Elevator System

Abstract

An elevator system includes a first and second elevator shaft, a first vertical guide rail disposed in the first shaft, a second vertical guide rail disposed in the second shaft, a plurality of elevator cars movable within the shafts along the guide rails, and a repositioning assembly configured to transfer the plurality of elevator cars from the first elevator shaft to the second elevator shaft. The repositioning assembly includes a repositioning track extending between the first and second shafts, and a repositioning carrier that is movable along the repositioning track, and configured to transfer the cars from a first repositioning position in the first elevator shaft to a second repositioning position in the second elevator shaft. The elevator system also includes an adjusting assembly configured to adjust the position of at least one of the first or second repositioning positions at least transversely to the repositioning direction.

Claims

1.-15. (canceled)

16. An elevator system, comprising: a first elevator shaft and a second elevator shaft; a first vertical guide rail disposed in the first shaft; a second vertical guide rail disposed in the second shaft; a plurality of elevator cars movable within the first and second shafts along the respective vertical guide rails; a repositioning assembly in communication with said first shaft and said second shaft, the repositioning assembly comprising: a repositioning track extending between the first shaft and the second shaft, and a repositioning carrier that is movable in a repositioning direction along the repositioning track, and configured to transfer the plurality of elevator cars from a first repositioning position in the first elevator shaft to a second repositioning position in the second elevator shaft; and an adjusting assembly configured to adjust the position of at least one of the first or second repositioning positions in a direction at least transversely to the repositioning direction.

17. The elevator system of claim 16, wherein the adjusting assembly is configured to adjust a position of at least one of the first or second repositioning positions at least one of horizontally transversely or vertically transversely to the repositioning direction.

18. The elevator system of claim 16, wherein the adjusting assembly is configured to adjust a position of the repositioning track, in a direction transverse to the repositioning direction, in the region of at least one of the first or second repositioning positions.

19. The elevator system of claim 16, wherein the repositioning carrier is configured to receive each car in the first repositioning position, move with the car from the first repositioning position to the second repositioning position, and release the car again in the second repositioning position.

20. The elevator system of claim 16, wherein the repositioning carrier is a repositioning frame.

21. The elevator system of claim 16, wherein the repositioning carrier is formed by a portion of a conveyor belt.

22. The elevator system of claim 16, wherein the vertical guide rail includes a movable rail portion configured to be movable from the first repositioning position during the repositioning process.

23. The elevator system of claim 16, wherein the movable rail portion is configured to be moved together with the elevator car from the first repositioning position to the second repositioning position.

24. The elevator system of claim 16, wherein the movable rail portion is fixedly coupled to the repositioning carrier.

25. The elevator system of claim 16, wherein the adjusting assembly comprises a plurality of adjusting devices.

26. The elevator system of claim 25, wherein each adjusting device comprises: an adjusting support attached to the repositioning assembly; and an adjustment base fastened in the shaft, wherein the position of the adjusting support relative to the adjustment base is adjustable in at least three lateral degrees of freedom.

27. The elevator system of claim 16, wherein the first vertical guide rail and the second vertical guide rail each comprise at least two vertical guide rails arranged on opposite sides of each elevator car, the elevator system further comprising: a plurality of guide rollers disposed on each elevator car that are configured to guide the elevator car by rolling along the at least two vertical guide rails on opposite sides of the elevator car simultaneously.

28. The elevator system of claim 16, wherein the repositioning assembly has no rotatable rail segments.

Description

[0012] The invention is explained in greater detail below with the help of the figures. In the figures

[0013] FIG. 1 shows schematically the basic design of an elevator system according to the invention having two repositioning assemblies;

[0014] FIG. 2 shows a repositioning assembly in a first embodiment in side view in different states of orientation;

[0015] FIG. 3 shows a detailed and enlarged perspective view of an adjusting assembly;

[0016] FIG. 4 shows schematically the adjusting assembly in combination with the repositioning assembly in a first embodiment;

[0017] FIG. 5 shows schematically the adjusting assembly in combination with the repositioning assembly in a second embodiment;

[0018] FIG. 6 shows schematically the cabin and the vertical guide rails from above.

[0019] FIG. 1 shows parts of an elevator system 1 according to the invention. The elevator assembly 1 comprises fixed guide rails 52 along which cars 53 can be guided in a vertical direction. The first vertical guide rails 52a in this case are arranged in a first shaft 51a and second guide rails 52b are arranged in a second shaft 51b. The elevator system in this case comprises a plurality of cars 53a, 53b, 53c, 53d, wherein more than two cars can, in particular, travel simultaneously in one shaft.

[0020] The elevator system 1 comprises multiple repositioning assemblies 60a, 60b. With the help of a repositioning assembly 60 of this kind, a car can be repositioned from one shaft into the other shaft.

[0021] A repositioning process of the car 53a from the first shaft 51a into the second shaft 51b with the help of the upper repositioning assembly 60a is looked at by way of example. For this purpose, the car 53a runs along the vertical guide rails 52a vertically into the repositioning assembly 60a. The car 53a is then located in the first repositioning position 64a. From this repositioning position 64a, the car 53 could, on the one hand, continue to travel on vertically into the next story along the vertical guide rails 52a. On the other hand, the car 53a can also be transferred into a second repositioning position 64b in which said car is then arranged in the second shaft 51b.

[0022] For this purpose, the repositioning assembly 60a has a repositioning frame 61 which is likewise located in the first repositioning position 64a. If both the repositioning frame 61 and the car 53a are located in the first repositioning position 64a, the repositioning frame 61 can receive the car 53a.

[0023] A rail portion 62 of the vertical guide rail 52 can be separated from the remainder of the guide rail 52 in this case and fixedly connected to the repositioning frame 61. By being introduced into the first repositioning position 64a, the car 53a then reaches the guiding region of the rail portion 62. If the repositioning frame 61 then moves horizontally, this rail portion 62 is moved along with the car 53 guided on the rail portion 62 together with the repositioning frame 61. The repositioning frame 61 is then moved from the first repositioning position 64a into the second repositioning position 64b along a repositioning track 63. The repositioning track 63 may be a horizontal rail on which the repositioning frame 61 is guided. This repositioning principle is basically described in EP 3 318 526 A1.

[0024] FIG. 3 shows a possible embodiment of an exemplary adjusting device 70. The adjusting device 70 comprises an adjustment base 71 which can be fastened in a predefined position on the shaft wall 54, for example. An adjusting support 72 is fastened to the repositioning track 63 in a predefined position. The adjusting support 72 may also be an integral part of the repositioning track 63. The relative position of the adjusting support 16 in relation to the respective adjustment base 12 defines the position of the repositioning track, at least in a locally limited manner.

[0025] An adjusting rail 73 is held on the adjustment base 71 such as to be displaceable in the y-direction. An adjusting slide 74 is held on the adjusting rail 13 such as to be displaceable in the x-direction. An adjusting screw 75 is fitted to the adjusting slide 74 from above. The adjusting screw 75 is guided through a threaded bore in the adjusting support 72. The directions of the individual adjusting means need not necessarily correlate with the spatial directions x, y, z.

[0026] As shown at the connection between the adjusting rail 73 and the adjusting slide 74, displaceability can be achieved by means of a dovetail guide. There is also a dovetail guide of this kind between the adjustment base 71 and the adjusting rail 73, but it cannot be seen in this representation. By turning the adjusting screw 75, the adjusting support 72 can be raised or lowered in the z-direction in relation to the adjusting slide 74. The adjusted relative position of the adjusting support 72 in relation to the adjustment base 71 is fixed following adjustment.

[0027] Alternatively, the repositioning assembly may also comprise a conveyor belt assembly 60b, as illustrated in FIG. 5. An assembly of this kind can be used on a lower repositioning assembly in particular. The conveyor belt assembly 60b comprises a conveyor belt 66, wherein the elevator cage 52b being repositioned is placed on this conveyor belt. The region of the conveyor belt on which the car is mounted is regarded as the repositioning carrier 61. The conveyor belt 66, and with it the repositioning carrier 61, is guided with the help of bearing rollers 67. The repositioning track 63 is defined by the arrangement and orientation of the bearing rollers. The bearing rollers are oriented by the adjusting assembly 7 in a similar way to the preceding embodiment. The repositioning positions 64a, 64b are thereby adjusted.

[0028] It is not necessary for rail portions 62 to be repositioned with the car 53 in the conveyor belt embodiment. Otherwise, the method of operation is identical to the previously described embodiment with the repositioning frame.

[0029] The adjustment can be carried out once during commissioning. There is no need for continuous adjustment during routine operation. Checks that the orientation is correct can be made during routine maintenance work.

[0030] As FIG. 2 shows, the repositioning carrier is guided on the repositioning track 63 with the help of a roller guide 65. The repositioning track in this case can be formed by a horizontal rail, wherein there may also be a rail of this kind on the other side. The repositioning track 63 is held on the shaft wall 54 by means of multiple adjusting devices 70 (see also FIG. 4).

[0031] An adjusting process is illustrated in FIG. 2 with the help of the first adjusting assembly 60a. In this case, FIG. 2a shows the repositioning carrier 61 along with the car 53a in the second, as yet unaligned, repositioning position 64b. It can be seen that the rail portion 62, which has been moved along with the car 53a from the first repositioning position into the second repositioning position, is not aligned with the vertical guide rail 52b in the second shaft. With the help of the adjusting device 70b, there is a change in position of the repositioning track 63 in the region of the second repositioning position 64b, initially in the z-direction (FIG. 2b) and then in the x-direction. The rail portion 62 is then aligned at least in side view with the vertical guide rail 52 in the second repositioning position 64b. Alignment in the position in the X-direction can be achieved with the help of a limit stop (not shown) which may also be an integral part of the adjusting assembly. The guideway of the repositioning carrier 61 along the track 63 can be limited in a defined manner by the limit stop. The car 53 can then be moved vertically in the second shaft.

[0032] FIG. 7 shows the bearing of the car during vertical travel. The car is guided with the help of guide rollers on the at least two vertical guide rails. The at least two vertical guide rails are arranged on opposite sides of the car.

LIST OF REFERENCE NUMBERS

[0033] 1 elevator system

[0034] 51 shaft

[0035] 52 guide rails

[0036] 53 car

[0037] 54 shaft wall

[0038] 55 guide rollers

[0039] 60 repositioning assembly

[0040] 61 repositioning frame

[0041] 62 rail portion

[0042] 63 repositioning track

[0043] 64 repositioning position

[0044] 65 roller guide

[0045] 66 conveyor belt

[0046] 67 bearing rollers

[0047] 7 adjusting assembly

[0048] 70 adjusting device

[0049] 71 adjustment base

[0050] 72 adjusting support

[0051] 73 adjusting rail

[0052] 74 adjusting slide

[0053] 75 adjusting screw