The invention relates to a transport installation with an aerial cable for moving along a path, the installation comprising a maintenance vehicle provided with:
A transport installation with an aerial cable conventionally includes a plurality of transport vehicles suspended to at least one main aerial cable which can be an hauling cable, a suspending cable or a suspending-hauling cable. The vehicles generally move along two paths, i.e. a forward path and a backward path. Such an installation can consist of a conventional gondola lift in which all the transport vehicles move along the same closed loop trajectory, or aerial tramway, or even by an installation of the type ‘backwards and forwards’, or of the type ‘backwards or forwards’.
Conventionally, the aerial cable enables the vehicles to run from a station of departure to a station of arrival. Between these stations, the cable is kept at a distance from the ground by means of pylons which in particular enable to adapt the slope of the cable to the landscape the installation is running across.
Maintenance operations can be necessary at the rollers of these pylons. Consequently, there is a need to reach the top of these pylons. For that, the pylons are in general provided with a ladder leading to a gangway at the top of the pylons, and arranged to give access to the rollers.
A maintenance operation using a ladder is tiresome, and some pylons are not easy of approach.
To solve the problems of access to pylons, specific maintenance vehicles have been developed which are able to move though coupling with the mobile cable.
The pylons often comprise, as illustrated in
The object of the invention consists in preferably carrying out an installation provided with a vehicle facilitating the maintenance operations for the installation at the pylons.
This objective is reached in that the maintenance vehicle comprises a guiding rod fixed to the gangway at one of its ends, and connected to the cable at its opposite end, and in that the gangway has a structure extending in the direction of displacement of the maintenance vehicle, and is pivotingly mounted to the suspending rod so as to form an articulated bascule.
According to a development, the gangway comprises steps arranged to remain horizontal whatever the pivoting angle of the gangway relative to the horizontal.
According to an embodiment, the gangway comprises two elongated frames extending in the direction of displacement of the maintenance vehicle, the elongated frames being pivotingly mounted on the suspending rod respectively according to two parallel pivoting axes shifted along the suspending rod, said frames being arranged to form a deformable parallelogram according to the pivoting angle of the gangway relative to the suspending rod.
According to an implementation of the embodiment, the gangway comprises spacers, each of them including a first end pivotingly mounted on two opposite longitudinal struts of one of the frames and a second end pivotingly mounted on two opposite longitudinal struts of the other frame.
According to an improvement, the spacers comprise two end spacers, each of them being arranged at a longitudinal end of the gangway and intermediate spacers, each of them being provided with a plate for forming a step, the guiding rod being fixed to one of the end spacers.
According to a particular implementation of the installation, the suspending rod comprises a main rod extending through both frames, two fasteners being fixed on both sides of the main rod, each fastener cooperating, by means of associated pivot connections, with a longitudinal strut of each frame.
According to an improvement, the gangway is provided with a railing able to be in an outspread state forming a guardrail, and in a storage state in which the railing is retracted in the direction of a platform of the gangway.
Other advantages and features will more clearly arise from the following description of particular embodiments of the invention given as non-limitative examples and represented in the annexed drawings, in which:
The installation, described hereafter, defers from the prior art in that it enables to increase the workspace for a maintenance operator at the gangway.
In
The gondola 4 is intended to carry in a protected way one or more maintenance operators during the displacement of the maintenance vehicle 1. For that, the gondola 4 preferably comprises a guardrail 10.
The maintenance vehicle 1 moreover comprises a gangway 6 mounted on the suspending rod 5. This gangway 6 has a structure extending in the direction of displacement of the maintenance vehicle 1. In other words, the gangway 6 is elongated in the direction of displacement of the maintenance vehicle 1. This elongated shape allows the maintenance operator inter alia to have a larger workspace compared to the prior art and to access to several rollers 8, or even all of them, of a pylon 3 without moving the maintenance vehicle 1 when it is stopped at a pylon 3 (
The elongated shape of the workspace involves on the one hand a risk of contact between the gangway 6 and the cables 2 in particular at the time of the passage by a pylon 3 which can change the slope of the cable 2 according to the evolution of the landscape. In addition, in order to work comfortably at a pylon 3, it is preferable that the gangway should always be at a constant height relative to the rollers 8 during the displacement of the operator along the gangway 6. When the gangway 6 is horizontal, and the cables 2 supported by the rollers 8 is oblique, it is impossible for a maintenance operator standing on the gangway 6 to work at a constant height.
Consequently, there is a need for adapting the slope of the gangway 6 to the slope of the cable 2. To meet this need, the vehicle comprises a guiding rod 11 fixed to the gangway 6 by one of its ends. The other end of the guiding rod 11, opposite the end fixed to the gangway 6, is connected to the cable 2. Preferably, the guiding rod 11 is connected to the cable 2 by an associated fastener, preferably in a fixed or disengageable way. The gangway 6 is pivotingly mounted on the suspending rod 5 so as to form an articulated bascule. Thus, by means of the guiding rod 11, the gangway 6 will be directed according to the slope of the cable 2, which will reduce the future risks to hit the cable 2 where there is a change in slope of the cable 2, and will allow an easier access to the rollers 8 of the pylon 3 (
The gangway 6 is preferably arranged between the gondola 4 and the fastener 9.
In this text, under ‘horizontal’, it is preferably understood a plane perpendicular to the vertical, the vertical being parallel to the direction of the earth, gravity given for example by a plumb line.
According to an improvement enabling to facilitate the work of the maintenance operator 12 and to ensure his/her safety, the gangway 6 comprises steps 13 arranged to remain horizontal whatever the pivoting angle of the gangway 6 relative to the horizontal. As illustrated in
In
According to a variant of implementation illustrated in
According to a particular implementation notably shown in
The spacers 15a, 15b, 15c can comprise two end spacers 15a, 15c, each of them being arranged at a longitudinal end of the gangway 6, and intermediate spacers 15b, each of them being provided with a plate for forming a step 13. The plate is preferably perpendicular to the plane including the pivoting axis of the first end and the second end of the intermediate spacer 15b. The guiding rod 11 is preferably fixed to one of the end spacers 15a, 15c. In
According to an implementation, the suspending rod 5 comprises a main rod extending through both frames 14a, 14b. In other words, the main rod is secant to the planes formed by the frames 14a, 14b and extends between both longitudinal and transverse struts of each frame. As illustrated in
As illustrated in
Preferably, the gangway 6 is not located under the cable 2 but is shifted from the cable 2 relative to the vertical so as to facilitate the access to the rollers 8 of a pylon 3 on which the cable 2 will be supported. Thus, in
In order to improve the security of the maintenance operator 12 illustrated in
Preferably, the maintenance vehicle comprises control means enabling to go from the outspread state into a retracted state of the railing 18 and conversely. These control means are accessible from the gondola 4. Thus, before going up onto the gangway 6, the maintenance operator can outspread the railing 18.
In
The control means can be implemented by a cylindrical rod 19 extending laterally through the gangway 6. The cylindrical rod 19 comprises an actionable end of the gondola 4 so as to rotate the cylindrical rod 19, and comprises at its end opposite the gondola 4 a body 20 fixed to the rod 19, and extending perpendicular to the cylindrical rod 19. This body 20 comprises a pin 21 at its end distal from the rod 19. The pin 21 slides in a lumen 22 in a return arm 23 fixed to one of the struts 18b of the railing. The return arm 23 is arranged so that the rotation of the cylindrical rod 19 causes a movement of the pin 21 which moves in the lumen 22 in the return arm 23 while transmitting to the return arm 23 a movement causing the outspread of the railing 18 when the latter is in the retracted position, or the storing of the railing 18 when the latter is in the outspread position.
Of course, the man skilled in the art is able to implement any kind of railing able to be outspread and retracted with the help of remote control means.
Preferably, the distance between the gangway steps and the cable are adjusted so that the cable is on the level of the maintenance operator when he/she is on the gangway.
The gangway 6 can moreover comprise tools. In
As in the prior art, the installation can be of any type. Preferably, between an station before and a station after the installation, the vehicle is fixed to the cable 2 which is a hauling cable.
Number | Date | Country | Kind |
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11 00875 | Mar 2011 | FR | national |
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