Adaptable mounting system for phonograph records and/or various planar objects

Abstract

In accordance with one embodiment, I presently contemplate a cruciform support base (20), semi-circular dial (10), and concentric semi-circular brace (16) that work together to support the corner of a record and/or planar article. The dial (10) and brace (16) are fastened to the support base (20) and machined in such a way that they form a simple, economical, and adaptable mechanical unit (24). Once paired with a minimum number of units, and mounted to a wall, they cooperate to display any number of records, planar articles, and/or combination thereof in an attractive, tight, grid-like configuration. Furthermore, the design of this system also allows for any one record and/or planar article to be easily retrieved or stored with the swipe of a finger.

Claims

1. An adaptable mounting system for various planar objects, comprising: a) a plurality of base elements for fixation to a wall surface and having recesses for support of a plurality of planar articles, b) a plurality of approximately semi-circular static holding members fixed to the base elements and covering the recesses for securing the corners of said planar articles, c) a plurality of approximately semi-circular dynamic holding members covering the recesses of the base element for securing the corners of said planar articles, d) wherein said base element, said static holding member, and said dynamic holding members have weakening lines, so that said base element and holding members may be divided into one of a number of sections, and e) a means for joining said dynamic holding member to said base element, f) wherein said dynamic holding members are pivotally mounted about said base elements thereby effectively locking or unlocking the corners of said planar articles, and g) whereby a plurality of said planar articles can be retrieved or secured when the plurality of base elements are arranged adjointly on said wall surface.

2. The machine of claim 1 wherein said base element or said holding members are made of polymethyl methacrylate (PMMA).

3. The adaptable mounting system of claim 1 wherein said base element or said holding members are made of wood.

4. The adaptable mounting system of claim 1 wherein said base element or said holding members are made of metal.

5. The adaptable mounting system of claim 1 with a magnetic means applied to said base element for joining to a magnetic substrate.

6. The adaptable mounting system of claim 1 with string, wire, or filament connecting the base elements to a wall surface and adjacent base elements to collectively hang a plurality of base elements.

Description

DRAWINGSFIGURES

(1) FIG. 1 is a perspective view of a first embodiment of an assembled unit.

(2) FIG. 2 is a front-view of a multitude of assembled units aligned in a grid, placed at the vertices of various planar articles.

(3) FIG. 3 is an exploded view of FIG. 1, allowing the reader to understand the mechanics of the assembled unit.

REFERENCE NUMERALS

(4) 10 inner retaining dial 12 gripping point 14 center hole 16 outer retaining ring 18 mounting hole(s) 20 support base 22 weakening cut(s) 24 fully assembled unit 26 adapted base with 16 only 28 adapted base with 10 only 30 adapted base with both 10 and 16 32 adapted base with 16 only 34 adapted base with 10 only 40 square planar article 42 non-square planar article

DETAILED DESCRIPTIONFIRST EMBODIMENTFIGS. 1-3

(5) One embodiment of an assembled unit is illustrated in FIG. 1 (perspective view) and FIG. 3 (exploded view). I presently anticipate a fully assembled unit 24, or variant thereof 26 28 30 32 34, contains (1) a support base 20 of uniform thickness and cruciform shape with mounting holes 18, axially located center hole 14, and scoring lines or weakening cuts 22 half the depth of the base; (2) an outer retaining ring 16 of uniform thickness and semi-circle shape with mounting holes 18 coincident with the mounting hole locations of the support base 20 and weakening cuts 22 half the depth of the outer retaining ring; and (3) an inner retaining dial 10 of uniform thickness and semi-circle shape with axially located center hole 14, weakening cuts 22 half the depth of the inner retaining dial, and gripping point 12 the diameter of an average sized index finger.

(6) I presently contemplate that the support base 20, outer retaining ring 16, and inner retaining dial 10 in this first embodiment be made of a rigid plastic, specifically polymethyl methacrylate (PMMA), but other materials, such as wood or metal, are also suitable. Ideally the material is translucent, especially important for reference numerals 10 and 16, so that album artwork is not obscured at its corners.

(7) The support base's 20 typical diameter is 3 inches and typical thickness is that of an average record sleeve, anywhere from 0.25 inches for a single LP to 0.375 inches for a double LP, however it is not limited to either of these dimensions, as any planar article may be substituted for which these dimensions could scale by a factor proportional to the planar article's size. The outer retaining ring 16 and inner retaining dial 10 dimensions are tied to the support base's diameter, and only need to be as thick as necessary to securely constrain a record or planar article.

(8) I presently contemplate that the support base 20, outer retaining ring 16, and inner retaining dial 10 in this first embodiment be jointed together by a self-tapping screw through center hole 14. Assembled units 24 26 28 30 32 34 may then be attached to a wall by nails through the mounting holes 18 of length more than the thickness of 20 and 16 combined, such that a secure connection may be made between the assembled unit 24 26 28 30 32 34 and its mounting surface. However, this mounting technique is not the only one conceivable, if the mounting surface were magnetized, by magnetic paint for instance, opposing magnets could be inset into the support base 20 and mounting holes 18 could be removed, wherein the outer retaining ring 16 could be glued to the support base 20. Alternatively, double-sided adhesive material could be applied between the assembled unit 24 26 28 30 32 34 and its mounting surface. There are many options for mounting to wallboard of various materials; the embodiment herein could easily be modified to accommodate any mounting substrate.

Operation-First Embodiment

(9) At present I believe that this embodiment operates most efficiently, but the other embodiments are also satisfactory.

(10) The inner retaining/semi-circular dial 10 is allowed to pivot about the center hole 14 allowing two modes of constraintfixed or free. This action is initiated by the user, wherein one places their finger into gripping point 12 and rotates inner retaining dial 10 into either fixed or free position. In order for rotational operation to be achieved, the self-tapping screw through center hole 14 should be set to the correct torque, such that the inner retaining dial 10 is allowed to rotate about center hole 14. If the self-tapping screw is too tight, the inner retaining dial 10 won't be able to spin, if too loose, the dial won't stay at its last position or worse won't securely constrain a planar article.

(11) It takes four of the adapted assembled units, two of 32 and two of 34, to support all four corners of a single record/square planar article 40 or single non-square planar article 42. These adapted assembled units may be derived from a fully assembled unit 24, by snapping-off two of support base 20's arms along its weakening lines 22, snapping the outer retaining ring 16 in half along its weakening line 22, and snapping the inner retaining dial 10 in half along its weakening line 22, thereby changing the once cruciform shaped support base 20 and it's child components into an L shape.

(12) If it is desired to display more than one planar article, more than four fully assembled units 24 may be reconfigured along their weakening lines 22 in order to create a collage of planar articles as illustrated by FIG. 2 and adapted assembled units 26 28 30 32 34. This exhibits the adaptability of the present embodiment, along with the cooperative nature that exists between assembled units.

CONCLUSION, RAMIFICATIONS, AND SCOPE

(13) Thus the reader will see that, according to one embodiment of the invention, I have provided a more economical, simple, and adaptable device that can be used not only for phonographic records, but a multitude of planar articles of varying size. In addition, planar articles may be removed and inserted as much as one desires, allowing for either a dynamic or static collection of articles.

(14) While the above description contains many specificities, these should not be construed as limitations on the scope of any embodiment, but rather as exemplifications of various embodiments thereof. Many other ramifications and variations are possible within the teachings of the various embodiments. For example, an alternative fastening technique for base unit attachment to its surface, a different material, shape for components, or a unique display configuration other than a gridsay a pattern of letters or a simple shape.

(15) Thus the scope of the Invention should be determined by the appended claims and their legal equivalents, and not by the examples given.