DE4327759C2 - Air brake system for commercial vehicles - Google Patents

Description

The invention relates to a compressed air brake system for Commercial vehicles, with a reservoir Compressed air supply and at least one with spring accumulator Brake cylinders equipped axis, in which an actuating or Parking brake valve in one of which Lead reservoir to the spring brake cylinders Management as well as one depending on the occurrence of a condition a control unit providing a control signal is provided.

Such a compressed air brake system can, however, on a motor vehicle applied to a trailer, a semi-trailer or the like will. For a motor vehicle, the compressed air supply is in trained in a known manner. In the case of a trailer vehicle the compressed air supply essentially from the supply line. The commercial vehicle has multiple axles in all cases, whereby at least one axle is equipped with service brake cylinders is and at least one further axis is provided, which with Spring brake cylinders or with a combined spring brake cylinders is equipped. This spring accumulator Brake cylinders are part of the parking brake of the Commercial vehicle, with a parking brake valve for actuation is provided.

A compressed air brake system of the type described above is known from DE 35 27 907 A1. The one for a motor vehicle certain brake system has a service brake on the one hand and a parking brake on the other hand, the spring-loaded act on the brake cylinder. The parking brake valve is over a reservoir is supplied with compressed air and can also be used as a Auxiliary brake or parking brake can be used. In the festival Parking brake valve leading to the spring brake cylinders A solenoid valve is switched on.

It is one Control unit provided for the entire brake system, the one Provides control signal when a condition has occurred.  

This condition occurs when the ignition switch is turned on as well as a positive check of the brake system.  The solenoid valve is at the point between the parking brake valve and spring brake cylinder provided in the line, where a quick release valve is usually used can. The solenoid valve leaves one in one position pressure and blocks in the other position led pipe with simultaneous venting to the Spring brake cylinder leading line.

The magnet valve has no influence on the position in which it is Parking brake valve is located. If, for example, before starting the parking brake valve has been forgotten during a journey converting the parking position into the driving position can do that Solenoid valve have no effect. If the warning fails the parking brake remains in such a case created, and appropriate tires are created when driving wear.

The problem of not being solved accidentally when starting your journey Parking brake is for mechanical parking brakes in car Range from US 3,348,638 or also from DE 41 29 919 A1 known. It is also known, if there are any Operating parameters indicating the driving state of the vehicle Release the mechanical parking brake. For this can with the engine running, which is not yet synonymous with is a driving condition, serve a negative pressure. But operating parameters that actually reflect the driving state can be used for this.

For motor vehicles, the parking brake valve is in the range of Driver's cab arranged and it corresponds to the usual routine the driver, when starting the journey, the parking brake via a to release the corresponding actuation of the parking brake valve. This release process can also be forgotten. It is known, such a forgotten release process by a warning display to show the driver (DE 35 27 907 A1). But these  Warning display can also be defective. Even if the driver is in the process has actuated the parking brake as an auxiliary brake during a journey, there is a possibility that transferring the parking brake valve is forgotten in the release position.

In the trailer area, where the spring brake cylinder as pure parking brake cylinder and not as part of the Auxiliary brake are used, the parking brake valve is any where arranged on the trailer. Especially with semi-trailers it can be in the back. Often this is Parking brake valve, which must be operated by hand, too no longer operated by experienced drivers because they are to the emergency brake that starts when the supply line is disconnected Leave the service brake function as a parking brake. For this very reason it happens more often that when driving away a Truck then the release of a previously properly parked Trailer parking brake is forgotten. Since the Towing vehicles are equipped with relatively high performance, remains a parking brake not released one in particular unloaded trailer often over a longer distance unnoticed, so that there is a corresponding tire wear, a Tire damage to mechanical damage to the Can adjust the wheel brake by hot running.

The invention is based on these problems and has the task of a compressed air brake system of the beginning to demonstrate the type described for commercial vehicles, in the safe is that on the motor vehicle and / or on the appendix parking vehicle with the parking brake with certainty is solved or will be solved.

According to the invention this is the case with the compressed air brake system achieved at the outset in that the festival Brake valve an electrically controllable actuator is connected upstream that the upstream actuator via a electrical line is connected to the control unit, which in Depending on the driving condition of the vehicle, the control signal for the Actuator generated, and that  the actuator or switching element of the parking brake valve for Reaching and / or locking the released position via the electrically controllable actuator can be actuated.

The invention is based on the knowledge that the finding brake valve on the motor vehicle or on the trailer can only be operated manually. To ensure the release position of the Parking brake valve in the driving state is therefore an additional actuator upstream, the control signals obtained from the driving state of the vehicle be fed.

The setting or Switching element of the parking brake valve with a control piston be provided with a control chamber in the parking brake valve assigned.

When this control piston is loaded with Compressed air becomes the control or switching element of the parking brake valve either returned to the release position, if previously the parking brake position is set and returning to the release position had been forgotten and / or on the other hand it will the properly set release position by the compressed air applied locked, so secured this position.

The application of compressed air takes place in particular via a Solenoid valve as electrical controllable actuator. This Actuator is connected to a compressed air supply, i.e. to a Storage container connected and allows when actuated to switch the parking brake valve to the release position.

The actuator can also be in the form of an electrically controllable Servomotor be provided to the actuator or switching element of the Transfer the parking brake valve to the release position.

As such commercial vehicles usually have an ABS system are equipped and to this extent also have wheel sensors, that monitor the state of motion of the wheel or wheels very simply the possibility to derive a control signal from it conduct.

Because the control signal of an ABS system with its own control unit or then in a further control unit connected downstream is in electrical form, it is easiest to use a electrically controllable actuator for the compressed air supply provision of the control piston of the parking brake valve.

The control signal can also be from another  Control unit can be tapped, for example from an on direction that monitors the speed of the vehicle.

The invention takes place primarily in trailers, also at Semitrailers, use. In principle, however, it can also be used in motor vehicles. The generation of the Control signal can be selected depending on the expediency. In the As a rule, the control signal is given as a short-term pulse signal be used, which at the beginning of a trip when crossing a relatively low speed threshold, e.g. B. 10 km / h is set. The parking brake valve is trained so that his actuator or switch when Transfer to the release position remains in this release position. Nevertheless, it is not harmful if the speed threshold shown is passed several times and in so far as the control signal is generated multiple times.

The actuator can thus be designed as a solenoid valve, the parking brake valve having a control piston, whose control chamber when the depending on Driving state of the vehicle generated control signal with Compressed air can be applied. The actuator can also as electrically controllable servomotor is formed.

A pulse signal or a continuous signal can be used as the control signal Find use.

The control unit can preferably be designed so that the Control signal for the actuator only when over crossing a speed threshold below speed increase is generated. This is especially for the application of the Invention on a motor vehicle important. It remains for the Driver of the motor vehicle the possibility of emergency braking to perform on the spring brake cylinder, then at the speed threshold is now decreasing is passed through, so that the generation of the control signal, which  would lead to a release of the spring brake cylinder, is suppressed.

The control unit can have electrical lines with pressure sockets sensors or pressure switches on at least those of the service brake associated storage containers connected when pressed generating the control signal below the operating pressures suppress. This ensures that a deliberately turned on put spring brake is not released until the Operating pressure in the service brake reservoir is reached and to the extent that there is the possibility of operating brake to use.

The parking brake valve can be a four / two-way valve. Four / two-way valves are known per se, but not as Parking brake valves.

The control unit can be part of an ABS system and that control signal symbolizing the driving state of the vehicle derive from one or more wheel sensors. The control unit then switches the actuator, in particular that Solenoid valve, via which the parking brake valve with pressure air is applied. In particular, can be used to generate such wheel sensors are used that are assigned to an axle are only equipped with service brake cylinders. In order to it is ensured that the control signal is undistorted Signal represents the driving state of the vehicle.

The invention is based on preferred embodiments further explained and described. Show it:

Fig. 1 is a compressed air brake system of a trailer and

Fig. 2 is a compressed air brake system of a motor vehicle.

The for a trailer, in particular semitrailers, certain compressed-air brake system of FIG. 1 has a supply coupling head 1 and a coupling head brake 2. From the coupling head supply 1 , a pneumatic line leads via a filter 3 to a trailer brake valve 4 with a manual release option, as is used for maneuvering purposes. A pneumatic line also leads from the clutch head brake 2 via a filter 5 to the trailer brake valve 4 . Pneumatic lines with solid lines are illustrated in the drawings. Electrical lines are shown in broken lines.

A line leads from the trailer brake valve 4 to one or more storage containers 6 . A line 7 , which also branches according to the conditions of the axles, ultimately leads from the reservoir 6 to spring-loaded brake cylinders 8 . As can be seen, the trailer vehicle indicated schematically in FIG. 1 on the basis of its system has three axles, two of which are equipped with the spring-loaded brake cylinders 8 . The spring brake cylinders 8 are combined with service brake cylinders 9 , so that known structural units, as they are referred to as combined service brake and spring brake cylinders, are used on these two axles. The third axis is equipped with pure service brake cylinders 10 .

In the line 7 from the reservoir 6 to the spring brake cylinders 8 , a check valve 11 , a manually operated parking brake valve 12 , a two-way valve 13 and a quick release valve 14 are arranged.

Furthermore, a pneumatic line leads from the trailer brake valve 4 via an ALB valve 22 to two ABS pressure control valves 15 , each of which is assigned to one side of the vehicle. A pneumatic line leads from each ABS pressure control valve 15 to the service brake cylinders 9 and 10 .

From the line 7 or directly from the reservoir 6 , a supply line 16 leads to an actuator 17 , which is designed here as a solenoid valve with its own ventilation. A control line 18 leads from the actuator 17 to the parking brake valve 12 and there into a control chamber, not shown in detail, with a control piston which is assigned to the actuating or switching element of the parking brake valve 12 . The arrangement is such that, when pressure is applied, the control or switching element of the parking brake valve 12 is returned to its release position or is acted upon in this release position. The parking brake valve 12 can be designed as a four / two-way valve.

The actuator 17 , on the other hand, is connected via an electrical line 19 to a control unit 20 of an ABS system. The ABS system has wheel sensors 21 which are connected to the control unit 20 via electrical lines. Additional electrical lines are used to supply power and to connect the control unit 20 to the motor vehicle.

The wheel sensors 21 emit a signal to the control unit 20 while driving, the ABS pressure control valves being activated accordingly during braking, so that the service brake cylinders 9 and 10 , as is customary in an ABS system, with compressed air in a corresponding sequence and Modulation can be controlled. However, the signal supplied by the wheel sensors 21 is also present in brake-free times. From this, a control signal can be generated by the control unit 20 , for example when an adjustable speed threshold is passed. This speed threshold can advantageously be set at a relatively low speed, for example at 10 km / h. If this speed threshold is passed, the control unit 20 gives a control signal to the actuator 17 via the electrical line 19 , which then shuts off the ventilation and connects the line 16 to the line 18 so that compressed air from the reservoir 6 on the control piston of the parking brake valve 12 is directed. The actuator or switching element of the parking brake valve 12 is transferred to the release position or held in the release position, so that the parking brake cylinders 8 are pressurized with compressed air from the reservoir 6 or remain pressurized. The Z. B. inadvertently before the start of the journey not transferred into the release position parking brake valve 12 is thus safely and automatically transferred to the release position and overheating of the wheel brakes in the area of the parking brake cylinder 8 avoided. On the other hand, the parking brake valve 12 can be actuated manually when the trailer is at a standstill in order to bleed the spring brake cylinders 8 and thus apply the parking brake. The ventilation takes place by lowering the pressure via the quick release valve 14 .

In Fig. 2 is a compressed air brake system of a motor vehicle is shown with its essential for the present invention parts. As is known, a motor vehicle has its own compressed air supply, with the aid of which various storage containers 6 are filled via a multi-circuit protection valve 23 . From one of the storage containers 6 , a pneumatic line leads in a known manner to a trailer control valve 24 and from there a supply line to a coupling head supply 25 and, in a known manner, another line to a coupling head brake 26 . On the other hand, with the usual dual-circuit design, corresponding lines from storage containers 6 lead to a dual-circuit service brake valve 27 . Pressure switches 28 are provided in these lines or assigned to the individual storage containers 6 and are connected to the control unit 20 via electrical lines 29 . The electrical line 19 leads from the control unit 20 to the actuator 17 . A control signal is only generated by the control unit 20 when the pressure switches 28 indicate that the operating pressure of the service brake has been reached in the storage containers 6 . A line leads from one circuit of the service brake valve 27 to service brake cylinders 10 , which are arranged here on the front axle 30 . A branch line leads to an overload protection relay 31 and to the trailer control valve 24 . The parking brake valve 12 is also supplied with compressed air from a reservoir 6 via the line 7 and a check valve 11 . On the other hand, it is connected to the trailer control valve 24 and to the overload protection relay 31 . Furthermore, the ALB valve 22 and a relay valve 32 are accommodated in the circuit in a manner known per se. There is a connection to service brake cylinders 9 of combined spring brake cylinders of a rear axle 33 , the spring brake cylinders 8 of which are controlled by the overload protection relay 31 and ultimately by the parking brake valve 12 . The parking brake valve 12 has connection via the control line 18 to the actuator 17 , so that its actuator or switching element can be acted upon pneumatically here. The control unit 20 need not necessarily be the control unit of an ABS system; it can e.g. B. be a control unit that receives its control pulse from a speed measuring system of the vehicle.

Reference list

1 coupling head stock
2 clutch head brake
3 filters
4 trailer brake valve
5 filters
6 storage containers
7 line
8 spring brake cylinders
9 service brake cylinders
10 service brake cylinders
11 check valve
12 parking brake valve
13 two-way valve
14 quick release valve
15 ABS pressure control valve
16 supply line
17 actuator
18 control line
19 electrical line
20 control unit
21 wheel sensor
22 ALB valve
23 Multi-circuit protection valve
24 trailer control valve
25 Coupling head stock
26 Brake coupling head
27 Service brake valve
28 pressure switches
29 electrical line
30 front axle
31 overload protection relay
32 relay valve
33 rear axle

Claims (9)

1.Compressed air brake system for commercial vehicles, with a compressed air supply having a reservoir and at least one axle equipped with spring brake cylinders, in which a parking brake valve having an actuator or switching element in a line leading from the reservoir to the spring brake cylinders and a line depending on the inlet A condition providing a control signal is provided in the control unit, characterized in that the parking brake valve ( 12 ) is preceded by an electrically controllable actuator ( 17 ), that the upstream actuator ( 17 ) is connected to the control unit ( 20 ) via an electrical line ( 19 ). is connected, which, depending on the driving condition of the vehicle, generates the control signal for the actuator ( 17 ), and that the actuator or switching element of the parking brake valve ( 12 ) for reaching and / or locking the released position via the electrically controllable actuator ied ( 17 ) can be actuated. 2. Air brake system according to claim 1, characterized in that the actuator ( 17 ) is designed as a solenoid valve, and that the parking brake valve ( 12 ) has a control piston, the control chamber with the occurrence of the control signal generated depending on the driving state of the vehicle Compressed air can be applied. 3. Air brake system according to claim 1, characterized in that the actuator ( 17 ) is designed as an electrically controllable servomotor. 4. Air brake system according to claim 1 and 2, characterized records that as a control signal, a pulse signal or Continuous signal is used. 5. A compressed air brake system according to claim 1 or 4, characterized in that the control unit ( 20 ) is designed so that the control signal for the actuator ( 17 ) is generated only when a speed threshold is exceeded under speed increase. 6. Compressed air brake system according to claim 1 or 2, characterized in that the control unit ( 20 ) via electrical lines ( 29 ) with pressure sensors or pressure switches ( 28 ) on at least the storage tank associated with the service container ( 6 ) is the verbun at Pressing below the operating pressures suppress the generation of the control signal. 7. Air brake system according to claim 1, characterized in that the parking brake valve ( 12 ) is a 4/2-way valve. 8. A compressed air brake system according to claim 1, characterized in that the control unit ( 20 ) is part of an ABS system and the control signal symbolizing the driving state of the vehicle is derived from one or more wheel sensors ( 21 ). 9. A compressed air brake system according to claim 8, characterized in that the control signal symbolizing the driving state of the vehicle is derived from a wheel sensor assigned to an axle without spring brake cylinder ( 8 ).