EP1386048A1 - Mounting and securing a bar - Google Patents

Abstract

The invention relates to a pivot bearing (1) for revolving doors (2) comprising a securing part (7) and a bearing shaft (4) which comprises an area (5) provided with a threaded part and a bearing area (6) which bears a pivoting bar (22) of the revolving door (2). Said bearing is provided with a connecting part (10) which binds the securing part (7) and the bearing shaft (4) together. The connecting part (10) comprises a continuous groove (11) arranged parallel to a rotating axis X-X, a pin (16) secured in the bearing shaft (4) being guided through said groove. An adjustment device (14) is screwed onto the threaded area (5) of the bearing shaft (4) enabling the bearing shaft to be positioned axially.

Description

Title: Storage and fastening of a pole

description

The present invention relates to a storage and fastening of a pivot bearing for pivot doors and in particular for furniture.

Pivots on furniture are known for example as hinges. A disadvantage of hinges, however, is that they are visible from the outside and therefore furniture with pivot doors mounted in this way can only fulfill aesthetic requirements to a small extent.

From DE 42 18 175 C1 a rotary fitting for shower partitions is known which is axially adjustable. For this purpose, its pivot is clamped in the corresponding position in a receptacle by a plate serving as an abutment. The axial positioning of the trunnion is extremely complex from an assembly point of view. In addition, the clamping screw connection of the plate can automatically loosen due to operational movements of the shower partition.

It is therefore an object of the present invention to provide storage and fastening of a pivot bearing for pivot doors, which is adjustable and simple, shows no fastening element and can be produced inexpensively. Furthermore, the storage and fastening according to the invention are intended to give an aesthetically pleasing impression and are to be used in particular in the case of furniture within a body.

This object is achieved by mounting and fastening a pivot bearing with the features of the main claim. The subordinate claims show advantageous further developments. In the following description, for the sake of clarity, only one pivot bearing is spoken of, which also includes the fastening at the same time. The pivot bearing for pivot doors according to the invention comprises a bearing shaft, a holding part, a connecting part and an adjusting device. The bearing shaft has a threaded area and a bearing area for a rotating rod of the revolving door. The holding part is designed to be stationary and, for example, secured against rotation within a furniture body. This anti-rotation lock can be achieved using a wide variety of means that penetrate, for example, the furniture body (eg pens, projections, tips, etc.). The connecting part connects the holding part and the bearing shaft with each other. The connecting part has a through groove which is formed parallel to the axis of rotation of the pivot bearing or the pivot door. The connecting part can be fixed in the holding part and connected to the bearing shaft via a pin arranged in the through groove. The adjusting device has an internal thread and can therefore be screwed onto the threaded area of the bearing shaft. An axial position of the bearing shaft with respect to the holding part can be changed by means of the adjusting device. With the pivot bearing according to the invention it is therefore possible to move the bearing shaft, which is provided for mounting the pivot rod of the pivot door, in the axial direction, ie in the direction of the axis of rotation. This makes it possible for the rotating rod to be installed between two walls without having to drill through holes and bearing devices from the outside of the walls. According to the invention, the bearing shaft is positioned completely in a receiving region of the holding part by means of the adjusting device and, after the rotating rod of the revolving door is positioned between the holding parts, the bearing shaft is moved in the direction of the axis of rotation by means of the adjusting device, so that it can mount the rotating rod. Such pivot bearings are preferably provided at both ends of the rotary rod. The rotary rod is stored on the bearing area of the bearing shaft. According to the invention, the pivot bearing can thus first be fastened, for example, in a furniture wall and then the pivot door can be attached, which is then fixed on the axis of rotation by means of the adjusting device. This enables particularly simple and quick installation.

It should be noted that according to the invention a rotating door is understood to be a door which can be pivoted about an axis. The door can be arranged both horizontally and vertically (for example on a secretary). It is possible that the rotary rod rotates as a whole or, with suitable fitting parts, the rotary rod can also be fixed. In this version, the hardware components turn on the rotating rod.

So that the assembled rotary bearing can maintain its predetermined position even during use, a fixing device of the adjusting device is preferably formed on the bearing shaft. The fixation is particularly preferably carried out by means of a grub screw.

A flange is advantageously formed on the connecting part for connecting the holding part to the bearing shaft. As a result, the flange can serve as a stop in order to be arranged on an outer region of the holding part.

The connecting part is preferably fixed on the holding part in order to enable a predetermined positioning of the two parts with respect to one another. The fixation is particularly preferably carried out by means of a grub screw which engages in an annular groove in the connecting part. According to another preferred exemplary embodiment of the present invention, the pivot bearing has a cover with a flange which is arranged between the pivot bearing and the pivot rod of the pivot door. The flange rests on the pivot bearing and prevents dirt and dust from entering. Ä. This ensures a good function even in dusty areas.

The holding part is preferably designed like a bush. It particularly preferably has the same diameter as the rotary rod. This results in a particularly aesthetic storage of a revolving door, since the holding part visually extends the revolving rod and the bearing of the revolving door appears to the viewer as a simple cylindrical rod.

According to another preferred exemplary embodiment of the present invention, an interference fit is formed between the bearing shaft and the rotary rod, or the rotary rod is clamped between two rotary bearings in such a way that it can no longer rotate. This enables the rotating rod to be fixed between two pivot bearings and to no longer be able to rotate. This can prevent the revolving doors from opening unintentionally when transporting a piece of furniture. It is also possible that a rod can be clamped in a horizontal direction between two walls in a cupboard. Thus, the bearing according to the invention is not only suitable for storing revolving doors, but it is also suitable for mounting a rod or the like. to position firmly between two bearings.

The pivot bearing according to the invention is particularly preferably used in furniture which in particular has glass doors as pivot doors. This makes it possible for the axis of rotation of the revolving doors of the furniture to go into the Piece of furniture is placed in it, so that on the outside of the piece of furniture through the revolving door, a flat finish with the furniture body can be achieved without hinges or the like. protrude. Thus, according to the invention, an inside pivot point can be realized, the pivot point being in the pivot bearing.

The rotary bearing according to the invention is preferably made of metal, in particular stainless steel.

The invention is described below using schematically illustrated exemplary embodiments. It shows:

FIG. 1: an exploded perspective view of a rotary bearing according to a first exemplary embodiment of the present invention,

2a and 2b: different views of the rotary bearing according to the first embodiment of the invention,

3a to 3c: different views of a connecting part according to the first embodiment of the present invention,

4a to 4c: different views of an adjusting device according to a first embodiment of the present invention,

5a and 5b: the different views of a bearing shaft according to the first embodiment of the present invention, Figure 6 is a sectional view of a holding part according to the first

Embodiment of the present invention

FIG. 7: a side view of two mounted pivot bearings according to the first exemplary embodiment in a furniture body,

Figure 8 is an exploded perspective view of the pivot bearing shown in Figure 7 including the pivot rod of the pivot door and

Figure 9 is a sectional view of a holding part according to a second

Embodiment of the present invention.

FIG. 10: a front view of a fastening element,

Figure 1 1: a side view of a fastener,

FIG. 12: a closure cap,

Figure 13: a second embodiment of a fastener in the front view and

Figure 14: like Figure 13, but in side view.

A rotary bearing 1 according to a first exemplary embodiment of the present invention is described below with reference to FIGS. 1 to 8.

As shown in FIG. 1, the rotary bearing 1 comprises a bearing shaft 4

Holding part 7, a connecting part 10 and an adjusting device 14. The holding part 7 has a stepped through hole (see FIG. 6), in which the connecting part 10 is arranged (see FIG. 2b). Here, a bore 8 is provided so that the holding part 7, for example in a furniture body 3, z. B. is fastened by means of a screw. So that the holding part 7 does not twist in the furniture body 3, on the underside, for. B. pins, in the form of an anti-rotation device.

The connecting part 10 is shown in more detail in FIGS. 3a to 3c. The connecting part 10 is formed in the form of a sleeve and has a through groove 11, an annular groove 13 and a flange 12. The flange 12 is arranged in a recess 9 of the holding part 7 in the assembled state. The holding part 7 and the connecting part 10 are connected to one another in the region of the annular groove 13 by means of a Madeπ screw 17 (cf. FIG. 2b). With the bearing shaft 4, the connecting part 10 is connected via a pin 16 which protrudes into the through groove 11. This makes it possible for the bearing shaft 4 to move in the axial direction X-X, the pin 16 being guided in the through groove 11. A movement of the bearing shaft 4 in the circumferential direction relative to the connecting part is prevented by the through groove 11. The pin 16 is fastened, for example, by means of a press fit in the bearing shaft 4 and projects so far out of the bearing shaft 4 that it can be guided securely in the through groove 11.

The bearing shaft 4 is shown in more detail in FIGS. 5a and 5b. As can be seen in particular from FIG. 5b, the bearing shaft 4 has a threaded area 5 and a bearing area 6. Furthermore, a bore 21 for receiving the pin 16 is arranged on an end region of the bearing shaft 4. The threaded area 5 is located between this end area and the bearing area 6. The setting device 14 is shown in more detail in FIGS. 4a to 4c. The adjusting device 14 is in the form of a nut, but it has a cylindrical outer circumference. The adjusting device 14 is provided with a through bore with an internal thread 15 and has a radial bore 25 which serves to receive a grub screw 18 (cf. FIG. 2b). A desired position of the bearing shaft 4 can be fixed in the adjusting device 14 by means of the grub screw 18.

The assembly and operation of the rotary bearing 1 according to the first exemplary embodiment is described below. For assembly, the bearing shaft 4 is first inserted into the connecting part 10 and the bore 21 of the bearing shaft 4 is aligned with the through groove 11 of the connecting part 10. Then the pin 16 is inserted through the through groove 11 into the bore 21 of the bearing shaft 4. Since the pin is inserted in such a way that it protrudes from the bearing shaft 4 into the through groove 11, the bearing shaft 4 and the connecting part 10 are now connected to one another in such a way that the bearing shaft 4 can move in the axial direction XX, in the through groove 11 to be led. Their movement in the axial direction XX is limited by the pin 16 striking the respective ends of the through groove 11. The adjusting device 14 is then screwed onto the threaded area 5 of the bearing shaft 4. Then the connecting part 10 is inserted into the stepped bore of the holding part 7 and fixed by means of the grub screw 17 (cf. FIG. 2). A cover 19 with a flange 20 is then pushed over the bearing area 6 of the bearing shaft 4. The pivot bearing 1 is now fully assembled. By rotating the adjusting device, the axial position of the bearing shaft 4 can now be changed in the direction of the axis of rotation XX, since the bearing shaft 4 is prevented from rotating by the pin 16 arranged in the through groove 11. There- by converting the rotary movement into a longitudinal movement in the direction of the axis of rotation XX.

It should be noted that the cover 19 is not absolutely necessary for the function of the pivot bearing. However, the cover 19 prevents dust or dirt from getting into the threaded areas of the rotary bearing 1.

If the desired axial position of the bearing shaft 4 is now set by means of the adjusting device 14, this position can be fixed by the grub screw 18. Thus, the bearing area 6 of the bearing shaft 4 or the cover 19 can accommodate a rotating rod 22 of a revolving door 2, which in its longitudinal extent has the same dimension as the inside dimension of a furniture body. This is shown in Figures 7 and 8. The rotary rod 22 has a bearing area 26, which is designed as a cylindrical bore at each of its two ends (cf. FIG. 8). The bearing area 26 of the rotating rod 22 of the revolving door 2 is designed such that it can accommodate the bearing area 6 of the bearing shaft 4 and can rotate about the axis of rotation X-X. The bearing shaft 4 is held in place by the pin 16 in the through groove 11. As shown in FIG. 7, the revolving door 2 is fastened to the revolving bar 22 by means of fastening devices 23, the revolving door 2 being made of glass and fittings (fastening device 23) which are flush with the surface of the revolving door 2 being used within a stepped bore.

The exemplary embodiment shown in FIG. 7 can represent, for example, a glass door (revolving door 2) which is mounted within a furniture body 3 via the rotating rod 22 with the holding parts 7. The revolving door 2 is connected via point-shaped fittings that are flush with the glass surface in the form of the fastening devices. directions 23. Two fastening devices 23 are shown in the embodiments of Figures 10 and 11 and 13 and 14. This is a holding element 37 which is let into a step-shaped bore made in the glass pane 2. The bore has a conical shape that changes into a cylindrical shape. Thus, the holding element 37 also has a complementary shape, which has a cylindrical extension 29 with an adjoining conical extension 28.

The exemplary embodiment of the holding element of FIGS. 10 and 11 is constructed such that there is a blind bore 30 within the holding element 37, at the bottom of which there is a through hole in the form of an elongated hole 27. A fastening element in the form of a screw is screwed to the fastening device 23 through the elongated hole 27. The glass pane, which is then clamped via the holding element 37 and possibly an intermediate layer in the form of a glass protector, is thus fastened to the rotary rod 22. The head of the connecting screw lies in the blind bore 30. The retaining element 37 is closed by a closure cap 32. For this purpose, the closure cap 32 preferably has an annular groove 33, into which an encircling annular spring, not shown, is inserted, which, when inserted into the retaining element 37 Bracing with an undercut 31 within the holding member 37 includes. An adjustment of the holding element 37 is possible through the elongated hole 27.

A modified holding element 37 is shown in the illustrations in FIGS. 13 and 14. This holding element is made in one piece and has a threaded extension 34 on the cylindrical extension 29, which is screwed into the fastening device 23. In order to screw the holding element 37 in, there are recesses 35 on the front available that allow the use of a suitable tool for fastening the glass pane.

It goes without saying that, in addition to the above-described design of a revolving glass door 2, any other plate-like material such as wood, plastic or metal can also be used.

When a revolving door 2 is mounted on a piece of furniture 3, as shown in FIG. 7, the revolving rod 22 is mounted between two pivot bearings 1 inserted at the top and bottom. The assembly in the piece of furniture 3 takes place in such a way that the two holding parts 7 are first fastened in the furniture body 3 by means of screws. The rotary bearing 1 is then completed, the bearing shaft 4 being positioned in the holding part 7 by the adjusting device 14 in such a way that the bearing region does not protrude from the adjusting device 14. The pivot rod 22, to which the pivot door 2 is fastened by means of the fastening devices 23, is then positioned between the two pivot bearings. Then the bearing shaft 4 of the rotary bearing is positioned by means of the adjusting device in such a way that the bearing area 6 of the bearing shaft 4 protrudes from the rotary bearing 1 and extends into the bearing area 26 of the rotary rod 22. As a result, the rotating rod 22 is securely mounted and enables the rotating door 2 to be rotated with continuously adjustable play.

If, for example, rotation of the revolving door 2 is not desired for transport, the bearing area 6 of the bearing shaft 4 can be rotated out of the pivot bearing 1 by means of the adjusting device 14 so that the pivot rod 22 is clamped. This prevents the rotating rod 22 from rotating and thus prevents the rotating door from opening during transport. After the end of the transport, the bearing shaft 4 can easily be moved again in the axial direction XX by means of the adjusting device 14 be turned back until the revolving door 2 can be pivoted again about the axis of rotation XX.

It should be noted that the storage device according to the invention also allows, for example, a clothes rail in a wardrobe or the like. can be attached.

According to the invention, it is thus possible to fasten, in particular, revolving doors for furniture to the furniture in such a way that the pivot bearing is fixed invisibly only from the inside of the furniture, without screws or other fastening elements being visible on the outside of the furniture. In this case, a revolving door 2 for a piece of furniture can be arranged in such a way that it forms an area-like closure with the piece of furniture. The pivot bearing 1 according to the invention is of a very simple construction and additionally has a function as a transport lock. Furthermore, by setting an intended amount, a friction between the bearing area 6 of the bearing shaft 4 and the bearing area 26 of the pivot rod 22 can be set to a desired resistance when opening the revolving door 2 (difficult or easy opening).

As shown in particular in FIGS. 7 and 8, the pivot bearing according to the invention can be constructed in such a way that the bearing of the pivot door 2 is not immediately optically recognizable to an observer, since the pivot bearing 1 and the pivot rod 22 have the same outside diameter. This results in a particularly aesthetically appealing design of the pivot bearing or the pivot doors, which can be used in particular for furniture in connection with glass doors. FIG. 9 shows a holding part 7 according to a second exemplary embodiment of the present invention. The same parts are designated with the same reference numerals as in the first embodiment.

In contrast to the first exemplary embodiment, in the holding part of the second exemplary embodiment the stepped bore is provided with a thread 8 ^' at its end. This makes it possible to fix the holding part 7 not only from the inside, but a screw can also from the outside, for. B. through a wall of furniture. Otherwise, the structure of the holding part 7 corresponds to that of the first embodiment according to the second embodiment, so that reference can be made to the description given there.

The present invention thus relates to a pivot bearing 1 for pivot doors 2 with a holding part 7 and a bearing shaft 4, which has a threaded region 5 and a bearing region 6 for mounting a pivot rod 22 of the pivot door 2. A connecting part 10 is also provided, which connects the holding part 7 and the bearing shaft 4 to one another. The connecting part 10 has a through groove 11 formed parallel to an axis of rotation X-X, in which a pin 16 fastened in the bearing shaft 4 is guided. An adjusting device 14 is screwed onto the threaded area 5 of the bearing shaft 4 and enables the bearing shaft 4 to be positioned axially.

The preceding description of the exemplary embodiments according to the present invention is only for illustrative purposes and not for the purpose of restricting the invention. Various changes and modifications are possible within the scope of the invention without leaving the scope of the invention and its equivalents. LIST OF REFERENCE NUMBERS

1 swivel

2 revolving door

3 pieces of furniture

4 bearing shaft

5 thread range

6 storage area

7 holding part

8 hole

8 ^' hole with thread

9 recess

10 connecting part

11 through groove

12 flange

13 ring groove

14 adjusting device

15 internal thread

16 pen

17 grub screw

18 grub screw

19 cover

20 flange

21 hole

22 rotary rod

23 fastening device

24 through hole

25 hole

26 storage area

27 slot conical approach cylindrical approach

blind hole

undercut

cap

ring groove

threaded extension

wells

twist

retaining element

Claims

claims

1. Storage and fastening of a pivot bearing for pivot doors (2) with an internal pivot point, in particular for furniture (3), comprising - a bearing shaft (4) which has a threaded area (5) and one

Has storage area (6) for mounting a rotating rod (22) of the rotating door (2),

- A holding part (7) with an anti-rotation device (36),

- A connecting part (10), which connects the holding part (7) with the bearing shaft (4) and one parallel to the inside

Has axis of rotation (XX) formed through groove (11), the connecting part (10) being fixable in the holding part (7) and being connected via a pin (16) fastened in the bearing shaft (4) and arranged in the through groove (11), and - an adjusting device (14) with an internal thread (15) which is screwed onto the threaded area (5) of the bearing shaft (4) and enables the bearing shaft (4) to be positioned in the axial direction of the axis of rotation (XX).

2. Storage and fastening according to claim 1, characterized in that the adjusting device (14) on the bearing shaft (4) can be fixed.

3. Storage and fastening according to claim 2, characterized in that the setting device (14) is fixed to the bearing shaft (4) by means of a grub screw (18).

4. Storage and fastening according to one of claims 1 to 3, characterized in that the connecting part (10) as a socket is formed and a flange (12) is formed on the connecting part (10),

5. Storage and fastening according to one of claims 1 to 4, characterized in that the connecting part (10) on the holding part

(7) can be fixed.

6. Storage and fastening according to claim 5, characterized in that the connecting part (10) is fixed to the holding part (7) by means of a grub screw (17) which is in a

Ring groove (13) of the connecting part (10) engages.

7. Storage and fastening according to one of claims 1 to 6, characterized by a cover (19) which has a flange (20).

8. Storage and fastening according to one of claims 1 to 7, characterized in that the holding part (7) is designed like a bush.

9. Storage and fastening according to one of claims 1 to 8, characterized in that a stepped through hole is provided in the holding part (7) in order to fasten the holding part.

10. Storage and fastening according to one of claims 1 to 9, characterized in that the holding part (7), the adjusting device (14) and the rotary rod (22) each have the same outer diameter.

11. Storage and fastening according to one of claims 1 to 10, characterized in that the rotary rod (22) can be releasably clamped by the rotary bearing (1).

5 12. Storage and fastening according to one of claims 1 to 10, characterized in that the pivot bearing (1) within a wall (furniture body (3)) is embedded.

13. Storage and fastening according to one of the preceding claims, characterized in that on the rotary rod (22)

Fastening devices (23) are available.

14. Storage and fastening according to claim 13, characterized in that the fastening device (23) is a holding element

15 (37) with a cylindrical extension (29) which merges into a conical extension (28) with a larger diameter.

1 5. Storage and fastening according to claim 14, characterized in that the holding element (37) has a blind bore (30), the opening of which is closed by a closure cap (32).

16. Storage and fastening according to claim 15, characterized in that an annular groove (33) on the closure cap (32)

25 is present, in which an annular spring is inserted, which engages in an undercut (31) of the blind bore (30).

17. Storage and fastening according to one of the preceding claims, characterized in that on the holding element (37)

30 there is a threaded shoulder (34).

18. Storage and fastening according to one of the preceding claims, characterized in that a through elongated hole for fastening and alignment of the holding element (37) is present after the blind bore (30).

19. Storage and fastening according to the preceding claims, characterized in that the rotary bearing (1), the push rod (22), the adjusting device (14) and the fastening device (23) consist of stainless steel or brass or light metal.