DE10242726A1 - Multiple way valve used as a sliding valve comprises interlocking single seat valves and a preset distributing device for fluidically connecting the control channels of the single seat valves to each other and to external connections - Google Patents

Abstract

Multiple way valve (100) comprises at least two, preferably interlocking single seat valves (A-D) and a preset distributing device for fluidically connecting the control channels of the single seat valves to each other and to external connections. Preferred Features: The distributing device is a distributor plate (130) forming a fluidic connection between the control channels of several single seat valves. The distributor plate has a lid element (132) forming at least one control channel and a sealing element (134) fitting and interacting with the lid element and sealing the control channels of one or more single seat valves.

Description

The invention relates to a multi-way valve.

It is known to use such multi-way valves Train spool valves, in which by a valve spool open and open a plurality of control channels lockable are. Slider valves are those that arise during their operation Friction, the associated wear and, as a result, related problematic on the tightness.

Beyond that, too Multi-way poppet valve designs with axial mechanical coupling of the sealing elements. These have the disadvantage that they high accuracy or tolerances additional elaborate activities must be balanced. The different directional control valve functions are characterized by different ones Realized components. A disadvantage of such an implementation is that the therefor required special parts are only manufactured in small quantities, furthermore, their complex provision and assembly is disadvantageous. About that In addition, there are disadvantages that different directional control valve functions often only with different external dimensions of the valve are realizable.

The invention is therefore the object to convey a multi-way valve, which is based on technical simple and therefore inexpensive way is producible, only little wear and thus a long service life having. About that In addition, the switching function of the multi-way valve is to be achieved by simple means also changed by the user can be.

This task is done with a multi-way valve of the generic type solved by at least two individual seat valves, preferably blocked together and a presettable distributor, through which control channels of the individual seat valves with each other are fluidly connectable.

By arranging several interlocked single seat valves and the connection of the control channels of these single seat valves with each other by a pre-adjustable Distribution means becomes not only a modular structure in a very simple way of the multi-way valve created, by changing the presettable ren Distribution means in a technically simple way different switching functions can be realized. It gets over it a long service life thanks to the use of single-seat valves achieved with high tightness. The use of single seat valves also has the big one Advantage that means a small opening, a large opening and so a big one Flow achievable is what, in turn, very fast switching operations as well as little switching time variation and thus enables high switching frequencies of the multi-way valve. Finally is the use of mechanically uncoupled single seat valves, for example with a piston or diaphragm drive, which is why it is so special advantageous because there is no need for complex tolerance compensation and thus an inexpensive Manufacturing is possible. For example the parts are made entirely of plastic injection molding. Further is independence from external lubrication particularly advantageous.

The distribution means is at one advantageous embodiment a fluidic connection between the channels of several individual valves training distribution plate. In this way, there are only two elements for the To provide the switching function of the multi-way valve, namely the individual seat valves blocked with one another and those used as distribution means acting distributor plate.

In an advantageous embodiment it is provided that the Distribution plate comprises a cover element, the at least one opposite Sealed environment, connecting the control channels of the single seat valves Control channel forms and one adapted to the cover element with this cooperating sealing element through which the control channels one or several individual seat valves can be closed. With this arrangement is advantageous that not only the sealing element easily exchangeable and therefore also variations of the sealing element and therefore variations of the switching function of the multi-way valve possible are, but that they a very simple one and especially in terms of tightness optimal structure.

The sealing element itself can be be trained in different ways. An advantageous one embodiment stipulates that the Sealing element elastically arranged sealing means, for example sealing plugs or sealing membranes which is provided by cams arranged in the cover element, raised areas, projections or the like. on openings of the control channels pressed become.

The default setting of the distributor and thus the desired one Switching function of the multi-way valve is realized in that the arrangement the cam in the cover element is freely selectable. The choice of arrangement the cam and thus the choice of the open and closed control channels The blocked single-seat valves can be specified by the manufacturer or be determined by the user.

Another embodiment provides that the sealing element is a grille seal through which the individual control channels of the individual seat valves be closed. The grille seal is preferably designed such that that by Rotating and / or turning the grille seal different switching functions, Directional valves with different switching functions can be implemented are.

In a further advantageous embodiment it is provided that the distributor plate is formed by at least one electronic component which is caused by the action of an electrical current is deformable in such a way that the channels of one or more single seat valves can be closed by their targeted deformation. In this way, an electrical control and thus a change in the switching function of the multi-way valve is implemented in a very simple manner.

The single seat valves can be pure principally have different switching functions.

According to a particularly advantageous one embodiment the interlocked single seat valves are flat next to each other arranged 2/2-way seat valves. The use of 2/2-way seat valves has the advantage that this a technically simple, failure-prone and ultimately also inexpensive Have construction at high switching speed. The flat arrangement the valves side by side comes the formation of the distributor plate and the cover element.

To further optimize the switching function can at least one pilot valve is connected upstream and / or downstream of the distributor means his.

Other advantages and features of Invention are the subject of the following description and the graphic representation of some embodiments.

 The drawing shows:

1a schematically shows a circuit diagram of a multi-way valve making use of the invention;

1b a table which illustrates the switching positions of the single seat valves for realizing multiple switching functions of the multi-way valve;

1c a table illustrating the different directional valve functions;

2a schematically shows a circuit diagram of another embodiment of a multi-way valve making use of the invention;

2 B a table from which the switching function of the in 2a multi-way valve shown emerges by changing the circuitry of the individual valves;

2c a table illustrating the different directional valve functions;

3a schematically an embodiment of an in 1a or 2a illustrated multi-way valve;

3b one in 3a Detail marked with III in an enlarged representation;

3c in the 3a detail marked with III with a modified sealing element; 4a . b schematically diagrammatically further embodiments of two multi-way valves making use of the invention and

4c schematically opened and closed control channels of a single seat valve.

Basic idea of the invention is from a plurality of individual seat valves, which are preferably arranged in blocks next to one another, for example 2/2-way valves, with the help of one opposite the Environmentally sealed distributor plate, which connections between control channels who manufactures individual valves, optionally different switching functions of multi-way valves.

One as a whole 1a Multi-way valve designated by 100 comprises four 2/2-way valves A, B, C, D, which are closed in the rest position and for controlling the at the connections 2 and 4 connected consumers (not shown) can be used. Furthermore, control valves E, F and electrically actuable control valves G, H of small nominal sizes are provided. Fluidic switches S1 to S11 are provided to implement different switching functions. The formation of these switches is in 3 as in 4 illustrated. In 1b different switching positions of the switches S1, ... S11 are shown, which the in 1c Enable directional valve functions listed in the table.

How out 1b . 3 and 4 shows, the 2/2-way seat valves A, B, C, D are arranged blocked next to each other, so they form a valve plate with control channels arranged next to each other 110 , Depending on the desired switching function of the multi-way valve 100 become individual control channels 110 locked or opened. This happens, for example, as in 3a . b . c represented with the aid of a distributor in the form of a distributor plate 130 , The distribution plate 130 comprises a cover element 132 and a sealing element interacting with this in the form of a lattice gasket 134 , Through the grille seal 134 become individual valve channels 110 fluidly connected to one another or fluidly separated from one another. The separation takes place due to the cover element 132 formed fluidic connection cavity by means of webs arranged between the individual valves 136 the grille seal 134 , The barriers or openings of connections can be made using different grille seals 134 , can be changed by turning a single grille seal and / or by turning a grille seal. The cover element 132 and the grille gasket 134 in this case form the fluidic switches S1, ... S11.

4a shows schematically a further embodiment of a distributor plate designed as a distributor means 130 ' , Here has a cover element 132 ' projections 133 ' on what closure membranes 135 ' a sealing element 134 ' to respective openings of the control channels 110 of the 2/2 single-seat valves press and close with them or - if there are no protrusions 133 ' are provided - leave open.

In 4b and 4d Another embodiment of the fluidic switches S1, ... S11 is shown. Here comprises a distributor plate 130 '' a cover element 132 ' and a sealing element interacting with it 134 ' , The sealing element 134 ' itself has a plurality of side by side elastically arranged closure means in the form of plugs 135 '' on that through in the lid member 132 '' depending on the desired switching position arranged switching cam 133 '' on one control channel each 110 the 2/2-way seat valves A, B, C, D are pressed and closed or left open. In this way, by designing the cover element 132 '' , So training and arrangement of the switching cams 133 depending on the connection shown in Table 1c, a plurality of multi-way valve switching functions can be implemented, for example the 5/2 idle position shown in Table 1c or the 5/3 blocking means (APB – A11 ports blocked) position.

If, for example, a 5/2-way valve with a rest position function is to be realized, the cover element 132 . 132 ' or 132 '' as well as the sealing element 134 respectively. 134 ' or 134 '' designed so that the fluidic switches S1, S3, S7, S8, S9, S10, S11 are not closed, whereas the fluidic switches S2, S4, S5, S6 are closed. The control medium can thus from the pressure connection 1 coming via valve E, via the switches 2 and 6 , control the two 2/2-way valves A and C. This becomes connection 4 Vented via valve A to 5 and connection 2 is pressurized via valve C. Valves B and D remain connected to the fluidic switches 4 and 5 Vented via the uncontrolled valve G, ie the 2/2-way valves B and D remain closed. If control valve G is now switched on, valve E is thereby switched on at the same time. Valves B and D are operated by valve G via the connection of the fluidic switches 4 and 5 Controlled, valves A and C are connected by the connection of the fluidic switches 2 and 4 vented via the switched on valve E, ie the fluid can flow from the pressure connection 1 to the work connection 4 flow. Connection 2 is vented via valve D. The valves F and H are not addressed with this switching function.

Another embodiment of a multi-way valve is shown schematically in 2 shown. In this exemplary embodiment, two times two valves which are closed in the rest position and open in the rest position are used, with the exception of the 5/3 blocking center position (APB-A11 ports blocked) function. Four 2/2 valves, which are closed in the rest position, are used here. With this optional equipment, the advantage of simple conversion on site is somewhat limited, but at the same time the pilot or control valves E and F described above are saved.

In the in 2a The circuit diagram shown represents the valves A 'to D' and the control lines shown in dash-dotted lines only the optional equipment, so it is not an additional valve. The illustration should clarify that depending on the desired function according to the table 2 B For example, valve A 'can be used instead of valve A. The connections of the control lines required depending on the desired function, in 2a and 2 B designated II, III and IV are carried out in the same manner as explained above. The directional control valve functions are shown in a table 2c shown. If, for example, a 5/2-way valve with an idle position function is to be implemented, valves A, B ', C and D' are required according to Table 2b. The connection is now made according to the connection of the control channels designated II, ie the control line of the control valve G is connected to the control inputs of the valves A, B ', C and D'. The control valve H is not required for this function. If control valve G is not switched on as shown, the control connections of valves A, B ', C, D' are vented via the connected control lines and via valve G. The operating pressure can be from connection 1 via valve C to the work connection 2 arrive, the valve D 'is closed, ie the fluid connection of the connection 2 after 3 is locked. The work connection 4 is for connection via valve A. 5 vented, the valve B 'is closed, so that no pressure connection to the connection 4 consists. If the control valve G is switched on, the control pressure is passed to the control connections of the valves A, B ', C and D'. This causes pressurized fluid to be connected via valve B ' 4 headed, the connection 2 is vented via valve D '. At the same time, the connection to the work connection 2 shut off by valve C. The venting of the working connection 4 is shut off via valve A.

Instead of the distributor plates explained above, it is also possible, for example, to use an electrically controllable distributor plate having electrical components, in which the components are deformed by the action of an electrical current in such a way that the control channels 110 one or more single seat valves can be closed by this deformation. In principle, a distribution means which can be predetermined as desired and in particular can also be changed by the user on site can be used, which enables different switching functions of the individual valves.

Claims (12)

Multi-way valve ( 100 ), characterized by at least two, preferably interlocked, single-seat valves (A, B, C, D) and a presettable distributor means ( 130 ) through which control channels ( 110 ) of the individual seat valves (A, B, C, D) can be fluidly connected to one another and to external connections. Multi-way valve ( 100 ) according to Claim 1, characterized in that the distributor means forms a distributor plate (fluidic connections between the control channels of a plurality of individual seat valves ( 130 ) is. Multi-way valve ( 100 ) according to claim 2, characterized in that the distributor plate ( 130 ) a cover element ( 132 ; 132 '; 132 '' ), which forms at least one control channel that is sealed off from the environment and connects the control channels of the individual seat valves (A, B, C, D) and one on the cover element ( 132 ; 132 '; 132 '' ) adapted and interacting with this sealing element ( 134 ; 134 '; 134 '' ), through which the control channels of one or more individual valves (A, B, C, D) can be closed. Multi-way valve ( 100 ) according to claim 3, characterized in that the sealing element ( 134 ; 134 '; 134 '' ) elastically arranged closure means ( 135 ; 135 ' ), which by in the cover element ( 132 ; 132 '; 132 '' ) arranged cams ( 133 ; 133 ' ) on openings of the control channels ( 110 ) are pressed. Multi-way valve ( 100 ) according to claim 4, characterized in that the arrangement of the cams ( 133 ; 133 ' ) in the cover element ( 132 ; 132 '; 132 '' ) is freely selectable. Multi-way valve ( 100 ) according to claim 3, characterized in that the sealing element is a lattice seal ( 134 '' ) is. Multi-way valve ( 100 ) according to claim 6, characterized in that the grid seal ( 134 '' ) can be arranged in several rotated and / or turned positions. Multi-way valve ( 100 ) according to claim 2, characterized in that the distributor plate ( 130 ) has at least one electronic component which can be deformed by the action of an electric current such that control channels ( 110 ) one or more fluidic switches (S1, S2, S3, ..., S11) can be closed by their deformation. Multi-way valve ( 100 ) according to one of Claims 1 to 8, characterized in that the individual seat valves blocked with one another are in particular 2/2-way seat valves (A, B, C, D) which are arranged flat alongside one another. Multi-way valve ( 100 ) according to one of claims 1 to 9, characterized in that at least one control or pilot valve (E, F, G, H) having an electrical, fluidic or mechanical control is connected upstream and / or downstream of the distributor means. Multi-way valve ( 100 ) according to claim 10, characterized in that the control or pilot valve (E, F, G, H) part of the multi-way valve ( 100 ) is. Multi-way valve ( 100 ) according to claim 10, characterized in that the control or pilot valve (E, F, G, H) is arranged separately from the multi-way valve.