CH646118A5 - ELEVATOR WINCH. - Google Patents

Abstract

1. Elevator winch, in which the output shaft (3) on which is mounted the cables pulley (4) which supports the load, is carried by two bearings disposed in a winch casing (2) and by a third bearing (7) provided outside the winch casing at the extremity of the output shaft, characterised in that the third bearing (7) is urged by a regulable resilient force (R) of radial direction opposed to the direction of the force (G) exerted on the output shaft (3) by the cables pulley (4) supporting the load.

Description

The invention relates to an elevator winch, in which the output shaft on which the cable pulley intended to support the load is mounted is carried by two bearings arranged in a winch housing and by a third bearing provided outside the winch housing at the end of the cable pulley.

Such winches comprising three bearings for the output shaft are commonly used when the magnitude of the load supported by the cable pulley is such that an arrangement of the latter in overhang would imply an exaggerated increase in dimensions, so many the output shaft as bearings or other components of the winch associated with it. This is the case, for example, in elevators for people with high transport capacity or for certain freight elevators. The installation, at the end of the output shaft, of this additional bearing fixed separately to the base plate supporting the winch housing or to a base plate which is adjacent thereto, requires considerable work of alignment.

With such a hyperstatic system, if the alignment of the bearings is not perfect, there is the risk of abnormal wear of one of the bearings and / or the output shaft, or the risk of a break in the latter by fatigue due to the fixing stresses of the third bearing.

DE-PS patent No. 905779 shows an elevator winch in which, to avoid the implementation of a third bearing, the winch housing is equipped with a fixed cylindrical sleeve which extends beyond the housing and inside from which the winch output shaft is housed rotating. The cable pulley is arranged to rotate on the end of the cylindrical sleeve, and its hub has a keyed drive nose on the end of the output shaft projecting from the sleeve. Such a solution has the advantage of freeing the output shaft from the radial stresses generated by the load which is thus supported by the bearing that constitutes the fixed cylindrical sleeve. The risks of rupture of the drive shaft are thereby reduced. The obligation to provide a fixed sleeve forming an inner bearing for the control pulley, however, results in a substantial increase in the dimensions of the winch housing, and such a solution is relatively complicated and costly, in particular because it requires special shaping of the cable pulley hub.

The object of the present invention is to provide an elevator winch which, without departing from the field of simple constructions, makes it possible both to facilitate the assembly operations of the winch and to avoid the risks of breaking the output shaft. .

2

This object is achieved with the elevator winch of the invention as characterized in claim 1.

The major advantage of the invention lies in particular in the fact that a prestressing of the output shaft in a radial direction 5 opposite to that of the force exerted by the load is made possible, so that, when the pulley is cables is subjected to the load, a relief of the bearings of the winch housing as well as an appreciable reduction of the rate of work of the output shaft and, consequently, of its fatigue can be obtained. As a result, the invention not only makes it possible to avoid a break in the shaft, but it also makes it possible to a certain extent to reduce the dimensions of the latter and of the elements, such as the bearings, which are attached to it directly associated. It follows that, for a given load lift, a lighter, therefore less expensive winch construction can be viewed, just as, within the permitted limits, the admissible load can be increased for a model of determined winch.

An embodiment of the invention is set out below by way of example, with reference to the appended drawing, in which:

20 fig. 1 is a schematic elevation view of an elevator winch according to the invention,

fig. 2 is a schematic profile view of the elevator winch shown in FIG. 1.

In fig. 1 and 2, the reference 1 designates a base plate, or 25 winch frame, which is intended to be placed in the room of the elevator machinery and on which is fixed a winch box 2 containing all or part of the mechanism , not shown, for driving the elevator, such as a worm reducer, the braking system or any other traditional element associated with the drive motor not shown.

The reference 3 designates the output shaft which is carried by two bearings, not shown, arranged inside the winch housing 2 and on which is mounted the cable pulley 4, or adhesion pulley, at 3S which are respectively suspended, by cables. 5 and 6, the cabin and the counterweight, also not shown, of the elevator.

The reference 7 designates an auxiliary bearing, or third bearing, disposed outside the winch housing, at the end 3.1 of the shaft of 4 "outlet 3. The end of this third bearing 7 has a rectilinear face 7.1 , against which one of the ends of a pressure spring 8 is applied, the other end of which bears on the bottom of a guide cup 9 mounted at the end of the screw 10 of a tension adjustment with screws 10 and nuts carried by a curved part 45 12.1 of a support plate 12 capable of being oriented by rotation around the output shaft 3. The reference 13 designates an amount which is provided integral with the base plate 1 and to which, when oriented in the desired position, the support plate 12 can be fixed by means of three fixing bolts 14. The permissible angle of rotation 50 for the support plate 12 relative to the upright 13 is sufficient so that, during assembly and depending on the result of cables 5 and 6, the elastic force ue R by which, under the action of the spring 8, the third bearing 7 and, consequently, the output shaft 3 are biased radially, is exerted in the direction opposite to that of the force 55 G exerted on the output shaft 3 by the cable pulley 4 supporting the load.

The dimensions and characteristics of the pressure spring 8 are chosen as a function of the force G, so that a prestressing of the output shaft 3 can be generated from a simple adjustment of the tension of the spring 8 by means of the screw 10, prestressed which will be compensated once the load supported by the cable pulley 4. Thus, the risks of rupture by fatigue of the output shaft 3 can be practically eliminated, and a work of alignment of bearings is no longer necessary during assembly.

It goes without saying that, in the above embodiment, only the elements essential to the invention have been described in support of representations of a purely schematic nature. Construction details

tion, such as those relating to the guiding of the spring and / or the fixing of elements which are within the reach of those skilled in the art, have not been shown. Likewise, to produce the elastic force, it is possible to use several springs acting jointly or one or more elements of material capable of providing results.

646 118

similar states. Finally, it is also within the scope of the invention to provide, for example by the intervention of hydraulic means, that an adjustment of the elastic force applied to the third bearing can take place as a function of variations in the load supported by the cable pulley.

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1 sheet of drawings

Claims (3)

646118 CLAIMS 1. Elevator winch, in which the output shaft on which the cable pulley which supports the load is mounted is carried by two bearings arranged in a winch housing and by a third bearing provided outside the winch housing to the end of the output shaft, characterized in that the third bearing (7) is biased by an elastic force (R) of radial direction opposite to the direction of the force (G) exerted on the output shaft ( 3) by the cable pulley (4) supporting the load. 2. Elevator winch according to claim 1, characterized in that it comprises at least one spring (8) producing the elastic force (R) which is disposed between the third bearing (7) and a support element (12) directly or indirectly fixed to the winch housing (2) or to a base plate (1) and with which is associated a tension adjustment device (10, 11). 3. Elevator winch according to claim 2, characterized in that the support element (12) is designed to be orientable by rotation about the output shaft (3).