The invention relates to a device for driving a handrail of a passenger conveyor comprising an endless drive element which is driven by a motor.
Such a device is disclosed, for example, in DE 11 2006 004 175 T5.
In such devices and also other generic devices, in particular when the drive of the handrail is not implemented by a form-locking connection but by a frictional connection, the problem arises for the drive element to be pressed sufficiently firmly against the handrail that no slip or as little slip as possible is present between the drive element and the handrail.
A further problem in such devices is the noise development by the device, which occurs both in form-lockingly and force-lockingly connection drive systems.
The object of the invention is to eliminate these problems as far as possible.
This object is achieved in a device of the type mentioned in the introduction, by support rolls being arranged on the side of the drive element which lies opposite the handrail and by the drive element being supported on the support rolls via a belt.
The belt in the present invention fulfils two tasks. The belt bridges the spacing between the support rolls so that the action of force is more evenly distributed from the support rolls onto the handrail. Moreover, the belt, which between the handrail and the support rolls runs freely therewith and therefore does not have to transmit any tensile forces, may be produced from a material which has good damping properties and as a result is able to dampen rolling noise which might occur when the support rolls roll directly on the drive element. As a result, therefore, it is also advantageous if the belt is produced from a very resilient material, in contrast to what is otherwise usual for belts in this technical field. Within the scope of the invention, therefore, it is preferred if the belt contains a damping material, preferably a polymer, in particular rubber or polyurethane, or a silicate or is produced from a damping material.
This is advantageous, in particular, when the drive element is a chain, in particular a roller chain. In the invention, chains, in particular roller chains, are preferred for the reason that they are able to transmit high forces and at the same time are relatively unsusceptible to wear.
It is further preferred according to the invention if the drive element comprises entrainment elements which act on the handrail. These entrainment elements are preferably elements which, in particular, in the case of systems operating by a force-locking and/or frictional connection, bring about a transmission of force to the handrail which is as effective as possible. This may be implemented firstly by shaping or secondly by an appropriate choice of material. Naturally, both measures may be combined together.
According to a preferred embodiment of the invention, an improvement to the force-locking connection by shaping may be implemented by the entrainment elements having a recess which widens in a substantially V-shaped manner, a projection which is arranged on the handrail and which preferably has a substantially V-shaped cross section engaging therein.
Further preferred embodiments of the invention form the subject-matter of the remaining subclaims.
Further features and advantages of the invention are disclosed from the following description of a preferred exemplary embodiment of the invention with reference to the accompanying drawings, in which:
The device according to the invention is a drive unit which may be arranged at any point of a passenger conveyor, for example a horizontal and/or linear moving walkway or an escalator. It may be seen that by means of the device according to the invention a handrail 1 may also be driven in the upper region of a balustrade 2, so that no additional space is required below the return run of the handrail in the lower region of the balustrade. It goes without saying, however, that the device according to the invention could also be used rotated by 180° for driving the return run.
In the embodiment shown, the handrail 1 has a substantially C-shaped cross section, wherein a projection 3 is arranged in the internal central region of the handrail 1. In theory, this projection 3 could comprise teeth for a positive engagement of a drive element 4 but in the present invention said projection is preferably continuously driven and, therefore, is driven by the drive element 4 only by a force-locking and/or frictional connection.
In the preferred embodiment shown, the drive element 4 comprises a roller chain 5, entrainment elements 6 being fastened to the chain links thereof, said entrainment elements having a recess which widens outwardly in a substantially V-shaped manner and which as a whole form a channel, the projection 3 being received therein.
Since the force transmission in the embodiment shown is implemented by a force-locking and/or frictional connection, it is important that the drive element 4 is pressed with sufficiently high force against the projection 3 on the handrail 1. According to the invention, support rolls 7 which are rotatably mounted on a holder 8 are provided to this end. The support rolls 7 are arranged on the side of the drive element 4 opposing the handrail 1, wherein according to the invention an endless belt 9 runs between the drive element 4 and the support rolls 7, said endless belt not being driven itself but being entrained by the drive element 4 which is driven by a motor 11, since the endless belt is clamped between the drive element 4 and the support rolls 7.
The belt 9 runs around two deflection rollers 12, 13 upstream and downstream of the holder 8 and/or the support rolls 7 and around a clamping roller 14 which is arranged below the holder 8.
In order to be able to adjust the contact pressing force of the support rolls 7 via the belt 9 onto the drive element 4, adjusting screws 15, 16 act on the holder 8, said adjusting screws being screwed to a frame 19 by clamping blocks 17, 18.
The drive element 4 is driven about a first gearwheel 20 and about a second gearwheel 21 and a drive pinion, not visible in detail, which is driven by the motor 11 via a gear mechanism 22.
The belt 9 preferably consists of a material which contains a polymer, preferably rubber or polyurethane, and has good damping properties in order to prevent noise development which could arise when rolling on the support rolls 7 and upon contact with the roller chain 5.
As already mentioned in the introduction, the handrail 1 has a substantially C-shaped cross-sectional shape, wherein the free edges 23, 24 which correspond to the lips of a C-shaped profile are supported by the inner face of the handrail 1 by rollers 25, 26. In
It may be seen that in this embodiment (but not necessarily) the rollers 25, 26 are arranged in the region of the deflection rollers 12, 13 and therebetween in the region of the support rolls 7 at a narrower spacing than in the adjacent regions upstream and downstream thereof, in order to support the handrail 1 effectively against the force acting on the handrail 1 by the drive element 4 and to ensure a sufficiently fixed connection between the entrainment elements 6 and the projection 3 on the handrail 1.
Number | Date | Country | Kind |
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610/2015 | Sep 2015 | AT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/AT2016/000083 | 9/19/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/044996 | 3/23/2017 | WO | A |
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Number | Date | Country | |
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20190039861 A1 | Feb 2019 | US |