AT518852A2 - Data transmission by cable car nacelle - Google Patents

Abstract

Cableway with at least one gondola (111); at least one data carrier (113), at least one stationary device (115) for sending data to the data carrier (113) and at least one stationary device (119) for receiving data from the data carrier (113). The data carrier (113) is mounted in the nacelle (111) or on the nacelle (111).

Description

Data transmission by cable car nacelle

The invention relates to a cable car according to the preamble of claim 1 and a nacelle for use in such a cable car.

The operation of a cable car often requires the transmission of data from a mountain station to a valley station. The data may be about operational data of the cable car or about Wefferdefen.

Usually the data is transmitted by radio from the Bergstetion to the valley station. This requires a transmitter in the mountain station and a receiver in the valley station. Larger cable cars, however, have to bridge large distances between the transmitter and the receiver. Transmitters with a correspondingly high transmission power are ailerding expensive and expensive to install. In addition, the energy consumption is very high.

The document EP 1970487 Bl proposes to transmit data from the mountain station to the valley station by means of ücbwellenleitern, which are integrated in a supporting cable of the cable car. Although this reduces your energy consumption, however, the production of the ropes becomes more expensive. In addition, the risk of damage to the glass fibers due to the heavy load on the rope during operation is very high.

The invention is based on the object, bypassing the known from the prior art solutions disadvantages to make a cable car available. In particular, it should be possible to transfer data from a mountain station to a valley station with little effort.

This object is achieved by a cable car according to claim 1 and a (Bendel according to claim 8, Preferred developments are included in the subclaims.

A cableway may be defined as a device comprising a first sheave, a second sheave, a rope and at least one nacelle, the rope forming a self-contained loop, the rope running around the first and second sheaves such that rotation of the rope Rotation of the first and second pulley is thus associated with a movement of the nacelle, this is the path of the nacelle given by the statement of the rope.

At least one of the two sheaves is killed. This is usually done by an electric motor which uses a gearbox to set the corresponding pulley in rotation.

The cable car according to the invention comprises at least one data carrier, at least one stationary device for transmitting data to the data carrier and at least one stationary device for receiving data from the data carrier. The data carrier is designed to store the data transmitted by the device for sending data to the data carrier and to read out these data so that they can become the device for receiving data transmitter,

According to the invention, the data carrier is mounted in the nacelle or on the nacelle. The gondola is thus provided with the disk. In particular, the data carrier is fixed in the nacelle or on the nacelle. This fixation is preferably carried out so that the disk and the gondola are immobile relative to each other.

The nacelle mounted in the nacelle or on the gondola causes the nacelle to peter out as a device for transmitting data, making obsolete dial-up communication obsolete. Existing cable cars can be easily supplied with such a data carrier and corresponding devices for sending and receiving data retrofit.

In a preferred development, the data is transmitted by the device for sending data to the data carrier by means of a first radio signal.

The transmitted data is stored on the data carrier, a second radio signal is used to transmit data previously read from the data carrier to the device for receiving data.

The disk best! according to our own energy supply. Statues refer! he his operating energy from the first radio signal and / or the second radio signal. This can be achieved, for example, by using a passive RFID or BLE tag as data carrier.

A data carrier without its own power supply can be integrated in a particularly simple manner in existing cable cars. It is only necessary «to install the data carrier in the nacelle or on the nacelle, Further modifications of the cable car are not required. In a further preferred development, the cable car includes a mountain station and a valley station. These are each buildings, in which one of the two pulleys is housed. The Bergsiailon distinguishes itself from the valley station in that its height is greater than the height of the valley station relative to the same reference point relative to any selected reference point,

According to the invention, the device for transmitting data in the mountain station and the device for receiving data in the valley station is accommodated. The gondola provided with the data carrier is now able to transport data from the mountain station to the valley station. A dial-up route at the mountain station is not required for this purpose.

The data is sent in a further preferred embodiment of the device for sending data to the disk while the gondola passes through the mountain station, d h, passes through. The data is thus sent between a time in which the nacelle enters the Bergstetion and a time in which the gondola leaves the mountain station.

Similarly, the data is sent from the data carrier to the device for receiving the data and received by the device for receiving data as the gondola passes the valley station, i. traverses. The data is thus received between a time; in which the gondola in the valley station einiährl and at a time; in which the gondola leaves the valley station.

The cable car preferably has at least one device for measuring at least one physical variable. A physical quantity is a quantifiable property of a physical object. In the present case, for example, a physical parameter of the rope pulley located in the Bergfabrik, a gearbox and / or a motor for driving the cableway, will also be measured out. It is also conceivable; to measure a meteorological size.

The measured physical quantity is, according to the instructions, coded by means of at least one device for generating data. The data thus coded is transmitted to the data carrier by means of the device for sending data.

A preferred exemplary embodiment of the invention is shown in the figures eargesieiil Matching reference numerals designate the same or functionally identical features, in detail shows:

Fig. 1, a Seiibahngondel in a serg station; and Flg, 2: the Seiibahn gondola in a valley station,

A cable car shown in FIG. 1 has a mountain station 101 and a valley station 103. A first cable disc 105 is rotatably mounted in the mountain station 101. Accordingly, a second pulley 107 is rotatably supported in the valley station 103. Between the two pulleys 105, 107 a rope 109 is stretched. The cable 109 is guided in grooves, which have the pulleys 105, 107 each at its outer periphery.

Attached to the cable 109 is a nacelle 111. The nacelle 111 is provided with a data carrier 113. This serves to transport data from the mountain station 101 to the valley station 103.

The data carrier 113 is described with data which a transmitter 115 transmits via a data signal 117 to the data carrier 113, while the gondola 111 is located in the mountain station 101.

The gondola 111 drives, with the data carrier 113 described with data, to the valley station 103. In the valley station 103, there is a receiver 113.

As soon as the nacelle 113t is in the valley station 1G3 as shown in FIG. 2, the data stored on the data carrier 113 can be read out and transmitted to the receiver 119 via a data signal 201.

Designation 101 Mountain Station 103 Ta [station 105 first sheave 107 second sheave 109 rope 111 gondola 113 data carrier 115 transmitter 117 data signal 119 receiver 201 Data signal

Claims (6)

ESteDiMS.Sfy.Qllt 1, cable car with at least one gondola (111); at least one data carrier (113), at least one stationary device (115) for sending data to the data carrier (113) and at least one stationary device (119) for receiving data from the data carrier (113); characterized in that the data carrier (113) is mounted in the nacelle (111) or on the nacelle (1115). 2, cable car according to claim 1; characterized in that the data is transmitted by means of a first radio signal (117) from the device (115) for sending data to the data carrier (113); wherein the data is to be received by means of a second radio signal (201) from the data carrier (113) to the device (119); Data is transmitted; wherein the data carrier (113) receives power from the first radio signal (117) and / or the second radio signal (201), 3, cable car according to one of the preceding claims; characterized by a mountain station (101) and a valley station (103); the apparatus (115) for sending from the east in the mountain station (101) and the device (119) for receiving data in the valley are attached 4, cable car according to the preceding claim; characterized in that the device (115) for transmitting data is exhausted to send the data to the data carrier (113) while the gondola (111) passes the serg station; wherein the device (119) for receiving data is adapted to receive the data from the data carrier (113) while the gondola (111) passes the valley station (103). 5, cable car according to one of the preceding two claims; characterized by at least one device for generating data in which the value of at least one physical quantity is coded; wherein the generated data is transmitted to the data carrier (113) by means of the device (115) for sending data. 6. gondola 11) for use in a cable car according to one of the preceding claims; wherein the data carrier (113) is mounted in the nacelle (111) or on the nacelle (111)