CABLE DERAILING PREVENTION DEVICE FOR CARRIER/TRACTION CABLES OF CABLE CAR SYSTEMS

Abstract

The invention relates to a cable derailing prevention device for carrier/traction cables of cable car systems in an installation including: a carrier/traction cable; a multitude of rollers which flank a coupling rail and are located at the exit from the station; a multftude of clamps from which the driving means are suspended; at least one roller that has a couple and clamp and supports the cable, and a support roller or hold-down roller battery according to the cable guide, the coupling rail forming a coupling area between the cable and the clamps. According to the invention, an aligning device is mounted in front of the coupling area of the clamps on the cable before the coupling rail and limits the deviation of the cable due to a derailing on the roller battery so that the cable is always located inside the opening of the clamp.

Description

TECHNICAL FIELD OF THE INVENTION

The present invention relates to a cable derailing prevention device for carrier/traction cables of cable car systems.

At the exit of stations of cable car systems there is a risk of the clamp to which the driving means is suspended becoming uncoupled from the cable if the cable is derailed following the clamping area. Depending on whether the roller battery acts holding down or supporting, the cable can be deflected upwards or downwards to be captured by a cable capturing means whilst simultaneously leaving its predevised position or clamping area at the exit of the station.

BACKGROUND OF THE INVENTION

Known from the international patent application WO2004/085221 is a device for capturing a traction rope of an aerial ropeway or a T bar, which has become derailed from the rope-bearing rollers of a support. The traction rope includes at least one rope capturing device which is displaceably arranged in the region of the rope-bearing rollers, a notification device for switching off the aerial ropeway or the T bar when a critical rope situation has been exceeded. The rope capturing device can be displaced from the stowed rest position to a rope capturing position when a predetermined critical rope situation is exceeded.

The device as described is, however, incapable of reliably solving the pertinent problem involved because the run of the rope or cable is restricted within certain limits permitting capture of the cable by the clamp. In addition to this, the device as described is devised to capture a cable already clamped by the clamp to halt the system via a notification or alert device when the cable is derailed.

SUMMARY OF THE INVENTION

The object of the present invention is to avoid the problems associated with known prior art and to propose a cable derailing prevention device at the exit of a station which now assures positioning of the cable and capture of the cable by the clamp in the clamping area and halting the system with the clamps still coupled when derailing occurs.

A further object is to assign the cable derailing prevention device a forced guidance means such that cable capture by the clamp is forced.

These and further objects are achieved by a cable derailing prevention device in cable car systems which include a carrier/traction cable, a multitude of clamps from which a driving means is suspended, a multitude of rollers which flank a coupling rail and are located at an exit from a station, wherein the coupling rail forms a coupling area between the cable and the clamps, at least one roller that has a couple and a clamp and supports the cable, a support roller or hold-down roller battery according to the cable guide, and an aligning device mounted in front of the coupling area of the clamps on the cable before the coupling rail, wherein the aligning device limits the deviation of the cable due to a derailing on the roller battery so that the cable is always located inside a jaw opening of the clamp.

By proposing a means for aligning the cable before the coupling area of an automatic coupling clamp, the cable is now guided in its running direction so as to arrive at the first roller battery centered on the rollers to lay the cable between the aligning means and the first roller battery such that it is located within the limits imposed by the jaw opening of the clamp to be coupled.

In one embodiment for an even better alignment of the cable in the direction of the opening of the clamping jaw, there is provided at least one guiding support between the coupling area of the clamp and the roller battery. In this embodiment, the at least one guiding support invites the cable to proceed in the direction of the line as needed for coupling.

In another embodiment there is provided in addition to this support an upper shoe—type cable capture device to maintain the cable in a line suitable to center the cable on the jaw opening of the clamp to be coupled.

In another embodiment, instead of a simpler support for guidance, a forced guidance means is provided which forces the clamp to move above the cable, such as when there is a snow accumulation on the guide rail of the roller carrying the clamp.

BRIEF DESCRIPTION OF THE DRAWINGS

Further features and details read from the dependent claims and the following description of a preferred embodiment as shown in the drawing in which:

FIG. 1 is a diagrammatic vertical section view through one embodiment of a cable car system showing the carrier/traction cable at the exit from a station.

FIG. 2 is a sectional view taken along the line A-A of the embodiment shown in FIG. 1.

FIG. 3 is a sectional view taken along the line B-B of the embodiment shown in FIG. 1.

FIG. 4 is a sectional view taken along the line C-C of embodiment shown in FIG. 1.

FIG. 5 is a sectional view taken along the line D-D of embodiment shown in FIG. 1.

FIG. 6 is a sectional view taken along the line E-E of the embodiment shown in FIG. 1.

FIG. 7 is a sectional view taken along the line F-F of the embodiment shown in FIG. 1.

FIG. 8 is a front plan view of a forced guidance means of the system in accordance with the present invention.

FIG. 9 is a front plan view of the forced guidance means of FIG. 8, but in a raised position due to snow accumulation or some other obstacle.

FIG. 10 is a front plan view of the forced guidance means of FIGS. 8 and 9, but in a position of maximum deflection of the cable relative to the clamp.

DETAILED DESCRIPTION OF THE INVENTION

Referring now to FIG. I there is illustrated in the region of the station exit a cable car system identified in all by the reference numeral 1.

By known ways and means the system comprises a carrier/traction cable 2, a multitude of rollers 3 at the exit of the station which flank a coupling rail of a known kind (not shown), a clamp 4 to which the driving means (not shown) are attached and at least one roller 5 supporting the cable 2 with a coupled clamp 4 and a supporting or holddown roller battery 6 according to the run of the cable 2.

Referring now to FIG. 7, there is illustrated how the roller battery 6 is provided with an upper, outer cable capture shoe 7 and an inner, upper guard 8 when the support of the roller battery 6 acts as a holddown support in which the cable is urged from below on the roller battery 6, whereas the roller battery 6 is provided with a lower, outer cable capture shoe 9 and a lower, inner guard 10 when the support of the roller battery 6 acts as a carrying support in which the cable is urged from above on the roller battery 6. In the situation as described, any derailing at the roller battery 6 could already cause an excessive deflection of the cable in the coupling area in which the clamp 4 is still incapable of capturing the cable 2 because the opening of its jaw is unable to capture the cable with the subsequent risk of the cable driving means dropping out of place.

In accordance with the present invention there is provided before the coupling region of the clamp 4 at the cable 2, before the coupling rail, an aligning device 11 capable of limiting deflection of the cable 2 due to derailing at the roller battery 6 such that the cable 2 is now always located within the jaw opening 12 of the clamp. As evident from FIG. 2 the aligning device 11 is formed by a locator 13 in which a hole 14 is drilled having a diameter larger than the diameter of the cable 2 depending on the spacing away from the provided clamping position.

In one embodiment the aligning device 11 is assigned at least one cable capture locator 15 for locating the cable 2 to which the clamp 4 is already coupled. The cable capture locator 15 has a concave surface to align the cable 2 in the direction of the middle of the concavity.

In another embodiment there is provided, in addition to the first or at least just one of the rollers 3 supporting the cable 2 with the coupled clamp 4, an upper cable capture bracket 16 limiting the upwards deflection of the cable 2.

Expediently, the aligning device 11 is assigned an alert system which halts the cable car system as soon as the cable 2 comes into contact with the hole 14 but which while allowing attachment of the clamp halts the cable car system with the clamp already attached and thus without any risk of the driving means dropping out of place together with the passengers.

In the variant embodiment as shown in FIGS. 8, 9 and 10, instead of a locator 15, a forced guidance means 17 is provided attached to a supporting structure 18 of the coupling rail 19 of the supporting roller 20 of the clamp 2.

The forced guidance means 17 is attached by a bracket 21 secured by bolts 22 to the supporting structure 18. Extending upwards from the bracket 21 is a supporting yoke 23 to which a fork 25 is secured by an articulated link 24. The fork 25 comprises a lower arm 26, the free end of which is configured as a rest 27 for the cable 2. In addition the fork 25 comprises an upper arm 28 ending in a boss 29 to come into contact with the body of the clamp 2.

Defined between the rest 27 and the boss 29 is an adjustable spacing 30 permitting passage of the clamp 4 and cable 2 as a whole with the cable 2 freely passing above the rest 27 when clamped in place which normally occurs between clamp and cable. When snow accumulates (33 in FIG. 9) the clamp is raised together with the fork 25, lifting the cable 2 at the rest 27 such that the clamp 4 still clasps the cable, whereas FIG. 10 depicts the maximum deflection 31 downwards when the fork 25 is stopped by the rest 27, making it clear that the clamp is thus designed to fully clamp the cable.

Claims

1. A cable derailing prevention device for carrier/traction cables of cable car systems in an installation comprising: a carrier/traction cable;a multitude of clamps from which a driving means is suspended;a multitude of rollers which flank a coupling rail and are located at an exit from a station, wherein the coupling rail forms a coupling area between the cable and the clamps;at least one roller that has a couple and a clamp and supports the cable;a support roller or hold-down roller battery according to the cable guide; andan aligning device mounted in front of the coupling area of the clamps on the cable before the coupling rail, wherein the aligning device limits the deviation of the cable due to a derailing on the roller battery so that the cable is always located inside a jaw opening of the clamp.

2. The cable derailing prevention device of claim 1, wherein the aligning device is formed by a locator in which a hole is drilled larger than a diameter of the cable and depending on a spacing from a clamping point provided.

3. The cable derailing prevention device of claim 2, wherein the aligning device is assigned at least one cable capture locator for mounting the cable to which the hole is already coupled.

4. The cable derailing prevention device of claim 3, wherein the cable capture locator includes a concave surface which aligns the cable in the direction of a middle of a concavity.

5. The cable derailing prevention device of claim 3, wherein at least one of one of the locator and at least one of the rollers carrying the cable with a coupled clamp includes at least one upper cable capture bracket limiting deflection of the cable upwards.

6. The cable derailing prevention device of claim 1, wherein the aligning device is an alert system which halts the cable car system as soon as the cable is forced in the aligning device, such that attachment of the clamp is permitted by the cable car system being halted with the clamp already attached and thus without any danger of the conveying drive means dropping out of place together with any passengers.

7. The cable derailing prevention device of claim 1, wherein at least one cable capture locator includes a forced guidance means including a fork linked articulatedly to a supporting structure of the coupling rail via a bracket and an upper arm whose free end is configured as a rest for the cable and including an upper arm having a free end coming into contact with the body of the clamp, between the rest and the free end an adjustable spacing being defined to allow the clamp and the cable as a whole to pass with the cable freely passing above the rest when the clamping between the clamp and the cable occurs normally, and the fork being limited in rotation by a stop coming up against the lower arm and which, is liftable on lifting of the clamp on the coupling rail.

8. The cable derailing prevention device claim 7, wherein the stop is adjustable.

9. The cable derailing prevention device of claim 1, wherein a lower mount, an upper mount and the cable guide include rollers configured and positioned accordingly to guide the cable.