The present invention relates to shelves, particularly to shelves mountable on a vertical surface.
In a medical facility, such as a hospital, a long term care facility, a medical clinic, a veterinary clinic, the chance of spreading contagions from one patient to another is particularly high as personnel circulate from room to room on a regular basis. Every effort is made to reduce the chance that such contagions, especially highly virulent ones, are not transmitted from patient to patient. As part of this effort, hospitals, for example, are increasingly requiring staff to use bactericidal hand sanitizers before entering any room. To this end, wall-mounted hand sanitizers are being installed outside each room beside the room's door. However, it can be difficult for hospital staff to make use of such hand sanitizers because their hands are often occupied carrying medical charts and other hospital paraphernalia. To facilitate compliance with hospital policy to use hand sanitizers before and after entering a patient's room some hospital staff place their charts and paraphernalia on carts that may be nearby. Such carts, however, are primarily for use in transporting drugs and other items between locations in the hospital (e.g. between a nursing station and a patient's room), and as such cannot be relied upon to be left near hand sanitizer stations. Additionally, these carts are expensive and are not provided in sufficient numbers to be placed near each hand sanitizer station. Yet another problem with such carts is that they intrude into the available space in a corridor of the facility.
There is a need for a solution that at least partially avoids one or more of these problems.
There is provided a shelf assembly comprising: a shelf; and, a mounting bracket for mounting the shelf on a substantially vertical surface, the shelf pivotably mounted on the mounting bracket proximate a rear end of the shelf, the shelf pivotable from an open position to a closed position and from the closed position to the open position, the shelf comprising an engagement structure proximate the rear end configured so that a force applied to the engagement structure when the shelf is in the closed position will urge the shelf toward the open position.
There is further provided a method of assembling a shelf assembly, comprising: inserting a first portion of a torque insert into a shelf between an upper and lower surface of the shelf; placing a cap on a second portion of the torque insert, the second portion protruding from the shelf when the first portion is inserted into the shelf; placing the shelf with the torque insert and cap onto a mounting bracket affixed to a substantially vertical surface; and, securing the cap to the mount.
The open position is preferably a substantially horizontal working position, where the shelf extends in a substantially perpendicular direction to the vertical surface. The closed position is preferably a substantially upwardly or downwardly vertical storage position, where the shelf is substantially parallel to the vertical surface. Preferably, the closed position is substantially upwardly vertical. In some embodiments, the shelf may be held at one or more intermediate positions between the closed and open positions.
The shelf may have a top, a bottom, a rear end and a front end. The shelf may be solid or hollow. The shelf may be a single piece of material or comprised of parts that fit together, for example upper and lower halves that snap together. The shelf may comprise one or more apertures, cavities and/or passageways to house one or more pivot mechanisms. The shelf may be of any suitable shape and/or size. One or more surfaces of the shelf may comprise raised edges to form a receptacle for holding items.
The shelf pivots on a pivot mechanism. The pivot mechanism may comprise, for example, one or more pins, projections, protrusions and the like associated with the shelf and/or the mount. When associated with the shelf, the pivot mechanism may be on an exterior surface of the shelf and affixed thereto, and/or housed partially or wholly within a cavity or passageway in the shelf. The pivot mechanism may further comprise one or more cushioning or damping structures to cushion movement of the shelf at least from the closed position to the open position, thereby reducing potential impact stresses on the shelf assembly and impact noise when the shelf reaches the open position after pivoting. The damping structure may also cushion movement of the shelf from the open position to the closed position. The damping structure is preferably associated with the pivot mechanism. In one embodiment the cushioning structure comprises a damping hinge.
The cushioning structure may comprise any suitable resistive-force-exerting member for resisting pivoting of the shelf, for example a mechanical spring, a fluid transfer structure, such as a piston and cylinder containing a fluid (e.g. air or water), or a torque insert. A torque insert is particularly preferred, and one example of such an insert is described in United States Reissued patent U.S. RE37712, reissued on May 28, 2002, the entire contents thereof incorporated herein by reference. In another embodiment, the pivot mechanism could permit a single application of force to initiate pivoting of the shelf toward the open position and/or closed position, while completion of the pivoting is accomplished automatically in a controlled manner. Such automatic slow-close mechanisms are commercially available. Examples include the 1000 Series, 2000 series and 3000 series damping hinges, sold by Hanaya, Inc. of Ponte Vedra, Fla., in the United States.
In another embodiment, the pivot mechanism could comprise a structure (e.g. a torsion spring, a hydraulic cylinder or spring and the like) that resists pivoting of the shelf from the closed position to the open position and that continuously biases the shelf towards the closed position. In this embodiment, when the shelf is forced into the open position, cooperating securement members may be used to secure the shelf in the open position. Securement members may include, for example, hooks, catches, bolts or magnetic members with sufficient strength to resist the biasing force. Release of the securement members allows the shelf to automatically return to the closed position under the force of the bias. The securement members are preferably a magnet secured to one of the shelf and the mounting bracket and a corresponding magnetically attracted member (e.g. a ferromagnetic or ferromagnetic member or another magnet) on the other of the shelf and the mount.
In an embodiment, the shelf pivots downwardly from the closed position to the open position and upwardly from the open position to the closed position. In this embodiment, the engagement structure is preferably on the bottom of the shelf as it is the bottom that extends outwardly from the substantially vertical surface when the shelf is in the closed position. Further, in this embodiment, there is preferably a stop that prevents the shelf from pivoting downwardly from the open position. The stop may be any suitable mechanism known in the art, for example, the rear end of the shelf may abut the substantially vertical surface and/or the mounting bracket when the shelf is in the open position, a protrusion may abut the substantially vertical surface and/or the mounting bracket when the shelf is in the open position, a cam may be present on a pivot mechanism to prevent rotation beyond a certain point, and/or a cable of appropriate length may be secured to the substantially vertical surface and the shelf. In a particularly preferred embodiment, the rear end of the shelf abuts the substantially vertical surface and/or the mounting bracket when the support surface is in the open position to prevent the support surface from pivoting downwardly from the open position. The rear end of the shelf may comprise an abutment structure for this purpose. In a particularly preferred embodiment, the mounting bracket comprises an abutment face on which the rear end of the shelf abuts. It is preferable not to use support cables, arms and the like in order to reduce the number of sharp edges and catch points on the shelf assembly.
In one embodiment, the engagement structure is configured so that the force applied to the engagement structure to urge the shelf toward the open position is a downward force. While the engagement structure may be an add-on to the shelf, the engagement structure is preferably monolithic with the shelf. The engagement structure may comprise depressions (e.g. channels, indentations, grooves, holes, and/or the like) in the shelf, or, more preferably, one or more protrusions (e.g. knobs, ridges, arms and/or the like) extending from the shelf. The engagement structure may comprise a combination of one or more depressions and one or more protrusions. In one particularly preferred embodiment, the engagement structure comprises a ridge extending proximate a first side of the shelf to proximate a second side of the shelf. The engagement surface is preferably designed so that many different parts of a person's body may be readily used to apply the force, for example a person's hand, forearm, elbow, shoulder, hip, knee or foot. Since a person's hands will often be occupied holding other articles when it is desired to open the shelf, it is especially useful if the force may be applied to the engagement structure with a body part other than the hand, especially the elbow. In a preferred embodiment, the engagement structure is configured for an elbow. In one embodiment, the shelf comprises more than one engagement structure so that a person may use the most convenient one in any given circumstance.
The shelf is mountable on the substantially vertical surface, for example a wall, post, door and the like, by a mount. The mounting bracket may be secured to the vertical surface by any suitable method, for example, with screws, nails, bolts or adhesives (e.g. glue or tape) or magnetically. The mounting bracket may comprise a bearing surface for supporting the shelf. In one embodiment, the mounting bracket may comprise spaced-apart mounting ears for supporting the shelf. In one embodiment, the shelf may comprise one or more support projections. The support projections may be supported directly by the mount, for example by the mounting ears, or the support projections may be covered by caps adapted to receive the support protections on bearing surfaces in the caps. The caps may be mounted to the mount, for example secured to the mounting ears. The caps and/or support projections may serve to seal the cushioning structure against debris entering into the cushioning structure. To facilitate repair and servicing, the shelf may be removable from the shelf assembly without removing the mounting bracket from the vertical surface.
The shelf assembly is particularly useful in hospital settings where hospital staff need to open and close the shelf without the use of their hands if they are holding items such as medical charts relating to their patients. The shelf assembly may be made of any suitable material, for example plastics, particularly plastics that resist the growth of bacteria and other microorganisms.
In another embodiment the invention relates to a method of use of a shelf assembly including a shelf pivotally supported on a mounting bracket, including:
pivoting the shelf using a region of one's arm elbow proximate the elbow from a closed position in which the shelf extends upwards, to an open position in which the shelf extends generally horizontally;
placing at least one hand-carried object on the shelf;
cleaning one's hands;
removing the at least one object from the shelf; and
lifting the shelf from the open position to the closed position. The shelf is preferably one of the shelves described in this specification.
In another embodiment, a shelf assembly is provided, comprising, a mounting bracket that is mountable to a substantially vertical surface, a shelf and a torque insert (and in some embodiments, two torque inserts). The shelf is pivotably mounted to the mounting bracket for movement about a shelf pivot axis proximate a rear end of the shelf. The shelf is pivotable upwardly from an open, substantially horizontal position to a closed, substantially vertical position and downwardly from the closed position to the open position, wherein the shelf comprises an abutment member that abuts at least one of the substantially vertical surface and the mounting bracket to hold the shelf in the open position. The torque insert cushions pivoting of the shelf from at least the closed position to the open position. The torque insert is configured to exert a resistance force to lowering of the shelf to the open position such that over a selected range of angles of the shelf, the torque insert permits the shelf to fall to the open position under gravity. The torque insert includes a first portion connected to the shelf and a second portion connected to the mounting bracket. The first portion is pivotable with respect to the second portion about the shelf pivot axis. The shelf assembly is free of any arms or linkages connected between the shelf and the mounting bracket and between the shelf and the substantially vertical surface.
Further features of the invention will be described or will become apparent in the course of the following detailed description.
In order that the invention may be more clearly understood, embodiments thereof will now be described in detail by way of example, with reference to the accompanying drawings, in which:
In this specification and in the claims, the use of the article “a”, “an”, or “the” in reference to an item is not intended to exclude the possibility of including a plurality of the item in some embodiments of the invention. It will be apparent to one skilled in the art in at least some instances in this specification and the attached claims that it would be possible to include a plurality of the item in at least some embodiments of the invention.
A pivoting shelf assembly in accordance with an embodiment of the present invention is depicted in an open horizontal position in
The shelf 100 is pivotable around a shelf pivot axis A which is collinear with the pivot axes of two torque inserts 300 (
The shelf 100 has two engagement structures thereon, which can receive an initial force to move the shelf 100 between positions. An integrally molded laterally extending ridge 108 protrudes from the lower surface of the shelf 100, optionally proximate the rear end of the shelf 100, and is sized to receive a person's elbow. A grip 109 is an indentation in the lip 105 at the edge of the front end of the upper surface of the shelf 100. As seen in
With reference to
As seen in
As shown in
The mounting bracket 200 comprises screw holes 207 for receiving screws to secure the mounting bracket 200 and hence the shelf assembly to the wall 400. In general, where reference to screws is made in this disclosure, it will be understood that any other suitable way of fastening one member to another may alternatively be used.
The second portion 302 of the torque insert 300 is held in a cap 203 that is releasably held in the mounting bracket 200. More specifically, the caps 203 may be fastened to the bracket ears 201 with screws through screw holes 206. Each bracket ear 201 comprises a U-shaped bearing surface 209 for supporting a locking portion 213 on the corresponding cap 203, which is discussed further below. Each cap 203 further includes a cylindrical bearing wall 215 that is supported on the bearing surface 209 and which supports a bearing projection 120 extending from each side of the shelf 100. As a result, the shelf 100 is supported on the bracket ears 201 without exerting a bending load on the torque inserts 300. Additionally, the engagement between the bearing projections 120 and the bearing wall 215 on the caps 203 seals the torque inserts 300 so as to inhibit migration of debris and moisture into the torque inserts 300.
The torque insert 300 and how it mounts in the shelf assembly is shown in more detail in
The frictional force exerted by the torque insert 300 may be sufficiently high so as to be capable of holding the shelf 100 stationary over a range of angular positions between the open and closed positions. In some embodiments, depending on where the centre of gravity of the shelf 100 is positioned relative to the shelf pivot axis A, gravity may urge the shelf 100 towards the open position, and in such cases, the frictional force may be selected to be sufficiently high to keep the shelf 100 in at least the closed position. In other embodiments however, the shelf 100 may be weighted so that its centre of gravity is positioned closer to the wall 400 than the shelf pivot axis A so as to urge the shelf 100 to remain against the wall 400 when the shelf 100 is in the closed position.
In some embodiments, the range of angles over which the shelf 100 may be permitted to fall under gravity to the open position may be anywhere from a horizontal position to about 80 degrees from horizontal. In other embodiments, the range may be lower (i.e. from a horizontal position to a lesser angle from horizontal), however the shelf 100 may still reliably fall after being urged initially by the user's elbow through only a few degrees of movement because of the momentum imparted to the shelf 100 by the user's elbow.
Tabs 305 on the first portion 301 are mated with corresponding support structures in the shelf 100 to prevent the first portion 301 from rotating relative to the shelf 100 (i.e. to keep the first portion 301 fixed rotationally with the shelf 100). Thus, the first portion 301 pivots with the shelf 100 when the shelf 100 pivots between positions. Tabs 308 on the second portion 302 are mated with corresponding support structures in the cap of the mounting bracket 200 to prevent the second portion 302 from rotating. Thus, when the shelf 100 pivots, the first portion 301 rotates with shelf 100 but the second portion 302 remains stationary. In
The engagement of the locking portion 213 of the cap 203 with the U-shaped bearing surface 209 of the ear 201, braces the cap against rotation while the resistive force is being exerted by the torque insert 300 to cushion the pivoting of the shelf 100. As a result, the screws that hold the cap 203 in place on the ear 201 do not are not relied upon to brace the cap 203 against rotation, since the forced exerted during bracing between a metallic screw and a polymeric cap 203 could damage the cap 203.
Referring to
Referring to
The bracket ears 201 of the mounting bracket 200 each comprise a U-shaped support surface 209 which support one of the caps 203. The cap 203 may be secured to the bracket ear 201 with screws (not shown) through screw holes 206, or by any other suitable fastener. Once the cap 203 is secured to the bracket ear 201, the second portion 302 of the torque insert 300 is restrained from rotation as its tabs 208 are restrained from rotation by the slots 211 in the cap 203. As can be seen by comparing
It will be noted that the shelf 100, while having the torque inserts 300 mounted thereto, is substantially sealed to prevent migration therein of debris and liquids that can potentially promote the growth of bacteria. The sealing of the shelf 100 may be provided by a plurality of separate features. One feature is that the upper and lower shelf portions 100a and 100b may mate sealingly about their peripheral edges. In some embodiments, the aperture 121 may possess an opening (not shown) passing into the interior of the shelf 100, in which case, the presence of the first portion 301 in the aperture 121 may assist in sealing the shelf 100. In other embodiments, the aperture 121 may, as shown in
It will further be noted that the shelf assembly is free of any arms, cables, linkages or the like connected between the shelf 100 and the mounting bracket 200 and between the shelf 100 and the substantially vertical surface 400. The only elements that connect the shelf 100 to the mounting bracket 200 and the wall 400 are concentric about the shelf pivot axis A. Being concentric about the shelf pivot axis A means that the elements pivot about the axis A or support pivoting movement about the axis A. An example is the torque insert 300, which includes the first portion with the C washers 315 and the second portion with the shaft 317
Referring to
Disassembly of the shelf assembly may be carried out by removing the screws from the caps 203 and by lifting the shelf 100 upwards so as to lift the shelf 100, along with the caps 203, from the ears 201 of the mounting bracket 200. The caps 203 can be removed from the second portions 302 of the torque inserts 300 and the torque inserts 300 can be removed from the shelf 100 for replacement if desired. As can be seen, by providing simple disassembly and assembly of the shelf assembly, easy replacement of the shelf 100 and the torque inserts 300 can be carried out quickly.
In another embodiment of the present invention as illustrated in
In yet another embodiment, the gas springs may be replaced by torsion springs anchored at the same positions on the shelf assembly as the gas springs. The torsion springs provide no spring force when the shelf 700 is in the closed position. In embodiments wherein a type of spring (e.g. a gas spring or a torsion spring) is provided that biases the shelf 400 towards the closed position, as the shelf 700 is moved to the open position the springs provide an increasingly strong biasing force. In order to ensure that the shelf 700 remains in the open position when placed there it may be secured in that position by cooperating securing members, which may be, for example, a magnet mounted to one of the shelf and the mounting bracket, and a magnetically attracted member mounted to the other of the shelf and the mounting bracket. The magnetically attracted member may be, for example, another magnet, or a plate made from a ferromagnetic or ferromagnetic material. In an example, securing the shelf 700 may be conveniently accomplished by mounting a magnet on the rear end of the shelf 700 and a corresponding magnet on the mounting bracket such that the two magnets meet when the shelf 700 is in the open position. The magnets are made strong enough to resist the return force of the torsion springs but sufficiently weak that a relatively small additional force can overcome them when moving the shelf 700 from the open position towards the closed position. Thus, to close the shelf 700, a user can lift up on the bottom of the shelf 700 to break the magnetic anchoring force and allow the shelf 700 to spring back to the closed position.
Novel features of embodiments of the present invention will become apparent to those of skill in the art upon examination of the description of the invention. It should be understood, however, that the scope of the claims should not be limited by the preferred embodiments, but should be given the broadest interpretation consistent with the specification as a whole.
This application claims the benefit of U.S. Provisional Patent Application No. 61/865,035, filed Aug. 12, 2013, the contents of which are incorporated by reference as if fully set forth in detail herein.
Number | Name | Date | Kind |
---|---|---|---|
94598 | Henth | Sep 1869 | A |
577010 | Cundy | Feb 1897 | A |
755668 | Hurxthal | Mar 1904 | A |
1576034 | Butt | Mar 1926 | A |
2835522 | Serto | May 1958 | A |
2905424 | Snow | Sep 1959 | A |
2950820 | Shiels | Aug 1960 | A |
3045831 | Pendergrast, Jr. et al. | Jul 1962 | A |
3364885 | Brothers | Jan 1968 | A |
4488497 | Bevans | Dec 1984 | A |
4580832 | Maruyama et al. | Apr 1986 | A |
4702176 | Goshow | Oct 1987 | A |
4712692 | Pensipp | Dec 1987 | A |
5022539 | Rushing et al. | Jun 1991 | A |
5528993 | Vincelli | Jun 1996 | A |
5590427 | Weterings et al. | Jan 1997 | A |
5927519 | Koonts et al. | Jul 1999 | A |
6065251 | Kindrick | May 2000 | A |
6305741 | Fernandez | Oct 2001 | B1 |
RE37712 | Gannon | May 2002 | E |
6450599 | Mamuyac | Sep 2002 | B1 |
6487979 | Ash et al. | Dec 2002 | B2 |
6807690 | Satterfield | Oct 2004 | B1 |
6837467 | Cheng | Jan 2005 | B2 |
6845870 | Yang | Jan 2005 | B2 |
7080417 | Jiang | Jul 2006 | B2 |
7240963 | Stanley | Jul 2007 | B2 |
7367616 | Summerford | May 2008 | B2 |
7757615 | McDonald et al. | Jul 2010 | B2 |
7814843 | Chen et al. | Oct 2010 | B2 |
7832803 | Cassaday | Nov 2010 | B2 |
8267017 | Michael et al. | Sep 2012 | B1 |
8333158 | Wise | Dec 2012 | B2 |
8567325 | Hlatky et al. | Oct 2013 | B1 |
8607995 | Mladinich | Dec 2013 | B1 |
8919715 | Terada | Dec 2014 | B2 |
20010035114 | Ash et al. | Nov 2001 | A1 |
20040124327 | Cheng | Jul 2004 | A1 |
20040261667 | Ma | Dec 2004 | A1 |
20050211140 | McDonald et al. | Sep 2005 | A1 |
20060071510 | Jiang | Apr 2006 | A1 |
20060186389 | Stanley | Aug 2006 | A1 |
20070012637 | Yu et al. | Jan 2007 | A1 |
20070035166 | Summerford | Feb 2007 | A1 |
20090173705 | Stingel et al. | Jul 2009 | A1 |
20090300884 | Morgan et al. | Dec 2009 | A1 |
20090308287 | Chen et al. | Dec 2009 | A1 |
20110266403 | Terada | Nov 2011 | A1 |
20120037583 | Wise | Feb 2012 | A1 |
20150183360 | Mowry et al. | Jul 2015 | A1 |
20150366338 | Conod | Dec 2015 | A1 |
20150366409 | Cohen et al. | Dec 2015 | A1 |
Number | Date | Country |
---|---|---|
2616546 | Jun 2009 | CA |
201875397 | Jun 2011 | CN |
3111639 | Jul 2005 | JP |
2010090171 | Aug 2010 | WO |
Entry |
---|
Bobrick Washroom Equipment, Inc., Document B-287—td•I.pdf(Technical Data Sheet), Apr. 27, 2011, http://www.bobrick.com/washroomaccessories/Pages/ProductDetails.aspx?Product+Number%3DB-287. |
PCT/CA2014/000613, International Search Report, Nov. 13, 2014. |
Number | Date | Country | |
---|---|---|---|
20150041421 A1 | Feb 2015 | US |
Number | Date | Country | |
---|---|---|---|
61865035 | Aug 2013 | US |