DE2124999A1 - Plate valve - Google Patents

Description

The invention relates to a plate valve which i] can be programmed in a way that it can be programmed in a predetermined! Sequence or cycle causes the execution of switching processes for the flow passage if a movable organ is displaced or] is rotated.

The idea of the invention was based on the need to create a valve, as is required when using a chromatography separator of a certain type, namely one
Time sequence separator, in which one of a number of separate Lt
The existing column is provided with a switching point for the flow passage between each of these lengths for the production of connections between inlet, extraction and monitoring lines
is, but the invention is by no means limited in its possible applications to this one purpose. Rather, it is precisely the variety of these possibilities that is a main feature of the invention.

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In the programmable plate valve created by the invention, a grooved "program" plate is in the Vfeise mounted between two plates that they are together with one the two outer plates can be moved with respect to the other plate; grip the facing surfaces of the plates here sealingly to one another. Aligned bores provided in series of bores allow connections to be made through the middle plate and lead from the inner surfaces of the outer plates to the outside, so that connection options exist with and between the openings of the outer panels » any drilling for which no connection is required within the framework of a certain program is switched off. The interposed Plate is on one side or on both sides with billen provided so that connections according to a predetermined program can be made between the holes.

The following is used for a better understanding of the invention detailed description of an example used programmable plate valve according to the invention, which is in a Time sequence separator installed and in the accompanying drawings is shown. In the drawings show:

Figure 1 is an exploded view of the plates of the valve in isometric representation, while at the same time in schematic Shape also shows the connections and the program groove arrangement of the middle plate »

Figure 2 is a side view of the separator;

Figure 3 ι a top view of the programmed for the timing of a chromatographic separation passage middle plate and

FIG. 4 shows a vertical section corresponding to FIG. 2, kept on a larger scale.

The valve shown in Figure 1 consists essentially of three circular disc plates 10, 12 and 14 »with the two upper plates are stationary, while the lower plate is mounted for rotary movements and sealingly on the middle plate

attacks

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attacks. There are through holes along each of the plates two concentric circular lines 16A and 16B, 1ΘΑ and 1ΘΒ respectively 2OA and 20B are provided, the bores of each series with the bores of the corresponding series in the other Plates are aligned.

In the case of a chromatographic or similar separation column, which consists of a number of interconnected TJ-shaped tubes, these tubes would be those lying next to each other in pairs in the radial direction Connect bores in the lower plate together, so that the arrangement in operation in this form of the one Body can be moved to the other. This type of training is relatively small due to the representation of a U-shaped tube Diameter at 22 and a tube 24 with a ratio larger diameter indicated, with these two tubes in practice part of a series consisting of 20 loops and in the arrangement representing the separation column in this form in the circular arc area on the plate 14 provided with the reference symbol 20C would be.

The external terminals are provided on the upper surface of the upper plate 10. Connections of the pipes to a process-coupled monitoring device indicated at 26 are shown at A, B ₁ C, E, F _t ß and L.

The two series of pipes can be between A and B for example be connected to each other via a condenser, the condensate then being fed back at C.

You with no connections remaining holes in the top and lower plate are grafted.

The predetermined sequence of the pipe connection is through the Groove arrangement determined in one or in both surfaces. In the arrangement indicated here, the grooves 28C serve between the "it the bores provided with the reference symbol 18C for easy connection one behind the other the small-diameter U-shaped tubes (for example, the tube 22). For the pipes with a larger diameter (e.g. so the pipe 24) is a connection only provided between every second pair of bores 18D, 2OD, the

Grooves

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fill 18D mediate the series connection. The groove 28E is used to bridge a number of holes and pipes.

In the upper surface of the plate 12 are concentric Grooves 30 and 32 are provided and similar grooves are in them as well Formed lower surface, wherein the upper and lower pairs of grooves are connected to each other. These grooves that run on either side of the two series of bores 18A and 18B are provided, serve to keep the fluid medium in the required flow path. The pressure prevailing in these concentric grooves can be more suitable Way to be fixed at a certain value, which is either higher or lower than the value of the in the column system prevailing pressure, so that the grooves can either be used to suck off any material that may seep over the surface of the plate or to prevent further outward seepage from the switching bores of the column.

The outer plates are preferably made of metal, with stainless steel being a typical material, while the middle plate is made of a plastic material, preferably made of a graphite-weighted polytetrafluoroethylene, which has proven to be particularly suitable in that it provides the required Heat resistance and chemical inertness with good Lubricating and sealing properties and combines with good wear resistance.

The connections shown in Figure 1 do not represent a practice-related program, the representation is only intended to to illustrate some of the numerous possibilities in the use of the interchangeable "program" panels.

Further connections can, for example, for the purpose of a temporarily modifying a program without replacing the disk 12 in much the same way as an electronic one Panel can be made by attaching the necessary transition loops to the top plate 10, with a Illumination through the holes in the middle plate 12 takes place.

If desired, the program can be converted into one of a suitable Material existing laminate be cut that between

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the plate 12 and the top plate can be fitted.

The whole arrangement can be in any spatial Able to be put into operation.

The number of concentric bore rings or circles of holes can be two or any multiple of two. So it can be more than one "set" of Column series can be arranged concentrically to the same valve axis of rotation.

The description of the valve given here relates to its use for chromatography purposes, but the separation tubes also be designed in a shape other than columnar, for example for example as filter pipes or inlet pipes.

FIGS. 3 and 4 show the practical use of the valve shown diagrammatically in FIG. 1 in a separator and a training opportunity for a compression tower construction shown, which serves to place the three plates in the required position To hold together sealing engagement.

The general structure of the separator is shown in FIG. It consists essentially of a plate valve with 100 an upper plate 110, a middle plate 112 and a lower one plate 114 and a column 102 in the form of 20 pipe loop lengths 122. In use, the column may be placed in a thermostat and, of course, those to be used for the particular case Separation passage necessary control devices for the supply of the fluid medium, the necessary condensers, valves and monitoring devices should be added, which are omitted here, since details of this type are not part of the scope of the invention belong.

The top plate 110 and middle plate 112 are in FIG their position fixed by fastening to a supporting structure, of which! Peile are indicated at 103, while the lower plate is arranged together with the column 102 for rotational movements with respect to this structure. For this purpose, the lower plate carries a externally toothed ring 104 »which serves as a gear drive and is

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zel 106 meshes which is controlled by an engine (not shown) by, a suitably adjustable (also not shown) clock device in a series of switching steps is driven as dictated by the program of the separation walk.

The three plates are loaded by a spring Compression tower assembly 108, the structural details of which are shown in Figure, in the position of required sealing engagement held.

The column 102 is protected by a frame structure 109 formed as part of the rotor, which is also used for the arrangement Can serve as a stand when it is removed from the device.

This design of the separator is intended for carrying out operations in sequence chromatography, that is to say to use a fluidized bed method in which the column system connected to a rotary valve with numerous passage openings with respect to the flow of the mobile phase of the direction of flow opposite when the valve is moved according to a predetermined Program is advanced from one switching position to another.

The arrangement of the bores 118A and 118B and the grooves 128C, IJO and I32 in the middle plate 112, which in effect represents a ^II program ^II plate, is shown in FIG. 2, as are the connection points in the top plate 110 for the production of the various inlet and outlet connections and their respective functions are identified here, and the direction of flow and the direction of column movement are also indicated. The three openings in the section marked with the word ¹¹ "Abstreifung" are available for the supply of stripping liquids in order to remove material residues from the column loops.

There are numerous modifications to that shown in FIG Groove scheme embodied simple programs are possible, and one uses to work out the necessary scheme in each case two-way one sheet with a diagrammatic representation the "program" disk 112.

With

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With the help of the separator described, numerous Separation passages are carried out according to the principle of fluidized bed extraction. For example, the column switching device for Programming of the operational sequence in countercurrent extraction tubes or for continuous current enrichment through negative osmosis. The column system can be arranged in such a position that the column varies during the total duration of an incremental cycle Can be exposed to temperatures and pressures. Using these methods, gases or component bands can be processed be enriched. A product capacitor can be connected to the transfer system be affiliated so that the products from one separation system can be transferred to another to carry out further separation processes can be. It is even possible to use all column loops 122 to work in parallel, with a separate carrier liquid supply then being provided at each point.

Further details of this practical embodiment of the valve according to the invention are shown in FIG. 4. In particular This figure shows the construction of the compression tower 108 which is used to attach to the plate valve assembly between one at 142 in one self-aligning axle bearing mounted on the lower Hotorplate 114 Center hub I40 and one inserted into the upper rotor plate 110 coaxial bushing 144 by means of a spring assembly 134 »consisting of a set of disc springs I36 stacked one on top of the other, which are separated from each other in pairs by simple washers 138, to apply a compression force. The spring pack 134 is on Housing I46 is mounted and engages with the interposition of a Insulating block I48 to socket 144, the insulating block being the Heat dissipation effect of the discs 138 is supported, so that overheating of the spring is avoided.

The middle plate 112 is in the intended rotational position with respect to the upper plate 110 of the standing part below Compliance with a corresponding margin for the different thermal expansion set by 5 radial pins, one of which shown at 150.

It should be noted that the bores of the 118A

and

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_Q_ 2124993

and 118B in the one made of graphite-weighted polytetrafluoroethylene Plate 112 have a larger diameter than the aligned holes of the series of holes in the upper and in the lower plate and that they are set at slightly shorter radial distances $ this way the different thermal expansion of the Plastic material of the plate 112 and the stainless steel of the outer panels taken into account.

Claims

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Claims (8)

Claims When moving or rotating a movable organ to the programmed Execution of switching operations for the flow passage in a predetermined sequence or cycle, actuatable plate valve, characterized through one between two outer plates (11O, 114) joint movements with one of the outer plates (llO, II4) with respect to the other of the outer plates (11O, II4) arranged middle plate (112), the adjacent surfaces of the three plates (110, 112, II4) in one against a fluid Medium-sealing position of mutual contact are durable, the plates (11O, 112, II4) with series through the middle plate (112) Hindu leading and from the inner surfaces of the outer plates (HO, 114) outwardly leading fluted bores (II6A, II6B; 118A, 118B; 120A, 120B) are formed, with connection options for external connections for the flow passage at the openings in the outer plates (11O, II4) are provided and each hole, for which no connection is required within the framework of a certain program, is lockable and with in the surfaces of the middle plate (112) on one side or on both sides grooves (128C, 128D, 128E) for making connections between holes as required for a predetermined program Way are provided. 2. Plate valve according to claim 1, characterized in that the outer Plates (11O, II4) are made of metal, while the middle plate (112) is made of graphite-weighted polytetrafluoroethylene. 3 · Plate valve according to claim 1, characterized in that the grooves are cut into a thin laminate made of a suitable material between the central plate (112) and the outer plate (11O) is inserted, with which the middle plate (112) is movable together. 4. Plate valve according to claim 1 or claim 2, characterized in that that the bores (II8A, 118B) in the middle plate (112) are larger than those in the outer plates (HO, II4) 5. Plate valve according to one of the preceding claims, characterized in that that the plates (HO, 112, II4) are circular ^ 1 09850/1183 is round disks, the rotational movements of one outer plate (114) with respect to the middle plate (112) and the other outer plate (HO) are mounted in a coaxial arrangement. 6. Plate valve according to claim 5, characterized in that the bores (116a, 118A, 120Aj HOB, 118B, 120B) in concentric rings are arranged. 7. Plate valve according to claim 5 or claim 6, characterized in that that at least in the surface of the middle plate (112) bearing against the relatively movable outer plate (114) is concentric Eillen (130, 132) are provided, these Hillen (130, I32) in one to retain the fluid medium in the required Flow path suitable arrangement on both sides of the bores (II8A, 118B) are formed. 8. Plate valve according to one of claims 5 to 7 »characterized in that that to the plate valve assembly (100) by a between in coaxial arrangement on the respective one of the outer plates (HO> 114) attached parts (140, 144) engaging compression spring (134) a Compression force can be applied. 1 09850/1183