奥地利专利AT516852A4 Cable guide for wagon transfer lines

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专利摘要:
Cable guide for wagon transfer lines (1) on a rail vehicle (A) for guiding the wagon transfer lines (1) to a further coupled rail vehicle (B), wherein a plate (2) in the front roof region of the rail vehicle (A) is arranged, and at least one guide bracket ( 3) is connected to the plate, wherein between the plate (2) and the guide bracket (3) there is a gap in which the car transition lines (1) are secondarily displaced in the vehicle transverse direction displaced
公开号:AT516852A4
申请号:T50229/2015
申请日:2015-03-23
公开日:2016-09-15
发明作者:Thomas Krivan
申请人:Siemens Ag Österreich；
IPC主号:

专利说明:

Confession
Cable guide for wagon transfer lines.
Technical area
The invention relates to a cable guide for car transition lines.
State of the art
If individual rail vehicles are put together to form a train, the individual cars are usually connected with a large number of electrical, pneumatic, optical, etc. cables to the next coupled vehicle or locomotive. This car transition lines can be carried out quickly detachable, as it often changed
Train configurations (eg, in passenger cars) is required, or these Jumper Cable (Jumper Cable) can only be separated in a maintenance operation. The latter version is particularly suitable for firmly assembled and only very rarely separate trains, such as subways. The spatial arrangement of the car transition lines is carried out in accordance with the available space, an arrangement below, or laterally of a passenger transition is often used. Car transfer lines can also be arranged above a passenger crossing; this embodiment is used in particular in trams, since these rail vehicles often have electrical devices arranged on the roof. Become
Carriage transfer lines arranged above a passenger crossing, it must be ensured that the lines do not touch the passenger crossing. This is achieved according to the prior art by means of rotatable cable hangers in the form of a gallows-like construction. However, these cable hangers have a considerable vertical space requirement.
Presentation of the invention
The invention is therefore based on the object to provide a cable guide for car transition lines to rail vehicles, which allows a cable run between coupled rail vehicles in the roof area with very little vertical space requirement.
The object is achieved by a cable guide for car transition lines with the features of claim 1. Advantageous embodiments are the subject of the subordinate claims.
According to the basic idea of the invention, a cable guide for car transfer lines is constructed on a rail vehicle for guiding the car transfer lines to another coupled rail vehicle, wherein a plate in the front roof region of the rail vehicle is arranged, and a guide bracket is connected to the plate, wherein between the plate and the Guide bracket consists of a gap in which the car transition lines are arranged powerless displaceable in the vehicle transverse direction.
As a result, the advantage is achieved, having to provide a very small vertical space requirement and thereby be able to ensure a safe guidance of the cable in each possible the rail vehicle cornering.
In particular, the passenger compartment in the transition region can be designed with a greater interior height for a given clearance profile of the vehicle than in known solutions.
According to the invention, a plate is provided, which is arranged horizontally in the frontal roof area of the rail vehicle and which in part into the transition area, i. protrudes beyond the front wall of the rail vehicle. This plate is connected to at least one guide bracket, which is arranged on the upper side of the plate. This creates a slot-shaped space between the plate and the guide bracket in which run the car transition lines. The carriage transition lines are powerless to move in this slot-shaped space, for which purpose the cable diameter is to be selected smaller than the vertical distance between the top of the plate and the underside of the guide bracket. In such a way, the car transition lines can assume an optimal position for each cornering or lowering travel possible for the rail vehicle, in which they neither buckle nor touch the actual transition between the vehicles nor are they tensioned (loaded with tension). The length of the trolley transfer lines should be such that all permissible relative positions of the rail vehicles to each other meet the conditions mentioned.
A significant advantage of the present invention is that no vertically extending cable suspensions are required and the associated pivot bearings can also be omitted.
A further embodiment of the invention provides to guide the cables in a tubular envelope. As a result, the advantage can be achieved to ensure better protection of the cable (car transition lines). Furthermore, the risk of jamming of the lines can be prevented in the case of a plurality of simultaneously guided car transfer lines by providing the same diameter of the tubular casings. This is particularly advantageous if the actual lines each have very different diameters.
The tubular sheath may extend over the entire length of the carriage transition lines, i. from an attachment point of the first carriage to the attachment point on the second coupled carriage. As a result, a particularly good protection of the lines, in particular against UV light, ice, pollution or flying sparks is given by pantographs. If this protection is not required, the cables can also be equipped with so-called anti-chafing protectors. These anti-chafing protectors are short tubular sheaths, which are arranged at intervals on the car transfer lines and thereby form the contact surface to the plate, whereby the abrasion load of the cable itself is repealed or substantially reduced.
The present invention is applicable not only to electrical lines but also to all other fluids that can be conducted in flexible lines or non-material media (optical lines).
In a further development of the invention, it is recommended that at least partially equip the surfaces of the plate or the guide bracket coming into contact with the car transition lines or the tubular sheaths with a reibwertmindernden surface. In this case, friction-reducing coverings can be applied, wherein, for example, polytetrafluoroethylene is applicable, which can typically be arranged in plate form at the contact points. As a result, the friction between the carriage transition lines, or their tubular sheaths and the plate or the guide bracket can be significantly reduced.
A further advantageous embodiment provides to equip the plate with an upwardly angled section oriented in the direction of a coupled rail vehicle. As a result, the advantage can be achieved to improve the leadership of the car transition lines, with a sagging and touching the car transition is reliably prevented.
In vehicles intended for use in areas with expected snowfall or ice accumulation, appropriate countermeasures must be taken to prevent clogging of the clearance between the guide bracket and the plate, as this will result in an unallowable tensile load on the
Carriage transfer lines can lead if the required free movement of the lines is limited.
This can be done for example by arranging recesses (holes) in the guide bracket, through which the snow can escape from the space between the plate and the guide bracket. For this purpose, in particular at the horizontal ends of the guide bracket to provide a suitable opening. Another way of preventing the ice and snow approach is to make the guide bracket much longer, for example, over the entire length of the plate. In this way, the free space is in the form of a slit-shaped tunnel, in which only at the point of the opening in the direction of a coupled vehicle there is the possibility of the entry of snow when the opposite opening is closed.
Brief description of the drawings
They show by way of example:
Fig.l Wagon transfer lines View from above.
Fig.2 car transition lines, oblique view.
Embodiment of the invention
Fig.l shows by way of example and schematically two coupled rail vehicles A, B which are connected by means of car transition lines 1. Two passenger rail vehicles A, B are shown coupled together, wherein a typical passenger transition 6, the two rail vehicles A, B connects. The rail vehicles A, B are shown in a view from above, in each case a Wagenkastenrohbau is shown. In the frontal roof area of both
Rail vehicles A, B, a plate 2 is arranged in each case, which extends over a part of the roof area and projects over a part of the passenger transition 6. The plate 2 is in each case connected to the rail vehicle A, B and has a vertical distance to the passenger transition 6. Wagon transfer lines 1 extend between detachable connection points 5 of the first rail vehicle A to detachable connection points 5 of the second rail vehicle B, the car transition lines 1 are thus easily separated. By way of example, three carriage transition lines 1 are shown. The car transition lines 1 are each on the plate 2 and extend freely suspended between these plates 2. Here is the length of
Wagon transfer lines 1 are dimensioned so that they remain at a distance to each other to the transition 6 as well as always relaxed at each permissible relative position of the rail vehicles A, B, i. never loaded on train. On the plate 2, two guide brackets 3 are arranged in each exemplary embodiment, which specify a clearance between the plate 2 and the guide bracket 3, in which the car transition lines 1 are guided. In this space, the car transition lines 1 are powerlessly displaced, so that they can take each other without impairing any permissible relative position of the rail vehicles A, B, the naturally resulting position. The car transition lines 1 can be guided in a tubular enclosure, whereby the risk of damage is reduced.
2 shows by way of example and schematically the rail vehicles A, B from FIG. 1 in an oblique view.
Here is a reibwertmindernder coating 4 in the area of
Support surface of the carriage transition lines 1 arranged on the plate 2. Furthermore, in this oblique view in the direction of the respectively coupled rail vehicle A, B upwardly angled portion of the plate 2 is shown.
List of designations 1 Wagon transfer cable 2 Plate 3 Guide bracket 4 Friction-reducing lining 5 Detachable connection 6 Passenger transition A First rail vehicle B Second rail vehicle

权利要求:
Claims (6)
[1]
claims
1. Cable management for car transition lines (1) on a rail vehicle (A) for guiding the car transition lines (1) to another coupled rail vehicle (B), characterized in that a plate (2) in the front roof region of the rail vehicle (A) is arranged, and at least one guide bracket (3) is connected to the plate, wherein between the plate (2) and the guide bracket (3) there is a gap in which the carriage transition lines (1) are arranged to be displaceable in the vehicle transverse direction.
[2]
Second cable guide for car transition lines (1) on a rail vehicle (A) according to claim 1, characterized in that the car transition lines (1) are guided in their entire course in a tubular sheath.
[3]
3. Cable management for car transition lines (1) on a rail vehicle (A) according to claim 1 or 2, characterized in that the with the car transition lines (1) or the tubular sheaths coming into contact surfaces of the plate (2) or the guide bracket (3 ) are at least partially equipped with a reibwertmindernden surface (4).
[4]
4. Cable management for car transition lines (1) on a rail vehicle (A) according to one of claims 1 to 3, characterized in that all in the between the plate (2) and the guide bracket (3) guided tubular sheaths have the same outer diameter.
[5]
5. cable guide for car transition lines (1) on a rail vehicle (A) according to one of claims 1 to 4, characterized in that the plate (2) oriented in the direction of a coupled rail vehicle (B), upwardly angled portion comprises.
[6]
6. Rail vehicle (A), comprising at least one end of the car with a cable guide for carriage transition lines (1) according to one of claims 1 to 5.

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同族专利:

公开号 | 公开日

EP3237240B1|2020-07-01|

EP3237240A1|2017-11-01|

AT516852B1|2016-09-15|

PL3237240T3|2020-11-30|

ES2817330T3|2021-04-07|

ES2759398T3|2020-05-08|

CN107405969A|2017-11-28|

CN107405969B|2020-08-11|

WO2016150852A1|2016-09-29|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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EP0842079A1|1995-07-28|1998-05-20|Duewag Aktiengesellschaft|Vehicle, in particular rail vehicle|

EP1043207A1|1999-04-08|2000-10-11|ALSTOM LHB GmbH|Device for transferring control lines between two coupled wagons of a multiple-wagon train, especially of an articulated train|

DE102010011903A1|2010-03-18|2011-11-17|Man Truck & Bus Ag|Holder for holding e.g. electrical lines, at joint bus, has line, flexible retaining strap and line attaching unit whose relative movement is not enabled by pivot hinge-based shift of retaining strap|

DE4323540C1|1993-07-14|1994-12-08|Siemens Ag|Electric coupling device for vehicles|

DE19705895C2|1997-02-15|2001-05-17|Daimler Chrysler Ag|Rail vehicle|

US7485808B2|2005-04-28|2009-02-03|Airbus Deutschland Gmbh|Holder for attaching electrical line bundles and pipes etc. to carriers and boards|

DE102005019876B4|2005-04-28|2010-04-29|Airbus Deutschland Gmbh|Mobile storage of wire bundles aircraft with a variety of movable bearings and using a variety of movable bearings|

DE102007041663A1|2007-09-03|2009-03-05|Kabelschlepp Gmbh|Device for guiding lines, hoses or the like|

DE202010009722U1|2010-07-01|2010-10-14|Krones Ag|Cable and cable routing|

JP5568024B2|2011-01-14|2014-08-06|近畿車輌株式会社|Wiring structure between vehicle bodies of railway vehicles and wiring support device used therefor|WO2018103901A1|2016-12-05|2018-06-14|Siemens Aktiengesellschaft|Arrangement for passing lines between carriages of a vehicle|

FR3066987B1|2017-05-31|2019-07-26|Alstom Transport Technologies|RAILWAY VEHICLE COMPRISING AN OPTIMIZED ELECTRIC DISTRIBUTION NETWORK|

EP3470296B1|2017-10-13|2021-09-01|Tyco Electronics UK Ltd|High voltage interconnection system|

PL3569426T3|2018-05-17|2021-08-09|HÜBNER GmbH & Co. KG|System for guiding lines in a vehicle, in particular in a vehicle with movable vehicle parts connected with one another|

法律状态:
2019-09-15| PC| Change of the owner|Owner name: SIEMENS MOBILITY GMBH, AT Effective date: 20190814 |

2021-12-15| HC| Change of the firm name or firm address|Owner name: SIEMENS MOBILITY AUSTRIA GMBH, AT Effective date: 20211108 |

优先权:

申请号 | 申请日 | 专利标题

ATA50229/2015A|AT516852B1|2015-03-23|2015-03-23|Cable guide for wagon transfer lines|ATA50229/2015A| AT516852B1|2015-03-23|2015-03-23|Cable guide for wagon transfer lines|

ES16710458T| ES2817330T3|2015-03-23|2016-03-18|Cable guide for transition lines between wagons|

CN201680017846.3A| CN107405969B|2015-03-23|2016-03-18|Cable guide for a car transition route|

PL16710458T| PL3237240T3|2015-03-23|2016-03-18|Cable guide for carriage transition lines|

PCT/EP2016/055960| WO2016150852A1|2015-03-23|2016-03-18|Cable guide for carriage transition lines|

EP16710458.7A| EP3237240B1|2015-03-23|2016-03-18|Cable guide for carriage transition lines|

ES16206676T| ES2759398T3|2015-03-23|2016-12-23|Spice storage container with an overlapping element of the first type or an overlapping element of the second type|

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