RAILWAY BRAKING SYSTEM FOR A RAILWAY VEHICLE AND METHOD OF BRAKING A RAILWAY VEHICLE COMPRISING SUCH

专利摘要:
A rail braking system (1) having a first pneumatic delivery device (51) formed by a first dispenser having a single inlet port (54a, b) connected to an agent supply source pneumatic pressure device (73) and a single outlet port (55a, b) connected to a parking brake chamber (25) to supply or not a parking brake (7) with a second pneumatic pressure agent to respectively put it into rest and work configurations, and a second pneumatic delivery device (61) formed by a second dispenser provided with a single inlet port (64a, b) connected to said supply source and a single outlet port (65a, b) connected to a service pressure chamber (13) for supplying a service brake (6) with a third pneumatic pressure agent whose pressure value is determined, so to apply a braking effort determined when said parking brake is in its working configuration.
公开号:FR3048400A1
申请号:FR1651829
申请日:2016-03-04
公开日:2017-09-08
发明作者:Candice Crochu；Claudino Goncalves；Jeremie Sales
申请人:Faiveley Transport Amiens SAS；
IPC主号:

专利说明:

FIELD OF THE INVENTION The invention relates to the field of braking of railway vehicles.
It relates more particularly to railway braking systems for railway vehicles provided with a service brake and a parking brake configured to act on a braking linkage.
It also relates to braking processes of railway vehicles comprising such braking systems.
BACKGROUND TECHNOLOGY
Railway vehicles are generally equipped with service brake cylinders having a piston movable under the effect of a fluid under pressure, the movement of this piston causing a braking action such as the clamping of a brake disc between two linings , or the direct pressure of a soleplate against a wheel of the vehicle.
These brake cylinders also generally comprise a parking or emergency actuator which is activated in the event of pressure loss of the pressurized fluid and / or in case of voluntary emptying or leakage of the pneumatic system. This actuator, also called parking brake, provides braking through the force of a spring replacing the force of the fluid. Once this parking brake is activated, the brake remains permanently tight.
European patent application EP 2 154 040 discloses a rail braking system provided with a parking brake actuator coupled to a rail service brake cylinder. This brake cylinder comprises a body and a piston movable relative to the body to act on the braking linkage via a push rod.
The brake cylinder also includes a pressure chamber defined by the piston and the body and which is connected by a conduit to a source of pneumatic pressure medium to put the piston into a service braking position.
The parking brake has a body which is distinct from the body of the brake cylinder. The body of the parking brake has an opening opposite the piston of the service brake cylinder, which opening slidably receives a thrust sleeve fitting in this opening in a sealed manner.
The parking brake also comprises a piston movably mounted in a cylinder integral with the body and delimiting with the body a parking brake pressure chamber. This parking brake pressure chamber is connected to another source of pneumatic pressure medium via a conduit. The piston has in its center an orifice through which the thrust sleeve passes.
The parking brake further comprises springs which constantly urge the piston of the parking brake to a so-called low position where the parking brake is considered to be in a working configuration.
To actuate the parking brake when the piston of the service brake cylinder is in the service braking position, the pressure chamber of the parking brake (previously filled with the pneumatic pressure agent) is drained and the brake springs of parking then act on the piston of the parking brake, which drives the sleeve until the latter bears against the piston of the service brake cylinder.
The pressure chamber of the service brake cylinder can then be drained since the parking brake is actuated.
The force applied by the parking brake on the service brake piston is directly a function of the force developed by the springs. This force is of course a function of the stiffness and elongation of these springs.
With this braking system, the force applied by the service brake cylinder piston when the parking brake is actuated and the service brake cylinder is drained on the brake linkage is often less than the force applied by that brake system. same piston when in service braking position.
OBJECT OF THE INVENTION The invention relates to a braking system for a railway vehicle, having improved performance compared with the braking systems of the prior art mentioned above, while being simple, convenient and economical. The invention thus provides, in a first aspect, a rail braking system for a railway vehicle with brakes with at least one lining or at least one sole, comprising a body, a braking linkage configured to act on at least one said brake, a service brake having a brake piston movable relative to said body to act on said brake linkage and defining with said body a service brake pressure chamber configured to be powered by a first source of pressure agent pneumatic means for putting said braking piston in a service braking position, and a parking brake configured to act on said braking piston of said service brake and having a working configuration and a rest configuration; said parking brake having a movable locking device with respect to said body for acting on said brake piston and admitting a first position and a second position in which said locking device is configured to immobilize said brake piston in a service braking position said parking brake then being in working configuration, and a control device movable relative to said body, defining with said body a parking brake pressure chamber configured to be fed by a second source of pneumatic pressure medium, and assuming a lock position wherein said controller is configured to maintain said lock in its second position; and said rail braking system further comprising a first dedicated pneumatic delivery device which is formed by at least a first dispenser provided with a two-position movable drawer, a single inlet port connected to a power source in pneumatic pressure agents, a single outlet port connected to said parking brake pressure chamber for supplying it with said second pneumatic pressure agent or draining it to put said parking brake respectively in its parking configurations. rest and work, and an orifice opening to the atmosphere; and a second dedicated pneumatic dispensing device which is formed by at least a second dispenser provided with a two-position movable spool, a single inlet port connected to said pneumatic pressure agent supply source, a single outlet port connected to said service brake pressure chamber for supplying it with a third pneumatic pressure agent whose pressure value is determined, so as to apply a determined braking force when said brake parking is in working configuration, and an opening leading to the atmosphere.
In the braking system according to the invention, the braking piston is immobilized in the service braking position by the parking brake and in particular by its locking device. This means that the brake piston can be immobilized in any position, which position is related to the stroke that the piston has traveled and this stroke depends on the force applied during the service braking phase.
The term immobilize means that the force applied by the brake piston on the braking linkage in the working configuration of the parking brake does not decrease, or almost no.
All the same, there is some loss due to the recoil of the brake piston, in particular the slight displacement of the piston relative to the locking device, at the moment when the service brake pressure chamber is emptied. This loss is controlled and is defined by a very slight decrease in the applied force which is due in particular to the manufacturing tolerances of both the locking device and the brake piston. This reduction in the force applied on the braking linkage is here called loss at the recoil. An acceptable value of these losses at the recoil is at most of the order of 10% to 15% of the force applied by the service brake at the instant when the parking brake is actuated to be in working configuration.
The configuration of the brake piston and the parking brake makes it possible to overcome, in particular, the springs of the known braking systems described above which make it possible to apply the parking brake force to the braking link via the piston of the service brake cylinder. Thus, for the same force applied to the braking linkage when the parking brake is in working configuration, the braking system according to the invention is more compact than the braking systems of the aforementioned prior art, and also lighter .
Note that the braking linkage advantageously has deformable arms whose elasticity can be substituted for the springs of known braking systems described above.
Note that the configuration of the parking brake is chosen such that the force applied directly by the locking device to immobilize the brake piston is generally not greater than the force applied by the springs on the piston of the braking systems of the aforementioned prior art; whereas the force applied to the braking linkage when the parking brake of the system according to the invention is in working configuration is preferably at least equal to or greater than that provided by the braking systems of the aforementioned prior art.
The braking system according to the invention may furthermore make it possible to momentarily supply the service brake pressure chamber with the third pneumatic pressure agent in order to increase the braking force applied on the braking link by the piston of service brake. The braking force applied to the braking link when the parking brake is in its working configuration is therefore increased.
The system according to the invention can thus make it possible to obtain parking brake and parking brake braking forces greater than those obtained with the braking systems of the aforementioned prior art, in a simple, convenient and economical manner, while by being particularly safe. The application of the parking brake and in particular the supply of the parking brake chamber as well as the supply of the service brake chamber, with respectively the second pneumatic pressure agent and the third pressure agent which is separate of the first pressure agent, are here particularly simple and convenient to implement through the first and second distribution devices dedicated to the application of the parking brake.
The dispensers of these first and second dedicated dispensing devices can for example be formed by solenoid valves.
Note also that the first pneumatic pressure agent generally allows to supply, when the parking brake is not in working configuration, the service brake pressure chamber to apply a service braking force, in accordance with a service brake setpoint. This same first pneumatic pressure agent can also be used to supply, when the parking brake is not in working configuration, the service brake pressure chamber for applying an emergency brake force rather than a service brake, in accordance with an emergency brake instruction. It can be considered here that the emergency brake force is a service brake force modified by an emergency parameter.
According to preferred, simple, convenient and economical features of the system according to the invention: the first distributor has a first default security position in which its single outlet port connected to said parking brake pressure chamber communicates with its orifice discharging into the atmosphere, and the second distributor has a first safety default position in which its single outlet connected to the service brake pressure chamber communicates with its single input port connected to the source of ignition. supply of pneumatic pressure agents; the first distributor has a first default position called availability in which its single output port connected to said parking brake pressure chamber communicates with its single inlet connected to the supply source of pneumatic pressure agents, and the second distributor has a first default position known as availability in which its single outlet port connected to the service brake pressure chamber communicates with its orifice opening to the atmosphere; at least one of said first distributor and said second distributor is monostable and provided with an actuator configured to move the respective spool from its first position to its second position as a function of a control signal received by said actuator, and an organ return button configured to return the respective drawer from its second position to its first position without biasing the actuator; and / or at least one of said first distributor and said second distributor is bistable and provided with a first actuator configured to move the respective drawer from its first position to its second position as a function of a first control signal received by this first actuator , and a second actuator configured to move the respective spool from its second position to its first position as a function of a second control signal received by this second actuator; said first dedicated pneumatic distribution device is formed by two first identical distributors and connected in series and said second dedicated pneumatic distribution device is formed by two identical second distributors and connected in series; said system comprises a dedicated controller configured to control said first and second pneumatic dispensing devices; said control device of the first and second pneumatic dispensing devices comprises a control line connected to each of these first and second pneumatic dispensing devices and configured to circulate at least one application instruction of the parking brake; said control line is connected directly to each of the first and second pneumatic distribution devices and configured to circulate at least one application instruction of the parking brake; said control line is connected directly only to said second pneumatic delivery device and said control device further comprises a transmission line connecting the single outlet of the second distributor of said second pneumatic delivery device to the first pneumatic delivery device and a pressure switch interposed on said transmission line; said control device of the first and second pneumatic dispensing devices further comprises at least one conditional management system disposed on said control line upstream of said first and second pneumatic dispensing devices and admitting a first state in which it authorizes the circulation of the parking brake application instruction via the control line to the first and second pneumatic distribution devices, and a second state in which it prohibits the circulation of the parking brake application instruction via the command line to the first and second pneumatic delivery devices; said conditional management system is provided with a dispenser having an inlet port connected to said pneumatic pressure agent supply source, an outlet port connected to the control line and an actuator controlled by at least one control signal. control representative of at least one pressure value in a main or general pneumatic line of said rail braking system and / or a pressure value in the service brake pressure chamber; said conditional management system is provided with a pressure switch interposed on said control line; said system further comprises a dedicated detection device configured to detect the application of the parking brake; said parking brake application detecting device is configured to receive information representative of the supply of the service brake pressure chamber by the third pneumatic pressure medium via said second pneumatic delivery device, and to receive information representative of the emptying of the parking brake pressure chamber via said first pneumatic distribution device; said parking brake application detection device is formed by a first pressure switch disposed at the output of said second pneumatic distribution device and by a second pressure switch disposed at the output of said first pneumatic distribution device and connected to said first pressure switch; said parking brake application detecting device is configured to process said information representative of the supply of the service brake pressure chamber by the third pneumatic pressure medium via said second pneumatic delivery device, and to control said first pneumatic dispensing device; said parking brake application detection device is formed by a first pressure switch disposed at the output of said second pneumatic distribution device and connected to said first pneumatic distribution device, and by a detection member disposed at the output of said first pneumatic distribution device ; said parking brake application detecting device is configured to process said information representative of the supply of the service brake pressure chamber by the third pneumatic pressure agent via said second pneumatic delivery device and said representative information of emptying the parking brake pressure chamber via said first pneumatic distribution device, and to trigger an indicator representative of the application of the parking brake; and / or said system further comprises a dedicated test device configured to test the operation of the parking brake, which test device is provided with at least two test lines connected to said first and second pneumatic delivery devices, which lines of test are independent or interconnected. The subject of the invention is also, in a second aspect, a method of braking a railway vehicle, comprising a rail braking system as described above, comprising: the step of controlling the first dedicated pneumatic distribution device for supplying the parking brake pressure chamber with the second pneumatic pressure agent so as to put the parking brake in its rest configuration and then optionally, the step of supplying the service brake pressure chamber with the first pneumatic pressure agent so as to put the brake piston in its service braking position; then simultaneously or successively, whatever the order, the steps of controlling the second dedicated pneumatic distribution device for supplying the service brake pressure chamber with the third pneumatic pressure agent so as to apply a determined braking force and controlling the first dedicated pneumatic distribution device to empty the parking brake pressure chamber so as to put the parking brake in its working configuration.
The method according to the invention is particularly simple and convenient to implement, while also being particularly safe.
According to preferred, simple, convenient and economical characteristics of the method according to the invention, it comprises moreover the steps of detecting at least one information representative of the supply of the service brake pressure chamber with the third pneumatic pressure agent. and emptying the parking brake pressure chamber, and deriving information representative of the application of the parking brake.
BRIEF DESCRIPTION OF THE DRAWINGS
We will now continue the presentation of the invention by the description of embodiments, given below by way of illustration and not limitation, with reference to the accompanying drawings in which: - Figure 1 illustrates schematically and partially a system of rail braking according to a first embodiment of the invention, which system is provided in particular with a service brake, a parking brake and a control and control unit; FIG. 2 diagrammatically represents in more detail the control and control unit illustrated in FIG. 1 and a pipe routing network of the system which is connected to this unit, which unit is provided in particular with first and second devices of FIG. pneumatic distribution connected to the parking brake, a device for controlling these first and second pneumatic distribution devices and a device for detecting the application of the parking brake; - Figures 3 to 6 show alternative embodiments of the first and second valve devices shown in Figure 2; - Figures 7 to 10 show alternative embodiments of the control device of the first and second pneumatic dispensing devices, illustrated in Figure 2; - Figures 11 to 14 show alternative embodiments of the parking brake application detection device, illustrated in Figure 2; and FIGS. 15 and 16 show various parking brake test devices that can comprise the control and control unit illustrated in FIG. 2.
DETAILED DESCRIPTION OF AN EXEMPLARY EMBODIMENT
FIG. 1 schematically represents a rail braking system 1 for a railway vehicle with pad or soles brake.
The rail braking system 1 comprises a body 2 forming here a cylinder of both service brake 6 and parking brake 7, a control and control unit 3 configured to manage the operation of the service brake 6 and the brake parking 7, a pneumatic pipe routing network connected to the body 2 and the control and control unit 3, a braking linkage 4 mechanically connected to the body 2 and a brake 5 to fittings on which the wheelhouse of braking 4 is configured to act.
The body 2 here has the shape of a generally closed envelope.
The service brake 6 comprises a service brake piston 8 movable relative to the body 2 in a first axial direction, a thrust rod 9 also movable relative to the body 2 in a second axial direction perpendicular to the first axial direction.
The braking piston 8 delimits with the body 2 a service brake pressure chamber 13.
The braking piston 8 has two sides respectively a first side 17 configured to act on the braking linkage 4 via the push rod 9 and a second side 18 opposite the first side 17 and facing the pressure chamber of service brake 13.
The service brake 6 further comprises a notched rod 21 fixed on the second side 18 of the braking piston 8. This notched rod 21 extends longitudinally along the first axial direction.
The braking piston 8 is configured to move in the body 2 while maintaining the service brake pressure chamber 13 relatively tight thanks to a membrane 14, for example formed by a lip seal, and disposed between the braking piston 8 and inner edges of the body 2.
The service brake 6 further comprises a corner piece 10 fixed on the first side 17 of the braking piston 8.
This corner piece 10 has a triangular section and is configured to cooperate with a set of thrust bearings 11, one of the bearing stops is connected to the body 2 while the other bearing stops is connected to the rod thrust 9.
This push rod 9 is provided with a wear regulator configured to compensate for the wear of the brake linings 5 in order to prevent excessive play (as a result of the wear of the linings) reducing the effort required. braking.
The service brake 6 further comprises a spring 12 here arranged around the push rod 9, between the bearing stop which is connected to the latter and the inner edge of the body 2. This spring 12 is configured to recall the stop which is connected to the push rod 9 against the corner piece 10.
The service brake 6 further comprises a first orifice 15 formed in the body 2 and configured to allow displacement of the push rod 9 through this first orifice 15.
The service brake 6 further comprises a second orifice 16 formed in the body 2 and opening into the service brake pressure chamber 13.
The service brake pressure chamber 13 is here connected by a first supply line 72 of the pneumatic line routing network, more generally called a brake line, connected at the level of this second orifice 16, to a power source in pneumatic pressure agents 73 (visible in FIG. 2).
The body 2 comprises a cavity 27 contiguous to the service brake pressure chamber 13 and in which the parking brake 7 is disposed.
The parking brake 7 comprises a locking device formed here by a locking pin 20 movable relative to the body 2 and extending in the second axial direction.
The parking brake 7 further comprises here a holding piston 23 movable relative to the body 2 and defines therewith a parking brake pressure chamber 25.
This holding piston 23 has two sides, respectively a first side 31 on which is attached the locking pin 20 and which is turned towards the parking brake pressure chamber 25, and a second side 32 opposite to the first side 31 .
The parking brake 7 further comprises here a spring element 24 disposed between the body 2 and the second side 32 of the holding piston 23. This spring element 24 is configured to act on this holding piston 23 and consequently on the finger blocking 20.
It will be noted that the holding piston 23 and the spring element 24 form here a movable control device for the parking brake 7.
The holding piston 23 is configured to move in the body 2 while keeping the parking brake pressure chamber 25 relatively tight thanks to a membrane (not referenced) disposed between the holding piston 23 and the inner edges of the body 2 .
The parking brake 7 comprises a third orifice (not shown) formed in the body 2 and opening into both the parking brake pressure chamber 25 and the service brake pressure chamber 13, which third orifice is configured. to allow movement of the blocking finger 20 through this third port.
It will be noted that the relative sealing between the parking brake pressure chamber 25 and the service brake pressure chamber 13 is ensured by the presence of a seal 33 disposed at the interface between this third orifice and the locking finger 20.
The parking brake 7 further comprises a fourth orifice 28 formed in the body 2 and opening into the parking brake pressure chamber 25.
This parking brake pressure chamber 25 is here connected by a second supply line 71 of the pneumatic line routing network, also called parking brake line, connected at this fourth orifice 28, to the source of supply of pneumatic pressure agents 73 (visible in FIG. 2).
The parking brake 7 further comprises an unlocking piece 29 attached to the second side 32 of the holding piston 23 and opening outwardly of the body 2 through a fifth orifice (not shown) formed in this body 2 and opening into the cavity 27; so that this unlocking piece 29 is accessible to be manipulated from outside the body 2 if necessary.
It will be noted that this unlocking piece 29 may comprise a visual indicator, for example a colored bellows, so as to visually indicate the state of this piece 29.
In a variant not shown, the unlocking part 29 may be coupled to a visual indication system provided with a switch mechanically secured to this piece 29 and having a first position and a second position. This visual indication system is further provided with a power supply line connected to the switch, a resilient biasing member biasing the switch in its first position, and a transfer line connected to the switch and extending to a visual indicator such as a light. For example, when the unlocking rod 29 is not biased, the switch is biased by the return member in its first position where no electrical path is established between the power supply line and the transfer line, so that the indicator light is not powered and is therefore off; while when the unlocking rod 29 is biased, the switch is moved against the return member from its first position to its second position, where an electrical path is established between the power supply line and the line. transfer, so that the indicator light is powered and is therefore lit to indicate that the brake piston is not locked in position. Of course, the reverse operation is possible (the indicator light would be on when the brake piston was blocked).
The service brake 6 is disposed in the body 2 and is configured to act on the brake 5 via the brake linkage 4.
This brake 5 comprises a brake disc 35 (here seen from above) mounted for example on a rail vehicle axle 36, or directly on the wheel to be braked.
This brake 5 further comprises two pads 37 each provided with a gasket 38 configured to be applied in contact with the disk 35 to reduce its speed of rotation and therefore that of the wheel to be braked, as well as a fixing eyelet 39 arranged opposite the surface of the seal 38 configured to be applied to the brake disc 35.
The braking linkage 4 comprises two or four deformable levers 40 each provided with an upper portion and a lower portion which are integral. Only two levers are illustrated here and, in the case where the wheelhouse has four levers, they can be integral two by two or alternatively independent of each other.
Each portion of the levers 40 is articulated on a central connector 41 via two pivots 42.
The lower portion of each deformable lever 40 is connected to one of the pads 37 via its fixing eyelet 39.
The upper portion of each deformable lever 40 is connected to a respective hinge 44, 45.
The braking link 4 receives the body 2 between the upper portions of the deformable levers 40, at the joints 44 and 45.
The body 2 is rotatably mounted on the hinge 44 which is integral with one end of the push rod 9 while it is fixedly mounted on the hinge 45, which is directly integral with this body 2.
The braking linkage 4 also comprises a fixing lug 43 secured to the central connector 41 for mounting this braking linkage 4 on the railway vehicle; so that the braking pads 37 are located on either side of the brake disc 35 (or the wheel of the railway vehicle).
Note that the approximation of the joints 44 and 45 allows to move the shoes 37 away from each other and that, conversely, the distance of these joints 44 and 45 makes it possible to tighten the pads 37 on the disc brake 35 (or on the wheel of the railway vehicle). The control and control unit 3 is connected to the service brake pressure chamber 13 via the first supply line 72 to which it is connected; while this unit 3 is here also connected to the parking brake pressure chamber 25 via the second supply line 71 to which it is connected. In addition, this unit 3 is supplied with pneumatic agents by a main pipe 70 which generally travels along the railway vehicle. The control and control unit 3 comprises systemic elements (not shown in FIG. 1) which are configured to receive and process representative information relating to operating instructions of the rail vehicle, by a first channel of the electric type and / or pneumatic and / or manual, noted 50 in Figure 1.
These systemic elements are furthermore configured to receive and process representative information relating to utilization parameters of the railway vehicle, by a second channel of the electrical and / or pneumatic and / or manual type, denoted 60 in FIG.
These systemic elements may for example be formed by pneumatic relays and / or solenoid valves and / or pressure switches and / or sensors and / or regulators and / or electrical relays and / or electronic cards and / or central units. processors or microprocessors, and / or RAM components having registers adapted to record variables of the parameters created and modified during the execution of programs, and / or communication interfaces configured to transmit and receive data, and / or internal storage elements, such as hard disks, which may include the executable code of programs for managing the parking and parking brakes 6 and 7.
Note that in Figure 1, the control and control unit 3 is associated with a brake linkage 4 and a single brake 5 of the railway vehicle. Alternatively, such a control and control unit may be associated with an axle (not shown) of the railway vehicle, provided with a plurality of brakes 5, or a bogie (not shown) of the railway vehicle, provided with two axles or more, or to a car (not shown) of the railway vehicle, provided with two bogies, or the railway vehicle may comprise only such a control unit.
FIG. 2 diagrammatically represents in more detail the pneumatic pipe routing network and the control and control unit 3.
The main pipe 70 forms the channel for conveying a pneumatic agent distributed in the pneumatic pipe routing network. The agent in this main line 70 is for example at a pressure value of about 9 bar.
The network may comprise a so-called general conduct (not shown), distinct from the main pipe 70, and extending generally in parallel thereto. The general pipe also ensures the pneumatic continuity along the rail vehicle and can authorize the service braking of the vehicle, directly using the fluid running in the general pipe. The main pipe 70 or the general pipe can supply equipment including the rail braking system, and in particular the supply source of pneumatic pressure agents 73 here formed by a so-called auxiliary tank.
This network further comprises, as described in more detail below, a filling and dispensing line 74 stitched (that is to say directly connected) on the main line 70, a service brake line 75 connected by a stitch 81 on the filling and dispensing line 74, an emergency brake pipe 76 stitched on the service brake pipe 75 by a stitching 82, and a control line 78 connected by a stitching 83 also on the filling and dispensing line 74.
The control line 78 is subdivided into two lines at a bypass tap 84, respectively in the parking brake line 71 communicating directly with the parking brake pressure chamber 25 and in a supercharging line, called this. -after driving preset 79.
Each of the service brake lines 75, emergency brake 76 and preset 79, join the brake line 72 which communicates directly with the service brake pressure chamber 13.
The filling and dispensing line 74 has a first filling section extending between the stitching (not shown) on the main pipe 70 and the auxiliary tank 73, and a second distribution section extending from a stitching 80 on the first stretch. The control and control unit 3 here comprises a non-return valve 85 disposed on the first section of the filling and dispensing line 74 in the vicinity of the stitching of the latter on the main pipe 70, as well as an isolation valve 86 also disposed on this first section.
The non-return valve 85 allows the auxiliary tank 73 to be filled by the pneumatic pressure agent issuing from the main pipe 70 and prevents the tank 73 from being emptied into the main pipe 70 if the pressure in the latter is lower than that in the main pipe 70. auxiliary tank 73. The control and control unit 3 further comprises here a relaying device 93, or pneumatic relay, powered by the second distribution section of the filling and distribution line 74 and connected to the brake line 72.
This relaying device 93 is configured to generate, from this second distribution section and pressure pilot values, a utilization pressure at a determined flow rate for the filling of the service brake pressure chamber 13.
These pilot pressure values correspond here to service brake pressure, emergency brake and preset brake pressure, coming respectively from the service brake line 75, the emergency brake line 76 and the preset line. 79. The control and control unit 3 further comprises here on the service brake line 75 a pressure reducer 87 configured to limit the pressure value here for example to about 4 bar and a dispensing device 88 formed here by a solenoid valve monostable and configured to receive a control signal corresponding to a CFS service brake setpoint.
When the set point value CFS is zero, the dispensing device 88 is configured to interrupt the service brake line 75; and when the setpoint value CFS is non-zero, this device 88 is configured to allow the passage of a pneumatic pressure agent, called the first pressure agent, to the relaying device 93 which receives a brake pressure pilot value. of service and which generates a service brake pressure to supply the service brake pressure chamber 13 for the braking of the vehicle. The control and control unit 3 further comprises a pressure sensor 90 connected by a tapping 89 to the service brake line 75 and which makes it possible to control the pilot value of the service brake pressure. The control and control unit 3 further comprises a drain solenoid valve 91 connected by the tap 89 to the service brake pipe 75 and which makes it possible to drain this pipe via a discharge orifice 92 on this solenoid valve 91. solenoid valve 91 is monostable and configured to receive a control signal corresponding to a CT work setpoint and to operate in reverse.
When the setpoint value CT is non-zero, the solenoid valve 91 is configured to interrupt the communication of the service brake pipe 75 with the emptying orifice 92; and when the setpoint value CT is zero, this solenoid valve 91 is configured to allow the communication of this line 75 with this emptying orifice 92. The control and control unit 3 furthermore comprises here, on the brake pipe emergency 76, a distribution device 96 formed here by a monostable solenoid valve operating in reverse and configured to receive a control signal corresponding to an emergency brake setpoint CFU.
When the set value CFU is non-zero, the dispensing device 96 is configured to interrupt the emergency brake line 76; and when the set point value CFU is zero, this device 96 is configured to allow the passage of a pneumatic pressure agent to the relaying device 93 which receives a pilot value of emergency brake pressure and which generates a pressure emergency brake for supplying the service brake pressure chamber 13 for the emergency braking of the vehicle. The control and control unit 3 further comprises a pressure limiter 95 (or expander) on the emergency brake line 76 upstream of the dispensing device 96, which limiter 95 is controlled according to a parameter of load param_C of the vehicle received via a charge line 77 connected to the limiter 95; and a pressure sensor 94 stitched on the charge line 77.
The param_C load parameter is information representative of the load of the vehicle and may concern for example a car only, or several successive cars or the entire railway vehicle. This depends on the number of braking systems according to the invention and the braking control strategy.
Note also that some operating parameters of some rail vehicles can naturally (or initially) be slaved to the load of the vehicle for example to manage the service brake while others are not subject to the load of the vehicle. The control and control unit 3 comprises on the brake line 72, a pressure switch 97 downstream of the relaying device 93 and configured to check whether or not there is a pneumatic pressure agent, at a pressure value of less than a predetermined threshold value, in the brake line 72 and therefore if there is a pressure in the service brake pressure chamber 13. The control and control unit 3 further comprises on the control line. brake 72 an anti-skid device 98 formed here by a solenoid valve monostable and configured to receive control signals corresponding to parameters of anti-skidding Param_AE of the vehicle; so as to ensure the braking efficiency of the railway vehicle.
These parameters Param_AE anti-skidding are information representative of the anti-skidding or the clutch of the vehicle and can for example correspond to the load of the vehicle, its running speed and brake pilot values of service and / or emergency. The control and control unit 3 comprises on its control line 78 a pressure reducer 99 configured to limit the pressure value here for example to about 6 bar. The control and control unit 3 comprises a first dedicated pneumatic distribution device 51 on its parking brake line 71 and a second dedicated pneumatic distribution device 61 on its preset conduct 79.
The first pneumatic dispensing device 51 is formed by a first distributor 52 here monostable, also called solenoid valve, provided with a movable drawer 53 with two positions, a single inlet 54 (noted 54a or 54b in the figures) connected to the control line 78, a single outlet port 55 (denoted 55a or 55b in the figures) connected to the parking brake line 71, and an orifice 56 (noted 56a or 56b in the figures) leading to the atmosphere.
The first distributor 52 is furthermore provided with an actuator 57 configured to move the slide 53 from its first position to its second position as a function of a control signal received by this actuator 57, and a configured return member 58. to return the respective drawer 53 of its second position to its first position without the actuator 57 being solicited.
The second pneumatic distribution device 61 is formed by a second distributor 62 here monostable, or solenoid valve, provided with a movable drawer 63 with two positions, a single inlet port 64 (noted 64a or 64b in the figures) connected to the control line 78, a single outlet port 65 (denoted 65a or 65b in the figures) connected to the brake line 72 via the preset line 79 and the relaying device 93, and an orifice 66 ( denoted 66a or 66b in the figures) opening into the atmosphere.
The second distributor 62 is further provided with an actuator 67 configured to move the slide 63 from its first position to its second position as a function of a control signal received by this actuator 67, and a configured return member 68 to return the respective drawer 63 from its second position to its first position without biasing the actuator 67. The control and control unit 3 further comprises a dedicated control device configured to control the first and second pneumatic delivery devices. 51 and 61.
This control device of the first and second pneumatic dispensing devices here comprises a control line 46 connected directly to the actuators 57 and 67 of the first and second pneumatic dispensing devices 51 and 61 and configured to circulate a brake application setpoint of CFP parking.
When the application instruction of the parking brake CFP is zero, this means that the parking brake 7 must here be applied. This is a so-called safe application.
Where appropriate, the first distributor 52 has a first default security position in which its single outlet port 55a connected to the parking brake pressure chamber 25 via the parking brake line 71 communicates with its opening opening to the atmosphere 56a, while its single inlet 54a connected to the auxiliary tank 73 via the control line 78 and the supply and distribution line 74 is plugged.
The parking brake pressure chamber 25 is then emptied and the locking pin 20 comes to immobilize the rod 21 of the piston 8. The parking brake is applied.
The second distributor 62 for its part has a first default position also called safety in which its single outlet port 65a connected to the service brake pressure chamber 13 via the brake pipe 72 communicates with its single inlet port 64a connected to the auxiliary tank 73 via the control line 78 and via the supply and distribution line 74, while its orifice 66a to the atmosphere is clogged.
The second distributor 62 thus allows the passage of a pneumatic pressure agent, said third pressure agent, to the relaying device 93 which receives a preset pressure pilot value and which generates a preset pressure to feed the pressure chamber of service brake 13 via brake line 72.
To remove the application of the parking brake 7, a non-zero setpoint for applying the parking brake CFP travels on the control line 46 to the actuators 57 and 67 which move the drawers 53 and 63 of the first and second distributors 52 and 62 against the return members 58 and 68.
If desired, the first distributor 52 has a second position in which its single outlet port 55b connected to the parking brake pressure chamber 25 via the parking brake line 71 communicates with its single inlet port 54b connected to the auxiliary tank 73 via the control line 78 and the supply and distribution line 74, while its orifice opening to the atmosphere 56b is plugged.
The first distributor 52 thus allows the passage of a pneumatic pressure agent, said second pressure agent, directly to the parking brake pressure chamber 25 via the parking brake line 71. The locking pin 20 is then moved back into this chamber and releases the rod 21 of the piston 8.
The second distributor 62 has a second position in which its single outlet orifice 65b is connected to its orifice 66b to the atmosphere, while its single inlet orifice 64b connected to the auxiliary reservoir 73 via the control line 78 and the supply and distribution line 74 is plugged.
The second distributor 62 therefore prohibits the passage of the third pneumatic pressure agent to the relaying device 93 which therefore does not receive a preset pressure pilot value and which empties the preset pressure if necessary. The control and control unit 3 further comprises a dedicated detection device 100 configured to detect the application of the parking brake 7.
This detection device 100 for applying the parking brake 7 is configured to receive information representative of the supply of the service brake pressure chamber 13 by the third pneumatic pressure agent via the second distributor 62, and to receive a information representative of the emptying of the parking brake pressure chamber 25 via the first distributor 52.
To do this, the detection device 100 may comprise a first pressure sensor (not illustrated) stitched on the parking brake line 71, between the first distributor 52 and the parking brake pressure chamber 25 (dashed line on Figure 2); and a second pressure sensor (not shown) stitched either on the preset line 79 between the second distributor 62 and the relaying device 93, or on the brake line 72 between the service brake pressure chamber 13 and the anti-clogging device 98 (dotted line in FIG. 2) or between the latter and the relaying device 93.
Alternatively, the second sensor could be stitched on the brake line 72 between the service brake pressure chamber 13 and the relaying device 93.
In another variant, at least one of the first and second sensors could be replaced by one or more manostats connected to the parking brake line 71 and / or to the preset line 79 and / or to the brake line 72.
In addition, the first and second sensors and / or manostats can be independent of one another or can be interconnected (see below with reference to Figures 11 to 13).
FIG. 3 represents an alternative embodiment of the distributors 52 and 62 which, here, are configured so that the parking brake 7 must not be applied when the application instruction of the parking brake CFP is zero. This is an application called availability.
The difference from the dispensers shown in Figure 2 is that the respective first and second positions are reversed.
In other words, when the application instruction of the CFP parking brake is zero, the first distributor 52 has a first default position known as availability in which its single outlet port 55b connected to the parking brake line 71 communicates with its single inlet port 54b connected to the control line 78, while its opening opening to the atmosphere 56b is plugged (Figure 3).
The second distributor 62 has a first default position also known as availability in which its single outlet port 65b communicates with its orifice 66b to the atmosphere, while its single inlet port 64b connected to the control line 78 is clogged (Figure 3).
In contrast, when the application instruction of the CFP parking brake is non-zero, the first distributor 52 has a second position in which its single outlet orifice 55a communicates with its opening opening to the atmosphere 56a, while its single orifice 54a is clogged; and the second distributor 62 has a second position in which its single outlet port 65a communicates with its single inlet port 64a, while its orifice 66a to the atmosphere is clogged.
FIG. 4 shows an alternative embodiment of the first and second dispensing devices 51 and 61 in which the first and second distributors 152 and 162 are here bistable rather than monostable.
Where appropriate, the first and second distributors 152 and 162 are each provided with two actuators 157, 167 on either side of the respective drawers.
The control device of the first and second dispensing devices 51 and 61 comprises, in addition to the control line 46 which is connected to one of the actuators 157, 167 of each of the first and second distributors 152 and 162, another control line 146, separate from the control line 46, which is connected to the other of the actuators 157, 167 of each of the first and second distributors 152 and 162.
The control line 46 is configured to circulate a first parking brake application instruction CFP1 to put the drawers of the first and second distributors 152 and 162 in their respective first positions; while the other control line 146 is configured to circulate a second parking brake application instruction CFP2 to set the drawers of the first and second distributors 152 and 162 in their respective second positions.
FIG. 5 represents an alternative embodiment of the first and second dispensing devices 51 and 61 in which the first and second distributors 52 and 62 are doubled by other first and second distributors 252 and 262 arranged in series with the first and second distributors. 52 and 62.
In particular, in its first position, the first distributor 52 has its single inlet 54a connected to the control line 78, its single outlet port 55a connected to a single inlet port 254a of the other first distributor 252 in its first position, which other first distributor 252 has its single outlet port 255a connected to the parking brake line 71.
In its first position, the second distributor 62 has its single inlet port 64a which communicates with its single outlet port 65a which is connected by an intermediate conduit to a plugged port 266a of the other second distributor 262, which has a single inlet port 264a connected by a bypass line 179 to the preset pipe 79 and in communication with the single outlet port 265a.
Note that in its second position, the first distributor 52 has its single inlet 54b which communicates with its single outlet 54b, which communicates with the single inlet 254b of the other first distributor 252 in its second position, the single input port connected to the control line 78, which single inlet port 254b communicates with the single outlet port 255b of the other first distributor 252; while in its second position, the second distributor 62 has its single plugged inlet 64a and its single outlet port 65b which communicates with the orifice 66b to the atmosphere and the other second distributor 262 has its single orifice plugged 264b input and its single output port 265b which communicates with its port 266b connected to the intermediate pipe.
In addition, the control line 46 has bypass sections 246 for connection to the respective actuators of the first and second distributors 252 and 262 in addition to being connected to the first and second distributors 52 and 62.
Figure 6 shows an alternative embodiment of the first and second dispensing devices 51 and 61 in which the first distributor 152 is here bistable rather than monostable.
Where appropriate, the first distributor 152 is provided with two actuators 157 on either side of the respective drawer.
The control device of the first and second dispensing devices 51 and 61 comprises, in addition to the control line 46 which is connected to the actuator 67 of the second distributor 62 and to one of the actuators 157 of the first distributor 152, another line 146, separate from the control line 46, which is connected to the other of the actuators 157 of the first distributor 152.
The control line 46 is configured to circulate a first parking brake application instruction CFP1 to put the drawers of the first and second distributors 152 and 62 in their respective first positions; while the other control line 146 is configured to circulate a second application instruction of the parking brake CFP2 to put the drawer of the first distributor 152 in its respective second position. The operation of this variant can be deduced directly from the explanations given above for FIGS. 2 to 5.
FIG. 7 represents an alternative embodiment of the control device of the first and second distributors 52 and 62 illustrated in FIG.
Here, the control line 46 is connected directly to the main pipe 70 so that the parking brake setpoint corresponds to a pressure value in this main pipe 70.
In other words, the triggering of the first and second distributors 52 and 62 to move from the first position to the second position, and vice versa, is conditioned to a pressure threshold value in the main line 70 which is defined by the control devices. recall 58 and 68.
FIG. 8 represents another variant embodiment of the control device of the first and second distributors 52 and 62 illustrated in FIG.
This control device, in addition to the control line 46, comprises a conditional management system disposed upstream of the first and second distributors 52 and 62 and admitting a first state in which it authorizes the circulation of the application instruction of the brake CFP parking by the command line 46 and a second state in which it prohibits the circulation of the application instruction of the parking brake CFP by the command line 46.
This conditional management system is here provided with a distributor 101 of the monostable solenoid valve type, having a two-position movable drawer controlled for example by control signals representative of at least one pressure value in the brake pressure chamber of service 13 Param_PFS and / or a service brake setpoint CFS which act on actuators 108, and by a return member 110.
In a first position, this distributor 101 has a plugged inlet 105a and connected to a management line 103 connected by a tapping 104 to the control line 78 and an outlet port 106a communicating with an orifice 107a to the atmosphere .
In a second position, this dispenser 101 has an inlet orifice 105b communicating with the outlet orifice 106b while the orifice 107b is plugged.
The conditional management system is further provided with a pressure switch 102 interposed on the control line 46 between the outlet of the distributor 101 and the first and second distributors 52 and 62.
This pressure switch 102 has a return member 111 and a switch 112 which, in the second position of the distributor 101, is urged by a pneumatic agent coming from the control line, against the return member 111; so that the command line 46 transmits information representative of the CFP parking brake setpoint.
It will be noted that in FIG. 8, the first and second distributors 52 and 62 are in availability mode, as in FIG.
FIG. 9 represents an alternative embodiment of the conditional management system illustrated in FIG. 8, where the only difference is that the distributor 101 is single-command, ie it is controlled by a single control signal here representative of the pressure value in the main pipe 70. The elements bearing the same references are similar to those described with reference to Figure 8 and the operation of this system is deduced from the description made above with reference to Figures 7 and 8.
FIG. 10 represents another variant embodiment of the conditional management system, where, as in FIG. 7, the control line 46 is connected to the main pipe 70 so that the parking brake setpoint corresponds to a pressure value in this main line 70 and the tripping of the first and second distributors 52 and 62 to move from the first position to the second position, and vice versa, is conditioned to a pressure threshold value in the main line 70. However, a pressure switch 102 similar to the pressure switch described with reference to Figure 8 is interposed on the control line so that it is the pressure in the main pipe 70 which allows the switching of the switch 112 and thus the transmission of information representative of the brake setpoint CFP parking.
FIG. 11 represents an alternative embodiment of the device for detecting the application of the parking brake.
Here, the parking brake application detection device is formed by a first pressure switch 114 disposed at the outlet of the second distributor 62 and connected to the latter by a first intermediate line 48 connected by a tap 109 to the preset line 79; and by a second pressure switch 117 arranged at the outlet of the first distributor 52 and connected thereto by a second intermediate line 49 connected by a tap 113 to the parking brake line 71.
The first pressure switch 114 and the second pressure switch 117 are interconnected by an extension of the first intermediate line 48.
The first pressure switch 114 comprises a switch 115 which, when the second distributor 62 authorizes the passage of the third pneumatic pressure agent, receives the information and changes position, against a spring 116, to feed a first section of the second pressure switch 117 via a power supply 118 and the extension of the first intermediate line 48.
The first section of the second pressure switch 117 is provided with a switch 120 which switches and when the first distributor 52 authorizes the emptying of the parking brake pressure chamber 25, a second section of the second pressure switch 117 receives the information which enables to another switch 120 to switch, against a spring 119, and to supply, by means of another supply instruction 118, both a first indicator light 121 to indicate the detection of the application of the preset pressure and a second indicator light 121 to indicate the detection of the application of the locking finger on the piston rod.
FIG. 12 represents an alternative embodiment of the detection device illustrated in FIG. 11. Unlike the device illustrated in FIG. 11, the control line 46 is connected, in FIG. 12, only to the actuator 67 of the second distributor 62.
The device comprises a first pressure switch 114 identical to that of Figure 12 but with the extension of the first intermediate line 48 which is connected to the actuator 57 of the first distributor 52 for the control of the latter. Here, the detection device therefore also plays the role of control device for the first distributor 52.
When the second distributor 62 authorizes the passage of the third pneumatic pressure agent, the first pressure switch 114 receives the information and moves its switch 115 for the supply by the power supply 118 of the actuator 57.
The device comprises a second pressure switch 114, identical to the first pressure switch 114, disposed at the outlet of the first distributor 52 and connected to the latter by a second intermediate line 49 connected by a tap 113 to the parking brake line 71.
When the first distributor 52 authorizes the emptying of the parking brake pressure chamber 25, the second pressure switch 117 receives the information and moves its switch 115 to transmit parking brake application information.
FIG. 13 shows an alternative embodiment of the detection device illustrated in FIG. 12, which differs only in that the second pressure switch is here replaced by a two-position indicating member 123 which is directly connected to the brake line. parking 71 by the second intermediate line 49 and which is provided with a return spring 124.
Depending on the pressure in the parking brake line 71, the indicating member 123 (also called indicator) has one or other of its positions for transmitting information on the application of the parking brake.
Optionally, the detection device further comprises a cross indicator 125 directly connected to the auxiliary tank via the control line 78.
FIG. 14 illustrates an alternative embodiment of the indication member 123 visible in FIG. 14, where it is associated with a pressure switch 114 (like those already described above) rather than with return spring 124.
FIG. 15 represents a device for testing the parking brake that can comprise the control and control unit 3.
This is a first test line 46b provided with a first diode 132 and which joins a supply line 46a which is connected to the actuator 67 of the second distributor 62 and to the actuator 57 of the first distributor 52 ; and a second diode 133 disposed on the feed line 46a.
The first test line 46b is configured to route one or more test signals which may for example correspond to instructions respectively of a test and application of the parking brake, in combination with the supply line 46a, which can also be used as a test line.
FIG. 16 represents an alternative embodiment of the parking brake test device illustrated in FIG. 15.
It is a first supply and / or test line 46a connected only to the actuator 57 of the first distributor 52 and conveying a drain signal of the parking brake chamber; and a second supply and / or test line 46b, independent of the first line 46a, connected to the actuator 67 of the second distributor 62 and conveying a preset signal.
In variants not shown: - the rail braking system may comprise a service brake without corner piece attached to the brake piston, so that the piston acts directly on the push rod, which acts on the deformable levers; and in this case, the brake piston together with its toothed rod and the push rod are movable in the second axial direction while the parking brake is configured so that the locking pin and the holding piston are movable in the first axial direction; - The rail braking system has a braking linkage different from that illustrated in the figures, in particular, the braking linkage comprises a sole configured to act directly on a wheel of the railway vehicle, this sole being directly articulated by a hinge of the type. pivot fixed to the push rod, a rigid lever fixed to the body of the system and a deformable lever attached to both the rigid lever and the hinge on the sole; and / or - the rail braking system has a brake linkage configured to act on a shoe brake as described above and is provided with a service brake with or without a corner piece attached to the brake piston.
It is recalled more generally that the invention is not limited to the examples described and shown.

权利要求:
Claims (21)
[1" id="c-fr-0001]
1. Railway braking system for a railway vehicle with brakes comprising at least one lining or at least one soleplate (5), comprising a body (2), a braking linkage (4) configured to act on at least one said brake ( 5), a service brake (6) comprising a braking piston (8) movable relative to said body (2) to act on said brake linkage (4) and delimiting with said body (2) a brake pressure chamber service member (13) configured to be powered by a first pneumatic pressure agent to put said brake piston (8) in a service braking position, and a parking brake (7) configured to act on said piston of braking (8) said service brake (6) and admitting a working configuration and a rest configuration; said parking brake (7) having a locking device (20) movable with respect to said body (2) for acting on said brake piston (8) and having a first position and a second position in which said locking device (20) ) is configured to immobilize said braking piston (8) in the service braking position, said parking brake (7) then being in working configuration, and a control device (23, 24) movable relative to said body (2 ), defining with said body (2) a parking brake pressure chamber (25) configured to be fed by a second pneumatic pressure medium, and having a locking position in which said control device (23, 24) is configured to maintain said blocking device in its second position; and said rail braking system (1) further comprising a first dedicated pneumatic delivery device (51) which is formed by at least a first distributor (52) having a two-position movable drawer (53), a a single inlet port (54a, b) connected to a pneumatic pressure agent supply source (73), a single outlet port (55a, b) connected to said parking brake pressure chamber (25); ) to supply it with said second pneumatic pressure agent or to drain it to put said parking brake (7) respectively in its rest and work configurations, and an orifice (56a, b) opening to the atmosphere; and a second dedicated pneumatic dispensing device (61) which is formed by at least a second dispenser (62) having a two-position movable drawer (63), a single inlet port (64a, b) ) connected to said pneumatic pressure agent supply source (73), a single outlet port (65a, b) connected to said service brake pressure chamber (13) for supplying it with a third pneumatic pressure agent whose pressure value is determined, so as to apply a determined braking force when said parking brake (7) is in working configuration, and an orifice (66a, b) opening to the atmosphere .
[2" id="c-fr-0002]
2. System according to claim 1, characterized in that the first distributor (52) has a first default security position in which its single outlet port (55a) connected to said parking brake pressure chamber (25) communicates with its orifice opening to the atmosphere (56a), and the second distributor (62) has a first default security position in which its single outlet port (65a) connected to the service brake pressure chamber ( 13) communicates with its single inlet port (64a) connected to the pneumatic pressure agent supply source (73).
[3" id="c-fr-0003]
3. System according to claim 1, characterized in that the first distributor (52) has a first default position called availability in which its single outlet port (55a) connected to said parking brake pressure chamber (25) communicates with its single inlet port (54a) connected to the pneumatic pressure agent supply source (73), and the second distributor (62) has a first available default position of availability in which its single outlet port (65a) connected to the service brake pressure chamber (13) communicates with its orifice opening to the atmosphere (66a).
[4" id="c-fr-0004]
4. System according to any one of claims 1 to 3, characterized in that at least one of said first distributor (52) and said second distributor (62) is monostable and provided with an actuator (57, 67) configured for moving the respective drawer (53, 63) from its first position to its second position according to a control signal (CFP) received by this actuator, and a return member (58, 68) configured to return the drawer respective of its second position to its first position without solicitation of the actuator; and / or at least one of said first distributor (152) and said second distributor (162) is bistable and provided with a first actuator (157, 167) configured to move the respective spool from its first position to its second position as a function of a first control signal (CFP1) received by this first actuator, and a second actuator (157, 167) configured to move the respective drawer from its second position to its first position as a function of a second control signal ( CFP2) received by this second actuator.
[5" id="c-fr-0005]
5. System according to any one of claims 1 to 4, characterized in that said first dedicated pneumatic distribution device is formed by two first distributors (52, 252) identical and connected in series and said second dedicated pneumatic distribution device is formed by two second distributors (62, 262) identical and connected in series.
[6" id="c-fr-0006]
6. System according to any one of claims 1 to 5, characterized in that it comprises a dedicated control device configured to control said first and second pneumatic distribution devices (51,61).
[7" id="c-fr-0007]
The system of claim 6, said first and second pneumatic dispensing device comprises a control line (46) connected to each of said first and second pneumatic delivery devices (51,61) and configured to circulate at least one application instruction of the parking brake.
[8" id="c-fr-0008]
8. System according to claim 7, characterized in that said control line (46) is connected directly to each of the first and second pneumatic distribution devices (51, 61) and configured to circulate at least one application instruction of the parking brake.
[9" id="c-fr-0009]
9. System according to claim 7, characterized in that said control line (46) is connected directly only to said second pneumatic distribution device (61) and said control device further comprises a transmission line (48) connecting the single outlet port (65a, b) of the second distributor (62) of said second pneumatic delivery device (61) to the first pneumatic delivery device (51) and a pressure switch (114) interposed on said transmission line (48).
[10" id="c-fr-0010]
10. System according to any one of claims 7 to 9, characterized in that said device for controlling the first and second pneumatic dispensing devices further comprises at least one conditional management system disposed on said control line (46). upstream of said first and second pneumatic delivery devices (51, 61) and admitting a first state in which it authorizes the circulation of the application instruction of the parking brake by the control line (46) to the first and second devices pneumatic distribution means (51,61), and a second state in which it prohibits the circulation of the application instruction of the parking brake by the control line (46) to the first and second pneumatic delivery devices (51, 61).
[11" id="c-fr-0011]
The system of claim 10, characterized in that said conditional management system is provided with a dispenser (101) having an inlet port (105a, b) connected to said pneumatic pressure agent supply source ( 73), an outlet port (106a, b) connected to the control line (46) and an actuator (108) controlled by at least one control signal representative of at least one pressure value in a main pneumatic line or general of said rail braking system (1) and / or a pressure value in the service brake pressure chamber (13).
[12" id="c-fr-0012]
12. System according to one of claims 10 and 11, characterized in that said conditional management system is provided with a pressure switch (102) interposed on said control line (46).
[13" id="c-fr-0013]
13. System according to any one of claims 1 to 12, characterized in that it further comprises a dedicated detection device (100) configured to detect the application of the parking brake (7).
[14" id="c-fr-0014]
14. System according to claim 13, characterized in that said parking brake application detection device (100) is configured to receive information representative of the supply of the service brake pressure chamber (13) by the third pneumatic pressure agent via said second pneumatic delivery device (61), and receiving information representative of the emptying of the parking brake pressure chamber (25) via said first pneumatic delivery device (51).
[15" id="c-fr-0015]
15. System according to claim 14, characterized in that said device for detecting application of the parking brake is formed by a first pressure switch (114) disposed at the output of said second pneumatic distribution device (61) and by a second pressure switch ( 120) disposed at the output of said first pneumatic delivery device (51) and connected to said first pressure switch (114).
[16" id="c-fr-0016]
16. System according to one of claims 13 and 14, characterized in that said parking brake application detection device is configured to process said information representative of the supply of the service brake pressure chamber (13). ) by the third pneumatic pressure agent via said second pneumatic delivery device (61), and for controlling said first pneumatic delivery device (51).
[17" id="c-fr-0017]
17. System according to claim 16, characterized in that said device for detecting application of the parking brake is formed by a first pressure switch (114) disposed at the output of said second pneumatic distribution device (61) and connected to said first device. pneumatic distribution (51), and by a detection member disposed at the output of said first pneumatic distribution device (51).
[18" id="c-fr-0018]
18. System according to any one of claims 13 to 17, characterized in that said parking brake application detection device is configured to process said information representative of the supply of the service brake pressure chamber ( 13) by the third pneumatic pressure agent via said second pneumatic delivery device (61) and said information representative of the emptying of the parking brake pressure chamber (25) via said first pneumatic delivery device (51), and to trigger an indicator (121; 123) representative of the application of the parking brake.
[19" id="c-fr-0019]
19. System according to any one of claims 1 to 18, characterized in that it further comprises a dedicated test device configured to test the operation of the parking brake (7), which test device is provided with the minus two test lines (130, 131) connected to said first and second pneumatic delivery devices (51, 61), which test lines (130, 131) are independent or interconnected.
[20" id="c-fr-0020]
20. A method of braking a railway vehicle comprising a rail braking system (1) according to any one of claims 1 to 19, comprising: the step of controlling the first dedicated pneumatic distribution device (51) to feed the parking brake pressure chamber (25) with the second pneumatic pressure agent so put the parking brake (7) in its rest configuration and optionally the step of supplying the service brake pressure chamber ( 13) with the first pneumatic pressure agent so as to put the brake piston (8) in its service braking position; then simultaneously or successively, whatever the order, the steps of controlling the second dedicated pneumatic dispensing device (61) to feed the service brake pressure chamber (13) with the third pneumatic pressure agent so as to apply a determined braking force and controlling the first dedicated pneumatic delivery device (51) to empty the parking brake pressure chamber (25) so as to put the parking brake (7) into its working configuration.
[21" id="c-fr-0021]
21. The method of claim 20, characterized in that it further comprises the steps of detecting at least one information representative of the supply of the service brake pressure chamber with the third pneumatic pressure agent and the drain of the parking brake pressure chamber, and to deduce information representative of the application of the parking brake.

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BE520247A|

同族专利:

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公开号 | 公开日

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FR3048400B1|2018-04-13|

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EP3423318A1|2019-01-09|

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CA3015544A1|2017-09-08|

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AR107773A1|2018-05-30|

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US20190092299A1|2019-03-28|

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AU2017227014A1|2018-10-18|

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ES2772800T3|2020-07-08|

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RU2018134605A3|2020-06-16|

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WO2017149244A1|2017-09-08|

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RU2018134605A|2020-04-06|

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BR112018016891A2|2019-02-12|

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CN108778872A|2018-11-09|

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EP3423318B1|2019-11-27|

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US10850720B2|2020-12-01|

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RU2735736C2|2020-11-06|

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CN108778872B|2021-03-12|

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AU2017227014B2|2022-01-13|

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FR3048399B1|2016-03-04|2018-04-13|Faiveley Transport Amiens|RAILWAY BRAKING SYSTEM FOR A RAILWAY VEHICLE AND METHOD OF BRAKING A RAILWAY VEHICLE COMPRISING SUCH A SYSTEM|FR3048399B1|2016-03-04|2018-04-13|Faiveley Transport Amiens|RAILWAY BRAKING SYSTEM FOR A RAILWAY VEHICLE AND METHOD OF BRAKING A RAILWAY VEHICLE COMPRISING SUCH A SYSTEM|

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法律状态:
2017-03-30| PLFP| Fee payment|Year of fee payment: 2 |

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2017-09-08| PLSC| Publication of the preliminary search report|Effective date: 20170908 |

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2018-02-26| PLFP| Fee payment|Year of fee payment: 3 |

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2020-01-13| PLFP| Fee payment|Year of fee payment: 5 |

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2021-03-17| PLFP| Fee payment|Year of fee payment: 6 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1651829|2016-03-04|

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FR1651829A|FR3048400B1|2016-03-04|2016-03-04|RAILWAY BRAKING SYSTEM FOR A RAILWAY VEHICLE AND METHOD OF BRAKING A RAILWAY VEHICLE COMPRISING SUCH A SYSTEM|FR1651829A| FR3048400B1|2016-03-04|2016-03-04|RAILWAY BRAKING SYSTEM FOR A RAILWAY VEHICLE AND METHOD OF BRAKING A RAILWAY VEHICLE COMPRISING SUCH A SYSTEM|

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US16/080,762| US10850720B2|2016-03-04|2017-03-01|Vehicle braking system and braking method|

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PCT/FR2017/050461| WO2017149244A1|2016-03-04|2017-03-01|Railway braking system for railway vehicle and method for braking a railway vehicle comprising such a system|

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BR112018016891-2A| BR112018016891A2|2016-03-04|2017-03-01|rail vehicle braking system and rail vehicle braking method comprising such a system|

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EP17711716.5A| EP3423318B1|2016-03-04|2017-03-01|Railway braking system for railway vehicle and method for braking a railway vehicle comprising such a system|

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CA3015544A| CA3015544A1|2016-03-04|2017-03-01|Railway braking system for railway vehicle and method for braking a railway vehicle comprising such a system|

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AU2017227014A| AU2017227014B2|2016-03-04|2017-03-01|Rail vehicle braking system and braking method for a rail vehicle comprising such a system|

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ES17711716T| ES2772800T3|2016-03-04|2017-03-01|Rail braking system for a rail vehicle and braking procedure for a rail vehicle comprising said system|

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RU2018134605A| RU2735736C2|2016-03-04|2017-03-01|Railway braking system for a railway vehicle and a method of braking a railway vehicle comprising such a system|

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CN201780015043.9A| CN108778872B|2016-03-04|2017-03-01|Railway brake system for railway vehicles and method for braking railway vehicles with such a system|

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ARP170100518A| AR107773A1|2016-03-04|2017-03-02|RAILWAY BRAKING SYSTEM FOR RAILWAY VEHICLE, AND BRAKING PROCEDURE OF A RAILWAY VEHICLE UNDERSTANDING THIS SYSTEM|