EP3191317A1

EP3191317A1 - Tyre pressure regulating device with a pneumatically pilot-controlled relay valve

Info

Publication number: EP3191317A1
Application number: EP15757295.9A
Authority: EP
Inventors: Kornél Kantor; Janos Toth; Tamas Toth
Original assignee: Knorr Bremse Systeme fuer Nutzfahrzeuge GmbH
Current assignee: Knorr Bremse Systeme fuer Nutzfahrzeuge GmbH
Priority date: 2014-09-10
Filing date: 2015-09-04
Publication date: 2017-07-19
Also published as: CN107074045A; BR112017003849A2; US10569604B2; DE102014113063A1; WO2016037935A1; CN107074045B; US20170174011A1

Abstract

The present invention relates to a tyre pressure regulating device for at least one tyre (6) of a commercial vehicle, having a relay valve (7) which performs compressed air loading of a working line (8) which leads to the tyre (6) starting from a pressure source (9) in accordance with a pneumatic pilot controller which comprises electropneumatic converter means for converting an electric actuating signal into a corresponding pneumatic pilot control signal for the relay valve (7), wherein the converter means have an electropneumatic aeration valve (10) and an electropneumatic ventilating valve (11) for pneumatic signal specifying for increasing or reducing the tyre pressure. Here, the pneumatic signal specifying takes place according to special regulations.

Description

Tire pressure regulating device with a

pneumatically pilot operated relay valve

The invention relates to a tire pressure regulating device for at least one tire of a utility vehicle, with a pneumatically piloted relay valve, which performs a compressed air supply leading to the tire working line from a pressure source in accordance with a pneumatic pilot, which electropneumatic converter means for converting an electrical Ansteuersignais in a the corresponding includes pneumatic pilot control signal for the relay valve. Furthermore, the invention also relates to methods for filling at least one tire of a commercial vehicle with such a tire pressure regulating device.

The field of application of the invention extends primarily to commercial vehicles, which are used under different travel conditions, such as paved roads, terrain, sand, swamp and the like. These require adaptation of the tire pressure even while driving to different ground conditions. Therefore, in the case of commercial vehicles of interest here, a tire filling device is present which adapts the existing actual tire pressure of the tires of the commercial vehicle to a preset target tire pressure depending on the underlying conditions. Such Reifenfüllvorrichtung is usually part of a pneumatic system of the commercial vehicle, which may also include a pneumatic brake device and possibly a pneumatic spring device. From the well-known prior art tire inflating devices emerge, which use a high-flow rate ventilation valve to pressurize one or more tires. Depending on the sensor-technologically measured actual tire pressure, a pressure deviation is determined in comparison with a desired target specification in order then to adjust the tire pressure. A selection of the tire to be filled from a plurality of tires of a vehicle takes place via selector valves, which establish a connection between the tire to be filled and the valve device. In most applications, the vent valve is connected in series with the vent valve and is driven either manually or electrically.

From DE 34 05 101 AI contrast, a generic tire pressure regulating device is apparent, which uses a relay valve for tire inflation. The tire inflator consists of a valve system in which solenoid valves and relay valves are operatively connected to each other. According to the

Switching position of a manual control switch are used to set the target value, control functions are carried out, which cause an increase or decrease of the tire pressure. When lowering the tire pressure, the compressed air flowing out of the tire is discharged into the atmosphere via an air outlet of a relay valve, which is in direct connection to a wheel valve. The setpoint inputs selected manually by the control switch are forwarded via an electrical signal line to an electromagnetic converter, which activates the pneumatic pilot control of the relay valve. In the context of this Reifenfüllvorrichtung a sensor for measuring the actual tire pressure is only the display and is not part of a closed loop.

DE 31 05 037 AI discloses a Reifenfüllvorrichtung with relay valve, in which also electropneumatic pilot valves are controlled with a manual setpoint specification. The actual tire pressure is measured here via a flow sensor. A manually adjustable control valve are the relay valve and a shut-off valve downstream. The measuring principle of such a tire inflation device is represented by flow sensors, which are arranged in the supply line behind the relay valve. With such a technical solution, value deviations can be made quite time-consuming due to the mechanical control components and require several approach steps.

DE 10 2012 008 002 AI discloses a Reifenfüllvorrichtung with relay valve, which is also subject to a mechanical control. The relay valve controlling the air valve are in turn also pneumatically piloted. In this technical solution, the tire pressure circuit of a multi-circuit compressed air supply system of a commercial vehicle should preferably be supplied with compressed air.

It is the object of the present invention to provide a Reifenfüllvorrichtung using a pneumatically piloted relay valve for high flow rates, which compensates quickly and accurately a control deviation between a measured actual tire pressure and a predetermined target tire pressure.

The object is achieved on the basis of a tire pressure regulating device according to the preamble of claim 1 in conjunction with its characterizing features. Technically, the object is achieved by claim 5 and 6. The respective dependent claims give advantageous developments of the invention. The invention includes the technical teaching that the converter means comprise an electropneumatic venting valve and an electropneumatic venting valve for pneumatic signal input for increasing or decreasing the tire pressure. Preferably, it is provided for this purpose that a pressure sensor arranged on the working line side of the relay valve measures the course of the tire pressure and the measurement signal is continuously applied to an electronic control unit for adjusting forwards the specified nominal tire pressure, for which purpose either the venting valve or the venting valve is electrically actuated or both valves are kept in the closed state. The advantage of the solution according to the invention is, in particular, that it is possible to react quickly to a control deviation that is to be compensated by the continuous closed control created thereby. Due to the continuous monitoring process of the tire pressure, there is constant monitoring for equalized target pressure deviations. No step-by-step ventilation or bleeding phases are required to achieve the desired Tire inflation pressure at the end of the control process. The solution according to the invention sets a new pressure value on request, ie vented when a higher target tire pressure is needed and vented when a lower tire pressure is needed. Otherwise the feedforward control is shut off. It is not directly measured the actual tire pressure via a pressure sensor arranged on the tire, but in an analogous manner, the output side of the relay valve outgoing working pressure in the working line to the tire.

With the electronically controlled control valve, the setpoint for aeration or venting can be changed continuously during ventilation to reduce the time required for a required tire pressure compensation.

According to a preferred embodiment of the invention, it is proposed that in the case of several tires of a utility vehicle, a respective associated wheel valve be provided in order to make a selection for one of the tires for which a required tire ventilation or ventilation is to be carried out. As a result, a single tire inflation device is used for several tires, which adapts the TARGET tire pressure for several attached tires as needed. Preferably, the electropneumatic venting valve and venting valve which, by mutual control by the control unit, predetermine the desired control pressure for the relay valve as monostable electropneumatic 2/2-way valves. As a result, a reliable feedforward control of the relay valve is achieved with little device complexity.

The tire inflation device of the type described above is preferably controlled by the control unit in such a way that in the case of too low a tire pressure at the beginning of the subsequently initiated ventilation first a higher pressure than the nominal tire pressure is set to accelerate the ventilation. Conversely, by the control unit in the case of too high a tire pressure at the beginning of the venting initiated as a result of the lowest possible pressure above the cut-off, the so-called "shut-off pressure", the wheel valve to accelerate the vent can also be achieved by an initial offset to the control signal of the control device The initial impact or discount to the target tire pressure to be corrected or the control deviation representing the control value can be predefined on the basis of a characteristic curve stored in the control unit In the case of aeration, it ensures that the specified target value drops continuously during ventilation, and then at the end of the ventilation, the target tire pressure is reached, and this is also implemented in the venting mode.

According to a further measure improving the invention, it is proposed that by the control unit, in addition to the tire pressure measured with the pressure sensor, further measurement signals originating from the on-board pneumatics, such as the current outside temperature, the operating state of the vehicle engine or the current supply pressure value, for the determination of the pneumatic pre Signal is processed and from this a filling time of the tire is calculated in order to carry out the ventilation of the tire in the calculated period of time. Furthermore, the filling time can be recalculated by the electronic control unit even after a change in the tire pressure and the further measurement signals of the on-board pneumatics in order to make a dynamic adjustment can. According to another measure further improving the invention, it is proposed that the ventilation is then denied or interrupted by the electronic control unit when an evaluation of the further measurement signals of the on-board pneumatics reveals that the execution of a higher-priority basic function of the on-board pneumatics would be jeopardized by the compressed air requirement of the tire filling. Thus, the tire pressure regulation can be done with the same pneumatic system, which performs, for example, the safety related more relevant vehicle braking, without affecting their function.

Preferably, the override of the ventilation or the Untersteu- the ventilation of the tire by the control unit is stopped when the measured by the pressure sensor actual tire pressure has reached at least 90% of the target tire pressure. Best efforts are continued by the inertias contained in the system. This does not lead to an exceeding of the target tire pressure, which would immediately trigger a venting of the tire by the system vibrations generated thereby. A targeted achievement of the target value is thereby possible.

Further measure improving the invention will be described in more detail below together with the description of a preferred embodiment of the invention with reference to FIGS. It shows:

1 shows a schematic representation of a compressed air supply system for a commercial vehicle, FIG. 2 shows a block diagram representation of a tire filling device for filling two tires of a commercial vehicle, and

FIG. 3 shows a graphic representation of a desired value offset with offset for rapid pressure equalization.

According to FIG. 1, a compressed air system of a commercial vehicle (not shown here) consists essentially of a compressor 1 for generating compressed air from the ambient air, to which an air dryer 2 is connected downstream of the compressed compressed air to remove the moisture. The compressed air dried thereby serves to supply various compressed air consumers 3 and, inter alia, via a pressure limiting valve 4 also to supply a tire filling device 5 for filling at least one tire 6 connected thereto. According to FIG. 2, the tire filling device 5 essentially consists of two tires 6a and 6b connected thereto a relay valve 7, which carries out a pressurization of a leading to the tires 6 a and 6 b working line 8, starting from a supply pressure wave 9. The control of the pneumatically piloted relay valve 7 via an electropneumatic vent valve 10 and an electropneumatic venting vent valve 11. The vent valve 10 is used to increase the pilot pressure, which triggers an increase in the tire pressure through the relay valve 7. The vent valve 11 serves to reduce the pilot pressure, which results in a reduction of the tire pressure. The existing tire pressure is measured in an analogous manner via a pressure sensor 12 arranged on the operating line 8 of the relay valve 7. The electrical measurement signal is fed to an electronic control unit 13 on the input side. The electronic control unit 13 determines the control deviation on the basis of the predefined setpoint tire pressure Psoii and as a result controls either the ventilation valve 10 for generating the tire pressure or the venting valve 11 for reducing the tire pressure. the tire pressure is electrically applied. A separate wheel valve 14a or 14b is provided per tire 6a and 6b to make a selection of tire inflation.

The electropneumatic venting valve 10 and the electro-pneumatic venting valve 11 are connected in series with one another and both are designed as a monostable electropneumatic 2/2-way valve. By the control unit 13, both valves are mutually controllable.

In order to accelerate the ventilation, a higher pressure than the setpoint tire pressure p _{soll is} given by the control unit 13 in the case of a too low actual tire pressure at the beginning of the ventilation. The same is done analogously in the venting, ie a controlled reduction in tire pressure.

FIG. 3 shows a linear characteristic stored in the control unit 13, which has an initial impact Δ to the target tire pressure to be corrected. This initial impact decreases continuously in this embodiment from time tl to time t2, until it has dropped to the level of the predetermined target tire pressure pl. The ventilation of the tire is stopped by the control unit when the actual tire pressure measured by the pressure sensor 12 has almost reached the target tire pressure. The closed loop control also includes predetermined thresholds to avoid overshoot of the control system.

The invention is not limited to the preferred embodiment described above. On the contrary, modifications are conceivable which are included in the scope of protection of the following claims. For example, it is also possible to monitor more than two tires with a single tire filling device and to fill them with a predefinable tire pressure. For this purpose, a corresponding number of wheel valves are to be integrated into the system. LIST OF REFERENCE NUMBERS

1 compressor

2 air dryers

3 compressed air consumers

4 pressure relief valve

5 tire inflator

6 tires

7 relay valve

8 work management

9 forward pressure wave

10 ventilation valve

11 bleed valve

12 pressure sensor

13 control unit

14 wheel valve

Psoii target tire pressure

Pist IST tire pressure

pl predetermined setpoint

tl starting point setpoint specification

t2 time for extra charge

Δ surcharge to the specified setpoint

Claims

A tire pressure regulating device for at least one tire (6) of a commercial vehicle, comprising a relay valve (7) for pressurizing or venting a working line (8) leading to the tire (6) from a pressure source (9) in accordance with pneumatic pilot control which comprises electropneumatic converter means for converting an electrical control signal into a pneumatic pre-control signal for the relay valve (7) which corresponds to the nominal tire pressure,

characterized in that the converter means comprise an electro-pneumatic vent valve (10) and an electropneumatic vent valve (11) for pneumatic signal input for increasing or decreasing the tire pressure.

2. Tire pressure regulating device according to claim 1,

characterized in that a working line side of the relay valve (7) arranged pressure sensor (12) measures the course of the tire pressure and the measurement signal continuously to an electronic control unit (13) for adjusting to the predetermined nominal tire pressure passes, including either the vent valve (10) or the venting valve (11) is electrically controlled or both valves are kept in the closed state.

3. Tire pressure regulating device according to claim 1,

characterized in that a respective associated wheel valve (14a, 14b) is provided in a plurality of tires (6a, 6b) to make a selection for a required tire ventilation or venting.

4. Tire pressure regulating device according to claim 1,

characterized in that the electropneumatic vent valve (10) and vent valve (11) each as a monostable electropneumatic 2/2-way valve are formed, which are mutually controllable by the control unit (13) for loading or venting or simultaneously uncontrolled and closed.

5. A method for pressure regulation of at least one tire (6) of a commercial vehicle, using a relay valve (7), with which a compressed air loading or venting of a leading to the tire (6) working line (8) from a pressure source (9) is carried out in accordance with a pneumatic feedforward control, with which an electrical control signal is converted into a pneumatic pre-control signal for the relay valve (7) corresponding to the setpoint tire pressure via an integrated electropneumatic converter means,

characterized in that the pneumatic pilot signal corresponds to the nominal tire pressure or is predefined proportional to the nominal tire pressure depending on the characteristic of the relay valve (7).

6. A method for pressure regulation of at least one tire (6) of a commercial vehicle, using a relay valve (7), with which a compressed air or venting leading to the tire (6) working line (8) starting from a pressure source (9) in accordance with a pneumatic pre-control is carried out with which an electrical control signal is converted into a pneumatic control signal for the relay valve (7) corresponding to the target tire pressure via an integrated electropneumatic converter means,

characterized in that by the control unit (13)

a) in the case of low actual tire pressure and / or high

Tire pressure in an initial phase of the subsequently introduced ventilation a higher pressure than the nominal tire pressure is given to accelerate the ventilation and / or

b) in the event of a high actual tire pressure and / or low target tire pressure at the beginning of the resulting venting of the the lowest possible pressure above the cut-off pressure of the wheel valve (14) is specified in order to accelerate the venting.

7. The method according to claim 5 or 6,

characterized in that the initial impact or discount to be corrected target tire pressure by means of a stored in the control unit (13) or defined by this characteristic is specified.

8. The method according to claim 5 or 6,

characterized in that by the control unit (13) in addition to the pressure sensor (12) measured tire pressure also derived from the on-board pneumatic measurement signals for determining the pneumatic pilot control signal and starting from a filling time of the tire (6) is calculated to the ventilation of the tire (6) in the calculated period.

9. The method according to claim 8,

characterized in that the filling time is recalculated by the electronic control unit (13) after a change in the tire pressure and / or the further measurement signals of the on-board pneumatics.

10. The method according to claim 8 or 9,

characterized in that the ventilation is then denied or interrupted by the electronic control unit (13), if an evaluation of the further measurement signals of the on-board pneumatics, that the execution of a priority higher priority function of the onboard pneumatics would be jeopardized by the compressed air demand of the tire filling.

11. The method according to claim 5 or 6,

characterized in that the override of the ventilation or the under control of the venting of the tire (6) is stopped by the control unit (13) when the tire pressure measured by the pressure sensor (12) is at least

90% of the target tire pressure.

12. The method according to claim 11,

characterized in that by the control unit (13) of the pressure sensor (12) determined temporal pressure curve is recorded.