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Patent 2180305 Summary

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Claims and Abstract availability

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(12) Patent: (11) CA 2180305
(54) English Title: SUBMERGED PIPE SEPARATOR TANK
(54) French Title: RESERVOIR SEPARATEUR A TUYAUX IMMERGES
Status: Deemed expired
Bibliographic Data
(51) International Patent Classification (IPC):
  • E03F 5/06 (2006.01)
  • E03F 5/14 (2006.01)
  • E03F 5/16 (2006.01)
(72) Inventors :
  • MONTEITH, JOSEPH GORDON (Canada)
(73) Owners :
  • IMBRIUM SYSTEMS INC. (Canada)
(71) Applicants :
(74) Agent: SIM & MCBURNEY
(74) Associate agent:
(45) Issued: 1999-06-15
(22) Filed Date: 1996-07-02
(41) Open to Public Inspection: 1998-01-03
Examination requested: 1996-10-10
Availability of licence: N/A
(25) Language of filing: English

Patent Cooperation Treaty (PCT): No

(30) Application Priority Data: None

Abstracts

English Abstract






A tank interceptor for rainwater and waste-water has an approximately
opposed inlet and outlet. An inlet compartment is disposed adjacent the inlet, while
an outlet compartment is provided in communication with the outlet. Both
compartments are upwardly open, thus constituting a first aperture adjacent the top
of the compartment. A second aperture is provided in each compartment, adjacent
the bottom, through which solid and other heavy components can pass into the
internal chamber of the container. The first compartment has an auxiliary outletbelow the first aperture but above the second aperture, the auxiliary outlet
communicating with the top of an auxiliary conduit that has an open bottom end in
communication with the internal chamber of the container at a location adjacently
below the level of liquid in the internal chamber at low entry flow rates. The
auxiliary outlet being adapted to allow oil-based materials to be drawn off.


French Abstract

Réservoir collecteur d'eaux pluviales et d'eaux usées muni d'une entrée et d'une sortie approximativement opposées. Un compartiment d'entrée est placé près de l'entrée du réservoir, tandis qu'un compartiment de sortie est en communication avec la sortie. Les deux compartiments sont ouverts vers le haut, ce qui constitue une première ouverture près de la partie supérieure du compartiment. Chaque compartiment comprend une deuxième ouverture, située près du fond du compartiment, par laquelle peuvent passer les corps solides et autres composants lourds pour pénétrer à l'intérieur de la chambre interne du contenant. Le premier compartiment possède une sortie auxiliaire située sous la première ouverture, mais au-dessus de la deuxième ouverture, et la sortie auxiliaire est en communication avec la partie supérieure d'une conduite auxiliaire dont l'extrémité inférieure est ouverte et est en communication avec la chambre interne du contenant à un endroit situé à proximité, sous le niveau du liquide dans la chambre interne lorsque les débits d'entrée sont faibles. La sortie auxiliaire est conçue de manière à permettre l'écoulement des matériaux huileux.

Claims

Note: Claims are shown in the official language in which they were submitted.




THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. A tank interceptor for rainwater and waste-water, comprising:
a container including a bottom wall, a side wall and a top wall, said walls
defining an internal chamber,
an inlet which opens through the side wall at an intermediate location between
the top and bottom walls,
an outlet which opens through the side wall at a position which is
circumferentially spaced away from the inlet, but is at substantially the same location
between the top and bottom walls,
first partition means within the chamber adjacent the inlet, said first partition
means defining an inlet compartment directly with said inlet,
second partition means within the chamber adjacent the outlet, said second
partition means defining an outlet compartment communicating directly with said
outlet,
each compartment having a first aperture means adjacent the top thereof,
through which the compartment communicates with the remainder of said internal
chamber,
each compartment having a second aperture means adjacent the bottom
thereof, through which solids and other heavy components in the compartment can
pass gravitationally into the internal chamber of the container, and
an auxiliary outlet in said first partition means, the auxiliary outlet being
located below the respective first aperture means and communicating with the top of
an auxiliary conduit which has an open bottom end in communication with the
internal chamber of the container at a location adjacently below the level of the liquid
in said internal chamber at low entry flow rates, whereby oils and other floating
contaminants in the inlet compartment can be drawn off and deposited at substantially
the upper surface of the liquid in said internal chamber.
2. The tank interceptor claimed in claim 1, in which each compartment is
delimited by a portion of the side wall of the container, cooperating with at least one





substantially vertical panel and a lower panel, and in which said first aperture means
of each compartment is provided by the upper termination of said at least one vertical
panel at a free edge without closing the top of the compartment; the lower panel of
each compartment being generally in horizontal alignment with the lowest part of the
respective inlet or outlet; said second aperture means of each compartment including
an opening in said lower panel communicating with the top of a downwardly
projecting pipe of which the bottom communicated with said internal chamber at alevel below said open bottom end of the auxiliary conduit.
3. The tank interceptor claimed in claim 2, in which each compartment is
delimited by said portion of the side wall and three planar, substantially vertical
panels set in an angular relationship which appears trapezoidal when seen in plan
view.

Description

Note: Descriptions are shown in the official language in which they were submitted.


' ~ 218~3~
SUBMERGED PIPE SEPARATOR TANK
This invention relates generally to separator tanks, sometimes called
ill~tl~c~ , adapted to receive primarily rainwater from a storm sewer or drain, and
additionally to perform the function of separating and entrapping any oil- or gasoline-
5 based materials and suspended solids that may enter, allowing the water fraction todiscbarge into municipal receiving sewers. Prior art devices of this kind are typically
equipped with various baffles and chambers operating in such a way as to collectspecific C""~ of the waste fluid and separate them from others.
In this (~.nnnrctinn, reference may be had to U.S. Patent No. 4,136,010, issued
10 January 23, 1979 to Pilie et al.
Other patents, only peripherally related to the subject matter of this
~ll.. iril 1"~", are as follows:
U.S. Patent No. 1,844,443, Schmidt, February 9, 1932;
U.S. Patent No. 942,907, Huff, December 14, 1909;
U.S. Patent No. 3,567,024, M~ f'nrrnirl~ March 2, 1971;
U.S. Patent No. 3,221,881 Weiler et al, December 7, 1965.
PRIOR ART
An improved ~;UIl~Llu~liul~ is the subject of my U.S. Patent No. 4,985,148,
issued January 15, 1991, and entitled, "Improved Separator Tarlk Construction" . The
purpose of the tank interceptor set forth in the latter patent is to provide two distinct
responses to two different operatmg conditions:
(I) When the materials entering the interceptor include discharge from a
service station, garage, machine shop, factory or the like, or oil t~lat has
spilled accidèntally, these non-aqueous materials are collected within the
interceptor. The aqueous fraction is allowed to leave the interceptor and pass
on to a storm sewer or the like, but the liquid fraction made up of oil or fat
of animal, vegetable or mineral origin, gasoline and the like remains trapped
within the interceptor until the same is pumped out. Further, any heavier-
than-water materials sink to the bottom of the interceptor and are confmed to
a particular location from where they can also be pumped out at intervals.
(2) The interceptor of the prior invention is also adapted to deal with
inflow resulting from heavy rain during a storm. Such inflow would typically

~ Q~
be a combination of storm drainage from an adjacent industrial property,
garage or the like, as well as inflow from storm drains adapted to catch
rainwater. When a large quantity of rainwater arrives at the interceptol of the
prior invention, the interceptor qll~nmq~irqlly diverts most of this flow direcily
to an outlet opening which passes it directly to a storm sewer. Only a portion
of the flow of the incoming rainwater is allowed through the treatment/storage
chamber of the imterceptor.
To ,qrrr,mrlish the aforesaid goals, my prior art separator provides, within thetank-like interceptor, a ~a~ ,way extending substantially directly between tlle inlet
and the outlet. The pa~ ,way is essentially sealed from ~ "~"l";~ ", with the
remainder of the interior of the tank interceptor, except for an opening adjacent the
inlet and an opening adjacent the outlet. Each opening: the paaù~ ,way
with the remainder of the tank interior, which may be regarded as a treatment
chamber. Finally, a weir means is provided within the ~aùù e~,war~ disposed withrespect to the first opening such that, under relatively low entry flow ral~es, all
entering materials are contained by the weir and flow through the first opening and
into the treatment chamber, whereas under relatively high entry flow rates, part of
the entering material overflows the weir and is delivered by the ~aùù.,~;~.way to the
outlet.
Recognr~img that it was not necessary for the entire volume ins;.de the
interceptor tank (except for the L,aùù e~way means) to be used as a treatment
chamber, and in view of the desirability of making the means providing the high-flow
~aù~a~,way more fully accessible to persomnel wishing to inspect the installation for
damage, improper qrrllmlll~irnc of materials, etc., I developed an improved version
of the separator tank uul~LIuu~iull, in which a treatment ~ UIll~alLll~llL was plovided
m the bottom portion thereof and â by-pass l,U~ JalL....,.ll in the top portion thereof
(the latter being a convenient area where inspection personnel may stand). The
improved version just mentioned is the subject of U.S. patent No. 5,498,331, issued
March 12, 1996.
More ~alLi~ulally, the improved version provides a tank interceptor for
rainwater and waste-water, including a container having a bottom wall, a side wall
and a top wall which together define an internal chamber, a partition dividing the

- ~ ~18~3~

chamber into a by-pass ~ ull~alLII~ bove the partition and a treatment ~ulll~ lllc-lL
below the partition, the partition having an upper surface, a main inlet through the
side wall above the partition, adapted to permit liquid to flow into the by-passCulll~udlLIll~ , an outlet adjacently above the upper surface and spaced away from the
5 inlet, the outlet being adapted to permit liquid to flow out of the by-pass
~ulll~alLIllrllL. The upper surface of the partition is configured to include a raised
portion which isolates the inlet from the outlet, the raised portion ~UII~Lilu~illg a weir,
such that liquid entering at the inlet and seeking to reach the outlet through the by-
pass uulll~alLIll~,.l. must overflow the weir in order to do so. The partition has first
10 and second openings on opposite sides of the raised portion of the upper surface of
the partition, both openings r~ the by-pass ~;ulll~al ~lll.,lll with the
treatment uulll~JalLIll.llL, and allowing liquid, without having to overflow the raised
portion, to travel from the inlet to the outlet by passing through the treatment~ulll,ualLIll~ . Each of the first and second openings with the top of
15 a respective vertical pipe, each pipe having a bûttom end ~.,.,..,.~,.;. ~1;,.~ ~ith the
treatment cullllJalilll~,~lL.
Because it is necessary to allow persoMel to inspect, clear and/or repair
portions of the treatment ~:ulll~alLII,,,llL below the partition, the container of U.S.
Patent No. 5,498,331 is provided with an inspection opening in the partitioll, large
20 enough to allow " IA ;~ .r. . . ~ personnel to pass through, along with a man-hole cover
adapted to close the inspection opening in a liquid-tight manner.
I then realized that the position of the inspection opening just mentioned
(closable by a man-hole cover) Ir~lc~ an ~ e~ci~aly complexity, and that it
could be dispensed with by making one of the openings through the partiti~n (the25 openings coMected to the respective pipes) large enough to allow l~ , r
persoMel to pass through and into the treatment CU..I~<I.LIII~,IIL. I further realize that
the access opening at the top of the container (allowing access to the by-pass
Culll~al Ll-l.,-IL) could be positioned in aligMment with a large-diameter partition
opening, to allow visual inspection and sampling from outside the container, and to
30 facilitate the entry of a snorkel for the purpose of pumping out the contents of the
treatment uulll~alLIll~ l. Accordingly, a further patent application was prepared and
filed under Serial No. 337,393, dated November 8, 1994 (now issued under Serial

~ ~8030~
No. 5,498,331), which is directed to a tank interceptor for rain water and waste-
water, including a container divided by a partition into an upper by-pass ~.UIII~IC~I illl.ll~
and a lower treatment UUIII~ ll. An inlet and outlet for the container are located
in the side wall adjacently above the partition. The partition defines a raised weir
5 which constrains liquids entering at low flow rates to pass downwardly through an
adjacent opening through the partition, to collect in the treatment Culll~)dlllll..ll. below
the partition. A second opening through the partition is located adjacent the outlet,
and pipes are associated with both openings. One of the openings is made large
enough to allow passage of IIIA;II.. .IAI~I ~ personnel, thus obviating the need for a
10 further access operling and a liquid-tight seal for that further opening. An access
opening at the top of the container is generally aligned with the large-diameteropening through the partition, thus allowing inspection, sampling and pumpi~g out,
without requiring ,-. ;,....IAI~ personnel to enter the container.
I have now devised a further illl~JlUV~ ll in the design, which 1~
has the capability of routing all slowly-flowing materials du ,. ll~dldly into a treatment
zone, without requiring any partition to establish the limits of such zone, an(l at the
same time to provide for liquid spill-over in the event of a heavy rain storm, so that
a heavy flow can be routed directly from the inlet to the outlet.
GENER~L DESCRIPTION OF THIS INVENTION
More ~al Li~,ul~l Iy, this invention provides a tank interceptor for rainwater and
waste-water, Cu~ ;llg.
a container including a bottom wall, a side wall and a top wall, said walls
defining an internal chamber,
an inlet which opens through the side wall at an illt~,ll ' location between
the top and bottom walls,
an outlet which opens through the side wall at a position which is
uiu~,ulll~ lllially spaced away from the inlet, but is at substantially the same location
between the top and bottom walls,
first partition means within the chamber adjacent the inlet, said first partition
means defining an inlet ~.UIII~ directly with said inlet,
second partition means within the chamber adjacent the outlet, said second
partition means defining an outlet col--lJ~..h -~.ll ....,..,...,.i. ~;..~ directly with said

~ ~8~0~
s
outlet,
each ~ulll~dlLlll~ having a fi}st aperture means adjacent the top thereof,
through which the ~:ulll~alLI~ lL ~,l with the remainder of said internal
chamber,
each ~OIlllJdl Lll-~,.lL having a second aperture means adjacent the bottom
thereof, through which solids and other heavy ~""'I"J" -1~ in the ~:ullllJdl~ can
pass ~laviL~liulldlly into the internal chamber of the container, and
an auxiliary outlet in said first partition means, the auxiliary outlet being
located below the respective first aperture means and r,.. l.;, ~ with the top of
an auxiliary conduit which has an open bottom end in ~ ll with the
internal chamber of the container at a location adjacently below the level of thc liquid
in said internal chamber at low entry flow rates, whereby oils and other floating
A ~ in the inlet ~,UIIIlJal Ll-l~ can be drawn off and deposited at substantially
the upper surface of the liquid in said internal chamber.
GENERAL DESCRIPIION OF THE DRAWINGS . .
One c:lllbodil..~ of this invention is illustrated in the a~,~,ulll~)al~ drawings,
in which like numerals denote like parts throughout the several views, and in ~vhich:
Figure 1 is a schematic perspective view of an insert adapted for installation
within a cylindrical container;
Figure 2 is an elevational view of the insert of Figure l;
Figure 3 is a top plan view of the insert of Figure l;
Figure 4 is a vertical axial sectional view of a container with the irsert of
Figure 1 in place;
Figure S is an r..T~ of a portion of Figure 4 around which a circular
~5 outline is drawn; and
Figure 6 is a cross-sectional view of the container seen in Figure 4, t~ken at
the line 6-6 of Figure 4.
DETAILED DESCRlPrION OF THE DRAWINGS
Attention is first directed to Figure 4, which is an axial, section~l view
30 through a tank interceptor 10 for ram water and waste-water, constituted by acontainer 12 including a bottom wall 14, a side wall 16 and a top wall 18. The walls
14, 16 and 18 together define an internal chamber 20. In the particular embodimeM

~ ~18030~
illustrated, the side wall 16 is cylindrical, and both the bottom wall 14 and top wall
18 are circular. The particular shape of the container is not critical however, as will
be obvious from what follows.
The container 12 has an inlet 22 opening through the side wall 16 at an
' location between the top and bottom walls 18, 14. The container 12
further includes an outlet 24 which opens through the side wall 16 at a position which
is ~iluul~lr~ idlly spaced away from the inlet 22, but is at substantially the same
location between the top and bottom walls 18, 14. In the particular rlllhc,.l;l.,. .,1
illustrated, the inlet 22 and outlet 24 are ~liom~ trir~ y opposed with respect to the
cylindrical side wall 16, although it will be appreciated from what follows that strict
diametrical positioning is not critical.
Attention is now directed to Figure 1, which shows in perspective, and
somewhat srhl~m-~rirqlly, an insert 26 which is adapted to fit snugly within thecontainer 12 in alignment with the inlet 22 and outlet 24. As best seen in Fi~ure 1,
the insert has a cylindrical side wall 28 which is interrupted at (~ mi~rrir~llly opposed
locations by first and second gaps 30 and 32, at each of which there is plovidedpartition means defining a ~UIIII~dlilll~ lV directly with the inlet or
outlet, as the case may be.
More UdlLi~UI~Il.y, the insert 26 includes, adjacently gap 32, three vertical
rectangular panels 34, 36 and 38 which are disposed in a trape~oidal formation as
clearly seen in Figure 3. In the r~ illustrated, the panels 34, 36 and 38 and
the cylindrical side wall 28 all have the same vertical depth.
The insert 26 further provides, CoMecting the bottom edges of the panels 34,
36 and 38, a horizontal lower panel 40 which has an arcuate outer edge 42 adapted
to abut the inside of the side wall 16 of the main container.
The ~;UllI,Udl~ ,l.. defined and enclosed by the panels 34, 36 and 38,
I,OUlJ~.ld~illg with the side wall 16 of the container 12, has an opening 44 through
which it ~ with the top of a downwardly projecting pipe 46 having a
bottom end in ~ with the internal chamber 20 (see Figure 4), by way
30 of a horizontal T-fitting 48.
Adjacent the other gap 30, the insert 26 provides a substantially identical
UUIII~)dl~ , including panels 50, 52 and 54 which, together with a lower panel 56,

2~8030~

define a Cu~ alLIll~llL in ~ .l. with the outlet 24 (not illustrated in Figure
1). The lower panel 56 has a central opening 58 which is the upper end of a
cllhcl~nti~lly vertical pipe 60 which does not include a T-fitting at the bottom.
Because each l ulll~alL~ llL is defined by rectangular panels which terminate
S at an upper edge without any covering or lid for the uuul~)dlLIll~llL, the plane
containing the upper edges of the panels can be regarded as a first aperture,
positioned at the top of the ~,ulll~alllll-llL, through which the CUIUI)alLIII~
~:UIII with the remainder of the intemal chamber defined within the tank
interceptor 10.
The already-described openings 44 and 58 (~.. ,.. ,.1.. ;l ~l;.. ~ with the drol? pipes
46 and 60) may be regarded as a second aperture in each case.
As best illustrated in Figures 1 and 4, there is provided an auxiliary outlet 64in the panel 36 which partly defines the inlet ~:ulll~alLIIl~,llL. The auxiliary outlet 64
;. ,Ir~ with an oil draw-off pipe 66 which has an open T-fitting 68 at the
15 bottom, at a location adjacently below the level of liquid in the intemal chamber 20
at low entry flow rates (which will be explained in greater detail below).
To provide a more complete ulll~ Lalldiug of the operation of the insert 26,
two conditions will be assumed: in the first condition, liquid containing water and
certain ~(I''/'.llil~AIII~ is flowing at a low flow rate through the inlet 22 and into the
20 tank interceptor. It is assumed that some of the . .~ or pollutants are oil-
based, and therefore will float at the upper surface of the water phase. At such low
flow rate, the entering liquid flows to the opening 44 and down the sedimellt drop
pipe 467 entering the intemal chamber 20 at both ends of the T-fitting 48. Any
sediments which are heavier than water will drop to the bottom of the chaml~er 20,
25 while any ,,olll~Jol~llLD which are oil or gasoline based will float on top of th(~ water
as it builds up in the intemal chamber 20.
As liquid continues to enter the tank interceptor through the inlet 22, the liquid
level in the intemal chamber 20 rises until it reaches a level roughly even v"ith the
bottoms of the inlet and outlet 22 and 24. When this occurs, the aqueous phase (now
30 largely separated from ~ sediments and oil-base materials) will rise up
along the pipe 60 and flow out through the outlet.
It is now assumed that a far greater flow of liquid reaches the inlet ~2, as a

~ 218~30~

result of a local downpour. In this condition, the pipe 46 is not large enough to
permit all of the entering liquid to flow down and then out the ends of the T-fltting
48. While a small fraction of the inflow will pass down along the pipe 416, the
greater amount will start to fill up the inlet uulu~dlL~ , continuing to rise until it
S reaches the auxiliary outlet 64. We assume that a small charge of floatable materials
(oil, etc.) rises to lie at the top of the liquid in the inlet l:UIll~J.ll~lll~,lli, and thus is the
first component to reach the auxiliary outlet 64. Such oils (along with a certain
quantity of water, of course) will then leave the inlet cu.~ through the
auxiliary opening 64, and flow down the oil draw-off pipe 66 to the T-fitting 68,
10 where they will be dispersed into the liquid contained in the internal chamber 20. If
the inrush of liquid through the inlet 22 is greater than can be handled by the
openings 44 and 64, then the liquid level and the inlet ~,UIII~).II~III~,Il~ will continue to
rise, up to the upper opening (constituted by the open top of the UUII~ where
it will spill over and collect at the bottom of the internal chamber 20. With a
15 continued influx of liquid through the inlet 22, the level of the liquid witllin the
internal chamber 20 will rise up to the top of the outlet ~:u...~,.l.~...~..~, where it will
spill over the panels 50, 52 and 54, thus entering the outlet COIl~ , from whereit can leave the tank interceptor 10 through the outlet 24.
Centrally located in the top wall 18 of the container 12 is an upwardly
20 projecting annulus 70 ~UIIUUIIdill~ an entry opening 72 through which ~ rll~
persomnel can enter the irlternal chamber if required. A standard seal or man-hole
cover 74 is provided for closing the opening 72.
It will be seen particularly in Figure 4 that the position of the T-fitting 68 at
the bottom of the aùxiliary oil draw-off pipe 66 places it adjacently below the level
25 of the liquid in the internal chamber 20 under low-flow conditions (the upper surface
of the liquid Iying ~ / even with the bottoms of the inlet and outlet 22 and
24).
The T-fitting 68 breaks up any rush of liquid flowing down the oil draw-off
pipe 66, so as to avoid any disruption or "scouring" effect that might mix previously-
30 collected oil-based floating materials with the aqueous phase, and then eject them
from the container 12 through the outlet 24. The T-fitting 48 at the bottom of the
pipe 46 has a similar function.

~ Z~8030~

If desired, the insert 26 (see Figure 1) can have a bottom "skirt" exLension
projecting downwardly in cylindrical alignment with side wall 28. The purpose ofa skirt of this kind is to improve the seal of the insert against the inside of the
container 12, and to facilitated the secu}ement of the insert 26 in proper position.
S While one ~ b~Jdill~ lL of this invention has been illustrated in the
dl ~,U~ g drawings and described hereinabove, it will be evident that changes
and ...-~lir~ may be made therein, without departing from the essence of this
invention, as set forth in the appended claims.

Representative Drawing
A single figure which represents the drawing illustrating the invention.
Administrative Status

For a clearer understanding of the status of the application/patent presented on this page, the site Disclaimer , as well as the definitions for Patent , Administrative Status , Maintenance Fee  and Payment History  should be consulted.

Administrative Status

Title Date
Forecasted Issue Date 1999-06-15
(22) Filed 1996-07-02
Examination Requested 1996-10-10
(41) Open to Public Inspection 1998-01-03
(45) Issued 1999-06-15
Deemed Expired 2016-07-04

Abandonment History

There is no abandonment history.

Payment History

Fee Type Anniversary Year Due Date Amount Paid Paid Date
Application Fee $0.00 1996-07-02
Registration of a document - section 124 $0.00 1996-09-26
Request for Examination $400.00 1996-10-10
Maintenance Fee - Application - New Act 2 1998-07-02 $100.00 1998-04-17
Final Fee $300.00 1999-03-05
Maintenance Fee - Application - New Act 3 1999-07-02 $100.00 1999-04-14
Maintenance Fee - Patent - New Act 4 2000-07-03 $100.00 2000-04-27
Maintenance Fee - Patent - New Act 5 2001-07-03 $150.00 2001-06-20
Maintenance Fee - Patent - New Act 6 2002-07-02 $150.00 2002-07-02
Maintenance Fee - Patent - New Act 7 2003-07-02 $150.00 2003-06-09
Maintenance Fee - Patent - New Act 8 2004-07-02 $200.00 2004-07-02
Maintenance Fee - Patent - New Act 9 2005-07-04 $200.00 2005-06-21
Maintenance Fee - Patent - New Act 10 2006-07-04 $250.00 2006-06-20
Maintenance Fee - Patent - New Act 11 2007-07-03 $250.00 2007-06-22
Registration of a document - section 124 $100.00 2007-07-06
Maintenance Fee - Patent - New Act 12 2008-07-02 $250.00 2008-06-27
Maintenance Fee - Patent - New Act 13 2009-07-02 $450.00 2009-10-01
Maintenance Fee - Patent - New Act 14 2010-07-02 $250.00 2010-06-17
Maintenance Fee - Patent - New Act 15 2011-07-04 $450.00 2011-06-17
Maintenance Fee - Patent - New Act 16 2012-07-02 $450.00 2012-06-18
Maintenance Fee - Patent - New Act 17 2013-07-02 $450.00 2013-06-17
Maintenance Fee - Patent - New Act 18 2014-07-02 $450.00 2014-06-30
Owners on Record

Note: Records showing the ownership history in alphabetical order.

Current Owners on Record
IMBRIUM SYSTEMS INC.
Past Owners on Record
MONTEITH, JOSEPH GORDON
STORMCEPTOR CANADA INC.
Past Owners that do not appear in the "Owners on Record" listing will appear in other documentation within the application.
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Document
Description 
Date
(yyyy-mm-dd) 
Number of pages   Size of Image (KB) 
Drawings 1998-12-09 4 66
Cover Page 1999-06-10 2 66
Cover Page 1998-02-05 2 79
Representative Drawing 1998-02-05 1 21
Representative Drawing 1999-06-10 1 8
Cover Page 1996-10-09 1 10
Abstract 1996-10-09 1 17
Description 1996-10-09 9 317
Claims 1996-10-09 2 49
Drawings 1996-10-09 4 91
Fees 2003-06-09 1 48
Fees 2001-06-20 1 36
Assignment 2007-07-06 3 90
Correspondence 1999-03-05 1 38
Fees 2000-04-27 1 36
Fees 1998-04-17 1 35
Fees 2002-07-02 1 49
Fees 1999-04-14 1 34
Fees 2004-07-02 1 47
Fees 2005-06-21 1 50
Fees 2006-06-20 1 50
Fees 2007-06-22 1 53
Fees 2008-06-27 1 56
Assignment 1996-07-02 3 202
Correspondence 1996-09-26 1 28
Correspondence 1996-07-02 1 32
Prosecution-Amendment 1998-06-10 1 44
Prosecution-Amendment 1996-10-10 1 45