Medical syringe abstract
A medical syringe container comprising a housing, an outlet through
which a new syringe can be removed from the housing, an inlet through
which a syringe can be replaced into the housing, and holding means
to prevent a second syringe from being removed from the housing
until a used syringe has been replaced into the housing. The container
is particularly useful with needle exchange programs.
Medical syringe claims
1. A medical syringe container comprising a housing, an outlet
through which a new syringe can be removed from the housing, an
inlet through which a syringe can be replaced into the housing,
and holding means to prevent a second syringe from being removed
from the housing until a syringe has been replaced into the housing.
2. The container of claim 1 wherein replacement of the syringe
into the housing causes the second syringe to move past the holding
means and to the outlet to enable removal of the second syringe
through the outlet.
3. The container of claim 2 wherein the holding means is a resilient
tab which prevents a syringe from passing to the outlet, the tab
allowing a syringe to move past the tab when a syringe has been
replaced into the housing.
4. The container of claim 2 wherein the housing comprises a syringe
support which supports the syringes in the housing in a side by
side relationship and which allows the syringes to move from the
inlet to the outlet.
5. The container of claim 4 wherein the syringe support comprises
a pair of spaced apart rails between adapted to support a syringe
by laterally extending tabs which are conventional and which extend
from the syringe, the rails being spaced apart by a distance to
allow a syringe body to slide between the rails.
6. The container of claim 5 wherein the housing comprises two
parts being an inner housing portion and an outer housing portion
which are adapted to be squeezed together, biasing means to bias
the housing portions away from each other, the inner housing portion
having the syringe support.
7. The container of claim 1 wherein the inlet contains guide means
to guide a returned syringe into the housing.
8. The container of claim 7 wherein the guide means is an inclined
flap extending and depending from one edge of the inlet
9. The container of claim 1 comprising a restriction means adjacent
the inlet to allow only a syringe to pass through the inlet.
10. The container of claim 1 which is adapted to hold between 2-10
syringes in a side by side relationship.
11. The container of claim 1 including a partition in the housing
the partition functioning to separate the used syringed being returned
into the container from the new syringes in the container.
12. The container of claim 1 wherein the syringes are single use
syringes of the type having a shoot back needle which is activated
to shoot back upon pressing of the syringe plunger, the inlet of
the container being provided with activation means to activate the
shoot back mechanism of the syringe upon insertion of a returned
syringe into the container, to ensure that all returned syringes
are rendered inoperative.
13. The container of claim 12 wherein the activation means is
a flap adjacent the inlet which provides a resistance to insertion
of the syringe, thereby requiring the syringe to be forced in by
pushing on the plunger which will activate the shoot back mechanism
of a returned syringe which has not yet been rendered inoperative.
Medical syringe description
FIELD OF THE INVENTION
 This invention is related to a medical syringe container
for holding a plurality of syringes, and which is designed to enable
a new syringe to be removed from the container only when a used
syringe is inserted into the container. This makes the container
particularly suitable with needle exchange programs.
 Medical syringe containers (also known as needle cases)
are known in the art. The containers function to protect the syringes
from damage prior to use. Typically, the container comprises a rigid
housing in which a number of syringes can be held. The housing can
be opened and any number of syringes can be removed. It is also
possible for these containers to accommodate used syringes.
 A disadvantage with these containers is that they are not
particularly suitable with a needle exchange program. In a needle
exchange program, a new needle (that is a syringe containing a needle)
is given only when a used syringe is returned. With these known
containers, there is no mechanism to ensure that a used syringe
is returned prior to a new syringe being given.
 There is also the temptation to try to obtain new syringes
without returning used syringes. With conventional containers, there
is no security against this type of abuse. Even if the container
is locked it can be forced open and a new syringe can be removed.
OBJECT OF THE INVENTION
 It is an object of the present invention to provide a medical
syringe container which houses a number of syringes and where after
the first syringe has been removed, a second syringe is not accessible
until a used syringe has been returned into the container.
 It is a further object of the invention to provide a medical
syringe container which may overcome at least some of the above
mentioned disadvantages or provide the public with a useful or commercial
 In one form, the invention resides in a medical syringe
container comprising a housing, an outlet through which a new syringe
can be removed from the housing, an inlet through which a syringe
can be replaced into the housing, and holding means to prevent a
second syringe from being removed from the housing until a syringe
has been replaced into the housing.
 Thus, with this type of container, it is necessary to return
a syringe (typically, a used syringe) before a new syringe can be
 The container can hold a plurality of syringes and typically
holds between 2 to 10 syringes. The syringes can be in a side by
side relationship and are typically aligned. Thus, the syringes
are typically presented in a row in the housing. It is envisaged
that the housing may contain two or more rows, and it is preferred
that the syringes are all in a head to head and tail to tail relationship.
 The housing may comprise a top wall, a bottom wall and a
pair of side walls. The syringes are typically arranged in the housing
such that the top wall of the housing is above the plunger tail
of the syringe and the bottom wall is adjacent the needle of the
 The housing may comprise an outer housing portion and an
inner housing portion. Suitably, these portions can slide relative
to each other. Suitably, the inner housing portion contains the
inlet and the outer housing portion contains at least part of the
 In an alternative, the housing can be a one piece housing,
and the top wall may be provided with the inlet. Typically, a side
wall is provided with an outlet.
 Guide means may be associated with the inlet to guide syringes
into the housing to adopt a position which is aligned with the syringes
which are in the housing. The guide means may comprise an inclined
wall, face or surface associated with the inlet. Suitably, the guide
means extends into the housing.
 A restriction means may be associated with the inlet. The
restrictions means may function to allow only syringes to be inserted
through the inlet. This can reduce the likely success of a person
attempting to insert an object other than a syringe to try to gain
access to a new syringe. The restriction means may comprise a specially
designed or "keyed" opening which can be keyed to the
shape of the syringe to allow the syringe to pass through the inlet.
The restriction means can also function to guide the syringe into
the housing in a particular orientation, for instance, with the
side tabs of the syringe extending towards each side wall when in
the housing. This will be described in greater detail below.
 If the housing comprises two pieces, the inner housing portion
can function to hold the syringes in a side by side and aligned
orientation. The inner portion may comprise a bottom wall, a pair
of side walls, an inner end wall, an outer end wall, and a substantially
open top. The syringes are typically supported by the inner portion
in such a manner that the syringes are able to move from adjacent
the outer end wall to adjacent the inner end wall. Various ways
by which this can be achieved are envisaged. For instance, the inner
portion may have an upper support means to support an upper part
of the syringe. The upper support means may support the syringes
via the tabs. The upper support means may comprise a ledge, a rail,
a platform, a land portion and the like. Suitably, the support means
comprises a pair of spaced apart rails, one rail being on one side
wall of the inner portion and the other rail being on the other
side wall of the inner portion, the rails being spaced apart such
that a syringe body can slide between the rails, and the syringe
is supported by the tabs which extend from each side of the syringe
 One or both of the rails may be formed for movement relative
to the other rail. Thus, in an embodiment, one or both of the rails
can be slightly pushed apart to allow the forward most syringe to
be removed via the outlet.
 The container typically has some form of holding means.
The holding means can function to prevent the syringe from moving
to the outlet (and therefore being removable from the container)
without a used syringe initially having been returned to the container
via the inlet. The holding means can function to hold the syringes
in the housing such that vigorous shaking of the housing, or hitting
the housing on a hard surface does not inadvertently jolt or push
a new syringe to the outlet. However, the holding means may be designed
to allow a syringe to move to the outlet once a used syringe is
returned into the container. Various types of holding means are
envisaged. For instance, the holding means may comprise an abutment,
a projection, a rib, a flap, a catch, a latch and the like which
can prevent syringes from moving to the outlet. Suitably, the holding
means can be moved to a free position, or deformed, bent, twisted
and the like to a position where a syringe can move towards the
outlet. The holding means may comprise a biased member. The biased
member may be formed integrally with another part of the container,
or may comprise a separate member. The separate member may compromise
a small ball bearing which is biased into engagement with a syringe
to prevent the syringe from moving past the ball bearing, but which
can be depressed upon a force been applied to the syringe. Typically,
the holding means comprises one or more deformable flaps, abutments,
ridges, shoulders, ribs and the like and these may be positioned
on, above, or adjacent the support means.
 The container is designed to house medical syringes of the
type having a syringe body, a plunger and a needle. The container
can house conventional syringes, syringes having needle stick prevention
means and the like. A typical syringe having needle stick prevention
means may comprise a syringe having a shoot back needle of the type
which shoots back into the syringe body when the plunger is pushed
into its fully forward position. One type of shoot back syringe
is described in our earlier international patent application PCT/AU01/00183.
However, the container need not be limited to this particular type
 In order to improve security to the container, means may
be provided to render the syringes inoperative if an attempt is
made to prise the container open. One suitable means comprises a
syringe of special design and a container of special design. The
syringe or special design typically comprises a syringe having a
shoot back needle which shoots back upon forward movement of the
plunger, and the container may be provided with means to trigger
the shoot back mechanism should an attempt be made to force open
the container. This will be described in greater detail below.
 As the container can be designed to hold new needles and
used needles, a partition may be provided in the container to separate
the new needles from the used needles. The partition may comprise
a sliding partition which is initially positioned behind the last
new needle and which will progressively move along the container
as used needles are placed through the inlet or partition may be
brightly coloured to give a visual "empty" indication
through the outlet.
BRIEF DESCRIPTION OF THE DRAWINGS
 Embodiments of the invention will be described with reference
to the following drawings:
 FIGS. 1a and 1b: Illustrate a forward view and a rear view
of a two part container filled with syringes (not illustrated) and
in the initial position.
 FIGS. 2a and 2b: Illustrate the two part container where
the two parts have been squeezed together to present the first new
syringe at the outlet.
 FIGS. 3a and 3b: Illustrate the container with the first
syringe having been removed from the outlet.
 FIGS. 4a and 4b: Illustrate how further squeezing of the
container will not present a second needle as a used needle has
not yet been inserted into the container.
 FIGS. 5a and 5b: Illustrate the container where the two
parts have been moved apart to present the inlet through which a
used syringe can be placed.
 FIG. 6: Illustrates an edge elevation view of the container
in the position of FIG. 1a.
 FIG. 7: Is a section view of the container in the position
illustrated in FIG. 1a.
 FIG. 8: Is a section view of the container illustrated in
the position illustrated in FIG. 2a.
 FIG. 9: Is a section view of the container in the position
illustrated in FIG. 3a.
 FIG. 10: Is a section view of the container showing a used
needle inserted through the inlet and which has advanced the new
syringes through the housing.
 FIG. 11: Is a forward view of the inner housing portion.
 FIG. 12: Is a rear view of the inner housing portion.
 FIG. 13: Is a top view of the inner housing portion.
 FIG. 14: Is a front view of the outer housing portion.
 FIG. 15: Is a rear view of the outer housing portion.
 FIG. 16: Is a view of the sliding partition.
 FIG. 17: Illustrates a medical syringe container according
to a second embodiment of the invention and which contains a one
piece housing and which is illustrated in cutaway view.
 FIG. 18: Is an edge elevation view of the container of FIG.
 FIG. 19: Is a plan view of the container of FIG. 17.
 FIG. 20: Illustrates the container of FIG. 17 with the first
new syringe removed from the container and illustrating that the
second syringe does not move forwardly.
 FIG. 21: Illustrates the container of FIG. 20 with a used
syringe being inserted through the inlet.
 FIG. 22: Illustrates the container of FIG. 21 with a used
syringe moved further into the inlet and beginning to push forwardly
the new syringes in the container.
 FIG. 23: Illustrates the container of FIG. 22 with a used
syringe fully inserted into the container and the next new syringe
now been available for removable.
 A first embodiment will be initially with reference to FIGS.
1-16 of the drawings. Referring initially to FIG. 7 there is illustrated
a two part medical syringe container where the housing comprises
an inner housing portion 11 (best illustrated in FIGS. 11 and 12),
and an outer housing portion 12 (best illustrated in FIGS. 14 and
15). Inner housing portion 11 is made of rigid plastic and is substantially
box like in configuration and contains a bottom wall 13 opposed
side walls 14 15 an inner end wall 16 and an outer end wall 17
and has a substantially open top 18. The inner housing portion 11
contains the inlet 19 through which a used syringe passes into the
container. A biasing means in the form of a pair of spring fingers
20 extends from each side wall 14 15 of inner housing portion 11
and extends forwardly of inner end wall 16. Fingers 20 bias against
the outer housing portion 12 to allow the two portions to be squeezed
together against the bias of the spring as will be described in
greater detail below.
 Inner housing portion 11 holds the medical syringes 21-25
and in the particular embodiment the container holds 5 syringes.
Of course, it should be appreciated that the container is not to
be limited to 5 syringes only.
 The syringes are positioned inside the container in a side
by side relationship and the syringes are all aligned which means
that the needles are all together and the plunger tails are all
together. In the embodiment, each syringe has a syringe body 26
a needle cap 27 (in which a needle is provided) an internal plunger
having a plunger tail 28 being protected by a cap 29. Cap 29 and
cap 27 ensure that the syringe remains sterile until use. Cap 29
is a deformable cap, the reason for which will be described in greater
 Syringes 21-25 are supported inside inner housing portion
11 via tabs 30 which conventionally extend from each side of the
syringe body and which abut against the first and second finger
of the person using the syringe and depressing the plunger with
the persons thumb.
 The inner housing portion is provided with a support means
to support the syringes in the side by side relationship illustrated
in FIG. 7. The support means comprises a pair of spaced apart parallel
rails 31 32 which are best illustrated in FIG. 11 and FIG. 13.
Rails 31 32 can be formed integrally with the inner housing portion
and are spaced part sufficiently to allow the syringe body 26 to
slide between rails 31 and 32. Rails 31 32 support the tabs 30
on each syringe which means that the syringe can slide along the
inner housing portion from adjacent outer end wall 17 towards inner
 The open top 18 forms part of the outlet portion 33 (see
FIG. 12) of the container. Rails 31 32 extend along the outlet
portion 33 which means that a syringe is able to slide along the
rails to outlet portion 33 and therefore able to be removed from
the container. A Holding means is provided to prevent the second
syringe 22 from being removed from the housing until a used syringe
has been replaced into the housing. In the embodiment, the holding
means comprises a pair of inwardly inclined resilient hold back
tabs 34 35 (FIGS. 11-12) which are positioned above rails 31 32
and which are attached to side walls 14 15. Tabs 34 35 will hold
back the syringes in inner housing portion 11 from sliding towards
outlet portion 33. However, tabs 34 35 can be deformed outwardly
if the syringes behind the tabs are pushed hard enough by the action
of a used syringe being inserted through inlet 19. Thus, the function
of tabs 34 35 is to hold back new syringes until a used syringe
is pushed through inlet 19. This will be described in greater detail
 Inlet 19 is provided with a guide means which is in the
form of an angled flap 36. Flap 36 is also illustrated in FIG. 7
and is hinged to the top of outer end wall 17 at hinge point 37.
Flap 36 is biased to a partially depending (open) position illustrated
in FIG. 7 by a biasing finger 38. The function of flap 36 is to
guide a used syringe into and towards the new syringes in the inner
housing portion 11 and also to provide a biasing action or pushing
action against the used syringe as it is inserted through inlet
19. Once the used syringe has been fully inserted into inner housing
portion 11 flap 36 moves to the position illustrated in FIG. 10
and the lower most free edge 39 of flap 36 is above the tabs 30
of the syringe and therefore the syringe cannot be pulled back out
of inlet 19.
 Flap 36 provides a resistance to the insertion of the needle.
 This requires the needle to be forced in by pushing on the
plunger. This action can "trigger" the shoot back mechanism
of a syringe. Thus if a syringe is used but the shoot back mechanism
has not operated, or if an unused syringe is inserted through the
inlet, it will be rendered inoperative by "triggering"
the shoot back mechanism.
 Inlet 19 can also be provided with a restriction means to
prevent or reduce insertion of an object other than a used syringe
through inlet 19. Typically, the restriction means comprises opening
19 being configured or "keyed" such that only the shape
of a syringe can pass through inlet 19.
 A partition wall 40 is provided in portion 11 and partition
wall 40 is best illustrated in FIG. 16. Partition wall 40 has a
main body portion 41 which separates a new syringe from a used syringe,
and a necked portion 42 which allows the partition to ride along
rails 31 32.
 The container includes an outer housing portion 12 best
illustrated in FIGS. 14 and 15. Outer housing portion 12 has a substantially
box like configuration and includes a top closed wall 43 a pair
of opposed side walls 44 45 a substantially closed front wall
46 and a substantially open rear end 47. The forward end of top
wall 43 and an upper portion of front wall 46 define a step which
defines part of outlet 49. Outlet 49 has a restricted top portion
50. The outer housing portion has a substantially closed bottom
wall 51. Bottom wall 51 (best illustrated in FIG. 7) has a rear
ramped portion 52 which forms part of the means to render a syringe
inoperative should an attempt to be made to force open the container
and which will be described in greater detail below.
 Bottom wall 51 has a forward stop or shoulder 53 which defines
the distance by which the inner housing portion and the outer housing
portion can be squeezed together.
 Initially, the container is as illustrated in FIG. 7 and
FIG. 1a and contains 5 new sterile syringes. Outlet 49 is substantially
covered by tab 54 which extends forwardly of inner end wall 16 of
the inner housing portion 11 and best illustrated in FIGS. 11 and
 The sequential operation to remove a new syringe is illustrated
in FIGS. 1-5 and will be described as follows:
 To remove the first new syringe, the outer housing portion
12 and the inner housing portion 11 are squeezed together and this
can be done in a one handed operation. The two portions are biased
away from each other by fingers 20 as fingers 20 bias against front
wall 46 of outer housing portion 12. When the two portions are squeezed
together the container adopts the position illustrated in FIGS.
2a and 2b and also FIG. 8. In this position the first syringe 21
has been pushed forwardly and now extends into outlet 49. Tab 54
has been pushed forwardly as it is attached to the front of inner
housing portion 11. Syringe 21 can now be pulled out of outlet 49
by a person's fingers. Importantly, the first syringe 21 sits forwardly
of the hold back tabs 34 35 and therefore can be removed. The remaining
syringes 22-25 sit behind the hold back tabs 34 35 and are therefore
unable to advance forwardly over rails 31 32 to the outlet. Thus,
and as illustrated in FIG. 4a and FIG. 9 once the first syringe
has been removed, the remaining syringes 22-25 stay in position.
 The grip on the container can then be relaxed which will
cause the inner housing portion 11 to now be pushed back to its
initial position (by the action of spring fingers 20), and this
will also result in tab 54 being returned to lie substantially over
outlet 49. This is the position illustrated in FIG. 5a which is
identical to the position illustrated in FIG. 1a except that the
container now contains 4 syringes as 1 syringe has been removed.
 Importantly, if the container is again squeezed such that
the inner housing portion and the outer housing portion are squeezed
together, syringe 22 does not present itself to outlet 49 as it
is held back by tabs 34 35. Therefore, once the first syringe has
been removed subsequent syringes are not available for removable.
 The inner housing portion is prevented from moving entirely
out of outer housing portion by a bottom lip 55 which abuts against
the step 53 on the bottom wall of outer housing portion.
 To advance new syringe 22 past the hold back tabs 34 35
and therefore towards outlet 49 it is necessary to return a syringe
(typically a used syringe) through inlet 19. This is best illustrated
in FIG. 10. Used syringe 56 best illustrated in FIG. 10 has been
pushed through inlet 19 and has been guided into the position where
it is in a parallel orientation relative to new syringes 22-25 by
virtue of flap 36. As the used syringe 56 is pushed through inlet
19 it abuts against internal partition wall 40 and forces wall
40 to move forwardly. This action causes each new syringe 22-25
to move forwardly by a distance equivalent to the width of the used
syringe 56. This forward force causes the second new syringe 22
to be pushed past hold back flaps 34 35 and thus makes the second
new syringe available for removal when the outer housing portion
and the inner housing portion are again 30 squeezed together.
 Once the second new syringe 22 has been removed, the hold
back flaps 34 35 will prevent the remaining new syringes from being
removed until a second used syringe has been inserted through inlet
 The sequence can be repeated until all the new syringes
have been removed and the container now contains the used syringes.
 The container of the particular embodiment also has a means
to render the new syringes inoperative should an attempt be made
to pull inner housing portion 11 out of outer housing portion 12.
This means requires the syringes to be of the type having a shoot
back needle and this type of syringe is described in our earlier
international patent application PCT/AU01/00183 but other shoot
back syringes can also be used. These syringes operate by biasing
the needle into the shoot back position and having some form of
needle retaining means which prevents the needle from shooting back
until the plunger has been fully advanced. Once the plunger has
been fully advanced, the retaining means is removed and the needle
shoots back. In the embodiment, bottom wall 51 of outer housing
portion 12 is provided with an upwardly inclined ramped portion
52 this being illustrated in FIGS. 7 15 and 10. Each new syringe
is provided with a cap 29 to render the syringes sterile, but importantly,
cap 29 can be deformed under pressure to force the plunger fully
forward which will cause the needle to shoot back therefore rendering
the syringe inoperative. Thus, should an attempt be made to pull
inner housing portion 11 out of housing portion 12 the new syringes
will ride over ramped portion 52 causing the syringes to move upwardly
which in turn causes the cap 29 of the plunger to deform which causes
the plunger to move fully into the syringe body which triggers the
shoot back needle thereby rendering the needles inoperative.
 FIGS. 17-23 illustrate a second embodiment of the invention.
In this embodiment, the medical syringe container comprises a single
housing 60 which has a closed bottom wall 61 a closed end wall
(called the inner end wall for the sake of convenience) 62 a pair
of closed opposed side walls 63 64 (in the embodiment illustrated,
one of the side walls has been removed to allow the internal components
of the container to be viewed), a substantially closed top wall
65 and an open end wall 66 (called the outer end wall for the sake
 Top wall 65 contains an inlet 67 and the open outer end
wall 66 comprises the outlet (which shall be given reference numeral
68 for the sake of convenience). Container 60 is provided with a
support means to support a plurality of syringes in the container.
In the particular embodiment, 5 syringes 69-73 are illustrated although
it should be appreciated that no limitation is meant thereby.
 The support means comprises a pair of spaced apart rails
74 75 (best illustrated in FIG. 18). In this particular embodiment,
the syringes are supported by an upper support means comprising
a pair of rails 74 75 and a lower support means comprising a pair
of rails 76 77. One of the rails 75 77 is formed integrally or
is rigidly fixed to a respective side wall, or the other of the
rails 74 76 is cantilevered and can move towards and away from
the other rail member 75 77. Rails 74 75 are spaced apart by a
distance sufficient to allow the syringe body 78 to slide between
the rails. The tabs 79 on the syringes extend above rails 74 75
and support the syringes in the container.
 Rails 74 75 are provided with holding means which comprise
small projections or tabs which prevent the syringes from sliding
from the position illustrated as x in FIG. 17 to the position illustrated
as y in FIG. 17.
 In use, the first new syringe 69 can be simply pulled out
of outlet 68 as the side walls are provided with a recessed portion
80 which is illustrated in FIG. 17 and FIG. 20. Recessed portion
80 allows the first syringe 69 to be gripped around the syringe
body by a person's fingers and removed from the container. Importantly,
the second syringe 70 does not advance forward from position x to
position y as it is held at position x by the holding means. A used
syringe 81 (see FIGS. 21-23) needs to be pushed through inlet 67
before the second new syringe 70 can be advanced to the position
y thereby allowing the second new syringe 70 to be removed. Sequentially,
the new syringe 81 is pushed through inlet 69 and is guided into
engagement with the syringes in the housing by a guide means 82
which comprises a biased flap. As the syringe 81 is pushed further
through inlet 67 it places a pushing force against the back of syringe
73 and therefore against each of the other syringes in the container.
Once the new syringe 81 has been pushed fully into the container,
the pressing action against the other syringes is sufficient to
force the second new syringe 70 past the hold back means at position
x and into position y where it can now be removed from outlet 68.
The forward most edge in position y is also provided with a small
inwardly turn tab or lift 83 (see FIG. 18) to prevent the new syringe
from simply falling out of the container on a slight shake. Instead,
the syringe needs to be grasped by a person's finger and pulled
out of the container against the action of the small lip 83.
 It should be appreciated that various changes and modifications
can be made to the embodiment described without departing from the
spirit and scope of the invention. For instance, the container may
contain a visual means such as a window to visually identify the
number of new syringes in the container.