Applicant claims priority under 35 U.S.C. §119 of German Application No. 10 2004 026 392.2 filed May 29, 2004.
1. Field of the Invention
The present invention relates to a hinge plate having a part that can be attached to a frame or to a door panel, which part has two hinge rollers that are spaced apart from one another, sleeves disposed in the hinge rollers so as not to rotate, and a pin that is inserted into the sleeves and bridges the distance between the hinge rollers. The pin has a pin head as well as a connector end for attachment to a pin screw. The pin head and the head of the pin screw attached to the pin are disposed countersunk within the hinge rollers. A second hinge part is mounted on the pin so as to rotate. The second hinge part can be attached to the door panel or frame and can have a hinge tab that can be inserted into a hinge accommodation and fixed in place there by wedging, for example.
2. The Prior Art
A hinge plate having the characteristics described above is known from DE 23 56 166 A1.
Hinge plates having the structure described are known from practice and are used as premises hinges for interior and exterior doors in residential buildings, public buildings, and the like. The pin screw can come loose and fall out as the result of impacts when the doors are opened and closed.
Against this background, it is an object of the present invention to provide a hinge plate in which the pin screw of the hinge plate is reliably secured in the simplest possible manner, to prevent it from falling out.
Proceeding from a hinge plate having the characteristics described initially, these and other objects are achieved, according to the invention, by a hinge plate in which the pin screw has a collar that is fitted into the sleeve with a wedge fit. The sleeve is preferably made of plastic. The pin and the pin screw may be connected with one another by means of threads. Alternatively, the pin and the pin screw can be locked into one another by means of a bayonet closure. The connector end of the pin can be configured as a journal with the pin screw having a corresponding bore or; alternatively, the connector end of the pin may have a bore into which the pin screw can be screwed. The collar of the pin screw has a cylindrical or preferably conical outer surface, whereby the diameter is sized so that the pin screw can still be connected with the connector end of the pin, and subsequently sits in the sleeve with a wedge fit. The shaft of the pin has a diameter that is slightly less than the inside diameter of the sleeves, so that the pin can be easily installed. At the pin head, or in a segment below the pin head, the pin has a rotation locking mechanism that interacts with the sleeve assigned to the pin head. The rotation locking mechanism can include one or more projections that engage into a corresponding recess of the sleeve after the pin has been installed. A segment of the pin below the pin head is also suitable as a rotation locking mechanism. The segment is designed as a multi-edge surface and has an excess dimension as compared with a cylindrical inner surface of the sleeve.
Hinge plates for exterior doors must have a pin locking mechanism that prevents the pin from being hammered out of the hinge rollers after the pin screw has been loosened. Known pin locking mechanisms are made up of a threaded pin that can be inserted into a lateral threaded bore of the hinge rollers, and engages in a ring-shaped groove of the pin. The threaded bore is disposed so that the threaded pin is inaccessible when the door is closed. With such known measures, it is accepted that the pin screw can easily be unscrewed from the hinge roller and does not make any contribution to securing the pin. The threaded pin alone must prevent the pin from being displaced in the longitudinal direction within the sleeves. In accordance with the invention, however, securing of the pin is achieved in that the threaded pin that is inserted into a lateral threaded bore of a hinge roller rests against the collar of the pin screw and secures the collar to prevent unauthorized rotation.
It is practical if the head of the pin screw has a depression for a turning tool that is sized so that the torque that can be transferred is less than the holding moment that results from the wedge fit of the pin screw and the effect of the threaded pin that rests against the collar of the pin screw. According to the invention, it is not the pin that is secured against axial displacement, but rather the pin screw that is connected to the pin and has been fitted into the sleeve with a wedge fit that is secured against unauthorized loosening. According to a preferred embodiment of the invention, the end of the threaded pin that acts on the collar of the pin screw is configured as a sharp point or ring-shaped cutter. When the threaded pin is screwed into the threaded bore, the point or cutter digs into the surface of the collar of the pin screw, thereby producing a sufficient positive lock. However, the collar may also have a ring-shaped groove into which the end of the threaded pin, which is configured as a sharp point, for example, engages.
Other objects and features of the present invention will become apparent from the following detailed description considered in connection with the accompanying drawings. It should be understood, however, that the drawings are designed for the purpose of illustration only and not as a definition of the limits of the invention.
In the drawings, wherein similar reference characters denote similar elements throughout the several views:
a to 4a show frame parts of the hinge plate in various embodiments;
b to 4b are detail drawings of the pins and pin screws for the frame parts shown in
Referring now to the drawings, the hinge plates shown are particularly intended for doors in residential buildings, public buildings, and the like. The basic structure of the hinge plate includes a part 1 that can be attached to a frame or to a door panel. Part 1 has two hinge rollers 2 that are spaced apart from one another. Sleeves 3, made of plastic, are disposed in hinge rollers 2 so as not to rotate. A pin 4 that is inserted into sleeves 3 bridges the distance between hinge rollers 2. A second part 5, which can be attached to the door panel or frame, is mounted on pin 4 so as to rotate. The tabs 6 of the two parts 1, 5 can be configured in any desired manner that corresponds to the state of the art. In the following, for the sake of simplicity, the first part 1 will be referred to as the frame part, and the second part 5 will be referred to as the door panel part. Pin 4 has a pin head 7 as well as a connector end 8 for attachment of a pin screw 9. Pin head 7 and the head 10 of pin screw 9 that is attached to the pin are disposed countersunk within hinge rollers 2.
Pin screw 9 has a collar 11 that is fitted into sleeve 3 with a wedge fit. This arrangement ensures that pin screw 9 cannot come loose by itself and fall out of hinge roller 2, even in case of frequent opening and closing movements of the door. Collar 11 has a cylindrical or slightly conical outer surface and has a sufficient excess dimension for a tight fit within the sleeve, in comparison with the inside diameter of sleeve 3. Pin 4 and pin screw 9 are connected by means of a thread, or can be locked together by means of a bayonet closure. In the embodiment of
Pin 4 has a rotation locking mechanism 16 that interacts with sleeve 3 assigned to the pin head, and can be structured in different ways, as shown in
The hinge plate shown in
Although only a few embodiments of the present invention have been shown and described, it is to be understood that many changes and modifications may be made thereunto without departing from the spirit and scope of the invention as defined in the appended claims.
Number | Date | Country | Kind |
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10 2004 026 392.2 | May 2004 | DE | national |