The present invention relates to hinges for supporting thin doors, panels, lids, and thin covers and the like. The present application claims priority of U.S. Provisional Application 60/348,659, filed Jan. 14, 2002, for Hinge Device with Detent Feature.
Various types of hinge assemblies are known in the art and are particularly useful for securing a door, cover or the like to a frame or other hinging surface. In many cases, hinge assemblies include multiple parts that must be connected and assembled for installation. There are leaf hinges which can comprise a single piece hinge member, which itself, may consist of a group of elements. A leaf hinge typically has one “wing” plate mounted to a door panel and another wing plate mounted to a frame, thereby facilitating the door panel to swing relative to the frame. There are also adjustably provided hinges that contain elements that can be adjusted to position the hinge. The addition of the adjustment elements, while facilitating the positioning of a hinge, also increases the installation time and the production cost.
Generally hinges have been known to include a pair of opposite parts that are pivotally connected to one another by a pintle serving as a vertical pivot pin. For example, it is customary to provide a simple pintle consisting of a cylindrical shaft that can slide into interlocking barrels on each wing plate to hold the hinge together. The pintle can be provided with a head that engages the upper side of the uppermost hinge knuckle to hold the pintle in position. Generally, the pin is maintained by its configuration and gravity.
It is further known to provide a pintle of a composite construction and having a torsion spring which acts against the leaf hinges for automatically swinging the door to a closed position. When the leaf hinge is installed in the usual manner, one hinge leaf is attached to the door panel edge and the other hinge leaf is attached to the frame. Usually, this type of hinge can be concealed between the door edge and the frame, with the hinge knuckles being visible. This type of hinge, however, has the problem of being susceptible to permitting unauthorized access to an enclosure by removing the hinge pintle. Although some solutions have been provided by furnishing additional hinge components, such as the “hinge pintle retaining means”, shown by Curry, et al. in U.S. Pat. No. 4,073,037, the added components make the hinge more complex, and can increase installation and production costs.
Such leaf hinges, as shown by Curry et al. do not solve the fundamental problem of the hinge coming loose or the hinge bending the thin panel or lid to which it is attached. Moreover, with leaf hinges, the pivot pin is usually driven into the barrel shaped bosses (Curry et al. knuckles). For thin panel and thin lid installations, this requires special care, including the use of a special tool.
What is needed is an easy to assemble hinge for holding an pivoting relatively flimsy or thin panels or lids.
What is further needed is such a hinge assembly that does not require driving a pivot pin or pintle into position.
What is even further needed is such a hinge assembly that includes a support or reinforcement for attachment of the leaf or wing to the relatively thin plate or lid.
What is also desired is a detent mechanism with the hinge assembly that assists in holding the hinge assembly in pre-selected position.
What is further desired is an indicator that provides a signal when the hinge is opened.
An object of the present invention is to provide a wing or leaf-type hinge assembly that can be readily installed on a thin panel or lid.
Another object is to provide this hinge assembly with a backing plate for increased durability and for covering attachment parts.
A further object is to provide this hinge assembly with snap together locking of the pivoting leaf or wing members without the need for tools.
An even further object is to provide this hinge assembly with a detent mechanism that assists in holding the hinge assembly in a pre-selected position.
An additional object is to provide this hinge assembly with an open position sensor.
The objectives of the present invention are realized in a two-piece wing or leaf-type hinge assembly also having a backer-plate. The assembly includes a male wing member carrying a pivot pin, integral with its structure. The female wing member includes a receiving bore or barrel in which the pivot pin rides, thereby permitting the pivoting of the hinge. The two wing members can be manually snapped together when the pivot pin of the male wing member is snapped into the barrel of the female wing member.
The free end of the pivot pin includes a positive interlock, which resists the removal of the pivot pin structure and the disassembly of the two wing members without the release of the interlock.
The hinge is capable of 180 degrees of rotation. The pivot pin may have its free end shaped to receive a co-acting detent member for holding the hinge in a pre-determined rotational position. The detent member may be spring biased. The detent may also be assembled manually.
The backer plate provides support for a thin panel or lid to which the female wing member is mounted. In so mounting to a thin panel or lid, the thin panel or lid is sandwiched between the backer plate and the female wing member. The male wing member has a mounting hole or slot for receiving a fastener. The female wing member may also have one or more fastener holes aligned with fastener holding sockets or brackets in the backer plate. Alternately the backer plate can carry a mounting bolt on its panel or lid mounting face. Further, the backer plate can include positioning pins or dowels.
Through holes are required in the thin panel or lid for any positioning pins or dowels and for fasteners between the female wing member and the backer plate. The backer plate can include a cover over.
The features, advantages and operation of the present invention will become readily apparent and further understood from a reading of the following detailed description with the accompanying drawings, in which like numerals refer to like elements, and in which:
The present invention is a hinge assembly having leaf or wing-type plate members, this hinge assembly being suitable for mounting to a thin panel or lid and having a snap-together configuration. The hinge assembly includes a male wing plate member and a female wing plate member joined with a pivot pin for rotation with respect to one another. A backer plate forms a support member for the female wing member, which is mounted to the thin panel itself.
The backer member can carry one or more fastener openings in its face, which abuts the thin panel. This backer member can alternately carry one or more fasteners projecting from its face. A backer member configuration having the fastener openings can also include a cover. Positioning pins or dowels may be present on the face of the backer member for extending through the thin panel and through the face of the female wing member. Such positioning pins can eliminate the need for plural female wing member fasteners.
The male wing member includes a pivot pin projecting from a cylindrical structure terminating in a shoulder extending about the projecting pivot pin. The female wing member includes a receiving barrel for receiving the pivot pin. With the male wing member manually snapped into position on the female wing member the male member's cylinder end rides against the female member's barrel end.
The female wing member's face can include various fastener mounting openings in various configurations.
An interlock holds the pivot pin in the receiving barrel. This interlock can be implemented either with deformable hooks or with a spring biased engaging block and receiving slot. When this receiving slot is cylindrical indentation in the pivot pin a rotational detent function is also incorporated in conjunction with the spring biased engaging block.
A micro-switch sensor may be added to detect a hinge-open condition. When this micro switch is installed a trip finger is added.
Referring to
A perimeter support side wall 47 can join the first and second end walls 41, 43 adding to the rigidity of the female wing member 35. The pivotal connection, of the female and male wing members 35, 37, is facilitated by the abutment of two cylindrical structures 49, 51, that ride against one another. The first is a barrel receiving bore 49 of the female member 35 opposite the perimeter side wall 47. The second is a cylindrical boss-like structure 51 from which the hinge pivot pin (not shown here) extends into the receiving bore 49.
The female wing member's face can include a fastener boss 53, and two positioning bosses 55, 57. Actually, only one positioning boss 55, 57 is needed to secure the female wing member 35 from rotation. Alternately, positioning pins, dowels or tubes 55, 57 may extend from the face of the backer plate 39 through drilled holes in the panel 33 and through holes in the face of the female wing member 35.
The backer plate 39 has a cover 59 portion carrying a fastening knuckle 61 projecting from the face of a tab 63. The backer plate cover 59 is connected to the backer plate body (not shown here) with a living hinge 65.
The male wing member 37,
When a micro-switch (not shown here) is added to the hinge assembly 31, a trip finger 73 is added to extend from the end of the male wing member 37, with this trip finger 73,
For installations where misalignment is not an issue, the male wing member 37 fastener mounting hole can be round 67a,
The receiving barrel (pivot pin boss) 49 of the female wing member 35 has a squared-off face 85,
The backer plate 39 is shown in detail in
The backer plate 39,
The assembled hinge 31, with its box-shaped backer plate 39a (not shown here) is shown mounted to a panel 33,
When the deformable hooks 75, 77, used as the pivot pin 69 interlock are replaced with an engaging block and receiving slot interlock, the female wing member 35a,
Positioned within the interlock housing 109 is a biasing spring 113 forcing an engaging block 115 against a mating indentation 117 in the pivot pin 69a. This indentation is spaced inwardly from the end of the pivot pin 69a to leave an enlarged area or shoulder 119 at the end of the pin. This shoulder 119 and the inward face 121 of the indentation 117 form a “catch” for the mating face of the engaging block 115. When the block 115 is seated in the undercut section or indentation 117 because of the force of the spring 113 asserted against it, a portion of the block remains in the housing 109, therefore the pivot pin 69a is locked from removal from the receiving barrel or pivot boss 49.
The biasing spring 113 is a coil type compression spring which seats at one end against the back inside face of the interlock housing 109 (not shown here) and the abutting face 123 of the engaging block 115. The cross-section of the engaging block can be of any shape, including circular and rectangular as shown in
The perspective view of the male wing member 37a from the back, shows that the pivot pin 69a indentation 117 has two steps, a first upper step 127 forming a first shoulder and a second inner step 129 forming a second shoulder. The total rotation of the indentation 117 is to be equal to or greater than the permitted rotation of the female and male wing members 35a, 37a to each other. Typically this is 180 degrees. The upper step 127 assures the interlock function is always maintained. The inner step 129 operates with the curved face 125 of the engaging block for the detent function.
As previously stated, the mounting holes for the female wing member and male wing member can take many forms.
Many changes can be made in the above-described invention without departing from the intent and scope thereof. It is therefore intended that the above description be read in the illustrative sense and not in the limiting sense. Substitutions and changes can be made while still being with the scope of the appended claims.
Number | Date | Country | |
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60348659 | Jan 2002 | US |
Number | Date | Country | |
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Parent | 10341785 | Jan 2003 | US |
Child | 11039699 | Jan 2005 | US |