This invention relates to a diagonally translating door. More particularly, this invention relates to a diagonally translating door which is adapted to translate in a direction with vector components both perpendicular and parallel to an axis of a hinge between the door and a door jamb.
The following references to and descriptions of prior proposals or products are not intended to be, and are not to be construed as, statements or admissions of common general knowledge in the art. In particular, the following prior art discussion should not be assumed to relate to what is commonly or well known by the person skilled in the art, but to assist in the inventive process undertaken by the inventor(s) and in the understanding of the invention.
Door for safes have been described which include a door hinged to a door jamb where the door, in the closed position, does not overlap any surfaces of the door jamb which face an interior of the safe.
An object of the present invention is to ameliorate one or more of the aforementioned disadvantages of the prior art or to at least provide a useful alternative thereto.
The invention according to one or more aspects may be as defined in the independent claims. Some optional and/or preferred features of the invention are defined in the dependent claims.
Accordingly, in one aspect of the invention there is provided:
A door and door jamb arrangement, for securing the opening of a secure space, including a safe container, a safe room or a lockable container, the door jamb arrangement including:
Door Movement
The door may be adapted to move laterally relative to the hinge axis and vertically or parallel relative to the hinge axis. Preferably, the door is adapted to move in a direction or along a path of travel with vector components laterally or perpendicular relative to the hinge axis and with vector components parallel to the hinge axis. Therefore, the door may be adapted to move diagonally relative to the hinge axis, including, for example, through a substantially horizontal plane or upwards and sidewards through an upright or substantially vertical plane.
The door may be adapted to move laterally and parallel to the hinge axis at the same time or move laterally in a first movement and parallel in a second movement. Preferably, the door is adapted to move diagonally relative to the hinge axis.
The movement of the door relative to the hinge axis may be actuated by rotation or movement of a handle of the safe, movement of the door, a electronic or pneumatic actuation device or a manual actuation device. Rotation of the handle may be adapted to provide the force or torque to move the door relative to the hinge axis.
The electronic or pneumatic actuation device may include an electric motor, solenoid, pneumatic pump or pneumatic piston. The manual activation device may include a lever or other feature separate to the handle which is adapted to be actuated manually by a user.
Alternatively, the hinge axis may be adapted to move relative to the door jamb. In this specification, all references to movement of the door relative to the hinge axis or actuating means to move the door relative to the hinge axis may alternatively apply to movement of the hinge axis relative to the door jamb.
Hinge Arrangement
The hinge arrangement may include at least two hinge axes. The hinge arrangement may include two hinge axes. In this specification, references to a single “hinge axis” refers to any one of the hinge axes of the hinge arrangement, which preferably includes multiple hinge axes.
Each of the two hinge axie may be parallel with respect to each other. The hinge arrangement may include a first hinge with a first hinge axis and a second hinge with a second hinge axis. The first hinge may be adapted to be fixed to the door jamb and the second hinge may be adapted to be fixed to the door. The first hinge may be adapted to move in a direction or path which includes vector components which are lateral and parallel to the first hinge axis relative to the door or door jamb. The second hinge may be adapted move in a direction or path which includes vector components which are lateral and parallel to the second hinge axis relative to the door or door jamb.
Preferably, the door is adapted to move in a direction or path which is parallel with the second hinge. In other words the door is adapted to slide along or parallel to the second hinge axis. Preferably, the second hinge axis is adapted to move in a direction or along a path which is lateral with the door jamb. Therefore, together, the above movements combine to translate the door diagonally relative to either the first or second hinge axis.
Door Translating Means
The hinge arrangement may include door translating means to move the door relative to the hinge axis or the hinge axis relative to the door jamb. The door translating means may include the at least one hinge axis. The door translating means may include cylindrical gears which are adapted to mesh with linear gears to affect movement of the door laterally or parallel to the hinge axis. The door translating means may include tapered surfaces which the door or hinge are adapted to move along or around to affect vertical movement of the door relative to the hinge axis or the hinge axis relative to the doorjamb. The tapered surfaces may include helical surfaces surrounding the hinge axis. The door may include contact surfaces which are adapted to contact helical surfaces of the hinge arrangement to affect movement of the door parallel to the hinge axis.
Preferably, in addition to the at least two hinge axes, the door translating means includes a lever mechanism. The lever mechanism may include a lever or rod spanning between either the door and the first hinge axis or the door jamb and the first hinge axis. The lever mechanism is adapted to either move the door in a direction parallel to the first hinge axis relative to the first hinge or move the second hinge in a direction parallel to the second hinge axis relative to the door jamb.
The lever mechanism may be actuated by movement of the door relative to the door jamb. The lever mechanism may be actuated by movement of the door or door jamb relative to the hinge arrangement. Preferably, the lever mechanism is actuated by movement of the handle. The handle adapted to lock and unlock the door from the door jamb. The handle adapted to also actuate bolts to lock the door to the door jamb.
Preferably, the lever mechanism includes a lever which is includes three pivot connections. The three pivot connections are respectively connected to a locking mechanism at a first end of the lever, the door centrally on the lever and a central rod of the first hinge at a second end of the lever. The locking mechanism may include the handle. The handle is mechanically connected to the lever. The lever mechanism is adapted such that, as the handle is turned to lock the door to the door jamb, the locking mechanism lifts up the first end of the lever and therefore pulls down the second end of the lever thereby lifting the door relative to the first hinge. The first hinge may be attached to the door with a circumferential housing or bearing such that the first hinge can move parallel to the first hinge axis relative to the door but not laterally. Therefore the hinge arrangement may be configured such that the door can slide up and down, longitudinally along the first hinge.
Guard and Guard Support
The door further includes a door guard. The door guard may include a plate or beam. The door guard may be adapted to extend along and protrude below the bottom edge of the door. The door guard may be fixed to the vertical rod or the second hinge. The door guard may be adapted to maintain it's elevation or vertical position relative to the door jamb as the door moves vertically relative to the door jamb. The door guard may therefore be adapted to provide a barrier against unauthorised entry of a tool between the bottom edge of the door and the bottom edge of the door jamb. The door guard may be fixed to the hinge. The door guard may be attached to the hinge with a pivot connection for the support that permits rotational movement but not vertical movement relative to the hinge. More specifically, the door guard may be attached to the vertical rod with the pivot connection.
The door and door jamb arrangement may further include a door guard support. The door guard support may support the door guard for movement relative to the door. The door guard support may include a support beam. The door guard may be adapted to extend through the support beam. Advantageously, the support beam may provide lateral support to the guard. Preferably, the support beam is fixed to the door.
The door guard support may include guides that resist lateral movement of the door guard relative to the door. The guides may be partially located in and may extend through the support beam. The guides may comprise one or more slots to receive door guard translating members. The guides and/or the translating members may be aligned parallel to the hinge axis. The translating members may be in the form of rods or bars.
The translating members may extend between the upper beam attached by an axially stationary pivot connection to the hinge rod, and the door guard. The upper beam and the door guard may be aligned substantially parallel to each other. The upper beam and the door guard may be aligned substantially perpendicular to the translating members.
The door guard may include at least one beam, hook or plate which is adapted to hook onto a component of the door jamb. The door guard support may be adapted to be located adjacent the door guard to provide lateral support to the door guard in a direction perpendicular to a main plane of the door.
The door guard may be adapted to hook into a jamb guard. The jamb guard may be adapted to be fixed to the door jamb. The jamb guard may be adapted to interlock with the door guard as a result of the motion of the door in a first translational direction which is parallel to the first hinge axis.
The door guard is adapted to protect a gap between the bottom edge of the door and the bottom edge of the door jamb where the door is subjected to diagonal movement relative to hinge. Whilst the door pivot connections move along the hinge to expose the gap, the door guard pivot connection(s) remains axially stationary on the hinge rod, so that the door guard covers the gap in the closed position. The door guard overlaps or engages with the jamb guard to protect the gap from unauthorised intrusion.
It wilt be appreciated that any of the features described herein can be used in any combination, and that the invention as described in respect of the second aspect may have the specific features referred to above in respect of the invention as described in respect of the first aspect.
Lever Actuation Means
The lever may include lever actuation means. The lever actuation means may include a spring, pneumatic piston, solenoid or other mechanisms or devices adapted to apply force to the lever. Preferably, the lever actuation means includes a spring. Preferably, the spring is attached to two connected components of the lever and are adapted to apply force for actuation or limiting fast movement of the door relative to the hinge.
The invention may be better understood from the following non-limiting description of preferred embodiments, in which:
21ai
42ai
42ci
Preferred features of the present invention will now be described with particular reference to the accompanying drawings using the above reference key. 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 describing the various embodiments of the invention, like features will be referred to using like references, with references for features of each embodiment generally preceded by 1, 2, 3, or followed by a Roman numeric sequence, such as i, ii, iii, etc. or an alphabetical sequence such as a, b, c, relative to the corresponding feature of the first embodiment. For example, a feature 10 of the first embodiment may represented as 110, 210, 310, (or n10), or 10a, 10b, 10c, (or 10x) or 10i, 10ii, 10iii, (or 10r) etc. in second, third and fourth embodiments, respectively.
A door and door jamb arrangement for securing the opening of a secure space is shown. The door and door jamb arrangement includes a safe container, a safe room or a lockable container. The door jamb arrangement further includes a door and an opening. The door is adapted to be hingedly attached to a door jamb with a hinge arrangement. The door has a hinged edge or end, and non-hinged edges or ends including a top, bottom and remote edge. The opening has a planar space defined by the door jamb and is adapted to be closed by the door in a closed position. A hinge axis of the hinge arrangement is adapted, near or adjacent the closed position, to move laterally relative to one or both of the door the door jamb. The hinge axis of the hinge arrangement is adapted, near or adjacent the closed position, to move at least a door portion of two adjacent edges of the door relative to corresponding and adjacent jamb portions of an edge of the door jamb between overlapping and non-overlapping positions. The door is adapted to move vertically relative to the door jamb.
The door jamb is fixed to a first hinge axis of a first hinge of the hinge arrangement and the door is fixed to a second hinge axis of a second hinge of the hinge arrangement. The first and second hinges form a multi-axis hinge. The first hinge includes a first hinge axis which is parallel to and offset from a second hinge axis. The multi-axis hinge enables the first axis to move laterally (in a direction which is perpendicular to the first axis) relative to the door. The multi-axis hinge also enables the second axis to move laterally (in a direction which is perpendicular to the second axis) relative to the door jamb. Therefore, the hinge arrangement is adapted such that the door can translate as well as rotate relative to the door jamb.
The door includes door translating means. The door translating means includes the hinge arrangement. The door translating means also includes a lever mechanism. The lever mechanism is adapted to vertically move the door relative to the second hinge. The lever mechanism includes a lever. The lever is attached to a locking mechanism at a first end of the lever and to a vertical rod of the second hinge at a second end of the lever. The lever is also attached to the door at an intermediate location on the lever, between the first and second ends. The attachments to the lever are pivot connections.
The lever is made of multiple components attached end on end. The components (first, second and third components) of the lever are attached together with pivot connections.
The first component is attached to a rotating component of the locking mechanism. The rotating component is adapted to be actuated in the action of locking or unlocking the door to the door jamb. More specifically, the rotating component is adapted to be actuated by a handle of the locking mechanism. The handle is located on an exterior of the door. The door and door jamb arrangement is adapted such that rotating the handle in a first rotational direction both actuates locking bolts of the locking mechanism to lock the door to the door jamb and pushes the first component of the lever upwards in a first translational direction. Pushing the first component in the first translational direction results in the lever pivoting about its connection with the door. As the second component rotates, the third component is pulled downwards in a second translational direction, which is opposite the first translational direction. Pulling the third component in the second translational direction, moves the door upwards, in the first translational direction relative to the second hinge and to the door jamb. Therefore, the door and door jamb arrangement are adapted such that the lever effects vertical translational movement of the door relative to the door jamb. Moreover, the locking mechanism is adapted to actuate the lever in the same movement or series of movements which locks and unlocks the door from the door jamb.
The lateral movement of the door relative to the door jamb which is affected by the multi-axis hinge is also actuated by the locking mechanism. Furthermore, the lateral movement of the door relative to the door jamb is also actuated in the same movement of the locking mechanism which both locks or unlocks the door and effects vertical translation of the door relative to the door jamb. Therefore, as the door is locked or unlocked, the door translates in a direction or path which includes both vertical and horizontal vectors (parallel and perpendicular to the first and second hinge axes).
The lateral movement of the door relative to the door jamb is also actuated by the locking mechanism through a lateral component. The lateral component extends and spans between the rotating component and a central radially extending arm of the vertical rod. The central radially extending arm is an arm which extends radially from and is welded to the vertical rod. The lateral component is fixed to the vertical rod and extends outwards perpendicular to the rod. The lateral component includes a first arm which is attached to the rotating component and a second arm with pivot connections. The second arm is also attached to the central radially extending arm with a pivot connection. The door and door jamb arrangement is adapted such that actuation of the locking mechanism to lock or unlock the door to the door jamb also pushes or pulls the lateral component and therefore the central radially extending arm. Since the central radially extending arm is fixed to the vertical rod, movement of the central radially extending arm rotates the vertical rod. The vertical rod includes upper and lower radially extending arms at upper and lower ends or the vertical rod respectively. The upper and lower radially extending arms are fixed to the vertical rod at first ends and attached to the first hinge at second ends of the upper and lower radially extending arms. Therefore, the locking mechanism is adapted to rotate the second hinge and therefore the door about the first axis as the locking mechanism is actuated to lock and unlock the door to the door jamb.
The door is adapted to overlap the door jamb on an inner side of the door jamb. The inner side of the door jamb being in the secure space. The door and hinge arrangement are positioned relative to the door jamb such that the hinged edge of the door overlaps a hinged edge of the door jamb without any translation of the door relative to the door jamb. With the door in the closed position, the door is located further into the secure space than the door jamb. In this position, the door is then adapted to translate toward a remote edge of the door jamb such that the remote edge of the door overlaps the remote edge of the door jamb. As the door translates toward the remote edge of the door jamb, the door also translates toward a top edge of the door jamb, also overlapping the top edge of the door jamb. In this position, the hinged edge of the door jamb is also still overlapping the hinged edge of the door. However, in this position the bottom edge of the door is located above and not overlapping the bottom edge of the door jamb.
The door further includes a door guard. The door guard includes integrally formed components, including a door guard hook, a plate, translating bar members and an upper beam, that act as a unitary piece to remain axially stationary relative to the second hinge. Effectively, the door guard hook comprises engaging folded hook portion extending from, and unitarily formed with, the plate. The door guard hook is adapted to retractably extend from the bottom edge of the door. The door guard is attached to the vertical rod of the second hinge with a pivot connection of the door guard. The pivot connection permits rotation of the door guard around the vertical rod but does not permit vertical movement of the door guard relative to the vertical rod. Therefore, the door guard remains at the same elevation relative to the vertical rod when the container is an upright unit and the door remains in a substantially vertical plane. The door guard extends substantially or completely along an entire length of the bottom edge of the door.
The door guard is adapted to maintain its elevation relative to the door jamb. Therefore, as the door moves vertically, the door guard remains adjacent to and within 5 mm of the bottom edge of the door jamb. The door jamb including a door support. The door support adapted to interlock with a guard support of the door as a result of the motion of the door in the first translational direction. The door guard support extends adjacent and substantially along the entire length of a rear side of the door guard. The rear side of the door guard faces the secure space when the door is in the closed position as shown in
The door further includes a second guard support and door member on a top end of the door. The second guard support includes two hooks which are adapted to hook into two holes in the door jamb respectively upon lateral translation of the door relative to the door jamb.
Throughout the specification and claims the word “comprise” and its derivatives are intended to have an inclusive rather than exclusive meaning unless the contrary is expressly stated or the context requires otherwise. That is, the word “comprise” and its derivatives will be taken to indicate the inclusion of not only the listed components, steps or features that it directly references, but also other components, steps or features not specifically listed, unless the contrary is expressly stated or the context requires otherwise.
In the present specification, terms such as “apparatus”, “means”, “device” and “member” may refer to singular or plural items and are terms intended to refer to a set of properties, functions or characteristics performed by one or more items or components having one or more parts. It is envisaged that where an “apparatus”, “means”, “device” or “member” or similar term is described as being a unitary object, then a functionally equivalent object having multiple components is considered to fall within the scope of the term, and similarly, where an “apparatus”, “assembly”, “means”, “device” or “member” is described as having multiple components, a functionally equivalent but unitary object is also considered to fall within the scope of the term, unless the contrary is expressly stated or the context requires otherwise. In the present specification, the phrase “and/or” refers to severally or any combination of the features. For example, the phrase “feature 1, feature 2 and/or feature 3” includes within its scope any one of the following combinations: Feature 1 or feature 2 or feature 3; feature 1 and feature 2 or feature 3; feature 1 or feature 2 and feature 3; feature 1 and feature 3 or feature 2; feature 1 and feature 2 and feature 3.
The meaning of descriptive, precise or absolute terms such as “flexed”, “normal”, “parallel”, “horizontal”, “vertical” or “fully” includes the preceding qualifier “substantially or almost”, unless the context or contrary is expressly indicated.
Qualifying relative terms, such as “relatively”, “sufficiently”, “near”, “almost” or “substantially”, may be taken to indicate a variation in an absolute value of between 0° and 10° or between 0% and 10%, relative to the absolute value. For example, “near horizontal” may be taken to mean any orientation between 0° and 10° relative to the horizontal.
Orientational terms used in the specification and claims such as vertical, horizontal, top, bottom, upper and lower are to be interpreted as relational and are based on the premise that the component, item, article, apparatus, device or instrument will usually be considered in a particular orientation, which will usually be apparent from the context.
In the present specification, the term “integral” means formed of one body in a single process. In particular, the term “integrally formed” means formed of the one body without post-forming attachment of separately formed component parts. That is, “integrally formed” and the similar term “unitarily formed” mean formed in a single forming process and do not include post-forming attachment of component parts by means of fastener or other component fixing substances or methods.
The articles “a” and “an” are used herein to refer to one or to more than one (i.e. to at least one) of the grammatical object of the article. By way of example, “an element” means one element or more than one element.
It will be appreciated by those skilled in the art that many modifications and variations may be made to the methods of the invention described herein without departing from the spirit and scope of the invention. The features and components of each of the embodiments of the invention described in the detailed description and/or depicted in the accompanying drawings may be interchangeable as required, with regard to functional equivalency and compatibility. A feature or component described with reference to one but not all embodiments, if functionally and dimensionally compatible as an addition with another embodiment herein described, or substitutable with a corresponding feature or component of that other embodiment in relation to which it has not been expressly described, should be read as a potential addition or substitution to that other embodiment and as being within the scope of the invention. Furthermore, in considering a feature or component that is described in relation a particular embodiment but may be omitted from the embodiment without losing the functionality characterising the invention and without departing from the scope of the invention, unless the context and expressions used in describing the embodiment imputes that the feature or component is essential to the invention as broadly described, the omittable feature or component may be read as not being included in the embodiment.
The invention can be described in terms of provisional claims that can assist the skilled reader in understanding the various aspects and preferments of the invention. However, these provisional claims are not to be construed as defining statements of the invention. It will be appreciated that other forms, aspects and preferred features of the invention and its embodiments described herein may ultimately be included in the claims defining the invention in the specifications of complete, international or national applications (or their subsequent corresponding patent grants) that may claim priority from the provisional application accompanying this specification. In this context, the following non-limiting claims assist to better describe the invention:
Number | Date | Country | Kind |
---|---|---|---|
2020901986 | Jun 2020 | AU | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/AU2021/050543 | 6/2/2021 | WO |