Suspension arrangement and guide shoe arrangement for an elevator

Abstract

A suspension arrangement and guide shoe arrangement of an elevator, which arrangement comprises at least an elevator car and at least two compensating weights, which are for their part connected to support the elevator car by the aid of at least two suspension members, such as by the aid of ropes or belts, and also by the aid of diverting pulleys, and a hoisting machine provided with at least one traction sheave or corresponding, as well as at least two traction members, such as belts, ropes or chains, separate from the suspension members, which traction members are configured to transmit the rotational movement of the traction sheave into movement of the elevator car and of the compensating weights. There are at least four guide rails of the elevator car and they are fitted into an elevator hoistway symmetrically to each other in relation to the elevator car.

Claims

1. A suspension and guide shoe arrangement for an elevator, the arrangement comprising: at least four guide rails in an elevator hoistway, the at least four guide rails being arranged symmetrically to one another relative to an elevator car configured to move along the at least four guide rails; at least two compensating weights configured to support the elevator car via at least two suspension members and diverting pulleys; and a hoisting machine including at least one traction sheave and at least two traction members, the at least two traction members being separate from the at least two suspension members, and the at least two traction members being configured to move the elevator car and the at least two compensating weights in the elevator hoistway, wherein the hoisting machine is arranged in a lower part of the elevator hoistway, a first of the at least two suspension members is fixed to an upper part of the elevator car and to an upper part of a first of the at least two compensating weights, and a first of the at least two traction members is fixed to a bottom of the elevator car and to a lower part of the first of the at least two compensating weights, the first of the at least two compensating weights is arranged at a first side of the elevator car in the elevator hoistway, and the first of the at least two traction members is fixed to the bottom of the elevator car at a second side of the elevator car, the second side being opposite to the first side.

2. The suspension and guide shoe arrangement according to claim 1, wherein the at least four guide rails are arranged symmetrically relative to a depth center line and a width center line of the elevator car.

3. The suspension and guide shoe arrangement according to claim 1, wherein at least two of the at least four guide rails are arranged at opposite sides of the elevator car.

4. The suspension and guide shoe arrangement according to claim 1, wherein: the first of the at least two compensating weights is suspended in connection with the elevator car by the first of the at least two suspension members; a second of the at least two compensating weights is arranged at the second side of the elevator car, the second of the at least two compensating weights being suspended in connection with the elevator car by a second of the at least two suspension members; the first and second of the at least two suspension members are separate from one another; and the first and second of the at least two suspension members are arranged at different sides relative to a depth center line of the elevator car.

5. The suspension and guide shoe arrangement according to claim 1, wherein the at least two compensating weights are arranged at different sides relative to a depth center line and a width center line of the elevator car.

6. The suspension and guide shoe arrangement according to claim 1, wherein: the diverting pulleys are arranged at a top part of the elevator hoistway, each of the diverting pulleys corresponding to a suspension member from among the at least two suspension members.

7. The suspension and guide shoe arrangement according to claim 1, wherein the at least two traction members are configured to travel at least part of a distance in parallel with one another at different sides relative to a depth center line of the elevator car.

8. The suspension and guide shoe arrangement according to claim 1, wherein vertical parts of the at least two traction members are arranged at a same horizontal distance from a width center line of the elevator car.

9. The suspension and guide shoe arrangement according to claim 1, wherein: the at least two compensating weights are arranged in an enclosure; and walls of the enclosure include guide rails, from among the at least four guide rails, arranged at different sides relative to a depth center line of the elevator car.

10. The suspension and guide shoe arrangement according to claim 1, wherein at least one of the at least four guide rails is common to a track of the elevator car and a compensating weight among the at least two compensating weights.

11. The suspension and guide shoe arrangement according to claim 1, wherein a fixing point of at least a first one of the at least two traction members is between two of the at least four guide rails.

12. The suspension and guide shoe arrangement according to claim 1, wherein a fixing point of at least one of the at least two suspension members is between two of the at least four guide rails.

13. The suspension and guide shoe arrangement of claim 1, wherein the at least two suspension members are one of suspension ropes and suspension belts.

14. The suspension and guide shoe arrangement of claim 13, wherein the at least two traction members are one of ropes, belts and chains.

15. The suspension and guide shoe arrangement of claim 1, wherein the at least two traction members are one of ropes, belts and chains.

16. The suspension and guide shoe arrangement of claim 1, wherein the at least two suspension members are separated from the at least two traction members by the at least two compensating weights.

17. The suspension and guide shoe arrangement of claim 1, wherein: the first of the at least two suspension members is fixed to the upper part of the elevator car, passes around a first of the diverting pulleys, and is fixed to the upper part of the first of the at least two compensating weights; and the first of the at least two traction members is fixed to the bottom of the elevator car, passes around a second of the diverting pulleys and the traction sheave, and is fixed to the lower part of the first of the at least two compensating weights.

Description

(1) In the following, the invention will be described in detail by the aid of one example of its embodiments with reference to the simplified and diagrammatic drawings attached, wherein

(2) FIG. 1 presents a simplified and diagrammatic side view of one elevator arrangement according to the invention,

(3) FIG. 2 presents a simplified and diagrammatic top view of an elevator arrangement according to FIG. 1,

(4) FIG. 3 presents a top view of the top part of the elevator hoistway in an elevator arrangement according to FIG. 1,

(5) FIG. 4 presents an oblique side view of a suspension solution of a compensating weight in an elevator arrangement according to FIG. 1,

(6) FIG. 5 presents a top view of the bottom part of the elevator hoistway in an elevator arrangement according to FIG. 1, and

(7) FIG. 6 presents a simplified, magnified and diagrammatic top view of the guide rail structures and guide shoe structures of an elevator arrangement according to FIG. 1.

(8) To enable the arrangement according to the invention, the elevator arrangement comprises at least an elevator car 1 configured to move up and down in an elevator hoistway and at least one or more compensating weights 3a, 3b, which are for their part connected to support the elevator car by the aid of suspension members 4a, 4b, such as belts or ropes, and also by the aid of e.g. diverting pulleys 5a, 5b mounted on bearings in the top part of the elevator hoistway. In addition, the arrangement according to the invention comprises a hoisting machine 9, provided with at least one traction sheave 8 or corresponding and disposed in the bottom part of the elevator hoistway, and at least two or more traction members 14a, 14b, such as ropes or belts, that are fully separate from the suspension members 4a, 4b, which traction members are configured to transmit the rotational movement of the traction sheave 8 into linear movement of the elevator car 1 and of the compensating weights 3a, 3b. Characteristic to the solution according to the invention, and common to all the different embodiments of the invention, is that each compensating weight 3a, 3b, or in some cases more than two compensating weights, is connected, by the aid of its own traction member 14a, 14b provided with e.g. essentially spring tensioning or constant-force tensioning, to most preferably one and the same hoisting machine 9.

(9) FIG. 1 presents a simplified and diagrammatic side view of one elevator arrangement applicable to the solution according to the invention. The elevator arrangement according to FIG. 1 comprises two compensating weights 3a and 3b functioning as counterweights and disposed symmetrically on different sides of the elevator car 1, both of which compensating weights are connected by means of suspension members 4a and 4b to a car sling 2 fitted around the elevator car 1. One suspension member 4a, 4b can be e.g. just an individual rope, belt or chain, or it can be composed of a number of parallel members, e.g. hoisting ropes. The suspension members 4a, 4b are e.g. steel wire ropes or belts and they are fixed at their first ends to the top part of the compensating weights 3a and 3b, from where they are led upwards to pass around the top of the diverting pulleys 5a and 5b fitted in the top part of the elevator hoistway, from where onwards down to the fixing means 6a and 6b on the top part of the car sling 2, to which fixing means the suspension members 4a, 4b are fixed at their second ends.

(10) A motor module 7 is fitted in the bottom part of the elevator hoistway, which motor module comprises at least a hoisting machine 9 arranged to move the elevator car 1 and provided with a traction sheave 8, as well as two diverting pulleys 10a and 10b. The arrangement also comprises two extension modules 11a and 11b, which are fitted at the edges of the elevator hoistway on opposite sides of the motor module 7 to each other. Both extension modules comprise at least two diverting pulleys, which are arranged to guide the traction members 14a and 14b.

(11) The first traction member 14a is fixed at its first end to the bottom part of the first compensating weight 3a, from where it is led down to pass around the bottom of the first diverting pulley 12a of the first extension module 11a, from where onwards under the first diverting pulley 10a of the motor module 7, after which over the traction sheave 8. From the traction sheave 8 the first traction member 14a is led to pass around the bottom of the second diverting pulley 10b of the motor module 7, from where onwards under the second diverting pulley 13b of the second extension module 11b, after passing around the bottom of which diverting pulley 13b the traction member 14a is led up to the car sling 2, to the bottom part of which the first traction member 14a is fixed e.g. via a fixing means provided with e.g. spring tensioning or constant-force tensioning.

(12) The second traction member 14b is, for its part, fixed at its first end to the bottom part of the second compensating weight 3b, from where it is led down to pass around the bottom of the first diverting pulley 12b of the second extension module 11b, from where onwards over the second diverting pulley 10b of the motor module 7, after which under the traction sheave 8. From the traction sheave 8 the second traction member 14b is led to pass around the top of the first diverting pulley 13a of the motor module 7, from where onwards under the second diverting pulley 13a of the first extension module 11a, after passing around the bottom of which diverting pulley 13a the traction member 14b is led up to the car sling 2, to the bottom part of which the second traction member 14b is fixed e.g. via a fixing means provided with e.g. spring tensioning or constant-force tensioning.

(13) In the situation according to FIG. 1, the traction sheave 8 rotates in the direction of the arrows drawn above and below the traction sheave, in which case the elevator car 1 moves downwards and the compensating weights 3a and 3b move upwards.

(14) FIG. 2 presents a simplified and diagrammatic top view of an elevator arrangement according to FIG. 1. The elevator car 1 is fitted inside the car sling 2. Essentially vertical guide rails 17 are fixed by the aid of clamps 16 to the side walls of the elevator hoistway 15, guided by which guide rails the elevator car 1 is arranged to travel up and own in the hoistway 15. On both sides of the elevator car 1 are two guide rails 17 that are essentially similar to each other and are fitted symmetrically with respect to each other and to the elevator car 1. In this case the guide rails 17 are disposed symmetrically as viewed from above in relation both to the depth center line 1a of the elevator car running through the center point of the elevator car 1 and to the width center line 1b of the elevator car running through the center point of the elevator car 1.

(15) Compensating weights 3a, 3b are fitted between the guide rails 17 on both sides of the elevator car 1, at least one compensating weight each side of the elevator car 1, which compensating weights 3a, 3b are configured to travel in the hoistway 15 resting on the first outer surfaces, which are opposite each other, of the guide rails 17. In FIG. 2 the compensating weights 3a, 3b are, however, for the sake of clarity presented as slightly detached from the aforementioned outer surfaces, which are opposite to each other, of the guide rails 17. Correspondingly the elevator car 1 is configured to rest, by the aid of roller guide shoes 18 fixed to the car sling 2, on the second outer surfaces of the guide rails 17, which surfaces point away from each other.

(16) The suspension members 4a, 4b of the elevator car 1 are arranged to be fixed at their first ends to the top parts of the compensating weights 3a, 3b and at their second ends to the fixing means 6a, 6b on the car sling 2. The fixing points of the suspension members 4a, 4b are marked in the figure with the number 19. As is seen from FIG. 2, the suspension and the guidance of the vertical movement of the elevator car 1 is implemented symmetrically with respect to the center lines 1a and 1b, in which case no additional stresses or strains are exerted e.g. on the guide rails 17 and other hoistway structures.

(17) FIG. 3 presents a simplified and diagrammatic top view of the top part of the elevator hoistway 15. Diverting pulleys 5a and 5b are fitted in the top part of the elevator hoistway 15 on opposite sides of the elevator car 1 in the lateral direction. In this embodiment on the first side of the elevator car 1 above the elevator car 1 and on the side of the travel profile of the elevator car 1 are two first diverting pulleys 5a symmetrically on different sides of the depth center line 1a of the elevator car. Correspondingly, on the second side of the elevator car 1 above the elevator car 1 and on the side of the travel profile of the elevator car 1 are two second diverting pulleys 5b symmetrically on different sides of the depth center line 1a of the elevator car 1. In addition the diverting pulleys 5a and 5b are disposed symmetrically to each other in relation to the width center line 1b of the elevator car 1. The suspension members 4a, 4b of the elevator car 1 are led over the diverting pulleys 5a, 5b from the compensating weights 3a, 3b to the elevator car 1, as is already described in the descriptive part of FIG. 1.

(18) FIG. 4 presents an oblique view from the side and top of a suspension arrangement of the compensating weights of the elevator arrangement presented above. FIG. 4 presents only the first compensating weight 3a, because the second compensating weight 3b is suspended in the same way. In the situation according to FIG. 1, the elevator car 1 is in its bottom position and the compensating weights 3a and 3b are in their top position near the diverting pulleys 5a and 5b. The first suspension members 4a, which are thus at least two belts, ropes or two pluralities of parallel ropes, leaving from the compensating weight 3a each pass around the top of their own diverting pulley 5a and then descend to their fixing points 19 on the elevator car 1. The suspension members 4b on the second side of the elevator car 1 are suspended in a corresponding manner.

(19) FIG. 5 presents a simplified and diagrammatic top view of the bottom part of the elevator hoistway 15. For the sake of clarity, in FIG. 5 the diverting pulleys in the bottom part of the hoistway are not presented, and the traction members 14a and 14b are presented as cross-sections. The traction members 14a and 14b are preferably e.g. toothed belts, which are configured to travel a part of the distance parallel with each other and symmetrically to each other on both sides of the depth center line 1a of the elevator car 1. In the arrangement according to FIG. 5 the traction member 14a is disposed on a first side of the depth center line 1a of the elevator car 1 and the traction member 14b is disposed on a second side of the depth center line 1a of the elevator car 1. In addition, the horizontal distances of the traction members 14a and 14b are symmetrically disposed from the width center line 1b of the elevator car 1.

(20) The toothed contact surface of the traction sheave 8 is so wide that both the traction members 14a, 14b fit side-by-side onto the contact surface of the traction sheave 8 without interfering with each other. In this way one and the same hoisting machine 9 and also one and the same traction sheave 8 give to both the traction members 14a, 14b a force producing linear movement of the elevator car 1 and of the compensating weights 3a, 3b.

(21) FIG. 6 presents a simplified, magnified and diagrammatic top view of the guide rail structures and guide shoe structures of an elevator arrangement according to FIG. 1, the structure and operation of which have been described already in conjunction with FIG. 2. For the sake of clarity, in FIG. 6 the clamps 16 are presented slightly detached from the side wall of the elevator hoistway 15, although in reality they are attached to the side wall. The guide rail 17 of the elevator car 1 is in its cross-section essentially a U-shaped beam, which opens towards the elevator car 1. In this case it has been possible to fit the fixing means 6a, 6b of the suspension members 4a, 4b on the car sling 2, and the fixing points 19 of the suspension members 4a, 4b in them, inside the web of the guide rail 17, in which case it has been possible to utilize the space in the width direction of the elevator hoistway 15 better. The compensating weights 3a and 3b disposed between the guide rails 17 are configured to travel in the hoistway 15 resting on the first outer surfaces, which are opposite each other, of the web of the guide rails 17. For the sake of clarity, the compensating weight 3a is presented in FIG. 6 slightly detached from the aforementioned outer surface of the guide rails 17. Correspondingly the elevator car 1 is configured to rest, by the aid of roller guide shoes 18 fixed to the car sling 2, on the second outer surfaces of the guide rails 17, which surfaces point away from each other.

(22) Flanges, turned outwards from the web of the guide rail at a right angle with respect to the web of the guide rail 17, are additionally on the guide rail 17 on the side of the elevator car 1, of which the flanges 17a that point towards each other are configured as a fixing surface for an enclosure board 20, with which the compensating weight 3a, 3b is enclosed in its own enclosure. Good enclosing reduces the noise disturbance when, inter alia, the elevator car 1 and the compensating weights 3a, 3b meet each other in the elevator hoistway.

(23) It is further characteristic to the arrangement according to the invention that the positioning point of the diverting pulleys 5a, 5b disposed in the top clearance of the elevator hoistway 15 is configured such that the elevator car 1 can rise past the diverting pulleys 5a, 5b in the top end of the elevator hoistway 15 right to the top end of the elevator hoistway 15. In this way the most space-efficient layout solution possible is also achieved in the top end of the elevator hoistway 15.

(24) It is obvious to the person skilled in the art that the invention is not limited solely to the examples described above, but that it may be varied within the scope of the claims presented below. Thus, for example, the suspension solutions can also be different to what is presented above.

(25) It is further obvious to the person skilled in the art that the location of the hoisting machine can be elsewhere than what is presented above. The hoisting machine can be on the base of the elevator hoistway, or close to the base, but also on some side of the elevator hoistway and also in the top part of the elevator hoistway.

(26) It is also obvious to the person skilled in the art that the number of compensating weights can also be greater than two. There can be e.g. three, four, six, eight, ten or even more compensating weights disposed in a different manner.