Note: Descriptions are shown in the official language in which they were submitted.
~ ~713~ ~
-- 1 --
This application is a division of Canadian
patent application Serial No. 387,353-3 filed October 6,
1981.
The present invention relates to a filter cartridge
to be mounted in a liquid to be filtered in a chamber of a
filter housing and having a microporous membrane filter
media with a core extending longitudinally therethrough
with end caps sealing tnis filter media and having a flow
path therethrough in communication with the core.
The specific construction of the membrane filter
means disposed within the "on site of use" housing is not
to be construed as a limitation of the present invention.
The filter means may be a suitably supported disc-type
membrane or a membrane type filter cartridge. The present
invention also contemplates simultaneously testing multiple
membrane type filter cartridges and determining which, if
any, individual cartridge is not suitable for usa: such
cartridges belng of unique design.
Membranes are being employed in the filtra-
tion of liquids w'nere sterility must be assured and
bacteriological organisms must be removed. Th,is is
normally accomplished by using membranes in the micro-
porous range such as disclosed in U.S. patent 3,876,738.
l.S. 16, 1J~
L3~
Users of membrane filters require validation of the
filters before, during and after product filtration,
and it is necessary to prevent any conta~ination
from being introduced from outside sources. This
5 dictates the importance of on site of use testing
without creating outside sources of contamination.
In methods according to the prior art it has nor-
mally been necessary to use accessory equipment such
as graduated cylinders, flasks, pans, hoses, etc.,
10 all of which are extraneous to the fixed on site
installation. Various membrane fil-ter tests used up
to this time by industry are described in an article
entitled "Non-Destructive Tests For Bacterial Re-
tentive Filters" by Ben Trasen which was published in
15 the September/October 1979 issue of the Journal of
Parental Drug Association, pages 273 to 279.
The applicant knows of no prior art method
of simultaneously testing multiple membrane filter
cartridges and individually validating or positively
20 determining which one of the several cartridges is
; defective in a multi-cartridge housing. However,
industry has been using multiple membrane cartridges
within a single housing and, to avoid unnecessary con-
tamination, has been batch testing the cartridges at
25 the point of use in a manner noted above. It should
be appreciated that membrane cartridges are costly
and with the batch test methods presently in use, all
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., ~
~ 17~3~3
of the cartridges in a single housing are probably
discarded when there may be only one which is bad.
Accordingly, one object of the present
invention is to provide an improved method and appar-
atus for testing membrane filters at the site of use.
~ Another object of the present invention
is to provide a method and appara~us which requires
no extraneous equipment and once the connections to
the housing have been made and the housing has been
closed, the integrity of the filter unit during test
and use is not disturbed unless a defective membrane
filter must be replaced.
Still another object of the present inven-
tion is to provide a method and apparatus wherein a
~; 15 plurality of membrane filters are simultaneously
tested wit~in a single housing.
And another object of the present invention
is to provide a method and apparatus~with means for
deter~ining whether each of the membrane filters is
acceptable for us~e. ~
And another object of the present invention
is to provide a method~and apparatus with permanent
inlet and outlet connections for both the test liquid
and the liquid to be filtered, and inlet and outlet
connections remaining undisturbed when a mem~rane
filter is replaced.
:,,
~ ~ 1363
Still another object of the present invention is
to provide a novel membrane filter cartridge with its core
open at both ends during use of the cartridge.
And still another object of the present invention
is to provide a membrane filter c rtridge with redundant
sealing means at its ends.
According to the above objects, from a broad
aspect, there is provided a filter cartridge with spaced
longitudinal ends to be mounted in a liquid to be filtered
in a chamber of a filter housing. The cartridge comprises
a microporous membrane filter media for filtering liquid
flow therethrough and having a core extending longitudinally
through the filter media to receive filtered liquid. A
pair of end caps seals the filter media at the longitudinal
ends of the cartridge and is arranged to be inserted into
aligned sockets in a filter housing for mounting the cartridge
in the chamber. Each of the end caps defines a flow path
therethrough in communication with the core permitting flow
of filtered liquid from the core out of both ends of the
cartridge.
The Foregoing and other objects and advantages
will appear more fully hereinafter from a consideration of
the detailed description which follows, taken together wi h
the accompanying drawing wherein several embodiments of the
invention are illustrated by way of example. It is to be
expressly understood, however, that the drawings are for
illustration purposes only and are not to be construed as
defining the limits of the present invention.
~13~3
- 4a -
FIGURE 1 of the drawings is an elevational view
of a multi-cartridge fllter with portions thereof broken
away to better lllustrate the present invention.
FIGURE 2 is an elevational view of a filter in
accordance.with the present invention having a disc type
membrane for the filter media therein.
FIGURE 3 is a sectional view taken on line 3-3
of Figure 2.
I,S, 16,138
~ ~7~ 363
While only a multi-cartridge housing is
shown in FIGURE 1 of the drawings, a showing of a
single cartridge and housing would be mere dupli-
cation of the illustration provided. For clarity,
5 the novel invention will be described and discussed
in connection with mu~ti-cartridges in a single
housing. When applied to a single cartridge in a
single cartridge housing, duplication of parts and
manifolding for multi-cartridges would not be re-
10 quired, as will be further discussed.
It also is to be understood that membranecartridges as used herein is intended to mean any
cartridge type filters having membrane filter media.
To facilitate description, three-way valves are
15 employed to alterna~ively connect test liquid or
liquid to be filtered to the inlet and outlet which
may also be closed by such valves.~ A three way valve
is also employed to alternatlvely close or connect
the filter chamber within the housing to atmosphere
20 for venting or to control air pressure as may be
required. It is~considered to be merely a matter of
choice to employ such three way valves or to use
separately valved line connections.
Referring~now to the drawings, and more
25 particularly to FIGURE l, the novel apparatus is pro-
vided with a housing com~risin~ tubular cover 10
I.S. 16, 138
1 ~713~3
having a flange ring 11 for releasably connect-
ing the cover at its lower end to a base 20 by a
series of releasable connector or fastening means
12 (only one being sho~). The upper end of the-
5 cover 10 is closed by a top plate 15 having a plur-
ality of openings 16 with sockets or adaptors 17A
for mounting visual flow condition indicating means
such as sight glasses or gages 17. Each glass or
gage 17, which is provided at its inner end with a
; 10 socket or adaptor 17A, is provided at its outer
end with a valve 18 the function of which will be
fur~her discussed. It should be noted that the
sockets or adaptors provide flow communication be-
tween the upper portion of the filter chamber 13 and
5 the indicating means or sight glasses 17.
The housing comprising the cover 10 and
base 20 ~efines a filter chamber 13 which is pro-
vided with a port or ~low path 19 in communication
with the upper portion of the filter cham~er 13. The
20 flow path 19 is provided to vent the filter chamber
13 to a~mosphere and is ~dapted to be selectively
closed and connected to a source 37 of controlled air
pressure having a gage 38 for instan~aneously in-
dicating pressure of the controlled air, preferably by
25 provision of a three way valve 35 having a vent
connection or port 36, as shown.
I.S. 16,138
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~ ~713~3
The base 20 is formed by an inner plate
21 and an outer plate 22 joined together in face
to face relationship by a series of fasteners 23
(only one shown). The plates 21 and 22 are pro-
5 vided with axially aligned central openings definingan inlet 24 for the filter chamber 13. The outer
plate 22 is further provided with a recess 26 form-
ing a manifold which provides communication between
an outlet 25 in the outer plate 22 and a plurality
10 of sockets or socket openings 27 through the inner
plate 21. The openings 27 are equal in number and
are axially aligned with the openings 16 in the upper
plate 15 or with the sockets or adaptors 17A for the
sight glasses or indicating means 17. The inlet 24
15 is adapted to selectively receive test liquid and
liquid to be filtered, and also be closed or connected
to drain the chamber 13; while the outlet 25 is adap-
ted to be selectively closed, connected to dlscharge
test liquid and to discharge filtered liquid. This
20 is preferably accomplished by providing three way
valve 40 to close the~inlet 24 in one position or to
connect the inle~ to a source 41 of test liquid or a
source 42 of liquid to be filtered. Similarly, a t~ree
way valve 45 is provided to close outlet 25 or to
25 connect the outlet to a discharge line 46 for test
: liquid or to a discharge line 47 for filtered liauid.
I.S. 16,1~8
.
~ 1713~3
. A suitable valved drai~ or drain valve 28 for the
filter chamber 13 is provided adjacent the valve 40,
as show~,or valve 40 may be made to provide a drain
position. Alternatively, filter chamber 13 can be
5 fully drained by removing pressure from inlet line
41 for test liquid which is connected to inlet 24
by the valve 40,. and, opening valve 35 to vent.
A plurality of membrane cartridges 30 are
provided in the filter chamber 13 each havin~ a unique
10 upper end cap or cap assembly 31 sealing the top end
of the membrane and extending or being plugged into
the socket 17A of a sight glass 17. Each end cap 31
~ is provided with redundant socket seal ~eans in the
: form of a pair of axially spaced O-rings 33 to prevent
15 leakage through the connection ~om the chamber 13.
Similarly, each cartridge 30 is provided with a lower
end cap or cap assembly 32 sealing the bottom end of
the cartridge membrane and extending into or being
plugged into an appropriate socket opening 27 axially
20 aligned with the socket 17A of a sight glass or in-
dicating means 17 receiving the upper end cap 31.
The lower end cap 32 is also provided with redundant
,
sealing in the form of a pair of axially spaced 0-rings
34. It should be particularly noted that the core of
25 each cartridge is open at both ends, and co~municates
at its upper end through end cap 31 with a sight glass
I,S. 16,13g
~13~3
or indicating means 17 and at its lower end through
end ca~ 32, the appropriate socket 26 with the mani-
fold 26 and outlet 25. Adding to the unique con-
struction of the cartridge 30, the upper end cap 31
is provided with a tapered or conical inner surface
31A which connects a flow path portion of larger dia-
~eter receiving the upper end of the cartridge core
and assists or permi~s air bubbles to rise unimpeded
from the cartridge core through a flow path portion
of smaller diameter into the indica~ing means or
sight glass 17.
In an arrangement having only a single cart-
ridge 30 in a single cartridge housing, only one
opening 16 for a single adaptor 17A and sight glass
17 would be required. The manifold 26 would be elimin-
ated and a single socket open~ng 27 would be aligned
with the outlet 25 in a manner similar to the inlet
24. In effect, it would be preferable to eliminate
the inner plate 21 from the base 20 and the~outlet
25 would be axially aligned with the single~opening
16. In this instance, the outlet 25 would be a socket
and receive the lower end cap 32 of the single cart-
ridge 30.
It should be noted that the vent l9 and~
the inlet 24 are in flow communica~ion with the cham-
ber 13 on the inlet side of the membranes of the
I,S. 16,138
~ :~713~3
-10-
membranes of the cartridges 30 which is considered
as being the inlet chamber area. The cores of the
cartridges 30 on the opposite side of the membranes,
with or without the manifold 16, are considered as
being the outlet chamber area in flow communication
with the sight glasses or indicating means 17 and
the outlet 25.
In the absence of liquid in the apparatus
and with valves 18, 28, 35, 40 and 45 all closed,
fasteners 12 can be rotated to release the flange 11
: and cover 10 can be removed from the base 20. An
: appropriate number of cartridges 30 are put into
the cover 10 with the upper end caps 31 each being
inserted or plugged into the inner end or socket
member 17A of a different one of the sight glasses
or gages 17 while the lower end caps 32 are inserted
:: or plugged into the appropriate axially aligned
sockets or socket openings 27 in the base 20. The
cover 10 is then reclamped to the base 20 by fasteners
12 and the apparatus is prepared for testing the mem-
brane cartridges 30.
~: Initially, valve 35 is opened to vent the
inlet area of chamber 13 through lines 19 and 36, and
valve 40 is~operated to graduaily connect line 41
~: 25 from a source of test liquid or wetting fluid to the
inlet 24 for filling the inlet area of the chamber 13.
: ''
.
I,S, 16,138
~ 17~û3
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When the test liquid starts to escape from the vent
36, the valve 35 is closed and valve 45 is openPd to
connect the outlet 25 to the test liquid return line
46 providing a controlled circulating flow of test
5 liquid through the cartridges 30 to wet the membranes
thereof and fill the outlet area of the filter cham-
ber 13 with tes~ liquid. One by one the valves 18
are opened unless they are self venting, to fill the
sight glasses or indicating means 17 with test liquid
10 and are closed as each of the sight glasses are
filled. The flow rate of the test liquid can be
controlled by manipulation of valves 40 and 45 but
normally the tes~ liquid circulating system would be
provided with valves (not shown) particularly or this
15 purpose. At this time, the filter chamber 13j cart-
ridges 30 and in~ica,ing means or sight glasses 17 are
all filled with test liquid.
Circulating flow of test liquid through the
cartridges 30 is maintained for a nominal period of
20 time to assure that the membranes or membrane filter
media of ~he cartridges 30 are sufficien~ly wet. The
inlet 24 i5 now closed by the valve 40 and a nominal
pressure of about 5 psig is provided to the inlet area
of the chamber 13 by connecting line 19 to line 37 by
25 valve 35; line 37 being connected to a compressed air
or gas source as previously stated. The nominal
I.S. 16,138
1171363
-12-
pressure will cause continued flow of test liquid
through the cartridges 30 from the inlet area to
the outlet area until all but a thin layer of liquid
remains at the bottom of the inlet area of the chamber
13.
If during the period nominal pressure is
being provided to chamber 13 by monitoring the in-
dicating means it is noted that air bubbles appear
in one of the indicating means or sight glasses 17
causing the liquid level in the indicating means
sight glasses to drop which is an indication of a
- defective cartridge 30, the test either can continue
by appropriate manipulation of valve 18 of that in-
dicating means or sight glass and the outlet valve
45 to control flow and maintain a liquid level in
the defective cartridge sight glass, or the test can
be terminated. The defective cartridge~30 would then
be replaced and a retest performed.
When éssentially all flow of tes~ liquid
through outlet line 46 has stopped, valve 45 is closed,
all valves 18 are opened and the air pressure to fil-
ter chamber 13 from the source 37 of controlled air
is gradually increased to the diffusional flow rate
test pressure when air passes through the membranes
25 and intermittently bubbles into the sight glasses 17
escaping through the open valves 18. The intermittent
escape of air bubbles should be essentially the same
I.5 16,138
~1713~3
-13-
in all of the sight glasses or indicating means 17.
Excessive bubbling in any of the sight glasses 17
would indicate a defective cartridge 30 which is
in communication with the sight glass exhibiting
excessive bubbling.
To determine the di.ffusional flow rate,
valves 18 are closed `and valve 45 is opened connect-
ing outlet 25 to line 46. Intermittent air bubbling
into the sight glasses 17 will cause the liquid levels
10 therein to drop. This measured drop is timed to cal-
culate the diffusional flow rate. If the calculated
~ diffusional flow rate is less than the maximum allow-
able diffusional flow rate, the cartridge is acceptable.
If it is desired to determine the foam all-
15 over point of a membrane cartridge 30, air pressure
is gradually increased until air bubbles replace the
test liquid from the indicating means or sight glasses
17 almost instantaneously, and the pressure of gage
38 wiLl provide the foam:all-over point. The air pres-
20 sure should be maintained until all test liquid is ex-
pelled from the outlet area of the chamber 13 on down-
stream side of the membrane media of the cartridges 3~.
After tests are completed and all cartridges
30 are acceptable for use, there will be a ~hin layer
25 of test liquid or wetting fluid in the bottom of the
inlet area of the chamber 13 of a depth approximately
equal to the height of the bottom end caps 32 of the
I,S. 16,138
11713~3
-14-
cartridges 30. Since all of the test liquid will
have been drained from the sight glasses 17 and
cartridges 30, with valves 18 and 45 closed, the
valve ~5 is opened to vent the inlet area of the
5 chamber 13 and valve 28 is opened to drain all the
test liquid remaining at tne bottom of the inlet
area of chamber 13 through the inlet 24. After
draining is complete, the valves 35 and 28 are
closed and filtering can commence without further
10 delay by connecting inlet line 42 for liquid to be
filtered to the inlet 24 by valve 40 and discharge
line 47 for filtered liquid to outlet 25 by valve
45. During filtration, appropriate manipulation of
the inlet valve 40 and the outlet valve 45 can con-
15 trol the flow rate or the system can be providedwith automatic flow control means.
It should be readily understood that when
the filter unit has but a single filter cartridge 30,
there will be only one visible indicating means 17
20 with its vent valve 18. Testing of such a unit will
be as previously described with only the single in-
dicating means 17 being monitored and controlled by
its valve 18.
Referring now to FIGURES 2 and 3, a modified
25 housing is co~prised of a cover llO and a base 120
corresponding to the cover 10 and base 20, respective-
I,S, 16,138
1 171~63
-15-
ly, of FIGURE 1. The cover 110 and base 120 are
releasably connected together by fastening means
112, and are formed to define a filter chamber 113
corresponding to chamber 13. In place of the mem-
S brane filter cartridges 30 of FIGURE 1, a disc-type
membrane filter 130 with a suitable porous or per-
forated backing plate or sheet 131 is disposed in
- and divides the chamber 113 into inlet and outlet
: areas. The peripheries of the membrane 130 and
backing plate or sheet 131 are retained or clamped
between the cover 110 and base 120, and are provided
thereat, as shown, with 0-ring seals 133 and 134.
: An inlet 124, in communication with the
:` inlet area of the filter chamber 130, corresponds to
; 15 the inlet 24 and is adapted for similar flow control
by the valve 40 while an outlet 125 in communication
with the:outlet area o the filter chamber 130, corres-
~:~ ponds to the outlet 25 and is adapted for similar flow
~control by the valve 45. The cover 110 is provided
20 with a vent port 119, corresponding to the flow path
19, in communication withthe inlet:area a~ the upper
Fortion of the filter chamber 130 and is adapted for
selective flow control by the valve 35. The modified
housing also is provided with an opening or flow path
25 116 corresponding to one of the openin~s 16, and a
I.S. 16,138
~ 3~3
-16-
socket or adaptor 117A corresponding to the socket
17A. The socket 117A mounts a sight glass or visible
indicating means 17, and with openings 116, provides
communication for the visible indicating means 17
5 with the outlet area at the upper portion of the
filter chamber i30.
The base 120 is preferably provided with a
plurality of ribs 121 which extend into the outlet
area of filter chamber 113 to engage and support the
10 backing plate or sheet 131 against deflection due
to pressure differentials across the filter membrane
130.
This modified filter will be tested and
used in the same manner as previously described re-
15 lative to the filter of FIGURE l when only a singlefilter cartridge 30 is tested and used,
Although several embodiments of the in-
vention have been illustrated and described in detail,
it is to be expressly understood that the invention
20 is not limited thereto. Various changes may be made
in the design and arrangement of the parts without
departing from the spirit and scope o~ the invention
as the same will now be understood by those skilled
in the art,
