Container closure

Abstract

A closing/locking mechanism for a sterile container includes an actuation lever, a tension bow or claw coupled to the actuation lever, and an engagement element forming an undercut and with which the tension bow or claw can be brought into operative engagement to apply a tensile force to the engagement element. The tension bow or claw is mounted for sliding transversely to the tensile force to be applied. A spring is arranged in an operative position relative to the tension bow or claw in such a way that, when a predefined actuation position of the actuation lever and a predefined/predefinable sliding position of the tension bow or claw are reached, in which position the tension bow or claw already reaches behind the engagement element, the spring applies a compressive force to the tension bow or claw in the direction of the tensile force.

Claims

1. A medical sterile container comprising: a container trough comprising a sidewall having an upper edge; a container lid; and a closing/locking mechanism, the container lid being arranged on the upper edge of the container trough and lockable with the container trough by the closing/locking mechanism, the closing/locking mechanism comprising: an actuation lever that is pivotable between a locked position, in which the container lid is locked to the container trough in a fluid-tight manner, and an unlocked position, a tension bow directly or indirectly coupled to the actuation lever and displaceable relative to the container lid, a spring disposed between a portion of the tension bow and a portion of the container lid; and an engagement element forming an undercut on the container trough, wherein when the actuation lever is pivoted from the unlocked position to the locked position: the tension bow moves upwardly toward the upper edge of the container trough and inwardly toward the sidewall to engage behind the engagement element, the tension bow moves over the spring and compresses the spring against said portion of the container lid, and the spring applies a force to the tension bow, thereby pressing the container trough against the container lid in said fluid-tight manner.

2. The medical sterile container according to claim 1, further comprising a tappet having a first end coupled to the actuation lever and a second end coupled to the tension bow, the tappet being operable to convert pivot motion of the actuation lever to translation of the tension bow.

3. The medical sterile container according to claim 2, wherein the tappet comprises a tappet rod or a tappet plate.

4. The medical sterile container according to claim 1, wherein the tension bow comprises a first section defining a clamping element and a second section defining a locking slider that moves in unison with the clamping element.

5. The medical sterile container according to claim 4, wherein translation of the locking slider is limited by a guide rail on the container lid.

6. The medical sterile container according to claim 4, wherein the engagement element on the container trough comprises an abutment surface, and wherein, when the actuation lever is pivoted from the unlocked position to the locked position, the clamping element contacts the abutment surface on the container trough, and the spring exerts the force on an underside of the tension bow to pull the clamping element against the abutment surface.

7. The medical sterile container according to claim 6, wherein the abutment surface extends along a perimeter of the container trough.

8. The medical sterile container according to claim 6, wherein the abutment surface forms a ledge that extends outwardly and away from an interior of the container trough.

9. The medical sterile container according to claim 6, wherein the clamping element comprises a hook configured to hook onto the abutment surface.

10. The medical sterile container according to claim 9, wherein the hook projects towards the container trough when the container lid is placed on the container trough.

11. The medical sterile container according to claim 1, wherein the actuation lever comprises a first end that forms an actuation handle and a second end that forms a push-down lug, the push-down lug configured to press against the tension bow when the actuation lever is pivoted toward the unlocked position and release the tension bow when the actuation lever is pivoted toward the locked position.

12. The medical sterile container according to claim 1, wherein the actuation lever is pivotally mounted on a pin, and the spring is bent around the pin.

13. The medical sterile container according to claim 1, wherein the spring is a leaf spring that comprises a first free edge and a second free edge, the first free edge and the second free edge configured to engage the tension bow after the actuation lever is pivoted to the locked position and the tension bow slides over the spring.

14. The medical sterile container according to claim 1, wherein the spring is configured such that, when the container trough and the container lid are pressed against each other in said fluid-tight manner, and when a pressure in the medical sterile container exceeds a certain value, said pressure in the medical sterile container overcomes a reaction force of the spring to separate the container lid from the container trough to relieve excess pressure in the medical sterile container.

15. The medical sterile container according to claim 1, wherein the spring is arranged between an underside of the tension bow and an upper side of the container lid.

16. A medical sterile container comprising: a container trough having a sidewall; a container lid; and a closing/locking mechanism, the container lid being arranged on an upper edge of the container trough and lockable with the container trough by the closing/locking mechanism, the closing/locking mechanism comprising: an actuation lever which is pivotably mounted above the container lid, a tension bow directly or indirectly coupled to the actuation lever and displaceable relative to the container lid, a spring; and an engagement element forming an undercut on the container trough, wherein the actuation lever is configured to be pivoted into an actuation position and the tension bow is configured to slide into a sliding position, in which the tension bow moves upwardly toward the upper edge of the container trough and inwardly toward the sidewall of the container trough to engage behind the engagement element and the spring applies a force to the tension bow, thereby pressing the container lid against the container trough, wherein the actuation lever is pivotable relative to the container lid between a locked position, in which the container lid is locked to the container trough in a fluid-tight manner, and an unlocked position, and wherein, when the actuation lever is pivoted from the unlocked position to the locked position: the tension bow engages behind the engagement element, the tension bow moves over the spring and compresses the spring against the container lid, and the spring applies a force to the tension bow, thereby pressing the container trough against the container lid in said fluid-tight manner.

17. The medical sterile container according to claim 16, wherein the tension bow comprises a first section defining a clamping element and a second section defining a locking slider that moves in unison with the clamping element.

18. The medical sterile container according to claim 17, wherein translation of the locking slider is limited by a guide rail on the container lid.

19. The medical sterile container according to claim 17, wherein the engagement element on the container trough comprises an abutment surface, and wherein, when the actuation lever is pivoted from the unlocked position to the locked position, the clamping element contacts the abutment surface on the container trough, and the spring exerts the force on an underside of the tension bow to pull the clamping element against the abutment surface.

20. The medical sterile container according to claim 19, wherein the abutment surface extends along a perimeter of the container trough.

21. The medical sterile container according to claim 19, wherein the abutment surface forms a ledge that extends outwardly and away from an interior of the container trough.

22. The medical sterile container according to claim 19, wherein the clamping element comprises a hook configured to hook onto the abutment surface.

23. The medical sterile container according to claim 22, wherein the hook projects towards the container trough when the container lid is placed on the container trough.

24. The medical sterile container according to claim 19, wherein the spring is arranged between the underside of the tension bow and an upper side of the container lid.

25. The medical sterile container according to claim 16, wherein the actuation lever comprises a first end that forms an actuation handle and a second end that forms a push-down lug, the push-down lug configured to press against the tension bow when the actuation lever is pivoted toward the unlocked position and release the tension bow when the actuation lever is pivoted toward the locked position.

26. The medical sterile container according to claim 16, wherein the spring is a leaf spring that comprises a first free edge and a second free edge, the first free edge and the second free edge configured to engage the tension bow after the actuation lever is pivoted to the locked position and the tension bow slides over the spring.

27. The medical sterile container according to claim 16, wherein the spring is configured such that, when the container trough and the container lid are pressed against each other in said fluid-tight manner, and when a pressure in the medical sterile container exceeds a certain value, said pressure in the medical sterile container overcomes a reaction force of the spring to separate the container lid from the container trough to relieve excess pressure in the medical sterile container.

28. The medical sterile container according to claim 16, wherein the spring is disposed between a portion of the tension bow and a portion of the container lid.

29. The medical sterile container according to claim 16, further comprising a tappet having a first end coupled to the actuation lever and a second end coupled to the tension bow, the tappet being operable to convert pivot motion of the actuation lever to translation of the tension bow.

30. The medical sterile container according to claim 29, wherein the tappet comprises a tappet rod or a tappet plate.

31. The medical sterile container according to claim 16, wherein the actuation lever is pivotally mounted on a pin, and the spring is bent around the pin.

32. A medical sterile container comprising: a container trough having a sidewall; a container lid; and a closing/locking mechanism, the container lid being arranged on an upper edge of the container trough and lockable with the container trough by the closing/locking mechanism, the closing/locking mechanism comprising: an actuation lever which is pivotably mounted above the container lid, a tension bow directly or indirectly coupled to the actuation lever and displaceable relative to the container lid, a spring; and an engagement element forming an undercut on the container trough, wherein: the actuation lever is configured to be pivoted into an actuation position and the tension bow is configured to slide into a sliding position, in which the tension bow moves upwardly toward the upper edge of the container trough and inwardly toward the sidewall of the container trough to engage behind the engagement element and the spring applies a force to the tension bow, thereby pressing the container lid against the container trough, the actuation lever is pivotable relative to the container lid between a locked position, in which the container lid is locked to the container trough in a fluid-tight manner, and an unlocked position, the tension bow comprises a first section defining a clamping element and a second section defining a locking slider that moves in unison with the clamping element, and translation of the locking slider is limited by a guide rail on the container lid.

Description

BRIEF DESCRIPTION OF THE DRAWING FIGURES

(1) The invention is explained in more detail below on the basis of preferred embodiments with reference to the accompanying Figures.

(2) FIG. 1 shows a cross-section of a closing/locking mechanism according to a first preferred embodiment of the invention in a completely unlocked (unclosed) state,

(3) FIG. 2 shows the closing/locking mechanism according to the first embodiment at the beginning of a locking process,

(4) FIG. 3 shows the closing/locking mechanism according to the first embodiment in the further course of the locking process,

(5) FIG. 4 shows the closing/locking mechanism according to the first embodiment at the end of the locking process,

(6) FIG. 5 shows a perspective view of the closing/locking mechanism according to the first embodiment mounted on the top side of a container lid,

(7) FIG. 6 shows a side view of a closing/locking mechanism according to a second embodiment of the present invention.

(8) FIG. 7 shows a perspective view of the closing/locking mechanism according to the second embodiment in unlocked (unclosed) state,

(9) FIG. 8 shows a perspective view of the closing/locking mechanism according to the second embodiment in locked (unclosed) state,

(10) FIG. 9 shows a perspective view of a closing/locking mechanism according to a third embodiment of the present invention in unlocked (unclosed) state, and

(11) FIG. 10 shows a perspective view of the closing/locking mechanism according to the third embodiment in a locked (unclosed) state.

DETAILED DESCRIPTION

(12) A locking/closing mechanism according to FIGS. 1 to 5 essentially consists of a preferably flap-shaped or handle-shaped actuation lever 1, which is hinged at/in the area of its one front edge to the top of a container lid 3. Preferably, two axially spaced hinge pins 2 are provided for this purpose, which are inserted through eyelets shown in FIG. 6 only vaguely on the container lid and secured axially. In a central portion of the actuation lever 1, two parallel, spaced tappet rods (connecting rods) or a tappet rod plate 4 (see FIG. 6) is/are hinged at the ends, said tapped rod plate 4 being hinged at its other end to a locking slider 7 on a tension bow 6. The tension bow 6 is mounted on the top of the container lid 3 in a movable manner, so that it can be moved lengthwise depending on the folding position of the actuation lever 1.

(13) At its end opposite the tappet-rod articulation point and projecting freely over the circumferential edge of the container lid 3, the tension bow 6 has/forms a claw/hook or clamping element 8 bent in the direction of the lid underside, which is designed and provided to enter into an undercut operative engagement with a bar/ledge 12 formed on the circumference of a container trough 10, as is particularly well illustrated in FIGS. 3 and 4.

(14) The mounting of the tension bow 6 on the top of the container lid 3 is such that the tension bow 6 can on the one hand be moved in its longitudinal direction and on the other hand can be moved/pivoted upwards at its freely projecting end portion, i.e. away from the upper lid side. In terms of design, this can be achieved, for example, by hinging the tappet rod/tappet rod plate 4 to an eyelet (not shown in more detail) formed on the tension bow 6, by inserting through each eyelet a hinge stud or a continuous hinge rod 14, which in turn is slid in a guide rail 16 on the container lid 3, which may also define a fixed end stop at least for the final unlocking position of the actuation lever 1.

(15) Below and/or between the hinge pins 2 of the actuation lever 1, according to FIG. 1, there is a leaf spring 18 which is arched/bent to form a bow or trough and is therefore located between the upper lid side and the tension bow 6 or the actuation lever 1. The spring 18 is oriented in such a way that its convex bulging center portion (directly or indirectly) rests against the top of the container lid 3, whereas its free end edges extend upwards, i.e. towards the actuation lever 1.

(16) The tension bow 6 further has a preferably tongue-shaped plate portion 19 extending towards the hinge stud/hinge rod 14, which is oriented substantially parallel to the top of the container lid 3 and is provided to slide over the end edges of the spring 18 projecting freely upwards in the locking direction upon actuation of the actuation lever 1, thereby flattening (bending-tensioning) the spring 18 in order to generate a spring compression force towards the underside of the tension bow 6 facing the container lid 3 (i.e. upwards).

(17) Finally, the actuation lever 1 is designed with a push-down lug 20 (see in particular FIG. 5 and FIG. 6) on its one hinged front edge, which extends or protrudes beyond the front edge, so that at least when the actuation lever 1 is fully opened it is positioned underneath the hinge pins 2 (i.e. between the hinge pins 2 and the tension bow 6) and thus pushes the tension bow 6 downwards, i.e. towards the top of container lid 3.

(18) The functioning of the closing/locking mechanism (unit) according to the first preferred embodiment of the present invention can be described as follows:

(19) In the fully unlocked/unclosed state of the closing/locking mechanism as shown in FIG. 1, the actuation lever 1 is oriented almost perpendicular to the top of the container lid 3, causing the tension bow 6 to be pushed far beyond the circumferential edge of the container lid 3 in such a way that its clamping element 8 is positioned away from the trough-side bar 12. At the same time, the plate portion 19 of the tension bow 6 is at a distance from the end edges of the spring 18 projecting freely upwards, so that the spring does not exert any spring force on the tension bow 6. Finally, the tension bow 6 is pushed towards the upper lid side by the push-down lug 20 of the actuation lever 1, so that its clamping element 8 is located far below the bar 12.

(20) As soon as the actuation lever 1 is flipped (manually), this pivoting movement via the tappet rod/tappet rod plate 14 causes a translation/sliding movement of the locking slider 7, whereby the clamping element 8 of the tension bow 6 approaches the trough-side bar 12 parallel to the upper lid side. At the same time, the plate portion 19 of the tension bow 6 approaches the upward-projecting end edges of the spring 18.

(21) When a substantially half-closed/half-locked position is reached as shown in FIGS. 3 and 6, the plate portion 19 slides step by step over the two end edges of the spring 18 in order to flatten them. The resulting spring force pushes the tension bow 6 upwards, i.e. away from the upper lid side, causing the clamping element 8 of the tension bow 6 to contact the underside of the trough-side bar 12 and to increasingly exert a tensile force on it. This causes the container lid 3 to be increasingly pulled against the upper edge of the container trough 10.

(22) In the end position according to FIG. 4, the actuation lever 1 has slightly exceeded the horizontal line through the hinge pins 2 (dead center line) towards the container lid 3 and is thus held in the fully locked position in a self-locking manner.

(23) This means that the actuation force on the actuation lever 1 only has to be large enough to move the tension bow 6 longitudinally while overcoming frictional forces, whereas the actual tightening/closing force between lid 3 and trough 10 is generated by the spring 18. Since the spring 18 is bent trough-like around the hinge pin(s) 2 of the actuation lever 1, it requires only little space and makes the entire closing/locking mechanism compact. Furthermore, since only the clamping element 8 protrudes over the circumferential border of the lid 3 towards the trough 10, the trough front surface is only slightly covered by the closing/locking mechanism, i.e. within the frame of the clamping element 8 even with a large-sized actuation lever 1. Finally, the spring travel achieved by the spring 18, which is considerably greater than that of a conventional elastic seal between lid and trough, allows a kind of pressure relief valve function of the closing/locking mechanism, in that if the spring-dependent value of the internal container pressure is exceeded, the lid 3 is lifted off the trough 10 against the spring pre-tensioning by the spring 18, thus causing a deliberate (large-volume) temporary leakage.

(24) In the following, a second embodiment of the present invention will be described on the basis of FIGS. 6 to 8, wherein substantially only the constructional features different from the first embodiment are discussed. With regard to all other features and functions, it is referred to the preceding figure description.

(25) In the second embodiment, the trough-shaped spring 18 known from the first embodiment is replaced by a bending spring 18 fixed to the tension bow 6 and moving/shifting with it. Specifically, as shown in FIG. 6, a (leaf) spring 18, which is wedge-shaped in side view, is fixed to the underside of the tension bow 6 facing the upper lid side and tapers continuously and/or in steps towards the articulation point of the tappet rod 4 on the tension bow 6. The circumferential edge of the container lid 3 forms a slideway for the spring 18.

(26) As a result, when the tension bow 6 is moved via the actuation lever 1 to lock the container, the spring 18 slides along the slideway starting from the spring tip towards its wedge-shaped maximum height portion, thus increasing the spring compression force exerted on the tension bow 6 and thus pressing the clamping element 8 against the underside of the bar 12. As a result, the lid 3 is pulled against the trough 10, as already described with the first embodiment.

(27) The second embodiment functionally provides the same advantages as the first embodiment, wherein contrary to this the spring 18 is exposed at least in the unlocked position of the locking/closing mechanism.

(28) In the following, a third embodiment of the present invention will be described on the basis of FIGS. 9 and 10, wherein substantially only the constructional features different from the first and second embodiment are discussed. With regard to all other features and functions, it is referred to the preceding figure description.

(29) As mentioned above, the spring 18 is fixed to the tension bow 6 in order to move together with it. As an alternative, it is also possible to fix a corresponding spring 18 to the container lid 3, as shown in particular in FIG. 9.

(30) In other words, the third embodiment of the present invention provides to form the tension bow 6 with at least one, preferably two window-like cutouts, in the respective areas of which a corrugated or single curved leaf spring 18 is mounted on the container lid 3, such that each spring 18 projects with its respective convexly curved central portion upwards (away from the upper lid side) through the associated window-like cutout when the closing/locking mechanism assumes an unlocked/unclosed position as shown in FIG. 9. In this state, the tension bow 6 is pushed down towards the upper lid side by the push-down lug 20 on the actuation lever 1 without generating an opposing spring force on it.

(31) However, as soon as the actuation lever 1 is swung towards the locking position and the tension bow 6 is moved, the curved leaf springs 18 move out of the window-like cutouts, i.e. the tension bow 6 increasingly slides over the two leaf springs 18, causing them to flatten out and thus apply a compression force to the underside of the tension bow 6. In addition, in this case all advantages of the first embodiment can be realized.