Field of the Invention
This invention relates generally to the field of apparatus for industrial or architectural load transferring and bearing device (hardware) such as glass panels or other solid material's attachment to base structure. Such as railing, wall panel or other structural applications and precision leveling support for generic applications. Moreover it pertains specifically to such apparatus for mounting glass, metal or other solid materials as railing, ceiling or wall panels, mounting and precision leveling of objects or machinery to uneven surface, structure or substrate.
In view of the limitations now present in the prior art, the present invention provides a new and useful load bearing and transferring, articulated leveling and point supporting device for architectural and/or industrial, etc. applications. Incorporating X, Y and Z-axis movements and self leveling or pre-positioned angular adjustments of supporting plane, as such transferring loads at optimum surface contact which is simpler in construction, more universally usable and more versatile in operation than known apparatus of this kind.
The purpose of the present invention is to provide a new load bearing and transferring, articulated leveling and point supporting device for architectural, industrial, etc. applications. Incorporating X, Y and Z-axis movements and self leveling or pre-positioned angular adjustments of supporting plane, as such transferring loads at optimum surface contact, a device that has many novel features not offered by the prior art apparatus that result in a new load bearing and transferring, articulated leveling and point supporting device incorporating X, Y and Z-axis movements and self leveling or pre-positioned angular adjustments of supporting plane, as such transferring loads at optimum surface contact, a device which is not apparent, obvious, or suggested, either directly or indirectly by any of the prior art apparatus.
The present invention generally comprises eleven components in two groups. The base contains a cylindrical barrel (A) with inner thread which screws over an outer threaded mounting cup (B).
The cup has an open end and a base with an oversized mounting hole which is attached to the mounting surface/base structure via a standard hex socket cap screw (C) and a pair of sized fender washers (D)—one larger at the base and one smaller at the top. The two washers' combination provides full transfer load at the advantage of being able to shift their individual axis lines in reference to the cup's axis placement (X and Z axis movement). This configuration allows the cup and barrel assembly to be variably positioned over an existing or not accurately positioned thread or thru hole. If thru bolted, the retaining washer and nut should be applied to complete the mounting process. The full movement can vary according to overall size of assembly and specific application, approximate range of circular movement is a ½″ radius around the point of axis.
The barrel's top surface is dome shaped at the inner (convex) and outer (concave) sides. The inner convex dome surface accepts a concave faced washer the dome nut (E) this is held in place with a compression spring (F) loaded against the base cup. The dome nut has a perimeter flange to act as stop for the spring and a threaded hole at the center to fasten the mountable object/glass onto it. The spring provides constant pressure against the inner (convex) dome surface. The assembled base barrel contains the followings: a cap screw, 2 fender washers, cup, compression spring and the dome nut and closed via internal/external full threading.
The amount of thread being utilized can accommodate the Y axis (vertical) movement thru turning it deeper (in) over the cup or raising it higher (out).
The full movement can be customized for different thickness or applications.
The dome nut is always positioned tight against the barrel's convex surface via the compression spring. This allows repeated removal/installation and/or repositioning process without taking apart the whole unit.
The barrels' convex radius is slightly larger than the dome nuts' concave radius in order to “bite” into the convex dome surface during final tightening. This also prevents the rotation of the two surfaces during threading and tightening.
The second group is containing two shaped nylon washers, retaining disc (I) and fastener (J).
The mounted barrel assembly (one or several pieces can be used as required by design and load requirements) is accepting the dome washer #1 (G), which sits inside the barrel's matching, concave surface. Clearance around the perimeter flange allows a calibrated tilt angle adjustment in 360 degree (here +/−4 degrees). If the fittings are used in unison on a single pane of glass or work piece, their cumulative effect is less than the individual component's nominal value. The dome washer (nylon or various other material) to be designed according to load/transfer requirements and compatibility with the mounted materials itself.
The washers to be attached with a small amount of adhesive (such as silicone) to the glass or other materials to hold it in place for the duration of installation. The glass or other material that is to be mounted, one side is equipped with the dome washer #1, the opposite surface receives the flat washer #2 (H) this is to be attached with the same adhesive. A stainless steel (or other) retaining disc is completing the whole assembly thru a flathead socket cap screw (J) into the dome nut.
The fixture requires two bolts for each connection. The base fastener (C) is approached thru the barrel's concave opening reaching in with a ball head T-handle hex key. The barrel/s self aligned thru the nylon spacers, eliminating all additional need for measurement. Once tightened base can accommodate the closure flat washer #2 (I) with the retainer disc and fasten the whole assembly with the flathead screw into the inner dome nut.
The above has outlined, in general, the physical aspects of the invention and is to serve as an aid to better understanding the complete detailed description. In reference to such, there is to be a clear understanding that the present invention is not limited to the method or detail of construction, fabrication, material, or application of use described and illustrated herein. Any other variation of fabrication, use, or application should be considered apparent as an alternative embodiment of the present invention.
The articulated point support device is having two groups of components. The preassembled base mount is to be attached hand tight to the supporting structure with the provided bolt. Prepare the work piece (glass) by mounting the dome and flat washers on the glass with a small amount of clear adhesive. Align the glass piece with the hand tight base fittings, align/match all axis locations. This time make all necessary movements of the pre-positioned fittings through their X and Y axis shifts, raise or lower the top surfaces as required to provide a uniform seating surface at each fittings. Hold glass piece steady in final position. Tighten the base mount onto the structure with the Allen key through the glass in place.
The dome washers are providing the final tilt adjustments, seating all fittings fully within the concave dome surfaces, assuring uniform surface contact and load bearing without peak stress points.
The retainer assembly consists the disc and flat head screw. Lead the fastener thru the glass and washers and thread into dome nut. Tighten with the Allen key to complete installation.
Should the need arise to replace the glass or further adjustments are necessary, loosen all top fasteners and repeat above procedure.
Accordingly several advantages and objects of the present invention are:
A principal object of the present invention is to provide a simple way to mount and adjust objects over a fixed fastening location by the means of shifting, tilting and raising/lowering the hardware and it's load transferring platform will overcome the deficiencies of the prior art devices.
An object of the present invention is to provide a lateral movement X and Y coordinates and their combination thereof. Device that is shifting over a fixed mounting location such as hole or threaded hole in a circular field.
Another object of the present invention is to provide a vertical movement via Z coordinate to provide depth adjustment. Device that is moving its' top surface forward or backward.
Another object of the present invention is to provide an angle adjustment to correct angular misalignment between mounting and mounted surfaces or doing so between several points. Device that is tilting around a full circle in +/−4 degrees (or other determined angle) to correct out base plane and mounted glass' desired plane discrepancies.
Another object of the present invention is to provide a hardware positioning system as directed by determined mounting locations of the glass holes or mounting holes. Device that is mounted and fastened through the hole in the glass via an Allen Key.
Another object of the present invention is to provide an alignment between glass panels or other materials in line, curve or shape, direction as set by design. Device that is adjustable to bring Z coordinates into line, curve or shape by individually adjusting their dept.
Another object of the present invention is to provide a stress free mounting of the glass in a parallel plane to the hardware. Device that is self-aligning the dome shaped washer to transfer thru maximum surface contact without peak stress areas.
Another object of the present invention is to provide re-adjustability of hardware, glass location and their planes' fine adjustments. Device that is incorporating all 3 axis movements to allow repeat installation and removal of hardware, repeat shift, depth and angle adjustment to fine tune for precise alignment, positioning and parallel placement of glass or other work piece.
Another object of the present invention is to provide a device that incorporates all parts and fastener for simple, organized workflow. Device that is containing all of the followings: spring loaded retainer dome nut, washers, and fastener in one piece. Fitting can be installed prior to aligning glass panels. Positioned by glass and tighten at final location.
Another object of the present invention is to provide a compact unit to achieve all movements and present an architecturally aesthetic hardware. Device that is measuring approximately 2″×2″ block size having all movements & parts concealed in a contemporary metal body.
Another object of the present invention is to provide a glass layout that could be changed or modified for better alignment, enhanced structural integrity and refined look. Device that is securing the glass or other work pieces in a configuration which can be realigned, changed, that is more universally functional in today's market than the prior art devices without breaking permanent connections between glass, hardware and base surface. Removable system, reusable all components.
It is intended that any other advantages and objects of the present invention that become apparent or obvious from the detailed description or illustrations contained herein are within the scope of the present invention.
The following drawings further describe by illustration the advantages and objects of the present invention. Each drawing is referenced by corresponding figure reference characters within the “DETAILED. DESCRIPTION OF THE INVENTION” section to follow.
Referring now descriptively to the drawings, the attached figures illustrate the Articulated Point Support Fitting.
The purpose of the present invention is to provide a load bearing and transferring, articulated leveling and point supporting device for architectural, industrial, etc. applications. Incorporating X, Y and Z-axis movements and self leveling or pre-positioned angular adjustments of supporting plane, as such transferring loads at optimum surface contact, a device that has many novel features not offered by the prior art apparatus that result in a new load bearing and transferring, articulated leveling and point supporting device incorporating X, Y and Z-axis movements and self leveling or pre-positioned angular adjustments of supporting plane, as such transferring loads at optimum surface contact, a device which is not apparent, obvious, or suggested, either directly or indirectly by any of the prior art apparatus.
It will also be understood that, in addition the Articulated Point Support Fitting, the device can be used to level objects such as machinery, wall claddings, partitions, and structural glazing elements in architectural applications.
It is further intended that any other embodiments of the present invention that result from any changes in application or method of use or operation, method of manufacture, shape, size, or material which are not specified within the detailed written description or illustrations contained herein yet are considered apparent or obvious to one skilled in the art are within the scope of the present invention.
Number | Date | Country | |
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60748741 | Dec 2005 | US |