DE9100170U1 - journal bearing - Google Patents

Description

IRON FEEDER, SPEAKER & STREET

Burning · Munich

Patent attorneys

European Patent Attorneys

Dipl.-lng. Günther Eisenführ Dipl.-lng Dieter K.Speiser Dipl.-lng. Joachim Strasse · Dr.-Ing. Werner W Rabus Dipl.-lng. Jürgen Brügge Dipl.-Chem. Dr. Walter Maiwald* Patent attorney Dipl.-lng. Jürgen Klinghardt

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Hüppe Form... H 1472 8 January 1991

New registration

Hüppe Form Sun Protection and Room Divider Systems GmbH Cloppenburger Straße 200, 2900 Oldenburg

journal bearing

Description

The invention relates to a pivot bearing for receiving a vertical hinge pin, in particular of doors, with a base part for receiving the pivot bearing.

Such pivot bearings have been known for a long time and are used in particular to accommodate vertically movable hinge pins of hinged doors, which are part of a partition wall system and can be fixed to a door suspension that can be moved horizontally in ceiling rails or can be detached from the door suspension and then hinged around vertical hinge pins.

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While the upper hinge pin is mounted in a pin bearing attached to the door suspension, the corresponding lower hinge pin of the hinged door is designed to be vertically movable and - after the hinged door and the door suspension have reached the intended end position in the partition wall system - is inserted into a corresponding floor-mounted pin bearing in order to achieve sufficiently firm anchoring of the hinge joints. Given the assembly-related tolerances of such a partition wall system, it is difficult to install the lower pin bearing in the floor of the building so precisely that a vertical axis running through the hinge pin of the door is also aligned with the hole in the pin bearing.

The object of the invention is therefore to further develop a journal bearing of the type mentioned at the beginning in such a way that a local adjustment of the bearing bore of the journal bearing is possible in a simple manner even after the journal bearing has been installed. This object is achieved according to the invention in the journal bearing of the type mentioned at the beginning by a substantially cylindrical outer part which is rotatably mounted in the base part and has an eccentric bore, and by a substantially cylindrical inner part which is rotatably mounted in the bore and has an eccentrically arranged bearing bore for the hinge pin.

The advantages of the invention lie in particular in the fact that the bearing bore is arranged eccentrically in a cylindrical inner part, which in turn is mounted in an eccentric bore of a cylindrical outer part, which is rotatably mounted in the base part. This inventive structure makes it possible to adjust the position of the

The bearing bore can be adjusted within a specified range by rotating the inner part and/or the outer part by a desired angle. This makes it possible to compensate for tolerances that inevitably arise during the manufacture and/or assembly of the partition wall system, even after the bearing pin has been installed in the housing base, in such a way that a hinge pin arranged on the hinged door that can be moved vertically downwards can be moved into the bearing bore in alignment without the hinged door having to be placed in an inclined or tilted position.

In a preferred embodiment of the invention, the inner part has an annular shoulder on its outer surface and the outer part has a corresponding annular recess on its inner surface in which the shoulder of the inner part is received and is fixed axially and radially. The base part preferably has the shape of a pot which receives the unit formed by the inner part and outer part and projects with an upper lid into an annular shoulder which is pierced into the outer surface of the outer part in order to fix the unit formed by the inner and outer part in an axially and radially rotatable manner.

In a preferred embodiment of the invention, the bearing bore is formed as a pocket and has an axial through-bore which axially penetrates the bottom of the bearing bore and is provided with an internal thread for screwing in a clamping screw which can be screwed against the bottom of the cup-shaped base part and in this way the inner part can be held upwards from the bottom of the base part, with the shoulder against the outer part.

and presses this with its ring shoulder against the cover of the base part. When the clamping screw is tightened, the inner part, outer part and base part are clamped against each other, thus fixing the set position of the bearing bore. According to a particularly preferred embodiment of the invention, the eccentricity e of the bearing bore in the inner part is at least equal to the eccentricity E of the bore in the outer part. This ensures that the position of the bearing bore can assume any desired position within a circular area with the radius e + E with appropriate rotation of the inner part and/or outer part. With this dimensioning, the range of adjustment is therefore particularly large.

Further advantages, features and possible applications of the present invention emerge from the following description of an exemplary embodiment in conjunction with the drawing.

Fig. 1 shows a cross section through the pin bearing of a door element according to the invention; and

Fig. 2 shows a top view of the journal bearing according to Fig. 1.

The pin bearing 2 of a door element shown in the figures is intended to accommodate a hinge pin that can be moved vertically on the door. The pin bearing 2 shown serves primarily to accommodate the lower hinge pin and for this purpose is housed vertically in the floor, for example, in alignment with the guide rail of a partition wall system.

The journal bearing 2 shown consists of a substantially cylindrical inner part 4 and a substantially cylindrical outer part 8, in which the inner part 4 is arranged eccentrically with the eccentricity E and is rotatably mounted. The inner part has a cylindrical bearing bore 6, which is also arranged eccentrically in the inner part 4, namely with the eccentricity e, and extends over most of the axial length of the inner part.

In the middle area of the outer surface of the inner part 4, a ring-shaped circumferential slide 10 is formed, which fits together with a likewise ring-shaped recess 12 formed in the inner surface of the outer part 8. The slide 10 of the inner part and the recess 12 of the outer part form a precisely fitting contact surface, which enables the inner part to rotate in the outer part with little friction.

The outer part 8 has an annular shoulder 14 in the upper area of its outer surface, which serves to secure the journal bearing in a base 16 intended for receiving it. The journal bearing 2 mentioned is recessed in the form of a bush in the base 16. The base 16 consists of a cover 16a lying at floor level and a bottom 17 adjoining it in the shape of a cup, which is recessed into the floor and receives the journal bearing. The cover 16a of the base part 16 defines a circular recess 18, which serves to support the unit formed on the inner part and outer part. The cover 16a engages behind the annular shoulder 14 and thus fixes the journal bearing 2 in the cup-shaped base part 16.

The bearing bore 6 is designed as a blind hole. A through hole 20 extends from the bottom of the blind hole in the axial direction with a smaller diameter than that of the bearing bore to the bottom of the base part 16. The bearing bore 6 and the through hole 20 thus penetrate the inner part 4 in the axial direction over its entire length. A clamping screw 22 is inserted through the bearing bore 6 from above and screwed into the threaded through hole 20. When the screw cylinder of the clamping screw 22 passes through the through hole 20, it comes into contact with the bottom 17 of the base part and, when screwed in further, clamps the unit on the inner part and outer part against the base part 16 in the direction of the door element. The upward tension leads to a clamping of the inner part 4 with its shoulder 10 on the corresponding contact surface of the recess 12 of the outer part 8. Furthermore, the annular shoulder 14 of the outer part 8 is clamped against the cover 16a of the base part 16. By tightening the clamping screw 22, a specific position of the bearing bore can be determined.

On the surface of the outer part 8, two blind hole-like adjustment openings 26 are provided at a certain distance, which are intended for the attachment of a suitable key in order to be able to change the position of the outer part. Likewise, the inner part 4 also has two engagement openings 28, which serve to rotate the inner part using a key.

Claims (5)

Expectations 1. Pin bearing for receiving a vertical hinge pin, in particular of doors, which is accommodated in a base part (16), characterized by a substantially cylindrical outer part (8) which is rotatably mounted in the base part (16) and has an eccentric bore, and by a substantially cylindrical inner part (4) which is rotatably mounted in the bore and has an eccentrically arranged bearing bore (6) for the hinge pin. 2. Pin bearing according to claim 1, characterized in that the inner part (4) has an annular shoulder (10) on its outer surface, and that the outer part (8) has an annular recess (12) on its inner surface, into which the shoulder (10) of the inner part (4) projects. 3. Pin bearing according to claim 1 or 2, characterized in that the outer part (8) has an annular shoulder (14) on its outer surface, which is supported in a recess (18) in the cover (16a) of the base part (16). 4. Pin bearing according to one of the preceding claims, characterized in that the inner part (4) has an axial through-bore (20) which connects the bottom of the bearing bore (6) with the underside of the inner part (4), and that the through hole (20) has a smaller diameter than the bearing hole (6) and is provided with an internal thread for receiving a clamping screw (22) which serves to clamp the inner part (4) and the outer part (8) against the bottom (17) of the base part (16). 5. A journal bearing according to one of the preceding claims, characterized in that the eccentricity e of the bearing bore in the inner part (4) is at least equal to the eccentricity E of the bore in the outer part (8).