~ ~0 9b 3 The present invention relates to a device for the diffusion of substances between two fluids via semipermeable membranes, which are arranged in a stack separated by spacer plates, which on their surfaces are provided with ducts con-nected to the inlets and outlets for at least one of the said fluids, these spacer plates being arranged in the folds of one or more membranes folded in zigzag.
The device in accordance with the invention is in-tended in the first place to be used for the purification of blood, that is to say as a so-called artificial kidney. How-ever, it will be clear to those skilled in the art, that the apparatus in accordance with the invention can also be used for many other purposes. It may be used for example for the oxygen-ation of blood. Alternatively, the device in accordance with the invention may be used for the transfer of substances from one gas to another. The term fluid, as used in the following description, means therefore gas as well as liquid.
Apparatuses of the above-mentioned type are known in themselves and are described in detail for example in the German "Offenlegungsschrift" 25 23 803 and American Patent Specification No 3,585,131. It may be said, therefore, that these documents constitute part of the background art. For further illustration of the same, reference is made to Swedish Patent Nos. 218 441, 301 029, 325 370, 314 167, 342 144, 355 293, 365 119, 393 534 and 407 900, all of which show appar-atUsses comprising a stack of spacer plates with membranes pre-ferably arranged in pairs between them which, however cannot be said to be folded in zigzag. Such folding is disclosed instead, for example, in the American Patent Specification Nos.4 116 841, 3 979 295, 3 862 031, 3 788 482 and 3 780 870.
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According to the present invention there is provided a device for diffusion of substances` between first and second fluid5 through ~ semi-pex~eable ~embrane, said device compris-i.n~ a stack of longitudinally extending spacer plates including S i'irst and second ends ~nd fixst and second longitudinally ex-t:ending sides, said spacer plates alternating between the folds of a folded semi-permeable ~embrane, first fluid feed means for feeding said f;irst fluid to one ~ide of said folded semi-permeable membrane at said fixst end of said spacer plates, first fluid withdrawal means-for withdrawing saLd first fluid from said one side of said f~lded semi-permeable membrane at said second end ~f said spacer plates, second fluid feed means for feeding said second fluid to the other side of said folded semi-pexmea~le membrane, second ~luid withdrawal means for with-drawing said second fluid from said other side of said folded semi-pexmeable membrane, channel means extending longitudinally across the face of said spacer plates, said spacer plates in-cluding transverse duct means extending transversely across substantially the entire face of said spacer plates, said trans-verse duct means being in fluid communication both with said first and second longitudinally extending sides of said spacer plates and being substantially continuous across the length thereof whereby no direct fluid communication isprovided be-tween said transverse duct means and the opposite side of said spacer plates through said spacer plates, and fluid connect-ing means extending between said transverse duct means at a location displaced from said first longitudinally extending sides of said spacer plates and said channel means for providing fluid communication therebetween.
The stacks of plates and membrane portions between them are prefer~bly given an elon~ated shape with the said la-texal edges bein~ axxanged in longitudinal direction of the pack. The tr~nsYer$e ducts ~ay extend transvexsely over the spacer plates~ opening onto both the Q~posite lateral edges.
This makes it possible, fox example, for two transverse ducts arranged straight opposite one another to be utilized for the
- 2 -;09~3 supply of one mediuml whllst a5pace between them and separated from them by two membrane layers can be utilized for the supply of ~he other fluid.
The me~brane material is preferably arranged folded with its fQlding edges parallel and substantially coinciding with the later~l edges of the plates. The lateral edges may then assist in the folding.
The plates are preferably arranged so that they are inserted ~nto the membrane material from one side only, that is to say into every other fold. One of the said fluids can then be supplied from this side, whilst the other fluid can be introduced from the opposite side, that is to say into the folds which do not contain any spacer plates. Alternatively, another type of spacer plates may be inserted into the last-named folds.
A particularly good seal can be achieved if sealing bead~ are arranged in longitudinal direction of the plates parallel with their lateral edges and near these edges, whose object it is tQ press the membrane material placed between them against the adjoining spacer plate. In the same way sealing bead~ may be arranged in transverse direction of the plates between the said transverse ducts and adjoining front edges, parallel with these edges, in order to press the mem-brane matexial placed - 2a ~09~3
- 3 -between them tightly against the adjoining spacer plate. Thanks to these sealing beads, the required quantity of sealing material, which other-wise is injected and used to separate the two fluids from one another, can be limited.
s A particularly good tightness is obtained if the stack of spacer plates and membrane material between them is arranged in an outer casing with inlets and outlets for the respective fluids. The sealing material can then be cast in between the outer casing and the stack in the form of strands. Two strands of sealing material can be adapted so as to extend around the pack in its transverse direction, as reckoned from the front edges just inside the openings of the respective transverse ducts. At the same time two other strands may be adapted, so as to extend around the pack in its longitudinal direction just inside the lateral edges in longitudinal direction of the spacer plates. For such an arrangement, a relatively small amount of sealing material is required, as compared with when it has to be spread out between the casing and the stack of spacer plates. Injection of sealing material is facilitated, if the said four strands are cast together to a unit.
The inlets and outlets of the casing for the respective fluids are arranged appropriately outside all the said strands of sealing material in connection with the openings of the transverse ducts and in connection with the space between the doubled membrane material arranged in the transverse ducts.
In a preferred embodiment of the invention, the casing consists of a boxlike maln part and a lid. A particularly good tightness can be achieved if a further strand of sealing material is cast in between the lid and the boxlike main part.
On either side of the said sealing strands, sealing beads may be provi-ded in the main part of the casing and/or the lid, in order to seal off the sealing materiji against the fluids fed into the apparatus. This is particularly ;mportant, if the device is to be heat-sterilized whilst filled wi~ ii tc " - 4 - ~ ~ ~g~3 in a preferred embodiment ribs are provided between the transverse ducts and the working surfaces proper of the spacer plates which are adapted so as to support from the outside the doublèd membrane materia1 between them without fully compressing the same. The distance between two such opposite ribs on adjoining plates may be increased Tn the trans-verse direction of the plate in the direction from the blood inlet and diminished in the direction towards the b100d outlet. In this way the device is utilized in the best possible manner over the whole of its width.
BRIEF DESCRIPTION ~F DRAWINGS
In the following the invention will be described in greater detail with reference to the enclosed drawings which show by way of example a pre-ferred embodiment of the subject of the invention and also an alternative embodiment.
Figure 1 represents a perspective view of a complete device in accordance with the invention in a preferred embodiment.
20 Figure 2 shows the same device seen from above.
Figure 3 shows schematically a first arrangement of a stack of spacer plates and membrane material between them arranged in a device in accor-dance with the invention.
Figure 4 shows an alternative arrangement for such a stack.
25 Figure 5 shows a section along line V-V in figure 2.
Figure 6 and 7 show on an enlarged scale the left-hand and the right-hand parts respectively of figure 5.
; Figure 8 shows on the same enlarged scale a section along the line VIII-VIII in figure 2.
Figure 9 shows a smaller part of the section along line IX-IX in figure 2.
Figures 10 and 11 represent a view from underneath and a longltudinal section of a lid belonging to the outer casing of the device in accor-dance with the invention.
Figures 12 and 13 show in the same manner the remainder of the casing that is to say the bottom part seen from above and from the side partly In section.
- 5 ~ 9~3 Figures 14 and lS show a spacer plate included in the device seen from albove and from underneath~
Figure 16 shows an end view of the same spacer plate.
Figure 17 shows a section along line XVII-XVII in figure 15.
figure 18 shows a section along line XVIII-XVIII in figure 14.
figure 19 shows the circular area XIX from figure 15 detached and enlarged.
figure 20 finally shows a section along line XX-XX in figure 19.
BEST MODE OF CARRYING OUT THE iNVENTlON
The device in accordance with the invention shown as an example is inten-ded first and foremost to be used for dialysis and will be described therefore in the following with reference to such a treatment.
The device comprises an outer casing, which as a whole is designated by numeral 10. This casing consists of a boxlike bottom part 9a and an upper lid 9b. An inlet and an outlet for blood are designated 6 and 7 respectively and numerals 4 and 5 designate an inlet and an outlet res-pectively for dialysate, if the device is to be used as a dialyser.
Numerals 3a and 3b designate recessed portions, the first of which is intended to be used for the securing of the device in a dialysis machine, whilst the other is provided in order to economize material.
The casing 10 shown in figure 1 is intended to contain a stack of spacer plates and membrane material between them. In figure 3 is shown a pre-ferred arrangement of such a stack with the spacer plates designated 1 and the membrane material 2. The membrane material 2 is folded, so that it forms double folds 2a where the blood can enter as indicated by the arrows B. The dialysate on the other hand can enter from the opposite side, as indicated by the arrows D. In this way the blood can flow on one side of the membrane, that is to say inside the double folds 2a, whilst the dialysate flows in ducts in the plates on the opposite side of the membrane material.
Figure 4 shows an a~ternative arrangement of the membrane material and spacer plates. The membrane material is designated here 2', whilst the 9~3 .
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spacer plates are designated la and lb respectively. The spacer plates 1a comprise ducts for the dialysis liquid D, whilst the spacer plates lb comprise ducts for the blood B.
Figure 2 shows from above the lid 9b belonging to the casing 10 shown 7n figure 1. The figure is intended primarily to illustrate the position of the sections shown in the figures 5-9. Numerals 11 and 12 designate the inlet for the injection of a sealing material, for example polyure-thane. The manner in which the sealing is carried out will be described in more detail in the following. Numeral 13 designates orientation holes intended to facilitate the stacking of the apparatus as a whole.
Figure 5 shows a section along line V-V in figure 2. The casing 10, con-sisting of the component parts 9a and 9b, contains a stack of spacer plates 1 with membrane material between them. The latter, designated 2, can be seen more clearly in the enlarged sections in figures 6 and 7.
Numerals 14 and 15 designate strands of sealing material, wh1ch will be described more fully in the following, with reference primarily to figures 10 and 12. In connection therewith, a more detatled explanation wTll also be given of the sealing beads 16. Numeral 4a designates an extension of the inlet 4 for dialysis liquid and 7a designates a corres-ponding extension of the blood outlet 7.
In figure 8, which const;tutes a section along line VIII-VIII in figure 2, examples of sealing strands 14 and 15 and sealing beads 16 are shown.
Figure 8 also shows a cross-section through the transverse ducts 18 arranged across the spacer plates 2 near their front edges 17 and parallel with these. Finally, figure 8 shows further sealing grooves 19, which will be explained in more detail in the following.
; In figures 10 and 11 is shown the lid 9b, seen from underneath and in the form of a longitudinal section. In figure 10 is shown the inlet 6 and the outlet 7 for blood and the inlet 4 and the outlet 5 for dialysis liquid, seen from underneath or from inside the casing 10. The sealing strands 14 shown in figures 5-8 are formed through ducts 14a, which are in connection with the injection openings 11, shown tn figure 2. The ducts 14a continue also in the bottom part 9a. Consequently, the strands 14 will extend around the whole stack of spacer plates 1 and the membrane material 2 between them ;n longitudinal direction as well as in transverse direction of the stack. In figure 10 are evident also the holes 13, which facilitate stacking and the injection holes for the sealing strands 15. Furthermore, sealing beads 16 are evident on both sides of the ducts 14a. Finally, numeral 22 designates a clamping flange intended for the securing of the lid.
In figure 12 and 13, the bottom part 9a is shown partly in section seen from above and from the side. Here too, the groove 14a can be recognized which gives rise to the sealing strands 14. Corresponding to the holes 13, which facilitate the stacking, we find here a recessed portion 20.
It should be noted that the recessed portion 20 is situated opposite a bulging portion 21, which is also evident on the lid 9b in figure 10, but which is not shown in the more schematically drawn figure 1.
On both sides of the grooves 14a, figure 12 also shows the sealing beads 16 indicated in the figures 5-8. These are intended to prevent the sealing material used from being forced out of the grooves 14a. At the 20 same time, these sealing beads 16 prevent the blood as well as the dialysis liguid or other liquids supplied from making contact with the sealing material used. This is particularly important, if the dialyser is intended to be heat-sterilized when filled with liquid, since other-wise material might be transferred from the binder into the incoming 25 1 iquids.
The lid 9b is secured to the bottom part 9a with the help of the clampTng flange 22, which engages underneath a corresponding clamping flange 23 on the bottom part. Numerals 4a, 5a, 6a and 7a in figure 12 designate extensions of the corresponding inlets and outlets 4, 5, 6 and 7 for dialysis liquid and blood respectively.
Other details shown in the figures 10-13 should be more or less self-explanatory to those skilled in the art, or they are of minor importance in respect of ~he invention and do not. therefore, require detailed description in the present description.
- 8 - ~ ~ 9 b 3 The figures 14-20 show a preferred embodiment of the spacer plates 1 included in the device in accordance with the invention. Figure 14 shows a plate seen from underneath, whilst figure 15 shows the same seen from above and figure 16 is an end view.
s The plate can be patterned in a largely conventional manner, for e~ample in accordance wtth anyone of the above-mentioned Swedish patents.
However, it is essential in accordance with the invention that the plate is provided at its ends with the transverse ducts 18, whlch are also shown in figure 8. These transverse ducts 18 should open onto at lease one of the lateral edges 24. In the example shown, the transverse ducts 18 run transversely over the plates 1 and thus open onto both lateral edges 24. The transverse ducts are parallel w;th the front edges of the plates. As can be seen from figures 17 and 18, the transverse ducts 18 contain ribs 25, which are adapted so as to press adjoining membranes in a tight manner against adjoining spacer plates. Moreover, the trans-verse ducts comprise smaller supporting ribs or supporting fins 26, which are intended simply to support the membranes from the outside. Between the transverse ducts 18 and the working surfaces proper, slmilar pressure ribs 27 are present with somewhat lower supporting ribs 28 marked in black. The supporting ribs 28 become progressively lower, the farther away they are situated from the blood inlet and the blood outlet respec-tively, which is indicated by the arrows B in figure 15. As a result, an even flow of blood is achieved across the whole width of the plate.
; 25 The working surface itself, as can be seen more clearly in figure 19, consists of zigzag-shaped ridges 29 and 30.
Figure 20 shows that the ridges 30 are somewhat lower compared with the ridges 29. Numeral 31 designates transverse distributing ducts, which are intended to facilitate the distribution of the blood and of the dialysis liquid on passing the supporting points 32 and the cast7ng points 33.
Numeral 19 designates sealing beads arranged between the transverse ducts 18 and the front edges 17. Corresponding sealing beads placed parallel with the longitudinal edges 24 of the plate are designated 34.
They can be seen, for example, also in figure 9. Thanks to the sealing grooves 19 and 34, the ~uantity of sealing material inJected can be limited to the strands 14 (fig. 5-8).
g .~t~9~3 Gn the spacer plates I the holes facilitating stacking are also present, designated here 13a Other details given in figures 14-20 will readily ble understood by those skilled in the art and do not therefore require detailed description.
Naturally, the invention is not limited exclusively to the details des-cribed above, but may be varied within the scope of the following claims.
For example, the spacer plates may be modified to resemble any of the spacer plates described in the aforementioned Swedish patents. Alterna-tively, it is of course possible to conceive completely new patterns.