AU2439695A - Container for washer or autoclave - Google Patents
Container for washer or autoclaveInfo
- Publication number
- AU2439695A AU2439695A AU24396/95A AU2439695A AU2439695A AU 2439695 A AU2439695 A AU 2439695A AU 24396/95 A AU24396/95 A AU 24396/95A AU 2439695 A AU2439695 A AU 2439695A AU 2439695 A AU2439695 A AU 2439695A
- Authority
- AU
- Australia
- Prior art keywords
- base
- container
- perforations
- tray
- narrow
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
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- Table Devices Or Equipment (AREA)
Description
CONTAINER FOR WASHER OR AUTOCLAVE
TECHNICAL FIELD
This invention relates to a container component for enabling fluid flow therethrough
for cleaning or sterilising of the contents within the container.
BACKGROUND ART
In medical and dental establishments, because of environmental problems and the cost
and difficulty of burning and dumping of medical waste, there is a growing tendency to return
to reusable products. For example medical and dental instruments after use are frequently
returned in a container to a washing or sterilising facility where the instruments are
decontaminated. The instruments can then be safely handled without risk from infections
such as HIV and Hepatitis caused by inadvertent cutting or puncturing of the person handling
a contaminated instrument. The instrument can be cleaned and serviced as necessary and
sterilisation in an autoclave follows, usually with porous filter medium surrounding the tray
or other container holding the instruments. The instruments while remaining protected by the
porous wrapping are then stored and subsequently returned to the surgery for reuse by the
dentist or doctor.
Trays made of stainless steel and synthetic materials are known for holding dental and
medical instruments for sterilisation in an autoclave. Such stainless steel trays have a base
made of a sheet of flat stainless steel material which has an array of cylindrical holes drilled through the base to allow steam in the autoclave to pass through the base. However such
stainless and synthetic steel trays are expensive and/or may not allow steam or washing liquid
to reach all parts of the instruments resting on them.
Patent Specification No. AU-24539/88 discloses an autoclave container in the form
of a tray2 made of a plastics material, the tray having a base with perforations defined by
walls, the walls progressively widening from a top point to a flat bottom surface of the base.
The flat bottom surface enables a substantial amount of the heat stored within the plastics
material after the tray has been an autoclave to be yielded up through the flat base surface
and thereby help evaporate any moisture, such as condensation, particularly within the filter
material placed around the tray when in the autoclave. However the tray in this patent
specification would not be particularly effective in a washer where water jets are directed
upwardly against the base of the tray, since the large flat bottom surface area would deflect
much of the water downwardly rather than allowing the water to pass upwardly through the
perforations to reach the instruments in the tray.
A type of closed autoclave vessel frequently used in hospitals for holding instruments
to be sterilised in an autoclave has a square bottom of about 40cm width and which has a
perforated central opening, e.g. having a diameter of about 10cm. The circular central
opening in use is covered by a permeable filter material. The lid of the vessel is similarly
constructed, having a 10cm diameter circular perforated opening in the centre of the lid
covered in use by a permeable filter Inside the closed vessel there can be a tray which is
perforated and which supports the instruments to be sterilised. Steam flows through the
upper circular opening in the lid to reach the interior of the vessel and passes out through the
lower central perforated opening. The flow of steam through such a vessel tends to be
greatest in the central region of the space enclosed within the vessel, this effect being the
result of the steam flowing through a path of least resistance. Hence it is possible that the
outer sides and particularly the corners of the vessel may be inadequately heated to effectively
sterilise the instruments at the edges or in the corners of the vessel.
It is an object of the present invention to provide a container component for enabling
fluid flow therethrough for improved efficiency or effectiveness of the cleaning of contents of
the container.
It is a preferred object to provide a container component suitable for placement
within a washer in which washing liquid is directed upwardly and/or downwardly so as to
pass through the container component thereby washing articles in the container.
It is a further preferred object of the present invention to provide a container
component suitable for use in an autoclave and enabling steam to flow through the container
component for effective sterilisation of articles in the container.
SUMMARY OF INVENTION
According to one aspect of the invention there is provided a container component for
enabling cleaning of articles located within the container component by fluid flow through the
component, and comprising a base, the base having perforations provided over substantially
the entire area where the articles are in use located and through which the cleaning fluid can
flow, the perforations in the base being defined by perforation walls, each of the walls in
vertical cross section having a narrow top, widening in a downwards direction to a maximum
width and then narrowing again to a narrow bottom, the maximum width being less than the
distance from the top to the bottom.
According to another aspect of the invention there is provided a container for
enabling cleaning of articles located within the container by fluid flow through the container,
and comprising:
a tray, the tray having a bottom with perforations provided over substantially the
entire area of the bottom where the articles are in use located and through which the cleaning
fluid can flow;
a cover enabling covering of the articles in the container and having perforations over
substantially its entire area and through which the cleaning fluid can flow;
wherein the perforations in the cover are defined by perforation walls, each of the
walls of the cover having in vertical cross section a narrow top, widening in a downwards
direction to a maximum width and then narrowing again to a narrow bottom, the maximum
width being less than the distance from the top to the bottom; and wherein the perforations in
the bottom of the tray are defined by perforation walls, each of the walls of the bottom
having in vertical cross section a narrow top, widening in a downwards direction to a
maximum width and then narrowing again to a narrow bottom, the maximum width of the
wall of the bottom being less than the distance from the top to the bottom of that wall.
In the preferred embodiments, the narrow top of each perforation wall comprises a
top point, and the narrow bottom of each perforation wall comprises a bottom point. The
provision of walls which in section narrow in an upwards direction to a top point and in a
downwards direction to a bottom point provides for minimum area of contact with other
bodies. For example, in the case of a tray or bottom section of a vessel constructed
according to the invention having articles to be cleaned placed in the tray resting on the base,
the articles will contact the base only at the top points of the walls so that the maximum
surface areas of the articles are exposed for contact by the cleaning fluid. The external
bottom surface of a tray will present the bottom points of the perforation walls as contact
points so that if, for example, a tray is stacked immediately on top of another container
having a lid constructed according to the invention, the contact points will be the bottom
points of the walls of the tray and the top points of the walls of the lid, thus minimising
contact area where moisture may collect. The base may be substantially planar and each wall in vertical cross section may be
substantially elliptical with the major axis of the elliptical cross section being orthogonal to
the plane of the base.
Alternatively, each wall in vertical cross section may widen gently and progressively
in a downwards direction from the narrow top to the maximum width and then may narrow
rapidly and sharply to the narrow bottom, or vice versa.
By providing that the maximum width of each wall is less than the distance from the
top point to the bottom point, the proportion of the total area of the base in plan view occupied by the area of the perforations, and hence the area open to flow of cleaning fluid through the base can be maximised while at the same time the walls can provide sufficient structural strength. The maximum width of each wall may be, for example, less than half the distance from the top to the bottom thereof.
The walls may define a regular geometric mesh pattern. For example, with walls
arranged in a square mesh pattern, the walls having a maximum width of 2mm and the spacing between opposite walls of each square perforation being 3.5mm, about 40% of the
area of the base will in plan view be defined by the sum of the areas of the perforations. The
cumulative area of the perforations when the base is viewed in plan view may be greater than 30%, e.g. equal to or greater than 40%, of the total area of the base.
The container component according to the first aspect of the invention may comprise a tray, the base of the component defining a bottom of the tray, a plurality of side portions
located around the perimeter of the base, the perforations in the base being provided over
substantially the entire surface area out to the perimeter where the side portions are located,
so that the articles to be cleaned are located by the side portions entirely within the perimeter
of the base where the perforations are provided, the tray having an open top through which
the cleaning fluid can flow.
The container in use may have an outside wrap such as a filter membrane around the
outside, or may have a filter membrane held within the container so that cleaning fluid passes
through the filter membrane in flowing to or flowing from the articles.
The container component may be, as mentioned above, in the form of an
open-topped tray for containing articles to be cleaned. Alternatively, there may be provided a
container or cassette comprising a bottom section of a two part enclosure, such as an
autoclave vessel having a bottom section in which the articles are located and a cover or lid
section which fits to and is secured to the bottom section. Either or both the bottom section
and the lid section of the two part vessel may be constructed according to the present
invention.
In the case of a container component to be placed in a washer in which streams of
washing liquid are directed so as to contact and wash articles within the container
component, the construction of the walls according to the invention facilitates washing liquid
which is directed against the base being deflected or directed so as to pass through the
perforations into the space where the articles to be cleaned are located.
The container component may be made of a plastics material, particularly in the case
of use in sterilising operations being a material capable of withstanding autoclave
temperatures. A preferred material is polypropylene.
BRIEF DESCRIPTION OF DRAWINGS
Possible and preferred features of the present invention will now be described with
particular reference to the accompanying drawings. However it is to be understood that the
features illustrated in and described with reference to the drawings are not to be construed as
limiting on the scope of the invention. In the drawings:
Fig. 1 shows a cross-section through a fragment of a container having a tray and a lid
both embodying the present invention,
Fig. 2 shows a fragmentary perspective sectional view of a portion of a container
component according to the invention,
Figs. 3a to 3e show possible cross-sectional shapes of walls and how they would
contact similar shaped walls of another base,
Fig. 4 shows a fragmentary cross-sectional view of a component of a stackable
autoclave container embodying the present invention and holding a filtering membrane, and
Fig. 5 shows a perspective view of a cassette having a tray and a lid according to the
invention.
DETAILED DESCRIPTION
The two part container shown in Figs. 1 and 2 comprises a tray 10 and a cover or lid
20 each of which embodies the present invention. However the invention also relates to
simple open topped trays such as the tray 10, e.g. for holding dental instruments to be placed
in a washing apparatus where washing water containing disinfectant is directed in multiple
directions within the washer so as to pass through the tray and wash the articles in the tray.
The tray 10 includes a base 11. Similarly the lid 20 has a base 21. The base 11 has
perforations 12 and similarly the lid 20 has perforations 22 to allow cleaning fluid, such as
water in a washer or steam in an autoclave, to pass through the base 11 or 21 to contact
articles received within the tray 10.
The tray 10 and lid 20 can be moulded from plastics material such as polypropylene
capable of withstanding autoclave temperatures.
The tray 10 has a side wall 17 extending upwardly from the perimeter or edge of the
perforated base 11, and the lid 20 has side wall 27 having a complementary shape at its edge
to the top of the side wall 17 to enable the lid 20 to fit to the tray 10.
As shown in Fig. 2, the perforations 12 are defined by perforation walls 13. Each
wall 13 in vertical cross-section is elliptical with the major axis vertical so as to commence at
a top point 14, widen in a downwards direction to a maximum width 15 corresponding to the
minor axis of the ellipse, and then narrow to a bottom point 16. The maximum width 15 is
less than the distance from the top point 14 to the bottom point 16, i.e. the major axis. In
Figs. 1 and 2, the width 15 is less than half the distance from point 14 to point 16.
With this shape of the walls 13, the cumulative area of the perforations 12 in plan view can be maximised for flow of water or steam through the perforations. The narrowing
of the shape from the width 15 downwardly to the bottom point 16 enables much of the
water directed upwardly in a washer against the tray 10 to be deflected into the perforations
12 so that most of the water being directed upwardly can continue to flow upwardly through
the perforations 12 to reach articles within the tray 10 even if the water first impinges on the
walls 13.
As seen in Fig. 1, the bottom points 16 of the tray 10 define a bottom plane 18 and
the bottom edge 19 of the wall 17 meets but does not extend below this plane 18. Also, the
walls 13 and perforations 12 are provided across the entire area of the base 1 1 so that the
bottom edge 19 of the side wall 17 presents only the same area in bottom plan view as a
perforation wall 13. This enables articles in the tray 10, even if they are located at one side
against a side wall 17, to be reached and contacted by cleaning fluid passing upwardly or
downwardly through the container.
The same functional features are provided by the lid 20 so that the top points 24 of
the walls 23 define a plane 28 and the side wall 27 at its top edge 29 does not project above
this plane 28. This construction enables containers comprising tray 10 and lid 20 as shown in
Fig. 1 to be stacked one on top of each other with contact points being restricted to the
bottom points 16 of tray 10 meeting and resting on top points 24 of a lid 20. This minimises
the contact surface areas between stacked containers to minimise obstruction to flow of
cleaning fluid through the stacked containers and also to minimise areas where moisture
could collect at the areas of contact. Fig. 3a shows the point contact provided by the bottom
point 16 of wall 13 meeting the top point 24 of wall 23.
Figs. 3b to 3e show alternative cross-sectional shapes for walls 13, 23 which still
satisfy the parameters of the present invention and enable point contact of abutting container component bases.
Fig. 4 shows a fragmentary cross-section of the lid of an enclosed autoclave basket
or vessel, the lid 30 having a base 31 provided with perforations 32 through which steam can
flow into the vessel. The walls 33 have the shape shown in Fig. 3b and satisfy the parameters
of the present invention. In particular, the walls 33 in cross-section start at a narrow top
point 34, widen downwardly to a maximum width 35 and then narrow to a bottom point 36.
In this case, the cross-section rapidly narrows from the maximum width 35 to the bottom
point 36 while the widening from the top point 34 to the maximum width 35 is shown as a
half ellipse. The perforations 32 and walls 33 extend completely to the edge of the base 1
where the side wall 37 joins with the base 31 without the top edge 39 of the wall 37
projecting beyond the plane 38 defined by the top points 34.
Within the lid 30 there is provided a perforated filter retainer 40 which is used to
clamp a filtering membrane 41 such as a polypropylene fibre gauze between the filter retainer
40 and the base 31. The filter retainer 40 can be clamped or retained within the lid 30 by any
convenient attaching or clamping means (not shown). The filter retainer is constructed as a
mirror image of the base 31 so that the filtering membrane 41 is clamped between the bottom
points 36 of the base 31 and complementary co-operating top points 44 provided by the walls
43 of the retainer 40. This minimises the area of contact between the filtering membrane 41
and the base 31 and between the filtering membrane 41 and the filter retainer 40 so that steam
passing through the perforations 32 in the base 31 and the perforations 42 in the filter retainer
40 can reach substantially the entire area of the filtering membrane 41. The essentially point
contact between the points 36 and 44 minimises the risk of moisture condensation and
retention at these contact points.
A tray forming the bottom of the autoclave container (of which Fig. 4 shows the lid
assembly 30, 40, 41) can be substantially a mirror image of the lid construction shown in Fig.
4 so that the entire autoclave container can have a large area of perforations in the tray and
also in the lid through which steam can flow. As shown in Figure 5, the tray 50 and lid 60
can form a closeable cassette 46. Although the cassette 46 is formed from a tray 50 and a lid
60 which are not mirror images, the general structure is similar to the structure of the tray 10
and lid 20 shown in Fig. 1. The tray 50 and the lid 60 are rectangular and each includes a
base 1 1, 21 having perforations 12, 22 to allow cleaning fluid, such as water or steam, to
enter into the cassette 46, contact the articles therein and exit the cassette. The perforations
in the tray 50 of cassette 46 of Fig. 5 can be defined by perforation walls as shown in Fig. 2.
Similarly the lid 60 has perforations 22 defined by perforation walls 23. Each wall 13, 23 in
5 vertical cross-section is elliptical with the major axis vertical so as to commence at a top
point, widen in a downwards direction to a maximum width corresponding to the minor axis
of the ellipse, and then narrow to a bottom point. The maximum width is less than the
distance from the top point to the bottom point.
At each central position of the shorter opposite ends of the lid 60 is a slot 48
10 extending parallel to the end edges of the tray 50. The tray 50 has at each corresponding
position in each shorter opposite side 17 a tongue 47 formed integral with the side walls 17
and extending above the top perimeter of the side walls 17. Each tongue is inserted through
the corresponding slot 48 of the lid 60 when the lid 60 is placed on the tray 50 in a closed position. The tongues 47 extend up from close to the base of the tray so as to provide a
15 useable degree of resilience. This resilience is used to close the cassette 46 by the resilient
tongue 47 being able to be moved inwardly from its resting position while being inserted
through the corresponding slot 48 and, upon release, engage the respective outer side of the
slot 48 while trying to return to its resting position. Each tongue 47 includes a step 49
extending across its outer side to engage the end of the lid 60 so as to releasably lock the lid
20 60 onto the tray 50.
It can be seen that with the constructions of Figures 4 or 5, similarly constructed
autoclave containers can be stacked on top of each other within the autoclave with minimised
obstruction to flow of steam through the successive stacked containers. In particular, the top
points 34 of the lid 30 will form point contacts only with complementary bottom points of the
walls provided in the tray of the superimposed container.
It will be seen that the container component, whether it be a tray or lid or cassette,
according to the present invention enables articles to be effectively reached by cleaning fluid,
such as washing liquid in a washer or steam in an autoclave.
It is to be understood that various alterations, modifications and/or additions may be
made to the features of the possible and preferred embodiment(s) of the invention as herein
described without departing from the scope of the invention as defined in the claims.
Claims (13)
1. A container component for enabling cleaning of articles located within the container
component by fluid flow through the component, and comprising a base (11,21,31), the base
having perforations (12,22,32) provided over substantially the entire area where the articles
are in use located and through which the cleaning fluid can flow, the perforations in the base
being defined by perforation walls (13,23,33), each of the walls in vertical cross section
having a narrow top (14,24,34), widening in a downwards direction to a maximum width
(15,35) and then narrowing again to a narrow bottom (16,36), the maximum width (15,35)
being less than the distance from the top (14,24,34) to the bottom (16,36).
2. A container component as defined in Claim 1 wherein the narrow top (14,24,34) of
each perforation wall (13,23,33) comprises a top point, and the narrow bottom (16,36) of
each perforation wall comprises a bottom point.
3. A container component as defined in Claim 1 or 2 wherein the base (11,21,31) is
substantially planar and wherein each wall (13,23,33) in vertical cross section is substantially
elliptical with the major axis of the elliptical cross section being orthogonal to the plane of the
base.
4. A container component as defined in Claim 1 or 2 wherein each wall (13,23,33) in
vertical cross section widens gently and progressively in a downwards direction from the
narrow top (14,24,34) to the maximum width (15,35) and then narrows rapidly and sharply
to the narrow bottom (16,36), or vice versa.
5. A container component as defined in any one of the preceding claims wherein the
maximum width (15,35) of each wall (13,23,33) is less than half the distance from the top
(14,24,34) to the bottom (16,36) thereof.
6. A container component as defined in any one of the preceding claims wherein the
cumulative area of the perforations (12,22,32) when the base (11,21,31) is viewed in plan view is greater than 30% of the total area of the base.
5 7. A container component as in Claim 6 wherein the cumulative area of the perforations
(12,22,32) when the base (11,21,31) is viewed in plan view is equal to or greater than 40%o of
the total area of the base.
8. A container component as defined in any one of the preceding claims wherein the
component comprises a tray (10), the base (1 1) of the component defining a bottom of the
10 tray, a plurality of side portions (17) located around the perimeter of the base (1 1), the
perforations (12) in the base being provided over substantially the entire surface area out to
the perimeter where the side portions (17) are located, so that the articles to be cleaned are
located by the side portions (17) entirely within the perimeter of the base (11) where the
perforations (12) are provided, the tray (10) having an open top through which the cleaning
15 fluid can flow.
9. A container comprising a tray (10) and a cover (20) defining therebetween a space in
which articles to be cleaned can be located, the tray (10) comprising a container component
as defined in any one of the preceding claims and the cover (20) comprising a container
component as defined in any one of Claims 1 to 7.
20 10. A container for enabling cleaning of articles located within the container by fluid flow
through the container, and comprising:
a tray (10,50) , the tray having a bottom (1 1) with perforations (12) provided over
substantially the entire area of the bottom where the articles are in use located and through
which the cleaning fluid can flow; a cover (20,30,60) enabling covering of the articles in the container and having
perforations (22,32) over substantially its entire area and through which the cleaning fluid can
flow; 5 wherein the perforations (22,32) in the cover (20,30,60) are defined by perforation
walls (23,33), each of the walls of the cover having in vertical cross section a narrow top
(24,34), widening in a downwards direction to a maximum width (35) and then narrowing
again to a narrow bottom (36), the maximum width (35) being less than the distance from the
top to the bottom; and wherein the perforations (12) in the bottom (11) of the tray (10,50) 10 are defined by perforation walls (13), each of the walls of the bottom having in vertical cross section a narrow top (14), widening in a downwards direction to a maximum width (15) and
then narrowing again to a narrow bottom (16), the maximum width (15) of the wall (13) of the bottom (11) being less than the distance from the top (14) to the bottom (16) of that wall.
11. A container as defined in Claim 10 wherein the narrow top (14,24,34) of each
15 perforation wall (13,23,33) comprises a top point, and the narrow bottom (16,36) of each perforation wall (13,23,33) comprises a bottom point.
12. A container as defined in Claim 10 or 11 wherein the base is substantially planar and
wherein each wall (13,23,33) in vertical cross section is substantially elliptical with the major
axis of the elliptical cross section being orthogonal to the plane of the base.
20 13. A container as defined in any one of Claims 10 to 12 wherein there is provided a
perforated filter retainer (40) which clamps a filtering membrane (41) between the filter
retainer (40) and the base (31), the filter retainer being constructed as a mirror image of the base (31) so that the filtering membrane is clamped between the bottom points (36) of the
base and complementary co-operating top points (44) provided by the retainer, whereby the area of contact between the filtering membrane (41) and the base (31) and between the
filtering membrane (41) and the filter retainer (40) is minimised so that cleaning fluid passing
through the perforations (32) in the base (31) and the perforations (42) in the filter retainer
(40) can reach substantially the entire area of the filtering membrane (41).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU24396/95A AU682770B2 (en) | 1994-05-13 | 1995-05-12 | Container for washer or autoclave |
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AUPM5625A AUPM562594A0 (en) | 1994-05-13 | 1994-05-13 | Container for washer or autoclave |
AUPM5625 | 1994-05-13 | ||
AU24396/95A AU682770B2 (en) | 1994-05-13 | 1995-05-12 | Container for washer or autoclave |
PCT/AU1995/000282 WO1995031222A1 (en) | 1994-05-13 | 1995-05-12 | Container for washer or autoclave |
Publications (2)
Publication Number | Publication Date |
---|---|
AU2439695A true AU2439695A (en) | 1995-12-05 |
AU682770B2 AU682770B2 (en) | 1997-10-16 |
Family
ID=25619312
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
AU24396/95A Expired AU682770B2 (en) | 1994-05-13 | 1995-05-12 | Container for washer or autoclave |
Country Status (1)
Country | Link |
---|---|
AU (1) | AU682770B2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2009003227A1 (en) | 2007-06-29 | 2009-01-08 | Douglas Bean (Australia) Pty Ltd | Container for washer or autoclave |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4402407A (en) * | 1980-12-16 | 1983-09-06 | Maly George P | Sterilization chest |
DE3438878C2 (en) * | 1984-10-24 | 1993-10-14 | Riwoplan Med Tech Einricht | Device for disinfecting endoscopes and accessories |
AU620049B2 (en) * | 1987-10-30 | 1992-02-13 | Douglas Colin Bean | Autoclave container |
-
1995
- 1995-05-12 AU AU24396/95A patent/AU682770B2/en not_active Expired
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2009003227A1 (en) | 2007-06-29 | 2009-01-08 | Douglas Bean (Australia) Pty Ltd | Container for washer or autoclave |
US8277748B2 (en) | 2007-06-29 | 2012-10-02 | Douglas Bean (Australia) Pty Ltd | Container for washer or autoclave |
Also Published As
Publication number | Publication date |
---|---|
AU682770B2 (en) | 1997-10-16 |
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