EP0216340A2 - Variable-load cable way guide pulley array - Google Patents

Abstract

1. An alternating load roller unit for guiding conveyor cables (3) in cableways, in particular in single-cable circulating cableways, comprising a frame (1) which is possibly rotatable about a pivot trunnion (2) and on which at least one respective rocker arm which is pivotable against a spring force and which carries at least one roller (7, 12) is arranged respectively beneath and above the conveyor cable, characterised in that at least one separate spring element (8, 13) is provided for the carrier roller rocker arm or arms (10) which is or are arranged beneath the conveyor cable (3) and independently thereof for the pressure roller rocker arm or arms (5) which is or are arranged above the conveyor cable (3).

Description

The invention relates to an alternating load roller battery for guiding conveyor ropes in cable cars, in particular in single cable orbits, with a frame which can optionally be rotated about a pivot, on each of which at least one rocker arm which can be pivoted against spring force and carries at least one roller is arranged below and above the conveyor cable .

In a known design of alternating load roller batteries, the support roller rockers or rockers are adjustable relative to the pressure roller rockers or rockers, but are firmly clamped during operation. An overload of these fixed tensioned roller batteries is possible.

In a further known alternating load roller battery, both the support rollers and the pressure rollers or the rockers to which these rollers are attached are pivotally mounted against a spring force, the spring elements each bracing a support rocker with a pressure rocker with spring force. The pressure rollers and the idler rollers are always tensioned with the same spring force at each hoisting rope load, which must be assumed to be relatively high in order to maintain the required minimum roller load with each hoisting rope load. So that press the pressure rollers even with a perfect load with a no longer necessary, very high counterforce on the conveyor cable, so that when driving the driving equipment or clamp a correspondingly high roller impact occurs and the wear on the conveyor cable and the rollers is unnecessarily increased.

In addition to these alternating load roller batteries, which can absorb both positive and negative rope loads, roller batteries have been used, the approx derte lower support rollers and spring-loaded overhead pressure rollers. The spring-loaded pressure rollers serve as safety rollers, which, in the event of load changes that always take place in the positive rope load range, ensure that the minimum roller load is given on the support rollers. However, such roller batteries are not suitable in practice as alternating load roller batteries, and are also not used as such, since the high contact pressure of the pressure rollers (high spring preload) required to absorb negative cable loads results in an uncomfortably high roller impact, which also occurs with sufficient contact pressure of the conveyor rope on the idlers does not decrease.

The object of the invention is to eliminate these disadvantages and to provide an alternating load roller battery, in which an overloading or underloading of the rollers by the conveyor cable is avoided under load balancing.

This is achieved according to the invention in that at least one separate spring element is provided for the idler roller rocker (s) arranged below the conveyor rope and, independently thereof, for the pressure roller rocker (s) arranged above the conveyor rope.

When the carrying rollers of the alternating load roller battery according to the invention are loaded by the conveyor cable, they move downward against the force of one or more spring elements. The pressure rollers pressing from above onto the conveyor cable go down with the loaded conveyor cable, one or more spring elements of the pressure rollers relaxing from the spring element of the support rollers relaxing. If the load capacity is impeccable and there is a minimum roller load on the support rollers that is prescribed or necessary for the cable car, the pressure rollers will only press on them with much reduced force Conveyor rope, which reduces the roller impact and reduces wear on the rope and rollers. According to the regulations currently in force in Austria, the pressure rollers must still be in contact with the conveyor cable even if the idlers are sufficiently loaded. To ensure this contact, the weight of the pressure rollers and their suspension is sufficient, for example. However, a force exerted by the spring elements assigned to the pressure rollers can also act. In terms of cableway technology, there is no need in the above-mentioned case (sufficient loading of the idler rollers) for the pressure rollers to rest on the conveyor cable, so that even lifting the pressure rollers off the conveyor cable would be technically conceivable here.

If the load on the idlers from the conveyor cable decreases, for example when the gondolas are unoccupied, these idlers go up under spring force and the load on the idler cable from the pressure rollers increases, which means that the necessary minimum roller pressure on the idlers can always be maintained even with changing loads.

In the case of a hold-down function of the alternating load roller battery with sufficient roller load on the upper pressure rollers, the lower idler rollers only push the conveyor cable to a much reduced extent due to the geometric position. In this case, the same applies to the idlers (pressure rollers sufficiently loaded) as to the pressure rollers when the idlers are fully loaded. If the pressure rollers are sufficiently loaded, the support rollers must be in contact with the conveyor cable in accordance with the regulations currently applicable in Austria. However, this is not necessary for reasons of cable car technology.

If the load on the pressure rollers decreases, the carrying rollers exert more and more pressure on the conveyor cable due to the changed geometric position and thus ensure the required load on the pressure rollers.

A preferred embodiment of the alternating load roller battery according to the invention with good rope guiding properties consists in the fact that two support roller rockers, preferably symmetrical to a normal plane perpendicular to the conveyor rope, and two pressure roller rockers, preferably symmetrical to this normal plane, are provided on the rockers known rocker-bearing rockers are pivotally mounted.

In order to be able to adjust the spring preload of the spring elements in a simple manner, it can be provided according to a preferred feature of the invention that the position of the pivot axes of the support roller rockers and / or the pressure roller rockers relative to the frame of the roller battery can be adjusted perpendicularly to the conveyor cable.

A structurally simple solution consists in that for a pair of idler rocker arms or a pair of pressure roller rockers a spring element which acts only on the idler roller rockers or pressure roller rockers itself and is preferably designed as a compression spring is provided. This means, for example, that only one pressure element is required for two idlers and two pressure rollers. In addition, in the case of spring elements arranged in this way, which do not act on the frame, there is a simpler adjustment of the spring preload of all spring elements, only the position of the pivot axis of the rockers on one side of the conveyor cable, for example on the pressure roller side, having to be adjustable.

In order to protect the spring elements from overloads and to have clear geometric relationships even with large loads, a preferred feature of the invention provides that the spring travel of the spring element (s) of the idler arm (s) is limited by stops which can be set, if necessary.

The spring elements are then, for example, prestressed to such an extent that compression (in the case of compression spring elements) of the spring element on one side of the conveyor cable up to the stop still produces the prescribed minimum contact pressure on the other side of the conveyor cable.

A preferred embodiment of the roller battery according to the invention, which is particularly resistant to mechanical damage and weather influences, consists in that at least one spring element has a compression spring element arranged in telescopically displaceable cans, it being particularly favorable for long operation and for centering the spring element if a sliding insert made of well sliding, resistant material, for example polytetrafluoroethylene, is arranged between the mutually moving walls of the cans.

Particularly suitable as compression spring elements are bodies made of soft elastic foam, which deform elastically even under high loads. The cans surrounding such a compression spring element also protect it from UV rays contained in sunlight, particularly in glacier regions.

The invention is explained in more detail below with the aid of exemplary embodiments.

1 schematically shows a side view of an alternating load roller battery according to the invention without being loaded by the conveyor cable, FIGS. 2, 3 and 4 each schematically show a further exemplary embodiment in three different load states, and FIG. 5 shows an exemplary embodiment of a compression spring element in a sectional view.

As is apparent from Fig. 1, the frame 1 is the change load roller battery mounted on a adjustable on a support or a station building roller battery suspension (not shown) rotatable about a pivot 2. The frame has 3 swivel axis holders 1 a and 1 b below and above the conveyor cable, of which the upper 1 b is adjustable in a direction perpendicular to the conveyor cable 3. The upper swivel axis holder 1b carries two swivel castor arms 5 which can be swiveled about swivel axes 4 and to which two swivel castors 7 which are in contact with the conveyor cable 3 are fastened via rotatably mounted rockers 6. A spring element 8, which is articulated on both sides of the pressure roller rockers 5 and is designed as a pressure spring, causes a downward force on the four pressure rollers 7 via the pressure roller rockers 5 and the rockers 6.

The supporting roller side is constructed analogously. The spring element 13, which is independent of the spring element 8, causes the two support roller rockers 10 mounted in pivot axes 9 and the rockers 11 to exert an upward force on the four support rollers 12.

The independent spring elements 8, 13 each consist of two cans 8a, 8b or 13a, 13b, which can be telescopically displaced relative to one another, in each of which a compression spring element 14 or 15 made of flexible foam is arranged, which, in addition to good elastic properties, also has good damping properties. A layer, not shown, of resistant, well-sliding material is arranged between the can walls which are moved against one another.

The compression spring element 14 shown in FIG. 5 consists of a rotationally symmetrical foam body 14a, which surrounds a cavity 14b. Approximately in the middle, it has an annular groove 14c. To fasten the compression spring element 14 in one of the cans 13a or 13b, a sheet 14d embedded in the foam and a nut 14e lying thereon are provided.

2 to 4 different load cases (loads on the roller battery by the conveyor cable) are shown in a highly schematic manner. The same or equivalent parts are designated as in Fig. 1. In the position shown in FIG. 2, the conveyor cable 3 does not exert any pressure on the alternating load roller battery. Each roller 7 or 12 presses with the same force caused by the spring elements 8, 13 and the self-weights of the rollers 7, 12, rockers 5, 10 and rockers 6, 11 onto the conveyor cable 3. The spring preload, which can be adjusted by displacing the upper pivot axis holder 1b Spring elements 8, 13 are selected so that the minimum roller load required for safe operation is present both with the support rollers 12 and with the pressure rollers 7. The preload of the lower spring element 13 is greater than that of the upper spring element 8 due to the inherent weight of the rollers including suspensions.

With a downward load on the alternating load roller battery by the conveyor cable 3 (support), the support rollers 12 move downward, the spring element 13 is compressed until a stop (not shown) is reached (FIG. 3). The force acting on the support rollers 12 is now essentially composed of the force exerted by the conveyor cable 3 and the force additionally acting downwards from the pressure rollers 7. For reasons of cableway technology, this force exerted by the pressure rollers 7 could itself be zero or the pressure rollers 7 would not have to be in contact with the conveyor cable at all. According to the regulations currently applicable in Austria, the pressure rollers 7 must be in contact with the conveyor cable 3 even if the roller 12 has a sufficient roller load. The dead weight of the pressure rollers 7 including their suspension (rocker 6, rocker 5) is sufficient for this. An additional load on the pressure rollers 7 can also be exerted by the spring element 8 in the position shown in FIG. 2. In any case, the pressure exerted by the pressure rollers 7 on the conveyor cable 3 is due to the changed geometric position of the rollers in this load case (sufficient load load) much lower than in the load case (Fig. 2), where the support rollers 12 are not sufficiently loaded and the pressure rollers 7 have to ensure an adequate load.

If the alternating load roller battery works on a hold-down support, the pressure rollers 7 move upward from the position shown in FIG. 2 (FIG. 4). As a result of this upward displacement, the spring element 13 relaxes and the support rollers 12 exert a substantially lower to no pressure on the conveyor cable 3. This is not necessary if the pressure rollers 7 are sufficiently loaded. However, if the load on the pressure rollers 7 is reduced by the conveyor cable 3, the pressure of the support rollers 12 increases upwards and an adequate load on the pressure rollers 7 is ensured.

Since the dead weights act downward, in most cases a stop limiting the spring travel of the spring element 8 assigned to the pressure rollers 7 is not necessary, but is possible. In order to ensure that the lower support rollers 12 are in contact with the lower support rollers 12 on the conveying line 3 when the hold-down function is required, even if the pressure rollers 7 are moved all the way up, the spring element 13 must be sufficiently pre-tensioned.

The invention is not restricted to the exemplary embodiments described above. For example, the spring elements can also act between the rocker and the frame. The number of roles is not limited to eight. In addition to attaching the castors to rockers, there is also the possibility of rotating the castors directly on the swing arms.

Other compression springs, such as helical springs, are also suitable as spring elements. Also designs with tension springs are possible. In the case of poorly damping spring elements, additional damping elements can be provided.

The alternating load roller battery according to the invention can advantageously be used in single cable orbits, such as drag lifts or chair lifts, wherever the rope load forces act more or less downwards or upwards when the hoisting rope changes.

Claims (11)

1. Alternating load roller battery for guiding conveyor ropes in cable cars, in particular in single cable orbits, with a frame which can be rotated about a pivot, on which at least one rocker arm which can be pivoted against spring force and carries at least one roller is arranged below and above the conveyor rope, characterized in that that at least one separate spring element for the support roller rocker (s) (10) arranged below the conveyor cable (3) and independently of it for the pressure roller rocker (s) (5) arranged above the conveyor cable (3) (8.13) is provided. 2. Alternating load roller battery according to claim 1, characterized in that two, preferably to a normal to the conveyor cable (3) normal plane symmetrical lying idler rocker (10) and two, preferably symmetrical to this normal plane pressure roller rocker (5) are provided. 3. Alternating load roller battery according to claim 1 or 2, characterized in that at least one rocker (5,10) has a known, pivotally mounted on it and at least two rollers (7,12) carrying rocker (6,11). 4. Alternating load roller battery according to one of claims 1 to 3, characterized in that the position of the pivot axes (4) of the support roller rocker (s) and / or the pressure roller rocker (s) (5) relative to the frame (1) to adjust the spring preload of the spring elements (8, 13) in a direction essentially perpendicular to the conveyor cable (3). 5. Alternating load roller battery according to one of claims 1 to 4, characterized in that for a pair of idler roller rockers (5) only on the idler roller rocker (10) or pressure roller rocker (5) itself attacking, preferably as Compression spring designed spring element (8 or 13) is provided. 6. Alternating load roller battery according to one of claims 1 to 5, characterized in that the spring travel of the spring element (s) (13) at least the idler roller rocker (s) (10) is limited by adjustable stops. 7. Alternating load roller battery according to one of claims 1 to 6, characterized in that at least one spring element (8, 13) has a compression spring element (14) arranged in telescopically displaceable cans (8a, 8b or 13a, 13b). 8. Alternating load roller battery according to claim 7, characterized in that between the mutually moving walls of the cans (8a, 8b or 13a, 13b) a sliding insert made of well sliding, resistant material, for example polytetrafluoroethylene, is arranged. 9. Alternating load roller battery according to claim 7 or claim 8, characterized in that the compression spring element (14) is a compressible body (14a) made of flexible foam. 10. Alternating load roller battery according to one of claims 1 to 9, characterized in that the pressure rollers (7) at maximum by the conveyor rope load downward moving rollers (12) at least with the weight of the pressure rollers (7) together with their suspension (5th , 6) on the frame (1) rest on the conveyor cable (3). ₁ 1. Alternating load roller battery according to one of claims 1 to 10, characterized in that the or the support roller rocker (10) associated spring elements (13) are biased so far that the support rollers (12) at maximum by the conveyor cable load pressure rollers (7) moving upwards rest against the conveyor cable (3), preferably with a certain contact pressure.

Images