A. Field of the Invention
The present invention relates to an apparatus, method, and system of deterring scoring or abrasion between portions of a hinge device. One example is shown in U.S. Pat. No. 5,867,869.
B. Prior Art
U.S. Pat. No. 5,867,869, incorporated by reference herein, shows a pressure hinge device for glass doors or panels. In one embodiment, it can be made of solid relatively high cost metal, as these hinges are used many times for shower doors, and thus it is desirable to have a durable, highly aesthetic hinge.
As illustrated in U.S. Pat. No. 5,867,869, and described therein, such a hinge basically has two main parts, one of which rotates relative to the other around a main roller pin 50. As can be appreciated, and is somewhat illustrated in FIG. 11 of U.S. Pat. No. 5,867,869, if the portion that rotates (the two clamp bodies 28 and 26) are rotated past 90 degrees relative to tram body 78, a portion of either clamp body 28 or 26 can come into contact with the side of tram body 78. Even though persons opening and closing a glass panel door normally use care or are gentle in moving it from position to position, by accident, inadvertence, or otherwise, it can open to the point where contact between clamp body 26 or 28 and the side of tram body 78 occurs. Even if the contact is slight, at least over time, it can result in abrasion or scoring of the side of the tram body. And, obviously, if the door is opened with substantial force, this can occur in a single event. As can be appreciated, the weight of a full-size glass panel door is substantial, therefore the amount of force can be substantial to cause such abrasion or scoring.
Any surface damage to the side of the tram body is aesthetically displeasing and devalues the qualities of the hinge. Additionally, it is possible that it can be significant enough to encourage oxidation, especially if the scoring or abrasion removes the protective coating or the polishing of the surface of the metal.
Therefore, there is a real need in the art to address this issue.
The present invention relates to incorporating what will be called a bumper to one or the other of the hinge halves. The bumper will interface between the hinge halves at the normal point of possible contact between halves. The bumper will therefore deter direct metal-to-metal contact, or other contact, which can lead to abrasion or scoring of either parts of the hinge.
In one aspect of the invention, the bumper is elastomeric and mechanically attached so that a part is received in one of the hinge halves and a part extends slightly above a surface in the hinge half. The bumper is positioned so that it would be inbetween surfaces of the hinge halves that come towards one another and could possibly come into abutment so as to prevent abutment.
As can be appreciated, particularly with reference to
As can be further appreciated, the combined clamp bodies 26 and 28 rotate around a horizontal axis in
In the exemplary embodiment shown in the figures, an a partially embedded bumper 200 made of an abrasion-resistant, resilient material (e.g. commercial grade molded urethane) is interference fit into a slot formed in that edge of both clamp bodies 26 and 28. When the rotating portion of the hinge (the combination of clamp bodies 26 or 28) is rotated to the point that edge comes near the side of clamp body 78, the exposed part of bumper 200 would prevent metal-to-metal contact and prevent abrasion or scoring.
In particular,
By referring to
As can be appreciated, bumper 200 could take many forms and embodiments. In one example, it is molded urethane shore A, 85 diameter. In this embodiment, bumper 200 is elongated along a long axis that covers a substantial distance of the edge at issue of the clamp body 26 or 28. Alternatively, it could be made of a plurality of embedded pieces or a single embedded piece with a plurality of portions extending out from the surface.
Still further, the material could be made of different colors or it could be clear or translucent.
As can be appreciated, options, variations, and alternatives regarding the invention are possible. For example, if a door is only allowed to rotate in one direction, only one bumper on one side is perhaps needed. It also could be possible to put bumpers on both the tram body and the clamp body in alignment so that they abut one another when the hinge is rotated. The material of the bumper would be selected to accomplish its function and be durable over many years of service. It also should be selected to withstand water in high humidity locations.
As described herein, reference to “embedding” is one example of how the bumper could be mechanically attached to one of the hinge halves. It is intended to refer to insertion of a part of the bumper into a receiver in a hinge half. A mechanical attachment could be simply the restraining of that portion of the bumper by the receiving structure in the hinge half. One example is a slot in the hinge half into which the bumper would be matingly fit. The slot would prevent movement in most directions. Another example of mechanical attachment would be by interference fit. A slot or an opening could be sized such that the bumper, being slightly bigger in perimeter dimensions, is forced into the opening and is held in place by the interference fit. Other types of mechanical attachment are possible including screws, bolts, set screws, pins, molding, and other methods. Also, plural attachment methods can be used. For example, in addition to mechanical attachment, such things as adhesives could be used.
As can be appreciated, the combination is not costly to include but can deter damage or degradation of both the hinge and its aesthetic appearance over time.
As can be further appreciated, the precise configuration of the bumper or its materials can vary. Examples have been given in the foregoing specification. The example given includes some aesthetic features including the proportion of length versus width and height, the rounded surfaces, etc. Variations can be made that do not include those specific features. Additionally, multiple bumpers could be embedded or otherwise mechanically attached instead of a single bumper for each location.
Furthermore, the concept is applicable to a variety of different hinge types.
This application claims priority under 35 U.S.C. § 119 of a provisional application Ser. No. 60/600,709 filed Aug. 10, 2004, which application is hereby incorporated by reference in its entirety.
Number | Date | Country | |
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60600709 | Aug 2004 | US |