REVOLVING DOOR AND METHOD FOR ASSEMBLING A REVOLVING DOOR

Abstract

A revolving door and a method for producing a revolving door are provided with a turnstile which is arranged between opposing barrel elements and with a ceiling assembly which is arranged on top of the barrel elements and on which the turnstile is rotatably mounted. The barrel elements each have an inner glass element and an outer glass element, with the ceiling assembly resting on a top finishing surface of the inner glass element.

Claims

1. A revolving door with a turnstile which is arranged between opposing barrel elements and with a ceiling assembly which is arranged on top of the barrel elements and on which the turnstile is rotatably mounted, wherein the barrel elements each have an inner glass element and an outer glass element, wherein the ceiling assembly is directly or indirectly on a top finishing surface of the inner glass element and/or on a top finishing surface of the outer glass element.

2. The revolving door according to claim 1, wherein the inner glass element has a shorter vertical length than the outer glass element such that the outer glass element encloses the ceiling assembly at least partially or entirely on the outside.

3. The revolving door according to claim 1, wherein the vertical length of the inner glass element is shorter than the vertical length of the outer glass element by at least 20% to 100% of the height dimension of the ceiling assembly.

4. The revolving door according to claim 1, wherein the inner glass element and the outer glass element are connected to one another in a materially-bonded manner.

5. The revolving door according to claim 1, wherein the inner glass element and the outer glass element are connected to one another by means of at least one plastic film.

6. The revolving door according to claim 1, wherein at least one profile element is provided, which rests on the top finishing surface of the inner glass element and/or the top finishing surface of the outer glass element, wherein the ceiling assembly is accommodated in or on the profile element.

7. The revolving door according to claim 6, wherein the profile element is adhered to the inner glass element and/or to the outer glass element.

8. The revolving door according to claim 6, wherein the profile element has a first leg and a second leg perpendicular to the first leg such that the profile element has an L-shape or T-shape or Z-shape, wherein the first leg rests on the finishing surface of the inner glass element and/or wherein the second leg adjoins the inside of the outer glass element.

9. The revolving door according to claim 1, wherein at least one region of the outer glass element, which surpasses the inner glass element in height, has a coating or is colored.

10. The revolving door according to claim 1, wherein at least one support profile is configured on the outside of the barrel elements and has a supporting connection with the ceiling assembly.

11. The revolving door according to claim 1, wherein the ceiling assembly has a sandwich design with a bottom cover panel, a filler and a top cover panel.

12. The revolving door according to claim 1, wherein the ceiling assembly forms an assembly configured to be handled individually and configured to be attached to the barrel elements and/or the turnstile, and configured to be detached from the barrel elements and/or the turnstile.

13. A method for assembling a revolving door, according to claim 1, wherein the method includes at least the following steps: connecting an inner, curved, glass element, which is shorter in height, to an outer, curved, glass element, which is longer in height; positioning the barrel elements in an opposing arrangement; and directly or indirectly placing a ceiling assembly on a top finishing surface of the inner glass element and/or on a top finishing surface of the outer glass element.

14. The method according to claim 13, whereby forming the barrel elements, the inner glass elements are adhered to the outer glass elements in a materially-bonded manner or are connected to one another with at least one film.

15. The method according to claim 13, whereby the ceiling assembly is adhered to the barrel elements, by arranging a profile element on the inner glass element and/or on the outer glass element.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0035] Further measures that improve the disclosure will be outlined in greater detail below together with the description of a preferred exemplary embodiment of the disclosure on the basis of the figures, in which is shown:

[0036] FIG. 1 an overall view of the revolving door with a design according to the disclosure,

[0037] FIG. 2 an overhead view of the components of the revolving door,

[0038] FIG. 3 a detailed view of the transition of the ceiling assembly into a barrel element,

[0039] FIG. 4 a perspective view of the top arrangement of the ceiling assembly on the barrel elements,

[0040] FIG. 5 a further detailed view of the arrangement of the ceiling assembly on a barrel element, and

[0041] FIG. 6a/b two top views of one barrel element each.

DETAILED DESCRIPTION OF THE DRAWINGS

[0042] FIG. 1 shows the revolving door 100 with a turnstile 10 which is accommodated in a rotatable manner between two barrel elements 11. On top of the turnstile 10 is the ceiling assembly 12, which is designed to be modular and is accommodated as an assembly on the barrel elements 11. The turnstile 10 is rotatably mounted on the floor and bottom of the ceiling assembly 12.

[0043] FIG. 2 shows an overhead view of the components of the revolving door 100 with the barrel elements 11 designed to accommodate the ceiling assembly 12 at the top. For this purpose, the barrel elements 11 have an inner glass element 11a and an outer glass element 11b, with the inner glass element 11a having a shorter vertical length than the outer glass element 11b such that the outer glass element 11b surpasses the inner glass element 11a and encloses the ceiling assembly 12 at least partially or entirely on the outside when the ceiling assembly 12 rests at least indirectly on the top finishing surface 13 of the inner glass element 11a. The view shows that the outer glass element 11b surpasses the inner glass element 11a by approximately the structural height of the ceiling assembly 12. When the ceiling assembly 12 is arranged on the barrel elements 11, the top edge of the outer glass panel 11b ends approximately flush with the top of the ceiling assembly 12.

[0044] FIG. 3 shows in perspective a detailed view of the arrangement of the ceiling assembly 12 on a barrel element 11. The ceiling assembly 12 is designed with a bottom cover panel 16 and a top cover panel 18, between which a filler 17 is introduced in a sandwiched manner. The barrel element 11 has the inner glass element 11a and the outer glass element 11b, and the outer glass element 11b surpasses the inner glass element 11a on the outside in its height direction extension. The height difference between the top finishing surface 13 of the inner glass element 11a and the top edge of the outer glass element 11b corresponds to a partial height of the ceiling assembly 12 such that this exemplary embodiment shows that the barrel element 11 not completely, but at least partially, encloses the ceiling assembly 12 on the outside.

[0045] On the inside of the barrel element 11 is arranged a profile element 14, which rests with vertical leg on the inside of the outer glass element 11b and protrudes radially inwards with a horizontally running leg into the revolving door such that the ceiling assembly 12 can rest on the horizontally running leg. The profile element 14 sits on the finishing surface 13 of the inner glass element 11a and forms a simple angle profile. The profile element 14 is thus arranged between the ceiling assembly 12 and the barrel element 11, and the ceiling assembly 12 is in this respect only indirectly arranged on the barrel element 11, which represents a variant included in the disclosure, and the ceiling assembly 12 can also rest on the barrel element 11 directly, for example with the bottom cover panel 16 or with the filler or with a structural element present therein or even with an externally protruding edge of the top cover panel 18.

[0046] FIG. 4 shows in a further view the arrangement of the ceiling assembly 12 on top of the barrel elements 11, with the ceiling assembly 12 being shown with a structural part 21 which is connected to a support profile 15 arranged on the outside of the front barrel element 11.

[0047] On the underside of the ceiling assembly 12, the revolving door 100 has a ceiling device 19, which in particular can be designed to rotate with the turnstile 10 and is configured to be approximately parallel to the bottom of the ceiling assembly 12. The ceiling device 19 has, for example, light means 20 which, however, can also only have transparent surface bodies, and the actual light means can be configured in the ceiling assembly 12. A motor 23 is located in the center of the ceiling assembly 12, which is designed, for example, as an electronically commutated disc motor and is connected to the turnstile 10 without gears. The ceiling device 19 can thereby also rotate together with the turnstile 10 with the rotating part of the motor 23.

[0048] Lastly, FIG. 5 shows a further detailed view of the arrangement of the ceiling assembly 12 on a barrel element 11, with the profile element 14 resting on the top finishing surface 13 of the inner glass element 11a and adjoining the inside of the outer glass element 11b. A connecting means 22, which is connected to a structural part 21 of the ceiling assembly 12, is shown at the top of the profile element 14. The ceiling assembly 12 in turn has the bottom cover panel 16, the filler 17 and the top cover panel 18, with the connecting means 22 being designed as a strap-like arrangement on the support profile 15 and protruding radially inwards into the ceiling assembly 12. In this way, an advantageous load transfer from the ceiling assembly 12 can take place both to the barrel element 11 and additionally or exclusively to the support profile 15. At the bottom is shown the turnstile 10, on which the ceiling device 19 is arranged to rotate with it.

[0049] FIGS. 6a and 6b each show a top view of a barrel element. A lateral offset between the inner and outer glass element 11a, 11b is thereby visible, in which a support profile 25 is arranged. According to FIG. 6b, a lateral profile element 24 is arranged between the elements, which simplifies the connection. Of course, sub-combinations of each of the options shown for the integration of the support profile 25 on/into the barrel element can be in accordance with the disclosure. An embodiment of this type improves the integration of the support profile 25 in the revolving door visibly and statically. The support profile 15 described above can also be designed according to this example.

[0050] The design of the disclosure is not restricted to the preferred exemplary embodiment indicated above. In fact, a number of variants is conceivable which make use of the represented solution even in the case of fundamentally different designs. All features and/or advantages emerging from the claims, the description or the drawings, including constructive details or spatial arrangements, may be essential to the disclosure by themselves and in the most varied combinations.