KR20170041169A - Obstacle and derailment detection device for a railway vehicle - Google Patents

Abstract

Such an obstacle and / or derailment detection device 10 for a railway vehicle may comprise:
- a beam (20) extending transversely to the railroad track and intended to receive impact,
At least one shock detection assembly (22) for supporting a beam (20), said at least one shock detection assembly (22) comprising at least one transducer for detecting movement of the beam (20) The assembly 22,
- a control unit (24) which can collect data from the detection unit (30) and communicate commands to the breaking unit (11) of the railway vehicle.
The detection device is characterized in that the detection unit (30) comprises at least two detection transducers for detecting the movement of the beam (20) in at least two angular offset directions.

Description

[0001] OBSTACLE AND DERAILMENT DETECTION DEVICE FOR RAILWAY VEHICLE [0002]

The present invention relates to an obstacle and derailment detection device for a railway vehicle, comprising:

- a beam extending transversely to the railroad track and intended to be impacted,

At least one shock detection assembly comprising at least one transducer and having a spring and a detection unit for detecting movement of the beam,

- a control unit capable of collecting data from the detection unit and communicating the command to the braking unit of the railway vehicle.

Such a device seeks to stop the railway vehicle by detecting any type of obstacle on the railroad track that may or may not be the cause of the derailment and warns the crew.

Normally, the safety of a railway vehicle is ensured by an obstacle detection sensor and a separate derailment sensor, and these sensors are arranged in different predefined positions.

To simplify its integration and deployment in railway vehicles, the application KR 2010.0082162 describes an obstacle and derailment detection device comprising a single beam that can move about an axis of rotation when an impact by an obstacle or rail occurs. The rotation is detected by a single sensor which emits a signal indicating the braking of the railway vehicle.

However, such a detecting device is not sufficiently satisfactory. The detection method of such a device having two functions grouped together can not distinguish between an impact due to an obstacle on a track and an impact due to derailment of a train.

It is an object of the present invention to obtain a detection device that can perform different emergency operations based on detection of an obstacle and / or derailment, and which is easy to integrate and place in a railway vehicle.

To this end, the invention relates to a device of the aforementioned type, wherein the detection unit comprises at least two detection transducers for detecting movement of the beam in at least two angular offset directions.

According to a particular embodiment of the invention, the device according to the invention comprises one or more of the following characteristics which are considered, alone or in combination with any technically possible combination:

- the spring is a leaf spring;

The plate pre-stresses the leaf spring;

The leaf spring comprises at least two branches oriented in at least two angular offset directions and applying a transducer;

At least two sides of the leaf spring are positioned across the detection transducer to detect movement;

- the transducer is an inductive transducer;

- the transducer is an electrical switch;

- The transducer is connected to the control unit by a separate electrical connection.

The present invention also relates to a method for detecting obstacles and / or derailments for railway vehicles comprising the following steps:

- providing a detection device according to any one of the preceding claims;

- rails and / or obstacles impacting the beam during derailment;

- the beam is moved in response to the impact so that the spring of the detection assembly is deformed;

Detecting the movement of the spring by the detection unit and transmitting at least one detection signal to the control unit;

- Activating the emergency braking procedure.

According to a particular embodiment of the invention, the process according to the invention comprises one or more of the following characteristics which are considered, alone or in combination with any technically possible combination:

Characterized in that it transmits at least one detection signal which identifies a component of the first transducer and a component of the second transducer during the impact, each electrical connection having at least one electrical connection from each transducer of the detection unit towards the control unit, As shown in Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be better understood by reference to the following detailed description, given purely by way of example and with reference to the accompanying drawings, in which: FIG.

1 is a schematic front view of a railway vehicle equipped with a detection device according to the present invention.
2 is a perspective view of an obstacle and derailment detection device for a railway vehicle in accordance with the present invention.
Figure 3 is a cross-sectional view of a detection device taken through a detection assembly in accordance with the present invention.

The railway car 1 is a vehicle moving on a railway track. This specifically includes the main body 2 and two bogies 4 that couple the axles 5 on the chassis 6, respectively.

The obstacle and / or derailment detecting device 10 is placed in front of the railway car 1 considered in the direction of movement of the railway car 1 and is filled in front of the chassis 6 of the view, as illustrated in Fig.

The detection device 10 detects any type of disturbance to the movement of the railway car 1 and determines the type of disturbance, that is, the obstacle or derailment, to the breaking unit 11 of the railway car 1, .

2, the detection device 10 includes a beam 20 supported by a chassis 6 and two detection assemblies 22 secured on opposite sides of the chassis 6. The detection device 10 is shown in Fig. The beam 20 extends from one rail to the other in a transverse direction along the entire view 4 of the railway car 1.

The detecting device 10 further comprises a control unit 24 of the breaking unit 11 to which it is connected.

The beam 20 has a profile suitable for blocking impacts by obstacles or rails. The beam 20 has a stiff or hollow section, a circular or polygonal shape. The beam 20 also has a straight profile or a curved profile.

The beam 20 includes a horizontal bottom surface 26, a vertical front surface 27, and a top surface 28 connecting the beam to each detection assembly 22, as illustrated in Figure 3, .

Each sensing assembly 22 inserted between the beam 20 and the chassis 6 is suitable for adjusting the height of the beam 20 relative to the railway track.

Each sensing assembly 22 includes two directionally deformable legs 29 angled offset from each other and separate first and second transducers (not shown) to detect deformation of the legs 29 deformable in both directions 31 and 32).

The two directions are advantageously perpendicular to each other and correspond to a direction perpendicular to the direction of travel of the vehicle.

The deformable leg 29 includes a spring 33 and a support 34 which is inserted between the beam 20 and the spring 33.

The support 34 includes a shoe that is fastened to a rack-mounted beam 20 that can cooperate with a complementary rack. The shoe is fixed in place on the spring 33 by a through bolt.

The spring 33 is tightly connected to one end of the chassis 6 and extends at the other end by a support 34.

The spring 33 is a mechanical part that can return to its initial state after experiencing a relatively significant deformation.

For example, as illustrated in Fig. 3, the spring 33 is a leaf spring. The leaf spring 33 is in an inverted U-shape with three consecutive branches oriented vertically to one another: the first branch 35 fastened to the chassis 6, the second horizontal branch 36, A third branch (37) parallel to the branch (35).

Alternatively, the spring 33 is a leaf spring with at least two branches, the branches are continuously oriented by an angle comprised between 1 [deg.] And 180 [deg.], And one end of the spring is fastened to the chassis 6.

To optimize the placement of the detection device 10, the detection unit 30 is advantageously placed in a space defined by the leaf spring 33.

The detection assembly 22 includes a plate 38 intended to pre-stress the leaf spring 33 and to form a rigid support for the detection unit 33.

The plate 38 has the form of a bracket comprising an adjacent branch 39 forming a right angle and an opposing branch 40 and the plate 38 having a rounded design at the intersection between the two branches. Ribs 42 are deployed between adjacent branches 39 and branches 40 facing each other.

The opposite branch 40 of the plate 38 is transverse to the first branch 35 of the leaf spring 33 fastened and held in the chassis 6 of the truck.

The adjacent branch 39 of the plate 38 defines an aperture 44 with a shoulder 46 having a bearing surface 48 that supports the third branch 37 of leaf spring 33. The third branch 37 inserted into the aperture 44 is thus pre-stressed by the bearing surface 48 to position the leaf spring 33 relative to the detection unit 30. [

The first transducer 31 is oriented vertically opposite to the second branch 36 of the leaf spring 33 and the second transducer 32 is oriented horizontally to the third branch 37 of the leaf spring 33 As shown in Fig.

The transducers 31 and 32 are preferably inductive transducers or electrical switches. The transducer 31 may emit a first detection signal indicative of vertical movement of the leaf spring 33. The transducer 32 may emit a second detection signal indicative of the horizontal movement of the leaf spring 33.

2, each transducer 31 and 32 is connected to the control unit 24 using corresponding electrical connections 64 and 65, respectively, which are specific thereto.

The control unit 24 includes a processor 66, an onboard memory 68, a database 70, a program 72 for associating a pre-recorded procedure with the received detection signal, and a control unit 24, (Not shown).

Each detected signal is collected and then compared by the processor 66 to a database 70 pre-recorded in the on-board memory 68. The database 70 includes an associated procedure for each impact condition on the beam 20 to notify the crew of past events. During the comparison, if the received detection signal corresponds to an impact requiring emergency braking, a corresponding control command is sent to the braking unit 11 to trigger emergency braking.

An obstacle and / or derailment detection method for a railway vehicle implemented using the device 10 in accordance with the present invention will now be described.

First, the railway vehicle 1 moving forward collides with the track itself after an obstacle or derailment placed on the track. Contact occurs in the beam 20.

The plate spring 33 is deformed with an orientation according to the impact angle of the obstacle or the track.

The movement of the spring 33 is detected by the transducers 31 and 32 of the detection unit 30. [ The detection transducers 31 and 32, which face the oriented branch of the leaf spring 33, each measure a separate movement along the horizontal and vertical components of the spring, and each corresponds to a corresponding detection Signal. Each detection signal is transmitted to the control unit 24 via separate electrical connections 64 and 65. [

The control unit 24 processes and analyzes the collected data related to each measured signal based on the database 70 pre-installed in the on-board memory 68.

For example, the detection signal is transmitted only from the at least one detection unit 30 with the vertical motion component from the transducer 31. [ The control unit 24 associates this detection signal with the deviation. The control unit 24 then applies a breaking procedure for derailment. In the case of a detection signal from at least one detection unit 30 having only horizontal components from the transducer 32, an obstacle is detected, and the control unit 24 relates the braking procedure to the obstacle.

If the signal is processed and associated by the control unit 24, the procedure is commanded to the braking unit 11.

The detection device 10 advantageously detects the rail or obstacle during the derailment by analyzing the motion component caused by the impact on the detection beam 20.

Since the at least two motion detection transducers 31 and 32 are arranged in at least two angular offset directions, the detection device 10 measures and distinguishes the impacts from the impacts and / or deviations resulting from the obstacles proper. Advantageously, the detection device 10 adapts the emergency braking procedure to the information detected by the detection unit 30.

Alternatively, the detection device 10 includes a detection unit capable of transmitting signals wirelessly, for example, waves.

Alternatively, the detection device 10 is connected to a remote monitoring network program that manages the entire railway network. This information can be communicated in real time to anticipate the departure, thus bypassing the dead zone.

Claims (10)

An obstacle and / or derailment detection device (10) for a railway vehicle,
- a beam (20) which is transversely extended to the railway track and is intended to be impacted,
- at least one shock detection assembly (22) for supporting the beam (20), the at least one shock detection assembly (22) comprising at least one transducer for detecting movement of the beam (20) At least one of the shock detection assemblies (22),
- a control unit (24) capable of collecting data from said detection unit (30) and communicating a command to the breaking unit (11) of said railway vehicle (1)
Characterized in that the detection unit (30) comprises at least two detection transducers (31, 32) for detecting movement of the beam (20) in at least two angular offset directions. The detection device according to claim 1, wherein the spring (33) is a leaf spring. The detection device according to claim 2, wherein the plate (38) is adapted to pre-stress the leaf spring (33). The detection device according to claim 2 or 3, wherein the leaf spring (33) comprises at least two branches oriented in at least two angular offset directions and to which the transducer (31, 32) is applied. The detection device according to claim 4, wherein at least two sides of the leaf spring (33) are positioned across the detection transducer (31, 32) to detect the movement. The detection device according to any one of claims 1 to 5, wherein the transducer (31, 32) is an inductive transducer. The detection device according to any one of claims 1 to 5, wherein the transducer (31, 32) is an electric switch. The detection device according to any one of claims 1 to 7, wherein the transducer (31, 32) is connected to the control unit (24) by a separate electrical connection (64, 65). A method for detecting obstacles and / or derailments to a railway vehicle,
The following steps:
- providing the detecting device (10) according to any one of claims 1 to 8;
- the rails and / or obstacles impacting the beam (20) during the derailment;
- moving the beam (20) in response to the impact to deform the spring of the detection assembly (22);
- detecting the movement of the spring (33) by the detection unit (30) and transmitting at least one detection signal to the control unit (24);
- activating an emergency braking procedure. The method of claim 9 further comprising transmitting at least one detection signal that identifies a component of a first transducer (31) and a component of a second transducer (32) during the impact, wherein each electrical connection 64, 65 each transmit at least one detection signal from each transducer (31, 32) of the detection unit (30) toward the control unit (24).

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