Receptacles – Closures – Having means for securing or retaining closure in its closed...
Reexamination Certificate
2000-06-12
2002-04-16
Newhouse, Nathan J. (Department: 3727)
Receptacles
Closures
Having means for securing or retaining closure in its closed...
C292S071000, C206S373000
Reexamination Certificate
active
06371326
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a sterile container for medical purposes having a tub-shaped lower portion and a lid positionable thereon in sealing manner, which lid may be clamped against the lower portion by a lock, wherein the lock comprises a flap swivellable between an open position and a closed position, said flap having a locking projection, and a locking lug with a recess for accommodating the locking projection when the flap is in the closed position.
Such sterile containers are closed in sealed manner in that a resiliently deformable seal is arranged between lid and tub. If the lid is clamped against the tub, this seal is resiliently compressed and ensures that a reliable seal is established around the entire circumference. Clamping together is enable by a special closure, which, in the case of known sterile containers, comprises a flap mounted swivellably on one portion (lid or lower portion) and a locking lug fixed to the other portion. The entire locking lug is capable of resilient deformation, such that a locking projection on the flap engage in a locking recess in the locking lug when said flap swivels, the locking lug undergoing such resilient deformation upon said swivelling movement that the locking projection may slide into the locking recess. The clamping force required for clamping lid and lower portion together is supplied by the resilience of the locking lug.
Although this design has proven very convenient and is therefore also used very widely, certain difficulties do arise in compensating manufacturing tolerances and in establishing the necessary clamping force between lid and lower portion.
SUMMARY OF THE INVENTION
The object of the invention is to so develop a sterile container of the generic type that the design thereof allows better compensation of manufacturing tolerances and optionally also better adjustment of the clamping force between lid and lower portion.
This object is achieved according to the invention for a sterile container of the above-described type in that the locking projection in the flap may be displaced resiliently in a direction in which it is moved out of the recess in the locking lug.
With the new design, therefore, the locking projection in the flap is in turn of resiliently displaceable construction and, in accordance with the dimensions of the flap, a relatively large displacement path is available thereto which is as a rule substantially larger than the displacement path provided by a resiliently deformable locking lug. This extension of the displacement path eases adaptation to manufacturing tolerances and it is additionally possible to vary the spring fore with which the locking projection is displaced in the direction of the recess.
In principle, it is possible to make the locking projection in one piece with the flap, resilient deformability then being achieved in the resiliently deformable connecting members are arranged in the connecting area between locking projection and flap, for example spring-type webs or the like.
In a particularly preferred embodiment, however, provision is made for the locking projection to take the form of a locking member separate from the flap, which locking member is mounted in the flap so as to be displaceable in a guide. Such a construction has the advantage that it is particularly simple to produce and, in addition, different materials may be used, for example the locking projection may consist of a sterilisable plastics material while the flap consists of metal.
It is beneficial for the guide to be open at one end and closed at the other end. This makes it particularly easy to insert the locking member, which is simply introduced into the guide from the open side. This open end may preferably face the swivel axis of the flap.
A particularly easily produced guide takes the form of the edge strips of a cutout portion of the flap, which strips engage in lateral longitudinal channels in the locking member.
It is also advantageous for the locking member to be held captive in the guide by a limit stop which may be moved resiliently out of engagement when the locking member is introduced into the guide. In particular, such a limit stop may take the form of a resilient catch, which engages in a recess extending in parallel with the guide.
In this way, assembly is made particularly simple, it being sufficient to introduce the locking member into the guide from the open side, the limit stop being brought resiliently out of engagement until the locking member is introduced into the guide. Then the limit stop moves back into the rest position and from this moment prevents withdrawal of the locking member from the guide.
Spring means are preferably arranged between the locking member and the flap, which effect the resilient displacement of the locking member.
These may be conventional spring means, for example helical springs.
It is beneficial for the flap and/or the locking member to comprise a receiving space for the spring means, such that the latter are inserted only loosely between flap and locking member and are then held in the receiving space, additional retaining means then being superfluous.
In a particularly preferred embodiment, provision is made for the receiving space to be so dimensioned that it may accommodate as spring means several compression springs next to one another. This allows the resilient forces with which the locking member is displaced in the direction of the recess in the locking lug to be varied by the insertion of different numbers of such compression springs. In this way, the clamping forces exerted by such a closure may be adjusted, which is of great significance, since the clamping forces required for obtaining uniform deformation of the seal between lid and lower portion increase in proportion to the length of the seal, such that different clamping forces are required for different sizes of container. These forces may be easily adjusted by the number of compression springs selected and in this way the same closure design may be used for containers of different sizes. Through an appropriate choice of spring force, it is also possible to adapt the clamping force to special sealing characteristics of the seal, the clamping force of the compression springs being less for soft seals than for hard seals.
It is particularly advantageous if the spring means are pretensioned in the relaxed end position. Through appropriate selection of the spring characteristics of the compression springs, this allows a resilient restoring force to be generated which is substantially without variation over the entire displacement distance of the locking member, such that these restoring forces remain extensively the same even where dimensions vary for structural reasons.
A particularly space-saving and favourable design is obtained if the locking member is mounted so as to be displaceable in the plane of the flap in the direction of the swivel axis thereof.
The flap may be in particular of U-shaped construction, with two limbs which define the swivel axis at their free ends and with a central cutout which accommodates the locking member.
In principle, given the above-described design of the flap with a resiliently displaceable locking projection, it is not necessary for the locking lug in turn to be of resilient construction; however, a preferred embodiment provides for the locking lug to be of resilient construction in such a way that, when the flap swivels, it moves slightly to make way for the locking projection on the flap. This is particularly useful where it is desirable for the locking member to effect as slight as possible a displacement movement, for example for dimensional reasons, such that then both the locking lug and the locking projection assume responsibility for part of the resilient displacement of the closure parts.
The resilience of the closure parts may provide such a long-stroke construction that, even when the closure is in place, the lid may be moved far enough away from the tub-shaped lower portion against the resilient closing force of the
Gabele Lorenz
Schwanke Wolfgang
Aesculap AG & Co. KG
Lipsitz Barry R.
McAllister Douglas M.
Newhouse Nathan J.
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