WO2016185038A1 - Elevator system - Google Patents

Abstract

In an elevator system, a belt-type suspension means is guided over a driving pulley of a drive unit and over two deflection rolls on an elevator car. Between the two deflection rolls, the belt-type suspension means is additionally guided over a tensioning element which applies a force to the belt-type suspension means. The tensioning element is movably arranged such that the belt-type suspension means is displaced by the tensioning element when the tension diminishes and is thereby tensioned again.

Description

 elevator system

The present invention relates to an elevator installation with a tensioning device.

In elevator systems, steel cables are conventionally used as support means for carrying and / or driving an elevator car. According to one

Further development of such steel cables are also belt-like support means, which have tension members and a jacket arranged around the tension members used. Such belt-like support means are, similar to conventional steel cables to

Traction sheaves and pulleys guided in the elevator system. However, in contrast to steel cables, belt-type suspension elements are not guided in grooves in the deflection rollers or traction sheaves, but the belt-like suspension elements rest on the deflection rollers or traction sheaves.

As a result, belt-like support means are less well guided laterally than conventional steel cables on the pulleys or traction sheaves. Thus, it may happen that belt-like support means laterally offset from pulleys or traction sheaves or slip off. Such lateral derailment of the belt-like support means are particularly favored by diagonal pull, by fluctuating stresses in the belt-like suspension means as well as by contamination or particles, which pass between the belt-like support means and a traction sheave or pulley. In order to prevent such lateral derailment of belt-like support means on discs in the elevator system, for example, raised side edges are used on the pulleys.

However, it has been shown that measures such as raised side margins can not always prevent a lateral derailment.

It is therefore an object of the present invention to provide an elevator system for

To provide, in which an at least partially lateral derailment of the support means of pulleys can be reliably prevented. Such

In addition, the device should be cost-effective and robust both in production and in use. This object is achieved by an elevator installation in which a belt-like suspension element is guided over a traction sheave of a drive and two deflection rollers of a cabin, wherein the belt-like suspension element between the two deflection rollers of the cabin is additionally guided via a tensioning element, through which the belt-like suspension element with a Force is applied. In this case, the clamping element is arranged to be movable, so that the belt-like support means is displaced when the tension is released from the clamping element and thereby tightened.

Such an arrangement of a clamping element has the advantage that thereby the belt-like support means is tensioned between the pulleys, when the tension in the belt-like support means decreases momentarily. Such a brief release of the tension in the belt-type suspension element can occur, for example, when the car is stopped as necessary. By maintaining a certain tension in the belt-like support means prevents the support means loosely rests on the pulley and can easily move laterally. The arrangement proposed here also has the advantage that it can be retrofitted in a simple manner in already existing elevator systems.

In an advantageous embodiment, the clamping element is arranged substantially centrally between the two deflection rollers of the car. Such a central arrangement of the clamping element between the two pulleys of the car has the advantage that thereby by only one clamping element correct guidance of the belt-like

Supporting means can be ensured on both pulleys of the cabin.

In an advantageous embodiment, the belt-like support means is acted upon by the clamping element with a force acting substantially perpendicular to a longitudinal direction of the belt-like support means force. This has the advantage that thereby the belt-like support means is tensioned as efficiently as possible by the displacement of the clamping element. In fact, if the force acts on the belt-type suspension element in another direction, a correspondingly longer offset distance is required in order to tension the suspension element to the same extent.

In an advantageous embodiment, the clamping element acts with a clamping force in a direction away from the cabin on the belt-like support means. In one In an alternative embodiment, the tensioning element acts on the belt-type suspension element with a tension force in a direction towards the cabin. Depending on the design of the elevator installation, an effective direction of the clamping force of the clamping element in one direction or in the other direction can be advantageous. Depending on which side of the cabin the space is available, as the support means is guided on the cabin, and in which direction the belt-like support means to be bent by the tensioning element, one or the other arrangement may be advantageous.

In an advantageous embodiment, a clamping force of the clamping element is generated by a spring. This has the advantage that it can be provided in a cost effective and reliable way, a clamping force on the belt-like suspension means.

In an advantageous embodiment, the clamping element comprises a shaft. This has the advantage that such a shaft can be formed, for example, as a rotatably mounted element, so that wear on the belt-like support means and also on the clamping element are minimized.

In an advantageous embodiment, the clamping element is guided in a guide, so that a movement of the clamping element takes place in a direction predetermined by the guide. This has the advantage that thereby a

Direction of action of the clamping element is specified, whereby the most efficient and safe use of the clamping element can be ensured.

In an advantageous embodiment, a roller is arranged on the shaft of the clamping element. This has the advantage that thereby the belt-like support means can be unrolled low-friction over the clamping element.

In an advantageous embodiment, the role of the lateral guidance of

belt-like support means flanges. This has the advantage that thereby lateral slipping of the belt-like support means can be prevented by the rollers of the clamping element.

In an advantageous embodiment, the cabin of the belt-like support means unterschlungen, the two pulleys of the cabin are arranged below the cabin. In an alternative embodiment, the car is suspended from the two pulleys of the car, the two pulleys of the car being located above the car. Depending on the configuration of the entire elevator installation, one or the other arrangement of the belt-type suspension element on the cabin can be advantageous.

In an advantageous embodiment, the belt-like support means has a contoured side, in particular a traction side with longitudinal, V-shaped ribs. This has the advantage that thereby a traction of the belt-like support means can be improved on the traction sheave, and that by the

longitudinal ribs lateral guidance of the belt-like support means on the traction sheave and on the pulleys can be ensured.

In an advantageous embodiment, at least two belt-like support means are arranged in the elevator system, wherein each belt-like support means is acted upon with a separate clamping element. In an alternative embodiment, at least two belt-like suspension elements are likewise arranged in the elevator installation, wherein the belt-like suspension elements are subjected to a common tensioning element. The provision of separate clamping elements has the advantage that thereby each belt-like support means can be individually re-tensioned. The provision of a common clamping element, however, has the advantage that thereby a

less expensive design can be achieved. Depending on the requirements and specifications of the elevator installation, one or the other variant may be preferred.

The proposed embodiments of the invention can be used in different elevator systems. For example, there are elevator systems without counterweight and elevator systems with counterweight. The one described here

Clamping device is basically used in many different types of elevator systems.

The invention will be explained symbolically and by way of example with reference to figures. Show it: Figure 1 is a schematic representation of an exemplary elevator installation according to the prior art;

Figure 2 is a schematic representation of an exemplary cabin with an exemplary clamping element;

Figure 3 is a schematic representation of an exemplary cabin and an exemplary clamping element;

Figure 4 is a schematic representation of an exemplary clamping element;

Figure 5 is a schematic representation of an exemplary guide; and

Figure 6 is a schematic representation of an exemplary belt-like

 Support means.

1 shows an exemplary embodiment of an elevator installation 1 according to the prior art. The elevator installation 1 comprises a car 2, a counterweight 3, a drive 4 and a belt-like suspension element 5. The belt-like suspension element 5 is fixed by a first suspension element fastening 7 in the elevator installation 1, guided via a counterweight deflection roller 10, via a traction sheave of the drive 4 guided, guided over two cabin deflection rollers 8 and secured by a second support means attachment 7 turn in the elevator system 1.

In this embodiment, the elevator installation 1 is arranged in a shaft 6. In an alternative embodiment, not shown, the elevator installation is not arranged in a shaft but, for example, on an outer wall of a building.

The exemplary elevator installation 1 in FIG. 1 comprises a counterweight 3. In an alternative embodiment, which is not illustrated, the elevator installation does not comprise one

Counterweight. There are also numerous other embodiments of a

Lift system possible. 2 shows an exemplary embodiment of a car 2 with a

Clamping element 9 shown. In this case, the cabin 2 is suspended from the belt-like suspension element 5 at the cabin deflection grooves 8. The KabinenumlenkroUen 8 are located above the car 2. The clamping element 9 comprises a roller 14 and a spring 11. In this embodiment, the clamping element 9 acts on the belt-like

Supporting means 5 with a clamping force in the direction of the cabin 2. This has the advantage that thereby takes place by the clamping element 9 no additional counterbending of the belt-like support means 5. Counterbends considerably shorten the life of a belt-type suspension element. The arrangement shown, such additional wear of the belt-like support means 5 can be prevented.

In Figure 3 is an exemplary embodiment of a car 2 with a

Clamping element 9 shown. In contrast to the example in FIG. 2, the belt-type suspension element 5 extends below the cabin 2. Here are the

KabinenumlenkroUen 8 arranged below the car 2. The car 2 is struck by the belt-like support means 5. The tensioning element 9 in turn comprises a roller 14 and a spring 11. In this embodiment, the tensioning element acts on the belt-like suspension element in a direction away from the car 2. As already explained, for example, in FIG

belt-like support means 5 can be prevented.

4 shows an exemplary embodiment of a clamping element 9 is shown. The tensioning element 9 shown here comprises a shaft 12 and two rollers 14 arranged thereon. The rollers 14 have flanged wheels 17 for lateral guidance of the wheels

Belt-like support means 5 on the rollers 14. To generate a voltage, the clamping element 9 is equipped with springs 11. In each case, a spring 11 is disposed at one end of the shaft 12. As a result of such an arrangement, one of the two suspension elements running in parallel can be tensioned more strongly than the other one as required.

In order to reduce wear of the clamping element 9 and the belt-like support means, elements of the clamping element 9 may be rotatably mounted. For example, the rollers 14 may be rotatably mounted on the shaft 12, or the entire shaft 12 may in turn be rotatably mounted. By running along the rollers 14 and the shaft 12 with the moving belt-like support means can be an excessive Wear of these components can be prevented.

FIG. 5 shows an exemplary embodiment of a guide 13. In this case, the shaft 12 of the clamping element 9 is guided in the guide 13. Thereby, a direction in which the shaft 12 at decreasing tension of the belt-like

Suspension means 5 is added, given.

FIG. 6 shows an exemplary embodiment of a belt-type suspension element 5. The belt-like support means 5 has a plurality of mutually parallel tension members 15 which are embedded in a common jacket 16. The exemplary belt-like support means 5 has a contoured side, wherein on this contoured side longitudinal V-shaped ribs are formed.

Claims

claims

1. Elevator installation (1), in which a belt-like support means (5) via a traction sheave of a drive (4) and two guide rollers (8) of a car (2) is guided, characterized in that the belt-like support means (5) between the two deflection rollers (8) of the cabin (2) is additionally guided by a tensioning element (9) through which the belt-like suspension element (5) is acted upon by a force, and in that the tensioning element (9) is movably arranged so that the belt-like suspension element ( 5) offset with decreasing voltage from the clamping element (9) and thereby re-tensioned.

2. Elevator installation according to claim 1, wherein the clamping element (9) is arranged substantially centrally between the two deflection rollers (8) of the car (2).

3. Elevator installation according to one of the preceding claims, wherein the belt-like support means (5) by the tensioning element (9) with a force acting substantially perpendicular to a longitudinal direction of the belt-like support means (5) acting force.

4. Elevator installation according to one of the preceding claims, wherein the

Clamping element (9) acts with a clamping force in a direction away from the car (2) on the belt-like support means (5).

5. Lift installation according to one of claims 1 to 3, wherein the clamping element (9) acts with a clamping force in a direction towards the cabin (2) on the belt-like support means (5).

6. elevator installation according to one of the preceding claims, wherein a

Clamping force of the clamping element (9) by a spring (11) is generated.

7. Elevator installation according to one of the preceding claims, wherein the clamping element (9) is guided in a guide (13), so that a movement of the clamping element (9) in a direction predetermined by the guide (13).

8. Elevator installation according to one of the preceding claims, wherein the

Clamping element (9) comprises a shaft (12).

9. elevator installation according to claim 8, wherein on the shaft (12) has a roller (14) is arranged.

10. elevator installation according to claim 9, wherein the roller (14) for lateral guidance of the belt-like support means (5) flanged wheels (17).

11. Elevator installation according to one of the preceding claims, wherein the cabin (2) from the belt-like support means (5) is looped, wherein the two deflection rollers (8) of the cabin (2) below the cabin (2) are arranged.

12. Elevator installation according to one of claims 1 to 10, wherein the cabin (2) on the two pulleys (8) of the cabin (2) is suspended, wherein the two pulleys (8) of the cabin (2) above the car (2) are arranged.

13. Elevator installation according to one of the preceding claims, wherein the belt-like support means (5) has a contoured side, in particular a traction side with longitudinal, V-shaped ribs.

14. Elevator installation according to one of the preceding claims, wherein at least two belt-like support means (5) in the elevator installation (1) are arranged, wherein each belt-like support means (5) with a separate clamping element (9) is acted upon.

15. Elevator installation according to one of claims 1 to 13, wherein at least two belt-like support means (5) in the elevator installation (1) are arranged, wherein the belt-like support means (5) with a common clamping element (9) are acted upon.