to be arranged outer circumference, so that the possibility of accommodating the sealing body 50 ', 52', 54 'and 56' is given. The arrangement of the transverse channel on the right, which is thus forced together to form a vent opening 132, leads to the fact that the Control body 30 according to Figures 1 and 2 is divided into individual areas, the on the left, 301, serves to accommodate the sealing body 54 '. Also the one on the left located transverse channel shrinks to a control opening 130, which in the annular space 126 of the housing opens out freely, in this way the occurrence of unnecessary flow resistance to avoid. The annular space 126 situated on the left corresponds to an annular space situated on the right the same designation, the task of which can be seen from Figure 8 to the effect that on this Way the flow direction 143, 146 of the incoming working medium flow to the control opening 132 is to be reversed so that the working means then the longitudinal recess 128 of the valve body 14 'flow through in the direction from right to left and on the left side of the valve housing via connection 44 'and mouth cross-section 120 can leave the valve housing in the direction of arrow 136 '.

The possibility of using the longitudinal recess 128 is not shown here of the valve body 14 'to produce over its entire length by drilling and the spaces of the bore, the beyond the mouth cross-sections 130 and 132 of the valve body are to be closed in that cylindrical plugs in these bore areas are driven, so that the longitudinal cross-section through the valve body 14 'as a result has the appearance that has been shown in FIGS. Therefore can all valve bodies, those shown in the drawing sina, basically be made from the same blank, in particular, if this is made of plastics, in particular fiber-reinforced plastics, synthetic resins like structured INJylon or also made of casting resins, so that possibly already a single mold is sufficient to manufacture the valve body.

The sealing bodies 50 'arranged at the ends of the valve body and 56 'again seal the control room 16' at its find.

There is no impairment in the position of the valve body according to FIG the left branch of the parallel flow according to the flow arrows 136, 138, 139 instead of the fact that the space 68 'opens out towards the indicated flow and that the recess 128 in the valve body 14 'is connected to the space 68'. This is because the cross section 132 at the right end of the longitudinal recess 128 is included Adjustment of the parallel flow according to FIG. 7 through the end piece 18 ″ of the housing 12 'closed.

Also the branch on the right of the parallel flow shown in FIG. 7 can according to the flow arrows 143, 142 and 140 without significant flow resistances to flow through the housing 122 transversely to its longitudinal direction.

Also in the position of the valve body shown in FIG the occurrence of parallel branches of the flow, however, also takes place a longitudinal flow, namely a counter flow in the direction of the longitudinal axis of the multi-purpose valve instead of. If you follow the path of the work equipment, that in the direction of arrow 140 and the mouth surface 122 of the connection 144 flows to the multipurpose valve 118, then the working medium first in the direction from right to left at the area designated by 62 ' passed along the outer boundary surface of the valve body, so that after the Deflection according to the flow arrow 144, the outlet via connection 42 'in Direction of arrow 139 takes place. The contact over the length portion 62 'of the valve body 14 'runs in the opposite direction to the direction of flow of the working medium, the the longitudinal recess 128 of the valve body 14t in the right-to-left direction flows through. This working medium was the valve 118 in weighting of the arrow 143 had been supplied via the connection 40 ', then had according to the flow arrow 146 the valve body initially flows over a: -er small length range, wn then in the annular space 12G to: right: .en Jwlandtngsqunitte 132 of the valve body longitudinal recess 128 to be diverted. So this recess is in the right direction flows through to the left. The flow is then radially outward to the second mouth cross-section 130 of the recess 128 deflected towards the annular space 124 out so that there is this annular space in the direction of the flow arrow 146 of the connection it can leave 44 'via the mouth cross-section 120 in the direction of arrow 136'. In the areas of opposite flow are when the temperatures of the two working fluids are different, heat transfer effects are achievable, which are favored thereby, that the relative speed of the two working equipment over the mutual contact area is high. By choosing the distance between the cross sections 130 and 132, the Effect of the heat exchange can be set to the value required in each case, as well by choosing the pressures causing the relative speed and Cross-sections, it is also important that materials with high thermal conductivity how non-ferrous and precious metals can be used, including the setting thinnest wall thickness is technically and economically important.

Prevent the already mentioned sealing bodies 50 ', 52', 54 'and 56' in the position of the valve body 14 'of Figure 8, every possible mixing of the Work equipment that accordingly remains in the state in which it was entered when entering the Multipurpose valve 118 have.

It is in the essence of the invention that by using further connections to implement three-, four-way and multi-way valves for the supply and discharge of work equipment are. There is also the possibility of valve housings and bodies each having the lengths Cross-sections and the distribution of connections for supply and discharge of any Number of work equipment to be able to control or in a certain way to which certain flow paths are to be granted.

It is also in the essence of the invention that the illustrated Exemplary embodiments do not even come close to exhausting the options available. For example, in the area of occurrence of countercurrents, from the respective valve partition walls touched each of the working media flowing in the opposite direction be perforated so that such mixtures are very necessary and planned ver .; to be able to The invention extends to both on each of their specified characteristics, even if only in context with further features has been mentioned, as well as on every feasible partial combination from the characteristics as ultimately also to the total combination of all characteristics, insofar as individual features, partial combinations and / or total combinations are technically sensible, can be carried out and used, even if new technical effects can be achieved in each case are not mentioned and described in detail. All recognizable in the description and each of the claims named and / or shown in the drawing and any combinations of these are as such, with their function or with their functions as well as with the functional context or functional Interrelationships as described and claimed assumed in the case of partial combinations or occur in the overall combination.

Claims (9)

A N S P R Ü C H E c'1. Multipurpose valve for depending on different Valve body positions to be realized production of parallel, counter, one behind the other or series, cross flow, shunt, three, four and multi-way flows, possibly with heat exchange, g e k e n n z e i n e t d u r c h a valve housing (12; 12 '; 76; 118) with line connections (40, 42; 40', 42 '; 82, 84) penetrating its length, movable in the longitudinal direction of the housing adjustable and adjustable, control edge forming and seals (50, 52, 54, 56; 100, 102, 104, 106) the valve body (14; 14 '; 86). 2. Multipurpose valve according to claim 1, d a d u r c h g e k e n n -z e i c h n e t, that the valve housing (12) is cleaned from one another in its longitudinal direction, annular, except for appropriately matching end pieces (18, 18) preferably also from at least partially different and respectively required flow paths (44, 46) forming intermediate pieces (20, 22), which to the housing, approximately through Anchor (24), are joined together. 3. Multipurpose valve according to claim 2, d a d u r c h g e k e n n -z e i c h n e t that intermediate pieces (21) match at least in pairs trained sina. 4. Multipurpose valve according to one of claims 2-3, d a d u r c h g e k e n n n z e i c h n e t that between the individual pieces (18, 20, 22) of the valve housing (12) Seals (23) are arranged unata6 the individual pieces preferably thereby then follow one another that the seals in to the individual connection piece Oven opening annular grooves (21) lie. 5. Multipurpose valve in 'one of claims 1 - 4, d a d u r c h g e it is not indicated that the control edges are carried by the valve body (14; 14 '; 86) or, for example through recesses (16), longitudinal and / or transverse channels (88; 108, 110, 128), Cross-sectional steps (96, 98) belong to control bodies (28, 30, 48) formed. 6. Multipurpose valve according to one of claims 1-5, d a d u r c h g It is noted that the valve body (14; 14 '; 86) through the valve housing (12; 12 '; 76; 118), preferably by means of end caps (18 "; 78) or individual end pieces (18), expediently with the formation of actuating handles (32, 34), advantageously also is carried out with information on valve body position and flow path switching. 7. Multipurpose valve according to one of claims 1 - 6, d a d u r c h g It is noted that surfaces facing the valve body (14; 14 '; 86) of the valve housing (12; 12 '; 76; 118; and / or recesses provided in this (16; 88; 108; 110; 126) adjoin flow paths to form the same. 8. Multipurpose valve according to one of claims 1 - 7, d a d u r c h e It is not noted that flow paths (44, 46; 40 ') adjoining the same Intermediate piece (20) of a multi-part valve housing (12) or a valve body longitudinal section housing areas belonging to one another with diametrically opposed connections (42 ', 44') concentric to the longitudinal center axis of the valve housing (12; 118) with one not all 1800 comprehensive central angles are bulged and that these bulges below Formation of centripetal housing projections (58; 58 ') in opposite directions in the axial direction are offset from one another. 9. Multipurpose valve according to one of claims 1 - 8, g e k e n n -z e i c h n e t d u r c h arrangement of the seals (50, 52, 54, 56; 50 ', 52', 54 ', 56 ') in relation to the valve body (14; 14'; 86) in the longitudinal direction under axial Completion of each of the axially limited flow paths (46, 60, 46; 66, 40, 66, 42; 64, 42, 64, 40, 64; 114, 84, 114, 82; 116, 82, 84; 82, 112, 84; 136, 120, 124, 138, 139, 42 '; 143, 40 ', 146, 146, 44', 120, 136 ').