EP0711696B1 - Garage for the vehicles of an aerial tramway with endless loop - Google Patents

Abstract

The garage (1) is for the vehicles (5) of a cable railway which slowly circulate around the platform of a station rail (2), having been uncoupled from the conveyor cable (9). It has several parallel parking rails (3) arranged in a rectangle, with a feeder rail (4) between the station rail and the parking rails. Exit points and entry points are arranged between the station rail and feeder rails. Points (7) are arranged between each parking rail and the rails feeding in and out, and conveyor devices bring the vehicles from these station rail via the feeder rail to the parking rails and back again. Between the feeder rail (41) feeding the station rail and the feeder rail (42) removing vehicles from it, a crossing (6) is provided controlled with two points pieces (6).

Description

The invention relates to a garage for the vehicles Circulating ropeway, the platform of a station track, from Uncoupled conveyor rope, drive slowly around, with several to each other parallel, preferably arranged in a rectangle Siding, with a feeder track between the Station track and the siding, with a discharge switch and with an inlet switch between the station track and the loading or sluggish feeder track, each with a switch between each siding and the one that sends or sends it Feeder track and with conveyors that move the vehicles from Station track over the feeder track onto the siding and promote back again.

There are usually stops at a cable car station Coupling points at the inlet or outlet. At the Inlet coupling point are at up to about 6 m / sec Conveyor rope conveyed vehicles uncoupled from the rope and onto a slow loading speed of about 0.2 to 0.8 m / sec delayed with which they put a platform on the track of one Drive around the station track from the incoming to the outgoing rope, while the passengers leave the vehicles on the platform or can climb. The vehicles are at the outlet coupling point to accelerate to synchronism with the hoisting rope and again to couple to the rope.

To the circulating cable car to the required transport performance to adapt, it is known to currently not used vehicles to park the stops on siding of garages; the Garage capacity can be measured on all vehicles that then protected from the weather when the cable car system is shut down are turned off. The sidings of well-known garages are mostly arranged in a loop, are from the station track loading over an incoming switch and over an outgoing switch sent away, cf. e.g. EP 306 771 B1, EP 245 163 B1 or FR 24 96 029. The loop shape has the advantage that the Adjust sidings, adjust existing storage spaces if necessary can, but such a siding can not be flexible load, i.e. the vehicles must be in the order in which drive her into the garage, and leave it again. The Space utilization is due to the wide, to be traversed semicircular arches are not optimal in such a garage.

A garage made known by EP 369 981 B1 with the features mentioned at the beginning has only a single feeder track, whose direction of conveyance from the station track to the siding to Loading or unloading with vehicles is reversible. When loading the station track with vehicles from the siding promotes the cable car in the normal operating direction; however must to feed the sidings also the conveying direction on the Cable car system can be reversed. This is particularly annoying normal operation, if in order to adapt to the current used transport capacity only occasionally vehicles from the Cable car operation should be taken because of the cable car system then have to promote with pilgrim steps, or two steps forward, then back again. Also, before the All vehicles are no longer registered on the vehicle Conveyor line. On the station track and on each siding a switch to the feeder track is arranged; thus is in this known garage already flexible loading and Siding of the sidings possible. That too is Space utilization is cheaper compared to the loop shape parallel siding can be placed closer together, because only a quarter-circle arc is closed on the switches drive through.

In contrast, the task is to be solved, a flexible one Allow loading of the siding without normal operation to interfere with the cable car system.

This task is in the garage according to the invention with the Features resolved that each separate, in only one direction Continuously feeding feeder track for loading the siding from the station track or for loading the station track from the siding is available and that between that Station track loading feeder track and the it sending feeder track one with two switch pieces controlled intersection is arranged.

As vehicles in the invention are gondolas, armchairs or the like. provided on a hanger with at least one rope clamp the cable of the cable car system can be coupled. To such Vehicles with continuous conveyors always close in the direction of travel must support the hanger of any vehicle before entering or after leaving the garage once on the other side of the other feeder track be led; in the case of the invention, this takes place on the individual Crossing between the two feeder tracks, at which each Vehicle with its hanger the other guide rail crosses. Each switch piece has two connecting pieces with which it alternately in the guide rails on one or the other Feeder track engages. The inserted connector mediates the leadership between neighboring funding institutions, creates the other, disengaged connector a gap in the other guide rail for the passage of the Hanger.

This measure according to the invention enables the vehicles Always convey forward in the direction of travel with continuous conveyors.

The funding institutions are known per se. It will Chain conveyors or ramp conveyors are used, each engage positively on the vehicle hangers. Tire wheel conveyor drift frictionally on the rope clamps, they can be straight or promote in a bow; in the case of gondolas, the Pneumatic wheel conveyor also frictionally on the floor of the vehicles float. At the junctions between neighboring ones Conveyors will alternately rub or rub the vehicles form-fitting delivery to the subsequent conveyor.

Preferably, in the invention at the entrance and at the Exit to the garage on the feeder track, one sliding switch each with a sheet conveyor between the individual siding movable, which is the connection between the respective feeder track and the siding. With the sliding gate also the sheet conveyor on it on the siding movable, which ensures an inexpensive solution, in particular with more than three or four siding.

In a particularly advantageous development of the invention is on every feeder track between neighboring conveyors one storage section each with defined stops for several Vehicles arranged to form a buffer. One at a time controllable individual drives define within each storage section several stops for successive vehicles. The on the feeder track feeding the station track The storage section forms a caster, from which as long as Direction station track is eligible as the sliding switch to the Siding is moved; afterwards he will be with Vehicles filled up. The one loading the garage The feeder section arranged on the feeder track forms a lead buffer, which is always refilled with vehicles when the Sliding switch on the siding is moved.

The buffer feeding the station track is preferably over a control line clocked from the station track, what a accurate insertion of vehicles in the on the rope existing gaps.

In a still further embodiment of the invention, a Connector the vehicles at the intersection one preferably straight passage from one to the other feeder track. One on one on the feeder track that sends the garage straight serviced vehicle can thus be passed through the Cable car immediately back to the one loading the garage Bring the feeder track and park on one of the sidings. Preferably the two serve directly at the intersection inserted switch pieces as connecting piece.

Fig.1

ist die erfindungsgemäße Garage dargestellt;

a) ist eine Seitenansicht,

b) ist eine Draufsicht. In

Fig.2

ist die Kreuzung zwischen den beiden Zubringergleisen samt den Staustrecken in einer Draufsicht dargestellt.

Fig.3

zeigt die Schiebeweiche mit dem Bogenförderer,

a) ist eine Draufsicht,

b) zeigt sie von vorn gesehen. In

Fig.4

ist der Antrieb für die beiden Weichenstücke an der Kreuzung dargestellt,

a) ist eine Draufsicht,

b) ist eine Vorderansicht.

A preferred embodiment according to the invention is explained in more detail below with reference to the drawing: In

Fig. 1

the garage according to the invention is shown;

a) is a side view,

b) is a top view. In

Fig. 2

the crossing between the two feeder tracks together with the storage sections is shown in a top view.

Fig. 3

shows the sliding switch with the sheet conveyor,

a) is a top view,

b) shows them seen from the front. In

Fig. 4

the drive for the two switch pieces is shown at the crossing,

a) is a top view,

b) is a front view.

According to Figure 1 , the station track of a stop station of a circulating cable car is designated by 2; in the illustrated embodiment, this is the valley station of a four-seater chairlift, whose vehicles 5 are uncoupled from the conveying rope 9 when entering the holding station, on a cf. slow driving speed are delayed, with which they bypass the platform of the holding station on the track of the station track 2 (clockwise in the plan view according to FIG. 1b); there (up to four) passengers can get on before the vehicle 5 accelerates again to the rope conveying speed, is coupled to the conveyor rope 9 and exits the holding station in the direction of arrow B uphill.

In addition to the station track 2, a garage (designated underground as 1) is arranged. Seven parallel siding tracks 3 ₍₁₎ to 3 ₍₇₎ are arranged in a rectangle and have open track ends on two opposite sides of this rectangle. The garage 1 is connected to the station track 2 via two feeder tracks 4 ₁ , 4 ₂ , on which the vehicles 5 can be conveyed in one or the other direction. The garage 1 feed end feeder track 4 ₁ is passable from the station track 2 forth over an outgoing switch 2 _1; the feeder track 4 ₂ feeding the station track 2 from the garage 1 has an incoming switch 2 ₂ on the station track 2 which is arranged in front of the track track 2 of the station track ₂ with respect to the outgoing switch 2 ₁ in the direction of travel. Both feeder tracks 4 ₁ , 4 ₂ are brought at both ends at right angles to the open track ends of the seven siding tracks 3 ₍₁₎ to 3 ₍₇₎ .

Between the open track ends of the siding 3 ₍₁₎ to 3 ₍₇₎ and the associated feeder track 4 ₁ or 4 ₂ , a sliding switch 7 ₁ or 7 _{2 can be moved} between the seven siding 3 ₍₁₎ to 3 ₍₇₎ and can be locked on the siding 3 _(i) to be loaded, on which the vehicles 5 can be conveyed to the respective siding 3 _(i) via a quarter circle. Corresponding conveyor devices 10 are arranged on both feeder tracks 4 ₁ and 4 ₂ and on the siding tracks 3 ₍₁₎ to 3 ₍₇₎ , which act alternately on the hanger 5 ₁ at the respective transfer points or drive onto the cable clamps 5 _{2 of} the vehicles 5.

Between the two feeder tracks 4 ₁ and 4 ₂ , a single intersection, generally designated 6, is arranged, which can be controlled with two switch pieces 6 ₁ and 6 ₂ . If the garage loading feeder track 4 _{1 is used} by vehicles 5, then the associated switch piece 6 _{1 is} inserted at the intersection 6 and connects the adjacent guide rails, while the other switch piece 6 ₂ is disengaged, on the other guide rail of the station track 2 loading feeder track 4 _{2 to} clear a gap for the passage of the sling 5 ₁ .

In the embodiment shown in FIG. ₁ , the two feeder tracks 4 ₁ , 4 ₂ are brought perpendicular to the siding 3 in an arrangement parallel to one another, are deflected at right angles at the intersection 6, run parallel to them over the length of the siding 3 and become parallel then led over the corner of the rectangle to the track ends of the siding 3 which are open on both sides. At the crossing 6 in the conveying direction, in the top view according to FIG. 1b counterclockwise, a straight passage from one 4 ₁ to the other feeder track 4 _{2 is} possible if both switch pieces 6 ₁ and 6 _{2 are} inserted.

Two buffers are provided for the continuous loading of both the station track 2 and the siding 3 with vehicles 5 conveyed on continuous conveyors 10. Thus, where the garage 1 be fed feeder track 4 ₁ in the conveying direction after the intersection 6 furnished with a 8 ₁ designated storage section for six vehicles 5 on the one hand; on the other hand, on the feeder track 4 ₂ feeding the station track 2 in the conveying direction before the intersection 6 there is a storage section designated as 8 ₂ for likewise six vehicles 5. The storage section 8 ₂ loading the station track ₂ is also clocked via a control line 9 from the station track 2 .

The control of the storage sections 8 ₁ and 8 ₂ is explained in more detail with reference to FIG. ₂ :

On each of the feeder tracks 4 ₁ and 4 ₂ , six individually controllable individual drives 8 ₁₁ to 8 ₁₆ and 8 ₂₁ to 8 ₂₆ each define six consecutively arranged stops for six vehicles 5 ₍₁₎ to 5 ₍₆₎ within the storage sections 8 ₁ and 8 8 ₂ between neighboring conveyors. The individual drives 8 ₁₁ to 8 ₁₆ and 8 ₂₁ to 8 ₂₆ drive frictionally via tire wheels onto the cable clamps 5 _{2 of} the vehicles 5. The accumulation section 8 ₂ arranged in the feeder track 4 ₂ feeding the station track ₂ serves as a follow-up buffer; in the garage be loaded feeder track 1 4 ₁ 8 ₁ arranged stowing line serves as a buffer flow, in each case in the conveying direction to the associated sliding switching element 7 seen ₁ and 7. ₂

In the embodiment shown in Figure 2 operating mode "station track with vehicles feed" all continuous conveyors of the station track 2 be loaded shuttle track 4 ₂ are put into operation, support in the direction of arrow S, and the belonging to the feeder track 4 ₂ switching point segment 6 ₂ is at the intersection 6 inserted. The conveyors 10 of the other feeder track 4 ₁ are not required and are therefore expediently switched off; the switch piece 6 ₂ belonging to the feeder track 4 ₁ at the intersection 6 is out of engagement. Before the station track 2 is loaded, the buffer within the storage section 8 ₂ must first be filled with six vehicles 5 ₍₁₎ to 5 ₍₆₎ . As soon as the buffer is full, the individual drive 8 _{21 located} at the front in the conveying direction S follows the respective cycle sequence obtained from the station track 2 via the control line 9, at which time intervals the continuously running follow-up conveyor is to be loaded with a vehicle 5 _(i) ; in the meantime, the storage section 8 _{2 is} filled up again and again from behind. If a siding 3 _{(i) is} completely emptied, the associated sliding switch 7 ₂ moves to another; meanwhile, the station track 2 is fed from the buffer of the storage section 8 ₂ .

This operating mode can be used when starting up the cable car system all vehicles 5 from the garage 1 to the Couple conveyor rope 11; but it is also possible, if necessary to put only a part of the vehicles 5 into operation and with them correspondingly larger distances from each other to the conveyor cable 11 hang. The gaps between the vehicles 5 can then be fill up if there is a higher transport capacity at the cable car system is needed.

The operating mode "loading garage with vehicles" is essentially analogous in the direction of arrow G. First, the buffer of the storage section 8 ₁ must be filled with six vehicles 5, then a siding 3 _{(i) is} loaded by commissioning the subsequent conveyor; The start signal for loading garage 1 is given by the last individual drive in the garage conveying direction as soon as a vehicle 5 is at this stop. When the respective siding 3 _{(i) is} filled, the storage section 8 _{1 is} filled; meanwhile, the sliding switch 7 ₁ moves to another siding. In this operating mode, when the cable car system is taken out of operation, all vehicles 5 located on the conveyor cable 10 can be trained; it can, however, only be used for adjustment to the transport capacity required, if necessary, only every second or third vehicle 5 located on the conveyor cable 10. In this operating mode, it is also possible, for example, to collect vehicles in need of maintenance on one of the siding 3 _(i) before they are overhauled according to FIG. 1b at a maintenance station 12 arranged on the feeder track 4 ₂ which sends out the garage 1.

The continuous conveyors on the feeder tracks 4 ₁ or 4 ₂ and the siding 3 ₍₁₎ to 3 ₍₇₎ can work with different conveying speeds; this is shown in the top view according to FIG. 1b from the different distances between successive vehicles 5.

A particularly preferred embodiment of the sliding switch 7 is according to FIGS. 3a and b with three running wheels 7 ₄₁ to 7 ₄₃ arranged on a frame on two running rails 7 ₆₁ and 7 ₆₂ between the siding (3 ₍₁₎ to 3 ₍₇₎ according to FIG .1) movable; a single drive 7 ₅ drives one impeller 7 ₄₁ on the running rail 7 ₆₁ . At each siding 3 _(i) , the sliding switch 7 is locked with a lock 7 ₃₄ . A total of 7 ₃ designated sheet conveyor drives frictionally via a total of six tire wheel drives 7 ₃₁ on catwalks 5 ₂₂ fixed to the cable clamps, the cable clamps 5 ₂ roll with two castors 5 ₂₁ in a quarter circle over two associated running rails 7 ₃₃ onto the respective siding 3 _(i) . The tire wheel drives 7 ₃₁ are inevitably driven in the same direction by a single drive 7 ₃₂ via traction means.

The drive of the switch pieces 6 ₁ and 6 ₂ at the intersection 6 is shown in FIGS. 4 a and b , in which the switch piece shown in FIGS. ₁ b and 2 is again designated 6 ₁ . On both feeder tracks 4 ₁ and 4 ₂ , a straight piece 6 ₁₁ and an arc piece 6 _{12 are} inserted alternately as connecting pieces to control the crossing 6 on the switch piece 6 ₁ (or 6 ₂ ). The straight piece 6 ₁₁ creates the connection on the guide rail of the feeder track 4 ₁ feeding the garage ₁ . The bow section 6 ₁₂ belongs to the other guide rail of the feeder track 4 ₂ feeding the station track ₂ ; in the designed state it creates the gap for the passage of the hanger 5 ₁ and in the inserted state the connection on the guide rail for the passage of the arch on the feeder track 4 ₂ .

The drive takes place via a crank arm designated 6 _{3 in} total, consisting of drive motor 6 ₃₁ with reduction gear, crank 6 ₃₂ , coupling 6 ₃₃ and rocker arm 6 ₃₄ . The straight piece 6 ₁₁ and the curved piece 6 ₁₂ are firmly connected to the rocker 6 ₃₄ ; the engagement position of the straight piece 6 ₁₁ is shown in Figure 4a with solid lines, its disengaged position is shown with dashed lines. On the rocker 6 ₃ , the coupling 6 ₃₃ pivots, which is rotatably connected to the driven crank 6 ₃₂ on its crank pin.

Reference list

1

garage

2nd

Station track

2 ₁ outlet switch

2 ₂ inlet switch

3rd

siding

4th

Feeder track

4 ₁ feeder station track -> garage (G)

4 ₂ feeder garage -> station track (S)

5

vehicle

5 ₁ hangers

5 ₂ rope clamp

5 ₂₁ castors

5 ₂₂ catwalk

6

crossing

6 ₁ , 6 ₂ turnout pieces

6 ₁₁ straight piece

6 ₁₂ elbow piece

6 ₃ crank arm

6 ₃₁ drive motor, reduction gear

6 ₃₂ crank

6 ₃₃ paddock

6 ₃₄ swingarm

7

Sliding gate

7 ₁ Inlet sliding gate

7 ₂ outlet sliding switch

7 ₃ sheet conveyors

7 ₃₁ tire wheel drive

7 ₃₂ engine

7 ₃₃ running track

7 ₃₄ lock

7 ₄ impellers

7 ₄₁ driven impeller

7 ₄₂ , 7 ₄₃ towed wheel

7 ₅ drive

7 ₆ Track

7 ₆₁ , 7 ₆₂ tracks

8th

Reservoir route

8 ₁ caster line -> station track (S)

8 ₁₁ to 8 ₁₆ single drive

8 ₂ lead storage section -> garage (G)

8 ₂₁ to 8 ₂₆ single drive

9

Control line

10th

Conveyor rope

11

Maintenance station

12th

Storage room

B

Mountain trail

G

Direction of conveyance to the garage

S

Direction of conveyance to the station track

S ₁ , S ₂

Reservoir route

Claims (7)

1. A garage (1) for vehicles (5) of a continuos cable railway system, travelling slowly around the platform of a station track (2) and uncoupled from a conveyor cable (9), with several mutual parallel side tracks (3), preferably disposed in series in a widthwise direction, with a feeder track (4) between the station track (2) and the side tracks (3), with an outgoing switch (2₁) and with an ingoing switch (2₂) between the station track (2) and the garage loading and unloading feeder track (4), with a switch (7) between each side track (3) and the garage loading and unloading feeder track (4) respectively and with conveyor means conveying the vehicles (5) from the station track (2) along the feeder track (4) onto the side tracks (3) and conveying them back in the opposite direction, characterised in that it comprises a separate garage loading feeder track (4₁ respectively 4₂) working continuously in only one direction for loading the side tracks (3) from the station track (2) or for loading the station track (2) from the side tracks (3), respectively, and in that a crossing (6) controlled by two switch elements (6₁ and 6₂) is positioned between the feeder track (4₁) loading the station track (2) and the feeder track (4₂) unloading the station track (2).
2. A garage as claimed in claim 1, characterised in that a sliding switch (7₁ respectively 7₂) is positioned at the entrance and at the exit of the garage, respectively, comprising an arced-shaped conveyor (7₃) at the feeder track (4₁ respectively 4₂) movable between the different side tracks (3_(i)).
3. A garage as claimed in claim 1 or claim 2, characterised in that a accumulating track (8₁ respectively 8₂) with well defined stopping points for several vehicles (3) forming a buffer is positioned on each feeder track (4₁ respectively 4₂) between adjacent conveyor means.
4. A garage as claimed in claim 3, characterised in that selectively controllable motor means (8₁₁ - 8₁₆ respectively 8₂₁ - 8₂₆) in each accumulating track (8₁ respectively 8₂) define one stopping point, respectively.
5. A garage as claimed in claim 4, characterised in that the accumulating track (8₂) of the feeder track (4₂) charging the station track (2) is clocked by a controlling means (9) of the station track (2).
6. A garage as claimed in one of claim 1 to 5, characterised in that a connecting part at the crossing (6) permits the vehicles (5) to traverse directly between both feeder tracks (4₁ and 4₂).
7. A garage as claimed in claim 6, characterised in that the connecting part is formed by the switch elements (6₁ and 6₂) of the crossing.

Images