Patent Application
20230055796
The present disclosure relates to recessed plate -type filters, such as filter presses and tower presses. More particularly, the present disclosure relates to an outlet cover a filter plate, and a filter plate assembly for such a filter. The present disclosure further concerns such a recessed plate -type filter itself.
Outlet covers are used in recessed plate -type filters to cover and protect outlet openings and prevent them from being blocked such that filtrate can freely flow out from the filter chamber. Particularly, the outlet covers are used to prevent the filter cake from pushing the filter cloth into the outlet opening. Conventionally, outlet covers are attached to an associated filter plate either directly or via a diaphragm.
Furthermore, outlet covers are simultaneously used to protect the filter cloth from a drying air flow used to dry the filter cake by preventing the drying air flow from being blown directly towards the filter cloth.
For example, the outlet cover may have been provided with a protrusion that is snapped into a groove formed on a diaphragm to frictionally engage therewith. However, this requires a corresponding form to be provided on an associated filter plate for accommodating such a groove on the diaphragm and the protrusion on the outlet cover. It has been discovered, that providing such forms on the filter plates results in excessive internal stresses being exhibited on critical areas of the filter plate, thus resulting in insufficient longevity of the filter plate.
Alternatively, the outlet covers may conventionally have been attached to the filter plate using self-tapping screws which engage a non-threaded pilot hole on the associated filter plate. However, such threads have been found to be stripped under repetitive compression (i.e., when filter plates are pressed together for closing the filter chamber during the filtration cycle). That is, during operation of the filter, a considerable axial force is exerted on the screws, thereby stripping the threads on the plates, often made of a weaker material.
A further conventional way of attaching the outlet cover to the filter plate has been using separate threaded inserts, which are attached to the filter plate and can be replaced separately of the filter plate. Also, through bolts and nuts have also been used for attaching an outlet cover to a filter plate.
All of the known prior art solutions for attaching the outlet cover to the filter plate discussed above share a problem related to repetitive compression cycles during operation exerting considerable axial loads on the outlet cover, thereby causing threads to strip, inserts to shear and become detached or other such issues causing poor longevity of the attachment between the outlet cover and the filter plate.
U.S. patten publication 5,045,191 discloses a filtrate outlet stopper, in which pins are used to engage with an outlet of a filter plate.
An object of the present disclosure is to achieve an outlet cover, a filter plate, a filter plate assembly, and a filter providing increased longevity thereof.
The object of the disclosure is achieved by an outlet cover, a filter plate, a filter plate assembly, and a filter which are characterized by what is stated in the independent claims. The preferred embodiments of the disclosure are disclosed in the dependent claims.
The disclosure is based on the idea of providing the outlet cover with a first attachment pin which is fixed with respect to the outlet cover and has a radially extendable portion, which can radially deform away from the remaining first attachment pin by a radial force exerted on the extendable portion from a hollow inside of the first attachment pin.
In this way, the radially extendable portion provides for an engagement between the first attachment pin and an associated filter plate sufficiently strong to which prevent the first attachment pin from being withdrawn from an associated attachment hole, while allowing the first attachment pin to be compressed further into the associated attachment hole (i.e. when filter plates are pressed against each other during a filtration cycle), thereby preventing a securing element from stripping any retaining surface, and thus increasing the longevity of the outlet cover.
In the following the disclosure will be described in greater detail by means of preferred embodiments with reference to the accompanying drawings, in which
1, showing a cut section along a first attachment pin;
According to a first aspect of the present disclosure, an outlet cover 1 for a recessed plate-type filter, such as a filter press or a tower press, is provided. Most suitably, the outlet cover is suitable for a recessed plate-type filter equipped with a diaphragm for squeezing a filter cake formed in a filter chamber.
The outlet cover 1 comprises a planar base 2 having a generally flat side, defining an outer side 2a of the outlet cover. The planar base 2 has also an opposite side, defining an attachment side 2b of the outlet cover 1, which is to be attached against a diaphragm filter plate assembly.
The outlet cover 1 further comprises one or more a first attachment pins 3 protruding perpendicularly for a distance from the attachment side 2b of the base 2. The first attachment pin 3 does not need to be perpendicular with respect to the base 2, but it should extend perpendicularly therefrom.
The outlet cover 1 further comprises a flow deflector 4 protruding perpendicularly for a distance from the attachment side 2b of the base 2. The flow deflector 4 does not need to be perpendicular with respect to the base 4, but it should extend perpendicularly therefrom.
The flow deflector 4 comprises at least a conduit 4a for deflecting a flow from a transverse chamber side 2c perpendicularly towards the attachment side 2b, and vice versa. In practice, the conduit 4a is arranged to be suitable for conducting a flow from a filter chamber into a collector channel 9a of a filter plate 6, and vice versa. In the connection of this disclosure, the chamber side 2c is defined as side of the outlet cover 1 transverse to both the outer side 2a and the attachment side 2b thereof and residing between the two.
Particularly, the first attachment pin 3 has a hollow shell 3a, the inside of which opens at least towards the outer side, through the base 2.
At least a radially extendable portion 3b is provided on the first attachment pin 3, so as to allow the extendable portion 3b to radially deform away from the remaining shell 3a by a radial force exerted on the extendable portion from the hollow inside of the first attachment pin 3. Moreover, the one or more first attachment pins 3 are fixed parts of the base 2.
Preferably, but not necessarily, the one or more attachment pins 3 are integral parts of the base 2.
More preferably, but not necessarily, the outlet cover 1 is formed a single integral piece.
In an embodiment according to the first aspect of the present disclosure, the radially extendable portion 3b of the first attachment pin 3 is provided at a distal portion of the first attachment protrusion.
This, contributes towards achieving a limited clearance between the outlet cover 1 and an associated filter plate 6 under compression by allowing a form-fitted coupling in a direction of removal to be formed between the first attachment pin 3 and an associated first attachment hole 10a having a diameter increasing towards the bottom thereof. This, in turn, further increases the longevity of the of the outlet cover 1 itself
In the context of the present disclosure, the distal portion of the first attachment pin 3 is used to describe a portion of the attachment pin 3 extending for no more than ½ of the length thereof from the distal end of the attachment pin towards the base 2. Preferably, but not necessarily, the distal portion may be defined as a portion of the attachment pin 3 extending for no more than ⅓ of the length thereof from the distal end of the attachment pin towards the base 2. More preferably, but not necessarily, the distal portion may be defined as a portion of the attachment pin 3 extending for no more than ¼ of the length thereof from the distal end of the attachment pin towards the base 2.
In an embodiment according to the first aspect of the present disclosure, the inside of the hollow shell 3a additionally opens towards the attachment side 2b. In other words, the distal end of the hollow inside of the first attachment piece 3 is open. Consequently, the extendable characteristic of the first attachment pin 3 is increasingly exhibited at the distal end of the first attachment pin 3.
In an embodiment according to the first aspect of the present disclosure, the expandable portion 3b is formed partially separated from the remaining shell 3a of the first attachment pin 3. This allows the extendable portion 3b to radially deflect away from the remaining shell 3a by a radial force exerted on the extendable portion from the hollow inside of the first attachment pin 3.
This provides the advantage, that the first attachment pin 3, and preferably the whole outlet cover 1, can be manufactured from a more rigid material while still enabling the extendable characteristics thereof, as compared to an attachment pin in which the extendable portion is not partially separated from the remaining shell.
Preferably, but not necessarily, the radially extendable portion 3b of the first attachment pin 3 is partially separated from the remaining shell 3a by at least one cut-out 3b′ extending radially along the shell 3a and axially along the first attachment pin 3. More preferably, but not necessarily, the at least one cut out 3b′ extends through the shell 3a.
More preferably, but not necessarily, such at least one cut-out 3b′ extends from a distal end of the first attachment pin 3 towards the planar base 3. This provides a structure of the extendable portion 3b, in which the radial extendibility is exhibited mostly at the distal end of the first attachment pin 3. Furthermore, such a structure is considered particularly advantageous in connection with an associated first attachment hole 10a of a filter plate 6, having an inner diameter increasing towards the bottom of the said hole 10a, as a secure attachment allowing a mutual clearance may be achieved.
In an embodiment according to the first aspect of the present disclosure, the first attachment pin 3 has an inner diameter decreasing towards the distal end thereof. Also, this provides a structure of the extendable portion 3b, in which the radial extendibility is exhibited mostly at the distal end of the first attachment pin 3. Furthermore, such a structure is considered particularly advantageous in connection with an associated first attachment hole 10a of a filter plate 6, having an inner diameter increasing towards the bottom of the said hole 10a, as a secure attachment allowing a mutual clearance may be achieved.
In an embodiment according to the first aspect of the present disclosure, the base 2 of the outlet cover 1 extends from the flow deflector 4 for a distance towards the chamber side 2c.
This further prevents a filter cake formed within a filter chamber from pushing a filter cloth over a conduit 4a, thereby blocking it. Furthermore, such an extended base 2 further directs a drying flow directed into the filter chamber so as to be more aligned with the filter cloth as it contacts the filter cloth, thereby reducing the abrasive effect on the filter cloth.
In an embodiment according to the first aspect of the present disclosure, the one or more first attachment pins 3 are arranged aligned with the flow deflector 4, on the chamber side 2c with respect thereto.
When an outlet cover 1 is provided on a lower edge of an filter plate 6, a gravitationally discharged filter cake may cling to or hit the outlet cover during discharge. This, in turn, may bend or otherwise damage the outlet cover, particularly because the flow deflector 4 forms a relatively large unattached (to the filter plate) portion of the outlet cover. Arranging the one or more first attachment pins 3 accordingly is advantageous, as increased support is achieved to an area which is most susceptible to deformation or damage caused by filter cake being discharged.
Moreover, if the outlet cover 1 is associated with a filter plate assembly equipped with a filter diaphragm 11, inherently equipped with a flow opening 13 for receiving the flow deflector 4 therethrough, arranging the first attachment pins 3 accordingly provides increased support and secures the diaphragm 11 around the flow opening 13, thereby preventing solids build-up between the diaphragm and the filter plate 6, and/or between the diaphragm 11 and the outlet cover 1.
Preferably, but not necessarily, the one or more first attachment pins are provided unaligned with the conduits 4a of the flow deflector 4, such that flow thereto is not hindered.
In an embodiment according to the first aspect of the present disclosure, the conduit 4a of the flow deflector comprises a curved deflection surface 4a′ for deflecting a flow from a transverse chamber side 2c perpendicularly towards the attachment side 2b, and vice versa.
In an embodiment according to the first aspect of the present disclosure, the conduit 4a of the flow deflector 4 is open between an opening thereof towards the chamber side 2c and an opening thereof towards the attachment side.
In an embodiment according to the first aspect of the present disclosure, the flow deflector 4 comprises a plurality of conduits 4a laterally separated from each other with one or more intermediate walls 4b.
This enables flow running through the plurality of conduits 4a to be aligned with an associated collector channel 9a on a filter plate 6, thus reducing turbulence of the flow and associated problems, such as solids build-up or accumulation. The collector channels 9a on the filter plate 6 are suitably provided a plurality of distinct openings, as opposed to a single larger opening, so as to achieve a required structural strength.
Should the flow deflector 4 be provided with a plurality of conduits 4a and intermediate walls 4b, in connection with the first attachment pins 3 being provided on the filter chamber side 2c with respect to the flow deflector 4 and aligned therewith, the first attachment pins 3 are most suitably aligned with the intermediate walls 4b, such that they interfere with the flow as little as possible.
In an embodiment according to the first aspect of the present disclosure, the outlet cover 1 comprises one or more second attachment pins 5 protruding perpendicularly from the attachment side 2b of the base 2.
Such second attachment pins 5 are provide additional support for the outlet cover 1, and may additionally be used for attaching a filter diaphragm 11 to the filter plate 6, as described in more detail below in connection with an embodiment of the third aspect of the present disclosure, while providing additional support for the outlet cover 1.
Preferably, but not necessarily, such one or more second attachment pins 5 are hollow and have an inside open towards both the attachment side 2b and the outer side 2a, through the base 2. This allows any possible pressure build-up within the second attachment hole 10b of the filter plate 6 to equalize through the hollow inside of the second attachment pin 5.
Preferably, but not necessarily, such one or more second attachment pins 5 are arranged on one or more lateral sides 2d with respect to the flow deflector 4, suitably aligned therewith.
As the flow deflector 4 forms a relatively large unattached (to the filter plate) portion of the outlet cover 1, the one or more second attachment pins 5 accordingly is advantageous, as increased support is achieved.
Moreover, if the outlet cover 1 is associated with a filter plate assembly equipped with a filter diaphragm 11, inherently equipped with a flow opening 13 for receiving the flow deflector 4 therethrough, arranging the second attachment pins 5 accordingly provides increased support and secures the diaphragm 11 around the flow opening 13, thereby preventing solids build-up between the diaphragm and the filter plate 6, and/or between the diaphragm 11 and the outlet cover 1.
It should be noted that the present disclosure encompasses any combination of the embodiments, or variants thereof, of the first aspect, as discusses above.
According to a second aspect of the present disclosure, a filter plate 6 for a recessed type filter, such as a filter press or a tower press is provided. Most suitably, the filter plate 6 is suitable for a recessed plate -type filter equipped with a diaphragm for squeezing a filter cake formed in a filter chamber.
The filter plate 6 comprises a frame region 7 surrounding and having an increased thickness with respect to the remaining portion of the filter plate 6, and at least on a first surface of the diaphragm filter plate, a web region confined by, and recessed with respect to the frame region 7.
The filter plate 6 further comprises an internal collector duct 9 with one or more collector channels 9a opening towards the web region so as to provide fluid communication between the collector duct 9 and the web region.
The filter plate 6 further comprises one or more first attachment holes 10a for receiving the one or more first attachment pin 3 of the outlet cover 1, as discussed above in connection with the first aspect of the present disclosure.
Particularly, the one or more first attachment holes 10a have an inner diameter increasing towards a bottom of the hole 10a. Such first attachment holes 10a may be implemented, e.g. b providing the opening of such a hole 10a with an overhang, or correspondingly, providing the bottom of such a hole 10a with an undercut. Moreover, the first attachment hole 10a could be provided with an inclined side wall.
This ensures, that an extendable portion 3b of a first attachment pin 3 of an outlet cover 1 form-fittingly engages with the first attachment hole 10a. In other words, the first attachment pin 3 cannot be pulled out of the first attachment hole 10a after the extendable portion 3b has been radially extended, because the outer diameter of the extendable portion 3b has extended so as to exceed the inner diameter near the opening of the first attachment hole 10a. At the same time, the first attachment pin 3 may be allowed movement deeper in to the first attachment hole 10a, e.g. upon pressing adjacent filter plate assemblies together during a filtration cycle of an associated filter press. This increases the longevity of the outlet cover 1 and prevents a securing element 15 inserted into the first attachment pin 3 from stripping the threads thereof.
Preferably, but not necessarily, the one or more first attachment holes 10a are arranged on a filter chamber side 2c with respect to the one or more collector channels 9a, preferably laterally between two adjacent collector channels 9a.
As discussed above, in connection with the first aspect of the present disclosure, providing first attachment holes 10a (and associated first attachment pins 3) on a filter chamber side 2c with respect to the collector channels 9a (and an associated flow deflector 4) improves the support for the outlet cover, and prevents a filter cake being discharged from damaging or of deforming the outlet cover 1. Additionally, this prevents solids build-up in connection with a flow opening 14 of a filter diaphragms 11, if such a diaphragm 11 is used.
In an embodiment according to the second aspect of the present disclosure, the filter plate 6 has a recessed area for receiving a portion of the flow deflector 4, such that the flow deflector 4 is seated against the recessed area.
This simultaneously improves the sealing between the flow deflector 4 of the outlet cover 1 and the support between the outlet cover 1 and the filter plate 6. Particularly transverse and lateral loads exerted on the outlet cover 1 (such as a filter cake being partially and temporarily carried by the outlet cover 1 during cake discharge) may predominantly be supported via the flow deflector 4, while the one or more first attachment pins 3 secure the outlet cover to the filter plate 6, and any possible second attachment pins 5 help prevent rotation of the outlet cover 1.
In an embodiment according to the second aspect of the present disclosure, the filter plate 6 comprises one or more second attachment holes 10b for receiving the one or more second attachment pins 5. This both increases the support for the outlet cover 1, and where a filter diaphragm 11 is provided, may be used for attaching the diaphragm 11 to the filter plate 6 at the outlet cover 1.
Preferably, but not necessarily, the one or more second attachment holes 10b are preferably arranged on either or both lateral sides 2d with respect to the collector channels 9a.
As discussed above, in connection with second attachment pins 5 of the outlet cover 1 according to the first aspect, this improves the support of the outlet 1 cover near the flow deflector 4, which constitutes a relatively large, unsupported area, and helps prevent build-up of solids between the diaphragm 11 (is provided) and the filter plate 6 and/or the outlet cover 1.
Preferably, but not necessarily, also the second attachment hole 10b have an inner diameter increasing toward the bottom thereof. Again, this could be done by providing the opening of the second attachment hole 10b with an overhang, the bottom thereof with an undercut, or an inclined side wall. This would enable second attachment studs 14 formed on a diaphragm to form-fittingly occupy a space below the opening of the second attachment hole 10b, thereby preventing the second attachment studs 14 from being pulled out of the second attachment hole 10b. In practice, the second attachment pins 5 inserted into the second attachment studs 14, prevents the second attachment studs 14 from deforming to a form fitting through the opening of the second attachment hole 10b.
It should be noted that the present disclosure encompasses any combination of the embodiments, or variants thereof, of the second aspect, as discusses above.
According to a third aspect of the present disclosure, a filter plate assembly for a recessed type filter, such as a filter press or a tower press, is provided. Most suitably, the filter plate assembly is suitable for a recessed plate -type filter equipped with a diaphragm for squeezing a filter cake formed in a filter chamber.
The filter plate assembly comprises an outlet cover 1 according to the first aspect of the present disclosure, and a filter plate according to the second aspect of the present disclosure.
The outlet cover 1 is attached to the filter plate 6, such that the first attachment pin 3 is at least partially received within the first hole 10a of the of the filter plate 6, such that at least the extendable portion 3b is situated within the first attachment hole 10a.
Moreover, the flow deflector 4 is seated against the filter plate 6, such that an opening of the flow deflector's 4 conduit 4a towards the filter plate 6 is aligned with a collector channel 9a of the filter plate 6, and an opening of the flow deflector's 4 conduit 4a towards the filter chamber is elevated from the filter plate 6.
The filter plate assembly further comprises a securing element 15 inserted into the hollow inside of the first attachment pin 3, thereby deforming the extendable portion 3b so as occupy a diameter larger than that of an opening of the first attachment hole 10a, and securing the first attachment pin 3 to the first attachment hole 10a. This from-fitted engagement between the first attachment pin 3 and the first attachment hole 10a, prevents the first attachment pin 3 from being pulled out of the first attachment hole 10a.
In an embodiment according to the third aspect of the present disclosure, the first attachment pin 3 and the first attachment hole 10a are configured such that the longitudinal end of the first attachment pin 3 does not reach the bottom of the first attachment hole 10a. This allows a limited clearance between the first attachment pin 3 and the first attachment hole 10a towards each other, e.g., when adjacent filter plate assemblies are pressed against each other during a filtration cycle of an associated filter press. This improves the longevity of the outlet cover 1, and prevents a securing element 15 form stripping the thread on the first attachment hole 10a.
In an embodiment according to the third aspect of the present disclosure, the filter plate assembly further comprises a diaphragm 11 releasably attached to the filter plate 6, so as to extend over the web region of the plate 6. The purpose of the diaphragm 11 is to squeeze reaming liquid contents out of a filter cake formed within a filter chamber.
The diaphragm 11 comprises a sheet-like body having a flexible structure. That is, the body of the diaphragm 11 is able to yield without permanent deformation.
The diaphragm further comprises one or more first openings 12 extending through the body for receiving the one or more first attachments pins 3 of the outlet cover 1 therethrough. The diaphragm also comprises a flow opening 13 extending through the body for receiving the flow deflector 4 of the outlet cover 1 therethrough.
The outlet cover 1 is attached to the filter plate through the diaphragm 11, such that the first attachment pin 3 extends through the first opening 12 of the diaphragm 11 and is received within the first hole 10a of the of the filter plate 6.
Moreover, the flow deflector 4 extends through the flow opening 13 of the filter diaphragm 11 and is seated against the filter plate 6, such that an opening of the flow deflector's 4 conduit 4a towards the filter plate 6 is aligned with a collector channel 9a of the filter plate. The opening of the flow deflector's 4 conduit 4a towards the filter chamber is elevated from the diaphragm 11 in a direction away from the filter plate, thus allowing filtrate flow from the filter chamber to enter the conduit 4a.
If the filter plate assembly is provided with a diaphragm 11, the outlet cover 1 is preferably, but not necessarily, equipped with one or more second attachment pins 5, as discussed above in connection with any embodiment, or variant thereof, of the first aspect including such second attachment pins. Correspondingly, the filter plate 6 is preferably, but not necessarily, equipped one or more second attachment holes 10b, as discussed above in connection with any embodiment, or variant thereof, of the second aspect including such second attachment hole 10b. In such a case, the one or more second attachment pins 5 are at least partially received within the second attachment holes 10b.
Furthermore, the diaphragm 11 preferably, but not necessarily, further comprises one or more a second attachment studs 14 for attaching the diaphragm 11 to the filter plate 6.
Such second attachment studs 14 extending in a direction perpendicular to the diaphragm body towards the plate 6, and being equipped with an opening extending through the filter diaphragm 11, between opposing sides thereof,
The one or more second attachment studs 14 of the diaphragm may then be received in the one or more second attachment holes 10b of the filter plate 6. Moreover, the one or more second attachment pins 5 of the outlet cover 1 are inserted into the second attachment studs 14 so as to elastically compress the second attachment stud 14 against the second attachment hole 10b thereby securing the diaphragm 11 to the filter plate 6.
In an embodiment according to the third aspect of the present disclosure, the securing element 15 is a screw, preferably a self-tapping screw, which can be screwed into the first attachment pin 3, even without a pre-existing thread. Alternatively, the securing element 15 may be provided as an additional pin or rivet inserted into the hollow inside of the first attachment pin 3, although a screw is considered particularly advantageous, as it enables easy removal thereof.
In an embodiment according to the third aspect of the present disclosure, the filter plate 6 has a recessed area for receiving a portion of the flow deflector 4, wherein the flow deflector 4 is seated against the recessed area.
This simultaneously improves the sealing between the flow deflector 4 of the outlet cover 1 and the support between the outlet cover 1 and the filter plate 6. Particularly transverse and lateral loads exerted on the outlet cover 1 (such as a filter cake being partially and temporarily carried by the outlet cover 1 during cake discharge) may predominantly be supported via the flow deflector 4, while the one or more first attachment pins 3 secure the outlet cover to the filter plate 6, and any possible second attachment pins 5 help prevent rotation of the outlet cover 1.
It should be noted that the present disclosure encompasses any combination of the embodiments, or variants thereof, of the third aspect, as discusses above.
According to a fourth aspect of the present disclosure, a recessed plate-type filter, such as a filter press or tower press, is provided.
The filter comprises a plurality of diaphragm filter plate assemblies according to any of the embodiments, or variants thereof, of the third aspect, as discussed above. The diaphragm filter plate assemblies are configured movable towards each other into a closed position in which a filter chamber is formed between adjacent diaphragm filter plate assemblies, and away from each to an open position in which adjacent diaphragm filter plate assemblies are spaced apart from each other.
The filter further comprises a filter medium arranged between adjacent diaphragm filter plate assemblies.
The filter further comprises a translation arrangement for moving the diaphragm filter plate assemblies towards each other so as to form a filter chamber between adjacent filter plates, and away from each other so as to open the filter chamber.
The filter further comprises a feed arrangement for feeding slurry into the filter chamber.
The filter further comprises a recovering arrangement for recovering filtrate from the filter chamber.
The filter further comprises a discharge arrangement for discharging a filter cake formed within the filter chamber.
1—outlet cover
2—planar base
2
a—outer side of outlet cover
2
b—attachment side of outlet cover
2
c—chamber side of outlet cover
2d—lateral side of outlet cover
3—first attachment pin
3
a—hollow shell of first attachment pin
3
b—radially extendable portion of first attachment pin
3
b′—cut out separating radially extendable portion of first attachment pin 3 from remaining shell 3a.
4—flow deflector
4
a—conduit of flow deflector
4
a′—curved flow surface
4
b—intermediate wall of flwo deflector
5—second attachment pin
6—filter plate
7—frame region of filter plate
9—internal collector duct
9
a—collector channel of internal collector duct
10
a—first attachment hole
10
b—second attachment hole
11—diaphragm
12—first opening of diaphragm
13—flow opening of diaphragm
14—second attachment stud of diaphragm
15—securing element
This application is the U.S. national stage application of International Application PCT/FI2020/050166, filed Mar. 17, 2020, which international application was published on Sep. 23, 2021, as International Publication WO 2021/186098 A1 in the English language.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/FI2020/050166 | 3/17/2020 | WO |
