The present disclosed subject matter is concerned with filtration systems. The disclosed subject matter is further concerned with a fluid distribution manifold for a filtration system, as well as with filtration assemblies.
The present disclosed subject matter is also concerned with a support structure for filtration systems.
A wide variety of fluid filtering systems is available, among which are also multiple filtering systems, i.e. systems comprising a plurality of integrated filtration units.
An important consideration in the field of filtering systems is the effective filtration volume (i.e. filtration capability of a filtration system) compared with the space such a filtration system occupies, and its footprint, i.e. the effective area occupied by a filtration system.
Yet an important consideration in the field of filtering systems is the ease at which servicing and maintenance may be attended to the system.
For that purpose there is a need for designing compact filtering systems as well as fluid couplings and supporting arrangements therefore.
It is an object of the present disclosed subject matter to provide a filtration array configured with a plurality of filtration assemblies, each configured with a plurality of filter units.
According to a first aspect of the presently disclosed subject matter there is a filtration array comprising a main raw fluid supply line and a main filtered fluid collecting line, at least one filtration flow path extending between said main raw fluid supply line and main filtered fluid collecting line, each at least one filtration flow path configured with a filtering assembly comprising a plurality of filter units extending from a manifold configured on said filtration flow path and being in flow communication with the main raw fluid supply line and the main filtered fluid collecting line.
The filtration array comprises a main raw fluid supply line and a main filtered fluid collecting line, at least one filtering assembly extending between said main raw fluid supply line and said main filtered fluid collecting line; each of said at least one filtering assembly comprising three or more filter units; each of said filter units extending from a manifold being in flow communication with the main raw fluid supply line and the main filtered fluid collecting line.
An aspect of the disclosed subject matter is also concerned with a filtering assembly for mounting between a main raw fluid supply line and a main filtered fluid collecting line; said filtering assembly comprising three or more filter units, each of which units extending from a manifold configured for being in flow communication with the main raw fluid supply line and the main filtered fluid collecting line.
Any one or more of the following configurations, features and designs can be incorporated in a filtration array according to the disclosed subject matter, independently or in one or more combinations:
According to another aspect of the presently disclosed subject matter there is provided a manifold for fluid coupling a plurality of filter units to a filtration flow path extending between a main raw fluid supply line and a main filtered fluid collecting line.
The manifold comprises a housing configured for coupling a plurality of filter units to a flow line extending between a main raw fluid supply line and a main filtered fluid collecting line, said manifold comprising a main inlet port configured for coupling to the main raw fluid supply line and extending to an inlet chamber, and a main outlet port configured for coupling to the main filtered fluid collecting line and extending to an outlet chamber; a plurality of filter unit couplers extending from the manifold housing, each configured for coupling thereto a filter unit; a distribution port associated with each filter unit coupler and extending from said inlet chamber and configured for coupling to an inlet port of a respective filter unit; and a collecting port associated with each filter unit coupler and extending form said outlet chamber and configured for coupling to an outlet port of a respective filter unit;
Any one or more of the following configurations, features and designs can be incorporated in a manifold according to the disclosed subject matter, independently or in one or more combinations:
According to yet another aspect of the presently disclosed subject matter there is provided a support system for retaining a filtration array.
The support system comprises a pair of ground supports each configured with at least a main line support portion for supporting one of a main raw fluid supply line and a main filtered fluid collecting line; a filtration assembly arresting portion for coupling to a filtration assembly extending between the main raw fluid supply line and the main filtered fluid collecting line, and a bracing arrangement for interconnecting two neighboring supports.
According to one particular example the support system comprises a pair of supports each configured with a ground engaging portion configured for resting over a ground surface; at least a main line support portion for supporting one of a main raw fluid supply line and a main filtered fluid collecting line; and a bracing arrangement for interconnecting two neighboring supports and arresting a portion of a filtration assembly extending substantially vertically between the main raw fluid supply line and the main filtered fluid collecting line.
Any one or more of the following configurations, features and designs can be incorporated in a support system according to the disclosed subject matter, independently or in one or more combinations:
It is appreciated that the filter unit in the following examples can be any type of filtering media such as a stack of filtering disks, a filtering screen (i.e. a fine mesh of material) or a thread-type cylinder, etc,.
Also, the term fluid as used herein the specification and claims is defined as any flowable matter, i.e. gas or liquid, regardless its purpose, degree of contamination, particle size, viscosity, pressure or any other parameters. Hence, herein in the specification and claims the term fluid is used in its broadest sense.
Raw fluid denotes a fluid (gas or liquid) to be filtered, and Rinsing fluid denotes a fluid (gas or liquid) used for rinsing/flushing the filter unit or filtering media or other components of the filter assembly. It is noted that in some cases filtered fluid serves as a rinsing fluid. Filtered fluid denotes the fluid/liquid obtained after a filtration process, namely after removing particles and contaminating matter.
Respective inlet ports and outlet ports may serve for more than one function. For example, a certain port may function at one stage as a raw fluid inlet port and at another stage may function as a waste/rinsing outlet port. Also, fluid flow can take place in reverse direction, depending on the particular intended configuration.
In order to understand the different aspects of the disclosed subject matter, and to see how it may be carried out in practice, embodiments will now be described, by way of non-limiting examples only, with reference to the accompanying drawings, in which:
With attention first being drawn to
The filtration array 10 comprises a plurality of filtering assemblies 12 (five shown in the present example) extending between a main raw fluid supply line 14 and a main filtered fluid collecting line 16.
In the present example the main raw fluid supply line 14 and the main filtered fluid collecting line 16 extend substantially horizontal and parallel to one another (namely longitudinal axis X1 being substantially parallel to longitudinal axis X2) and defining together a substantially vertically extending plain. Each of the filtering assemblies 12 is configured on a filtration flow path defined between the main raw fluid supply line 14 and a main filtered fluid collecting line 16, said filtration flow path extending substantially vertically and designated Yi, i.e. with the plain and perpendicular to the longitudinal axes X1 and X2.
Each of the filtering assemblies 12 comprises a plurality of filter units 20 (four in the present example, though the filtration array can be configured with any practical number of filtering assemblies). The filter units 20 of a filtering assembly are designated 20A, 20B, 20C and 20D, and the filter units of a neighboring filtering assembly are designated 20A′, 20W, 20C′ and 20D′, respectively.
It is appreciated that the filter units in the following examples can be any type of filtering media such as a stack of filtering disks, a filtering screen (i.e. a fine mesh of material) or a thread-type cylinder, etc, or a combination of filtering units.
Further noted in
A faucet between the manifold and the main filtered fluid collecting line 16 van be configured (not shown) for shutting flow through a elected filtering flow path, e.g. for servicing same however without interrupting with operation of other filtration systems in the array.
Whilst in the illustrated example the drain pipe 40 extends below the manifold 22, according to other examples (not shown) the drain pipe can be configured above the manifold, i.e. where the main raw fluid supply line extends above the filtered fluid collecting line.
The filter units 20 of a filtering assembly 12 extend from a common manifold 22 referred to hereinafter in detail with reference to
As can be seen in
The arrangement disclosed is such that the coaxial axis extending along axes 30A-30C is thus parallel to the coaxial axis extending along axes 30A′-30C′, the coaxial axis extending along axes 30B-30D is thus parallel to the coaxial axis extending along axes 30B′-30D′, and accordingly axis 30A-30C intersects (at a right angle in the particular example) the axis 30B-30D, and likewise axis 30A′-30C′ intersects (at a right angle in the particular example) the axis 30B′-30D′. Also, axis 30C intersects axis 30B′, axis 30D intersects axis 30A′, etc.
It is appreciated that a quadrant configuration of filtering assemblies is a particular example and other configurations can be performed as well, i.e. as far as the number of filter units 20 in each filtering assembly 12 (e.g. as illustrated in
As can further be noted in
This configuration provides for a space efficient layout of the filter units and their respective filtering assemblies of the filtration array, i.e. obtaining an small footprint yet allowing easy access to each filter unit, for ease maintenance and servicing thereof.
The space saving configuration disclosed hereinabove is facilitated owing to the configuration of the respective filtering assemblies and their respective filter units with respect to one another and this in turn is facilitated owing to the construction of the manifold 22 (discussed hereinafter with reference to
The configuration of
It is further appreciated that whilst in the present illustrations of
Turning now to
Note should be made that whilst in the present example the manifold 22 is configured for use with four filter units 20, the same principle design may be made, mutatis mutandis for use with any practical number of filter units, e.g. two, three, four or even five such filter units. For sake of illustration,
The manifold 22 comprises a substantially cylindrical body 70 configured with a main inlet port 72 configured for coupling to the main raw fluid supply line via the interconnecting inlet pipe 24 (see
As can best be seen in
If required, an interconnecting coupler can be used. Each filter unit coupler is configured with a distribution port 82A, 82B, 82C and 82D, respectively, extending from the inlet chamber 76, and a collecting port 84A, 84B, 84C and 84D respectively, extending from the outlet chamber 78, wherein said distribution ports 82A to 82D extend coaxially over the collecting ports 84A to 84D. In a respective manner, the distribution ports 82A to 82D are in flow communication with a respective inlet of a filter unit and the collecting ports 84A to 84D are in flow communication with a respective outlet port of the filter units 20, whereby the filter units are functionally coupled to the respective raw fluid supply line 14 and the filtered fluid collecting line 16, forcing the fluid to flow through the filtering media. It should be noted that in fact, a filtration element is screw coupled, or otherwise articulated over the tubular projection of the collecting ports 84A to 84D, whilst the housing of each filter unit is screw coupled to the external threading at 80A to 80D.
As can best be seen in
It is also noted from the figures here insofar, that a longitudinal axis Z of the manifold 22 extends coaxial with the filtration flow path, i.e. the longitudinal axis Yi of each of the filtering assemblies 12 and that the filter unit couplers 80A through 80D extend about perpendicular axes Q and P, intersecting one another and defining a plane substantially normal to the axis Z, said axes Q and P extending coaxial with the longitudinal axes 30B to 30D and 30A′ to 30D′ of the filter units 20A to 20D and 20A′ to 20D′, respectively.
Whilst in the particular example as illustrated herein the filtering assemblies 12 each comprise a plurality of filter units 20, extending coplanar and about a substantially horizontal plain (i.e. the axes Q and P intersect the longitudinal axis Z of the manifold at a right angle), there can be other configurations wherein the filter units are disposed about an angle other than 90°, e.g. with their respective free ends extending above their point of articulation to the manifold, thereby reducing evermore the footprint of the filtration assemblies.
Further attention is now directed to
The support system 100 comprises a pair of supports 102 each configured with a widened base ground engaging portion 103 configured for resting or supporting to a ground surface, and a main line support portion 106 which in the present example is configured as an annular portion designed for bracing a main raw fluid supply line 14 (not shown in
Ground anchoring locations 122 are configured at the ground engaging portion 103, through which securing studs or other securing members can be inserted into the ground for fixing the structure.
The supports 102 can be made, for example, of moulded plastic material, reinforced by plurality of ribs and/or with reinforcing material e.g. reinforcing fibrous material, etc.
As seen best in
However, it is appreciated that the length of the interconnecting inlet pipe 24 may be such that a support member can be associated with each filtration flow path, or with alternating ones, as illustrated in the drawings.
In
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IL11/50065 | 12/15/2011 | WO | 00 | 6/12/2013 |
Number | Date | Country | |
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61423787 | Dec 2010 | US |