This application relates to dental equipment, and in particular to storage solutions for dental operating spaces.
Dentists, dental assistants and other practitioners continue to seek more efficient solutions for storing equipment and supplies used during treatment of patients. A typical dental operatory often has a limited footprint, so space must be used wisely. At the same time, practitioners must have ready access to items needed during treatment, and from a location that is selected to be convenient but minimize interference with movement of other equipment and personnel. In some settings, equipment and supplies are stored in cabinets, so it would be advantageous to make such cabinets more useful during treatment.
Described below are implementations of a shelf assembly that addresses some of the drawbacks of current approaches to storing dental equipment and supplies.
According to a first implementation, a shelf assembly comprises a shelf member, an arm having a distal end and a proximal end, a first pivot connection between the shelf member and the distal end of the arm and a second pivot connection between the proximal end of the arm and a base. The base comprises a drawer movable in translation between at least a storage position and an operating position.
The shelf assembly can comprise a cabinet shaped to enclose the drawer, the arm and the shelf member when they are in a storage position.
The drawer can comprise at least two pre-defined mounting locations for mounting the arm. The drawer can comprise a mounting location for the arm defined at an inner corner of the drawer.
The drawer can comprise a central opening positioned at a level below the arm and the shelf member.
The shelf assembly can comprise a reinforcement bracket shaped to extend in orthogonal directions and having mounting holes for mounting the brackets at the mounting location.
The shelf assembly can be symmetrical about a center point and have two curved portions extending away from the center point in opposite directions.
In some implementations, at least one of the first or second pivot connections comprises a resistance adjustment member. In some implementations, at least one of the first or second pivot connections comprises an assembly of thrust bearings and thrust washers.
In some implementations, the drawer is movable between a retracted position and at least one extended position, and the drawer has detents at the retracted position and at the extended position.
In some implementations, the base is generally horizontal when the shelf assembly is installed.
The drawer can comprise a back that projects upwardly from the drawer. The back can restrict the shelf and arm from moving rearwardly beyond a selected storage position.
The back can comprise at least one magnet positioned to attract and hold the shelf member when the shelf member is in a storage position.
In some implementations, a cabinet can comprise at least a first level on which the drawer is movably mounted, and a second level on which a second drawer with a second arm and a second shelf is mounted.
In another implementation, a cabinet for dental supplies comprises first and second swing-out shelf members. The first swing-out shelf member is pivotably connected to a first arm having a proximal end pivotably connected to a first sliding drawer. The second swing-out shelf member is pivotably connected to a second arm having a proximal end pivotably connecting to a second drawer. The second drawer is vertically spaced from the first drawer. The cabinet also comprises a cabinet housing sized to house the first and second drawers.
In some implementations, at least one of the first swing-out shelf member or the second swing-out shelf member has a contoured forward edge.
In some implementations, the proximal end of the first arm is mounted to the first drawer adjacent a first corner, and wherein a second corner positioned opposite the first corner is pre-drilled with mounting holes for an alternative mounting position for the arm.
At least the first drawer can comprise an L-shaped reinforcement bracket with legs oriented orthogonally along intersecting sides of the first drawer to distribute a load from the first arm and reduce deflection in the first drawer. At least the first drawer can comprise a back positioned to extend uprightly from a rear side of the first drawer.
The foregoing and other features and advantages will become more apparent from the following detailed description, which proceeds with reference to the accompanying figures.
Referring to
In some implementations, the shelf member 102 can be pivoted 360 degrees relative to the first pivot connection 104 (subject to the presence of any interfering structure). In some implementations, the arm 106 can be pivoted 360 relative to the second connection 108 (subject to the presence of any interfering structure). As illustrated, the shelf member 102 and the arm 106 are configured such that the shelf member 102 can be rotated 360° about the pivot connection 104 (for at least for some positions of the arm 106 relative to the second pivot connection 108), subject to other objects that may be present and interfere with such rotation. In other implementations, it may be possible to configure the arm 106 with only the pivot connection 108.
The arm 106 can be described as S-shaped. In the illustrated implementation, the arm is symmetrical about its center point, although such a symmetry is not a requirement. Further, the S-shape in the illustrated implementation is comprised of smoothly curving segments, but it would also be possible to achieve an arm having a distal end offset from its pivot point by a desired distance using one or more angled or curved segments. Because the distal end of the arm 106 is offset, the arm 106 can be swung out or extended farther than a straight arm.
In the illustrated implementation, the drawer 112 is configured to translate between multiple positions, such as at least an open position (e.g., as shown in
In the illustrated implementation, there is a back 116 attached to the drawer 112 and projecting upwardly from the drawer 112. The back 116 fulfills several functions, including preventing the shelf member 102 and arm 106 from being pushed rearwardly beyond a pre-defined storage position, such as is shown in
The drawer 112 may be provided with a central opening 118. The opening 118 can be fitted with one or more removable members, including a set of containers providing storage for various items of different sizes.
The shelf member 102 can be designed to have any desired size. In some implementations, the shelf member 102 is designed to accommodate a tub or tray, but other sizes and purposes are, of course, possible. For example, the shelf member 102 can accommodate an instrument or piece of equipment that is swung into position when needed. Desirably, the shelf member 102 has a low profile and can be configured with one more structural features (such as a surrounding rib 109 as best seen in
In some implementations, the shelf member 102 has a formed steel construction. The shelf member 102 can have surfaces that are smoothly joined together, including in the area of the rib 109, which makes cleaning of the shelf member easier.
As shown in
Referring to
As shown in
In one specific implementation, the shelf member 102 is attached with threaded fasteners 132 to a pivot hub 130, which is received in a bearing 134 that sits within a bore 135 in the arm 106. The bore 135 is best shown in
In addition to the pivot hub 130 and the bearing 134, the pivot connection 104 also includes a thrust bearing 138, thrust washers 140 positioned above and below the thrust bearing 138, and, below the arm 106, a thrust bearing 142, thrust washers 148 positioned above and below the thrust bearing 142, a flat washer 144 and a cap screw 146 that can be rotated to adjust the pivot resistance.
It would, of course, be possible to use one or more different components for the pivot connection 104 than described above for the illustrated implementation. As just one example, one or more of the separate bearings described above could be omitted or combined with other components.
At the opposite corner of the shelf member 102, the unused mounting location 120 can be fitted with fasteners, such as mounting bolts and nuts that close the holes in the shelf member and provide for a more finished appearance.
As can be seen in
In the illustrated implementation, the pivot connection 108 can be further reinforced with an optional bracket 124 that is secured by the fasteners 126 and extends generally along two orthogonal edges of the bottom surface of the drawer 112. As can be seen, the drawer slides 114 are attached to opposite sides of the drawer 112 with fasteners 122. In some implementations, drawer slides sold by Accuride can be used.
In
In view of the many possible embodiments to which the principles of the disclosed invention may be applied, it should be recognized that the illustrated embodiments are only preferred examples of the invention and should not be taken as limiting the scope of the invention. Rather, the scope of the invention is defined by the following claims. We therefore claim as our invention all that comes within the scope and spirit of these claims.
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Number | Date | Country | |
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20170290726 A1 | Oct 2017 | US |