Elevator car

Abstract

An elevator car has a balustrade arranged on a roof of the elevator car, wherein the balustrade includes posts, that are attached on a horizontal upper side of the roof, and post-connecting crossmembers. For each post, a docking element is arranged on the upper side of the roof, and the post can be docked on the docking element. The docking element has form-fitting elements in the form of fingers for accommodating the post in a form-fitting manner and the post has slots or apertures, that are complementary to the fingers, the fingers engaging in the slots or the apertures. The docking element is a flattened component made up of two stacked plates and is screwed to the roof. The balustrade is secured by obliquely running supporting profiles extending between the handrail and the roof.

Claims

1. An elevator car having a balustrade arranged on a roof of the elevator car, the balustrade including a plurality of posts attached on a horizontal upper side of the roof and crossmembers connecting the posts, the elevator car comprising: a plurality of docking elements arranged on the upper side of the roof, each of the docking elements having an associated one of the posts docked thereon; each of the docking elements having at least one form-fitting element accommodating the post and the associated post having at least one post-form-fitting element complementary to the at least one form-fitting element; wherein the at least one post-form-fitting element is an open slot or an aperture formed at an end face of the each of the posts; and wherein the at least one form-fitting element of each of the docking elements is a finger complementary to the open slot or the aperture and the fingers of the docking elements engage in the slots or the apertures of the associated posts when the posts are docked on the docking elements.

2. The elevator car according to claim 1 wherein the posts are adapted to be plugged onto the docking elements.

3. The elevator car according to claim 1 wherein the fingers of the docking elements are formed by a projection extending in a horizontal direction parallel to the upper side of the roof.

4. The elevator car according to claim 3 wherein the fingers are formed in a rectangular shape in a plan view.

5. The elevator car according to claim 1 wherein each of the docking elements is a flattened component made up of at least one plate.

6. The elevator car according to claim 5 wherein the at least one plate is a docking plate provided with the at least one finger and each of the docking elements includes a spacer plate spacing the at least one finger from the upper side of the roof to expose the at least one finger.

7. The elevator car according to claim 1 wherein each of the docking elements is fastened to the roof by a screw.

8. The elevator car according to claim 1 wherein each of the posts is formed with an L-profile.

9. The elevator car according to claim 1 wherein the balustrade is secured to the roof by a plurality of obliquely running supporting profiles.

10. The elevator car according to claim 9 wherein for each of the supporting profiles an associated upper anchoring point is located on a handrail of the balustrade and an associated lower anchoring point is located on the upper side of the roof adjacent a roof edge of the roof, and wherein the supporting profiles extend between the associated anchoring points and are arranged outside an accessible region of the upper side of the roof, the accessible region being within the balustrade.

11. The elevator car according to claim 9 including a roof profile arranged outside an accessible region of the upper side of the roof, the accessible region being within the balustrade, the roof profile being attached on the roof and at least one of the supporting profiles is connected to the roof profile.

12. The elevator car according to claim 11 including T-shaped connecting elements connecting the supporting profiles to at least one of the roof profile, one of the posts and the handrail.

13. The elevator car according to claim 12 wherein the T-shaped connecting elements are bent parts formed of a metal material.

14. An elevator car having a balustrade arranged on a roof of the elevator car, the balustrade including a plurality of posts attached on a horizontal upper side of the roof and crossmembers connecting the posts, the elevator car comprising: a plurality of docking elements arranged on the upper side of the roof, each of the docking elements having an associated one of the posts docked thereon; each of the docking elements having at least one form-fitting element accommodating the post and the associated post having at least one post-form-fitting element complementary to the at least one form-fitting element; wherein the at least one post-form-fitting element is an open slot or an aperture formed at an end face of the each of the posts, the open slot having an open end at the post end face and an opposite closed end; and wherein the at least one form-fitting element of each of the docking elements is a finger complementary to the open slot or the aperture and each of the slots or the apertures engages only one of the fingers when the posts are docked on the docking elements.

15. An elevator car having a balustrade arranged on a roof of the elevator car, the balustrade including a plurality of posts attached on a horizontal upper side of the roof and crossmembers connecting the posts, the elevator car comprising: a plurality of docking elements arranged on the upper side of the roof, each of the docking elements having an associated one of the posts docked thereon, wherein the posts are adapted to be plugged onto the docking elements; each of the docking elements having at least one form-fitting element accommodating the post and the associated post having at least one post-form-fitting element complementary to the at least one form-fitting element; wherein the at least one post-form-fitting element is an open slot or an aperture formed at an end face of the each of the posts, the open slot having an open end at the post end face and an opposite closed end; wherein each of the docking elements includes a docking plate extending in a horizontal plane spaced from and parallel to the upper side of the roof; and wherein the at least one form-fitting element of each of the docking plates is a finger projecting from the docking plate in the horizontal plane and being complementary to the open slot or the aperture, and each of the slots or the apertures engages only one of the fingers when the posts are docked on the docking elements.

Description

DESCRIPTION OF THE DRAWINGS

(1) Further individual features and advantages of the invention are derived from the following description of an embodiment and from the drawings. In the drawings:

(2) FIG. 1 is a perspective view of a roof of an elevator car having a balustrade according to the invention,

(3) FIG. 2A is an enlarged perspective view of a docking element and a not yet docked post of the balustrade from FIG. 1,

(4) FIG. 2B is an enlarged perspective detail view of a docking element and a post accommodated by this docking element (detail A from FIG. 1),

(5) FIG. 3 is a view of a corner region of the balustrade in a slightly enlarged perspective illustration,

(6) FIG. 4 is an enlarged illustration of the detail B from FIG. 1,

(7) FIG. 5A shows a docking element and a not yet docked post according to an alternative embodiment to FIG. 2A, and

(8) FIG. 5B shows the docking element and the post after the docking process is complete.

DETAILED DESCRIPTION

(9) FIG. 1 shows an elevator car for an elevator in a building, which elevator car is denoted by reference sign 1. The elevator car 1, which can be moved vertically up and down, is used to transport passengers or goods. The movement of the elevator car 1 takes place, for example, via suspension means (not shown) which carry the elevator car 1, for example in the form of a loop. A drive unit (not shown) is positioned in the region of the shaft head to move the elevator car. The elevator car 1 could of course also be used for elevator systems with machine rooms.

(10) The elevator car 1 has a car body with a floor (not shown), side walls 3, a rear side 4, one or two elevator doors (also not shown) and a roof 2. A balustrade 5 is arranged on the roof 2 of the elevator car 1, which balustrade forms a fall protection with respect to three sides of the elevator car 1. In the region of a front side in which the elevator car 1 is equipped with a car door, no fencing is necessary because of the small gap between the elevator car and the shaft wall.

(11) The balustrade 5 comprises a total of four vertical posts 7, 8. In each case, two posts are connected to one another with two crossmembers 9, 10 in each case, an uppermost crossmember being a handrail 9 and a central crossmember 10 being arranged as a second crossmember at approximately mid-height. The posts 7, 8 are connected in a form-fitting manner to docking elements 15 fastened to the upper side of the roof. This form-fitting connection represents a particular aspect of the invention and is described in detail below (see in particular the following FIGS. 2A, 2B). The balustrade 5 also has four obliquely running supporting profiles 12, 13, which secure the balustrade and ensure sufficient stability.

(12) Roof profiles 11 are arranged on the roof edge 23. On each side wall 3 of the elevator car 1, a carrier plate 27 is fastened at the upper side, which carrier plate protrudes beyond the roof edge 23 and is fixed both to the respective side wall 3 and to the roof profile 11. In the present case, a sliding guide shoe 28 for guiding the elevator car is attached to the carrier plate 27 by way of example. As an alternative to the sliding guide shoe, a roller guide shoe would of course also be conceivable. In addition to the guide arrangement, further elevator components (not shown) can also be attached to the carrier plate 27. The roof profile 11 is positioned directly on the roof edge and has a side wall portion 24 which is flush with the car side wall 3.

(13) For each post 7, 8, a docking element 15 is arranged on the horizontal upper side 6 of the roof. The docking element 15 has form-fitting elements for accommodating the post 8 in a form-fitting manner. These form-fitting elements can be seen in FIG. 2A. The form-fitting elements are formed by fingers 16. The docking element 15 has a rectangular design in plan view and has three fingers 16 on each of two sides of the rectangle. The counterpart to the fingers is formed by slots 17 which are arranged on the end face of the post 8. The respective post 7, 8 is clearly designed as an L-profile. Three slots 17 are assigned to each leg of the “L”. The slots form post-form-fitting elements that are complementary to the fingers 16.

(14) The slots 17 and the fingers 16 are dimensioned and matched to one another in such a way that a fit with little play is created during assembly. Because of the small amount of play, it may be necessary that when the post is docked, in which case the post is moved vertically downwards, the post must also be knocked in with a hammer, so that, thanks to the additional frictional connection, a particularly reliable and strong connection between the posts and the car roof is created. Obviously, this type of connection corresponds to a plug connection. In other words, the posts 7, 8 can be plugged onto the docking elements 15 or inserted into the docking elements 15 after the docking process has ended. The slots 17 can be created simply by making cuts in the structure for the post 8.

(15) The docking element is a flattened component made up of two plates 18, 19 and having a rectangular basic shape. The plates 18, 19 are clearly stacked on top of one another, resulting in a flattened component made up in layers. If an L-profile with two identical legs is used for the post 7, 8, the docking element 15 has an approximately square plan in plan view. The upper plate 18 is provided with the fingers 16, which is why it is also referred to below as the docking plate. The lower plate 19 is a spacer plate for spacing the fingers 16 from the upper side of the roof. The fingers 16 are raised from the upper side of the roof, so that the fingers 16 are on display and the docking can be ensured in a reliable manner. The docking element 15 is fastened to the car roof 2 via a screw connection. A corresponding screw of the screw connection can be seen in this drawing and is designated by the reference sign 22.

(16) The respective form-fit portions of the docking plate 18 define an “L” shape in plan view. Thanks to the new connection method, in which posts are docked into docking elements in a form-fitting manner, sheet metal profiles having different thicknesses can also be attached to the car roof without welding or other additional fasteners such as bolts, screw connections, or adhesive processes.

(17) The fingers 16 of the docking element 15 are formed by a projection extending in the horizontal direction. The respective finger 16 is designed to be rectangular in a plan view.

(18) FIG. 2B shows the assembled post 8 after the end of the docking process. FIG. 2B corresponds to an enlarged illustration of detail A from FIG. 1 for the post in the corner region between the side wall 3 and the rear side 4. This post, denoted by the reference sign 8, is consequently a rear post of the balustrade 5. The front posts 7 and the associated docking elements, to which the post 7 is docked, are designed in the same way.

(19) The docking element 15 thus has form-fitting elements in the form of fingers 16 for accommodating the post in a form-fitting manner; the post 7, 8 has slots 17 as post-form-fitting elements, which are complementary to the fingers 16, the latter engaging in the slots 17. This allows the posts 7, 8 to be easily docked to the docking element 15 assigned to the upper side of the elevator car, as a result of which the posts 7, 8 can be installed quickly and in a few steps onto the car roof 2.

(20) Further structural details of the balustrade 5 are shown in FIG. 3. From this, it can be easily seen that the crossmembers 9, 10 are each designed as C-profiles. Of course, other profile shapes, such as closed box profiles, would also be conceivable. The supporting profiles 12, 13 are also formed by C-profiles.

(21) The car roof 2 can comprise a steel sheet which forms the horizontal upper side of the roof. But it is also conceivable to use surface elements in sandwich construction for the car roof. For example, the car roof could be formed by a sandwich element with a PU foam. For roofs 2 having such surface elements in sandwich construction, it may be necessary to use a sufficiently thick metal base plate on the upper side of the roof to accommodate a docking element 15; FIG. 3 shows a base plate of this type which is designated by the reference sign 20.

(22) FIG. 4 shows the interface between the supporting profile 12 and the car roof 2 in a large view of detail B from FIG. 1. The supporting profile 12 is connected to the roof profile 11 by means of a T shaped connection element 14. The connecting element 14 is designed as a bent part made of metal, as a result of which the connecting element can be produced simply and inexpensively and, depending on the inclination of the supporting profile, can be adapted to various circumstances and elevator car designs. The connection element is preferably fixed to the respective components by means of screw connections, which are not shown in this case for the sake of simplicity. In contrast, drilled holes through which screws can be passed can be seen in FIG. 4. The type of connection explained in this case using the T-shaped connecting element 14 is also used for the upper anchoring points. The rear supporting profiles 13 are connected directly to the posts 8 by means of similar T-shaped connecting elements. In the region of the front side, the respective T-shaped connecting elements are screwed to the handrail 9.

(23) In addition to the already mentioned side wall portion 24, the roof profile 11 has a bottom portion 25 and a short side wall portion 26. The connecting element 14 abuts flat against the side wall portion 26 and is connected to the roof profile 11 by means of screws (not shown) in the region of the side wall portion 26.

(24) The oblique supporting profiles 12 and 13 guide horizontal forces acting on the handrail 9 in the car width into the car roof 2. This allows for little or no bending torques to act on the respective posts 7, 8. It can be seen that the oblique supporting profiles 12, 13 each lie in vertical planes running at right angles to the associated handrail 9. Thanks to the supporting elements 12, 13, comparatively light and thin structures can be created for the form-fitting connection between the post and the docking element. If the supporting profiles 12, 13 were to be dispensed with, the connection in question would have to be designed to be stronger and, accordingly, a significantly greater amount of material would have to be provided for this purpose.

(25) Instead of the slots 17 open on the end face shown in FIG. 2A, apertures could also be provided in the post. FIGS. 5A, 5b show such an alternative variant of a form-fitting connection between the post 8 and the docking element 15. The post 8 comprises apertures 29 on the end face. Three rectangular apertures 29 are assigned to each leg of the “L” of the profile for the post 8. The apertures 29 are adapted to the fingers 16 of the docking element 15 in terms of position and dimensions. For simple installation, it can be advantageous if the width of the apertures 29 is chosen to be sufficiently large compared to the finger widths. The width is the dimension of the aperture 29 with respect to the horizontal.

(26) For example, if the width of the finger 16 is 5 mm, the aperture 29 can be 6 mm wide.

(27) A person skilled in the art recognizes that the previously described and shown features can be combined, adapted, or replaced as appropriate in order to arrive at further embodiments of the invention.

(28) In accordance with the provisions of the patent statutes, the present invention has been described in what is considered to represent its preferred embodiment. However, it should be noted that the invention can be practiced otherwise than as specifically illustrated and described without departing from its spirit or scope.