CN105946837A - Electronic hydraulic braking system with multiple working modes - Google Patents

Abstract

The invention belongs to the technical field of automobile braking systems and discloses an electronic hydraulic braking system with multiple working modes. The electronic hydraulic braking system mainly comprises a braking pedal, a braking pedal displacement sensor, an active control booster, 2/2 normally-closed solenoid valves, an active pedal sense simulator, a hydraulic control unit, an electronic control unit, a braking main cylinder and braking wheel cylinders. The electronic hydraulic braking system adopts a double-power source braking system form, so that the fault-tolerant capability of the system can be improved, the relatively steady pedal sense can be guaranteed during the switching of various braking conditions, and furthermore, the relatively high pressurizing response speed of the system can be guaranteed.

Description

A kind of EHB with multi-operation mode

Technical field

The invention belongs to brake system of car technical field, particularly to one, there is many Working moulds The EHB of formula.

Background technology

Brake system of car is closely related with the safety of automobile, is constantly subjected to the extensive pass of people Note.Current automobile has been not only traditional braking anti-lock to the functional requirement of brakes (ABS), stability controls (ESP), in the face of new-energy automobile/intelligent automobile is to brakes Functional requirement, each big components supplying business and research institution all propose corresponding system schema, Decoupling mode according to manpower Yu brakes is broadly divided into full decoupled scheme and partly decoupled Scheme, the most full decoupled scheme, also known as pure line control brake system, the most typically there is Toyota EHB (EHB), Continental AG (Continental) that Prius is used use MK C1 electro-hydraulic brake system, the integrated form control for brake that uses of Tian He company (TRW) And mechanical type brake system electric (EMB) etc. (IBC)；Partly decoupled scheme is then with Bosch (BOSCH) the intelligent brake booster iBooster used with can be used for energy-recuperation system ESP-hev combination more typical case.

Brakes as ensureing the core component of vehicle safety, therefore in scheme Design and During control algorithm design, need fault diagnosis and the fault-tolerant ability of abundant safeguards system.Electro-hydraulic Brakes (EHB) high pressure accumulator is unique high voltage power source in system, once loses efficacy System i.e. enters manpower backup loop, and during manpower backup, only two front-wheels can realize braking, It is difficult to ensure that bigger braking deceleration；For iBooster Yu ESP-hev assembled scheme, Though having two power sources (hydraulic pump in iBooster motor and ESP-hev), when During iBooster motor failure, can provided high pressure by ESP-hev hydraulic pump, though can realize relatively Big braking deceleration, but due to the constraint of hydraulic pump boosting capability, system is difficult to ensure that tightly The needs under anxious damped condition, supercharging responded.

For pure line control brake system, pedal sense simulator is needed to carry arch brake feel, EHB In system, pedal sense simulator uses the mode of simulation spring, on the one hand uses imitating shell The mode of spring is difficult to ensure that traditional nonlinear brake pedal feel, on the other hand cannot realize stepping on Plate feels adjustable, with the crowd of satisfied different driving habitses；And iBooster and ESP-hev Assembled scheme, although it is adjustable that iBooster can realize a range of pedal sense, in system When energy reclaims operating mode, then it is additionally required an active pedal sense simulator (Smart Actuator), its structure is complex.

When system needs quickly to realize supercharging, iBooster Yu ESP-hev assembled scheme, Can be worked together with hydraulic pump by iBooster motor, pressure response time can be shortened, but Still based on iBooster motor, motor is required higher；And EHB system is by high-voltage energy-storage Device provides high-voltage power supply, therefore system boost response is very fast, even if but it is in conventional brake work process In (non-faulting pattern), it is still necessary to high pressure accumulator output high pressure, take turns electricity by constantly control is each Magnet valve, it is achieved each pressure of wheel braking cylinder, it is desirable to high pressure accumulator has bigger liquid storage amount, when making continuously Time dynamic, cause hydraulic pump frequent operation, on the other hand, due to pressure of wheel braking cylinder each in EHB system , though having more advantage, there is braking fabrication error, control algolithm precision in Independent adjustable In the case of affecting etc. each side factor, it is difficult to ensure each pressure-responsive and steady-state error thereof of taking turns Concordance, as when left and right pressure of wheel braking cylinder is inconsistent, in the case of straight braking, easily occurred The phenomenon of brake side-slipping.

Summary of the invention

For problems of the prior art, it is an object of the invention to be to provide one to have The EHB of multi-operation mode, uses the brakes configuration of dual power source, energy Enough improve Fault Tolerance, when various damped conditions switch, it is ensured that pedal more smoothly Sensation, and ensure that system supercharging faster responds.

A kind of EHB with multi-operation mode, mainly include brake pedal, Brake pedal displacement transducer, active control type booster, 2/2 normally closed solenoid valve, active Pedal sense simulator, hydraulic control unit, electronic control unit, master cylinder, braked wheel Cylinder, wherein:

Described master cylinder comprise first piston, push rod, sealing ring, first piston return spring, Fluid reservoir, the second piston, the second piston return spring and cylinder body；

Described active pedal sense simulator comprises piston, return spring, sealing ring and simulation Device cylinder body；

Described hydraulic control unit comprises high pressure accumulator, hydraulic pump, check valve, 2/2 normally opened Electromagnetic valve, 2/2 normally closed solenoid valve, pressure transducer；

Described brake pedal is joined with described active control type booster input push rod by fulcrum post Connect；

Described fluid reservoir connects with the inlet opening of described master cylinder, and by pipeline, through described Check valve, 2/2 normally closed solenoid valve, hydraulic pump store with described wheel cylinder and described high pressure respectively Can device connection；

The liquid outlet of described master cylinder through described 2/2 normally open solenoid valve respectively with described braked wheel Cylinder connects, and described active pedal sense simulator is through described 2/2 normally closed solenoid valve and described system Dynamic master cylinder liquid outlet connects, and through described 2/2 normally closed solenoid valve, 2/2 normally open solenoid valve respectively It is connected with described high pressure accumulator, fluid reservoir；

Described high pressure accumulator connects with described wheel cylinder respectively through described 2/2 normally closed solenoid valve；

Described hydraulic control unit is connected with described wheel cylinder by brake piping；

Described 2/2 normally open solenoid valve, active control type booster and hydraulic control unit are all and institute State electronic control unit to connect, and receive electronic control unit control signal, and described electronics control Unit processed is connected also with described brake pedal displacement transducer, pressure transducer, wheel speed sensors Receive the sensor of described brake pedal displacement transducer, pressure transducer, wheel speed sensors etc. Signal, electronic control unit can accept the relevant information of other control subsystems of automobile simultaneously, with Just realize the coordination between each control system to control.

The inventive method provides the benefit that:

The present invention, by using the brakes configuration of dual power source, has non-line control brake system concurrently High reliability, the active braking function of line control brake system, assist rate be controlled and brake pedal Feel the function such as controlled；Under conventional brake pattern, brake pedal force and active control type power-assisted Device power output acts on master cylinder first piston jointly through actuating device, shortens initial brake Pressure is set up the time and reduces the torque demand to the motor as braking power supply device, with EHB compares, under this kind of mode of operation, it is not necessary to high pressure accumulator and corresponding pressure regulation electricity Magnet valve works, it is ensured that (especially left and right pressure of wheel braking cylinder is consistent for the concordance of each pressure of wheel braking cylinder Property), simultaneously, it is possible to decrease high pressure accumulator and the operating frequency of corresponding pressure regulating solenoid valve, fall Low high pressure accumulator demand.

When brakes needs to be operated under brake-by-wire pattern, such as under regenerative braking operating mode, Still the brake pedal feel required for can being obtained by active brake pedal simulator, when System On-line Control dynamic model formula, can be by coordinating active control type power-assisted when conventional brake switches The power output of device, hydraulic control unit and active brake pedal simulator, it is ensured that good Pedal sense and the ride comfort of braking.

Under emergency brake modes, if on the one hand the response of used active control type booster is very fast, When control unit is recognized accurately emergency work condition, brake pedal force and active control type booster Power output acts on master cylinder first piston jointly through actuating device, it is achieved brake hard；Separately On the one hand, high pressure accumulator and pressure regulating solenoid valve loop can be used, it is achieved system Quick-pressurizing needs Ask, it is possible to decrease the response demand to active control type booster.

Use the brakes configuration of dual power source, improve Fault Tolerance, i.e. when single During power source partial failure, another power source loop can be used to realize braking function, on the other hand, Two power source loops are comparatively independent, when effectively reducing single power source partial failure pair The impact in another power source loop.

Accompanying drawing explanation

Fig. 1 is a kind of EHB structure with multi-operation mode of the present invention Schematic diagram；

Fig. 2 be the present invention brakes in active control type structure of actuator schematic diagram.

A, active control type booster；B, hydraulic control unit；C, electronic control unit； 1, brake pedal；2, PTS；3, fluid reservoir；4, master cylinder；5、 2/2 normally closed solenoid valve a；6, active pedal sense simulator；7, high pressure accumulator；8、 Check valve；9, hydraulic pump；10,2/2 normally closed solenoid valve b；11,2/2 normally open solenoid valve c； 12,2/2 normally open solenoid valve d；13,2/2 normally open solenoid valve e；14,2/2 normally open solenoid valve f； 15,2/2 normally open solenoid valve g；16,2/2 normally closed solenoid valve h；17,2/2 normally closed solenoid valve i； 18,2/2 normally closed solenoid valve j；19,2/2 normally closed solenoid valve k；20,2/2 normally closed solenoid valve l； 21,2/2 normally closed solenoid valve m；22,2/2 normally closed solenoid valve n；23,2/2 normally closed solenoid valve p； 24, pressure transducer a；25, pressure transducer b；26, pressure transducer c；27, pressure Sensor d；28, pressure transducer e；29, pressure transducer f；30, pressure transducer g； 31, pressure transducer h；32, wheel cylinder a；33, wheel cylinder b；34, braked wheel Cylinder c；35, wheel cylinder d.

Detailed description of the invention

A kind of electro-hydraulic with multi-operation mode to the present invention in conjunction with the accompanying drawings and embodiments Brakes is described further.

A kind of EHB with multi-operation mode, mainly include brake pedal 1, Brake pedal displacement transducer 2, active control type booster A, 2/2 normally closed solenoid valve 5, master Ejector half pedal sense simulator 6, hydraulic control unit B, electronic control unit C, braking master Cylinder 4, wheel cylinder 32,33,34,35, wherein: master cylinder 4 comprise first piston, Push rod, sealing ring, first piston return spring, fluid reservoir the 3, second piston, the second piston Return spring and cylinder body；Active pedal sense simulator 2 comprises piston, return spring, close Seal and simulator cylinder body；Hydraulic control unit B comprise high pressure accumulator 7, hydraulic pump 9, Check valve 8,2/2 normally open solenoid valve 11,12,13,14,15,2/2 normally closed solenoid valve 10, 16,17,18,19,20,21,22,23, pressure transducer 24,25,26,27, 28、29、30、31；

Brake pedal 1 is coupled with active control type booster A input push rod by fulcrum post； Fluid reservoir 3 connects with the inlet opening of master cylinder 4, and by pipeline, through check valve 8,2/2 Normally closed solenoid valve 20,21,22,23, hydraulic pump 9 respectively with wheel cylinder 35,34,33, 32 and high pressure accumulator 7 connect；

The liquid outlet of master cylinder 4 through 2/2 normally open solenoid valve 12,13,14,15 respectively with Wheel cylinder 35,34,32,33 connects, and active pedal sense simulator 6 is normal through 2/2 Close electromagnetic valve 5 to be connected with master cylinder 4 liquid outlet, and through 2/2 normally closed solenoid valve 10,2/2 Normally open solenoid valve 11 is connected with high pressure accumulator 7, fluid reservoir 3 respectively；

High pressure accumulator 7 through 2/2 normally closed solenoid valve 16,17,18,19 respectively with braked wheel Cylinder 32,33,34,35 connects；

Hydraulic control unit B is connected with wheel cylinder 32,33,34,35 by brake piping Connect；

2/2 normally open solenoid valve 5, active control type booster A and hydraulic control unit B all with Electronic control unit C connects, and receives its control signal, and electronic control unit C and system Dynamic pedal displacement sensor 2, wheel speed sensors, pressure transducer 25,26 are connected and receive The signal of sensor acquisition.

Electronic control unit C is according to the signal received and uses control algolithm set in advance First brakes mode of operation is determined, then to active control type booster A, 2/2 normally closed Electromagnetic valve 5 and hydraulic control unit B send control command, or send to regeneration brake system Brake request.In the case of brake pedal 1 is operated, can select electric boosted pattern, The parallel schema that braking mode or frictional damping work with regenerative braking simultaneously；If braking is stepped on Plate 1 is not operated, and then selects actively braking mode when brakes is proposed braking requirement.

With reference to Fig. 2, the active power assisting device in active control type booster A uses motor and phase The actuating device answered, system under conventional assistant mode, driver's brake pedal 1, electricity Sub-control unit C steps on 1 displacement in the braking receiving brake pedal displacement transducer C transmission Related transducer information in signal and active control type booster A, as motor rotor position senses Device A15, uses control algolithm set in advance subsequently and calculates electricity according to assist characteristic curve Machine A15 target current, motor A15 output torque is also changed through drive mechanism A3 and motion Mechanism A4 etc. apply power-assisted in master cylinder first piston.Drive at brake pedal force and motor Brake pressure is set up in two high pressure chests of the lower master cylinder 4 of common effect of power, and through liquid 2/2 normally open solenoid valve 12,13,14,15 in voltage-controlled unit B processed exports respectively to braking Wheel cylinder 35,34,32,33.

For the automobile equipped with regenerative braking device, brakes is operable with braking mode, Driver's brake pedal 1, if automobile energy storage device (such as battery) allows energy storage (to electricity I.e. charging for pond) and only rely on regenerative braking and i.e. be enough to produce and depend on brake pedal displacement Desired braking deceleration, can use pure braking mode, and now 2/2 normally closed solenoid valve 5 leads to Electricity is opened, and electronic control unit C is normal by controlling 2/2 normally closed solenoid valve 10 and 2/2 simultaneously Open electromagnetic valve 11, simulates the pressure in chamber, to provide braking in regulation pedal sense simulator 6 Pedal sense, now frictional damping is not involved in work, and its whole brake force are by regenerative braking device There is provided；If the energy storage device of energy source of car system does not allow energy storage, then can enter above-mentioned routine Power brake pattern；If only relying on regenerative braking to be not enough to produce desired braking deceleration, can Use the parallel schema that frictional damping and regenerative braking work simultaneously, for only single shaft (such as rear axle) There is the automobile of regenerative braking device, without two wheel cylinder systems of regenerative braking device axletree (such as front axle) Power can be promoted master cylinder 4 to realize by brake pedal force with active control type booster A jointly, Keep the open mode of corresponding 2/2 normally open solenoid valve simultaneously, and there is the car of regenerative braking device Axle (such as rear axle), the brake pressure of its two wheel cylinder can by regulation hydraulic control unit B in 2/2 corresponding normally closed solenoid valve realizes.

It is not operated but electronic control unit C judges need to implement actively to brake at brake pedal 1 Or when other control device sends active brake request, brakes works in actively brakes mould Formula.Under this pattern, electronic control unit C sends control signal to motor A2, and motor A2 is defeated Go out in torque makes two high pressure chests of master cylinder and set up pressure, and hydraulic control unit B can be passed through Whole wheel or piece wheel is selected to implement braking and when necessary by hydraulic control unit B High pressure accumulator 7 and relevant pressure regulating solenoid valve 16,17,18,19,20,21,22, 23 loop each wheel cylinder brake pressures；If system needs urgent actively braking (such as automatic emergency Damped condition, AEB), if only active control type booster A work is difficult to meet system boost Demand, can use hydraulic control unit B high pressure accumulator 7 and relevant pressure regulating solenoid valve 16, 17,18,19,20,21,22,23 loop, it might even be possible to by active control type is helped Power device A boost-up circuit and high pressure accumulator 7 and relevant pressure regulating solenoid valve 16,17,18,19, 20, the Collaborative Control in 21,22,23 loops, to realize the Quick-pressurizing response of system.

When system single power source partial failure, such as high pressure accumulator 7 and corresponding pressure regulating solenoid valve During partial failure, system still can pass through active control type booster A corresponding circuit, it is achieved is System conventional brake, such as brake boost function, brake hard, actively braking function etc., if electronics Control unit monitors wheel when having locking trend, can be by regulation active control type booster A The output moment of torsion of middle motor A2, it is achieved single channel ABS function；Otherwise, if actively controlling When formula booster A corresponding circuit lost efficacy, can be by high pressure accumulator 7 and corresponding pressure regulation electromagnetism Valve loop realizes conventional brake, brake hard, actively braking, regenerative braking and other tradition system Dynamic systemic-function；Even if in extreme circumstances (such as powering-off state), system still can yet be regarded as one Individual double loop muscular energy braking sytem, driver can push directly on master cylinder by brake pedal 1 4, brake fluid through 2/2 normally open solenoid valve 12,13,14,15 separately flow into each wheel cylinder 35,34, 32,33, produce certain braking action.

The above, be only the preferable case of the present invention, and the present invention does not make any restriction, Every above case study on implementation is done for the technology of the present invention content any simple modification, change, Imitate the protection domain belonging to technical solution of the present invention.

Claims (1)

1. there is an EHB for multi-operation mode, mainly include that braking is stepped on Plate, brake pedal displacement transducer, active control type booster, 2/2 normally closed solenoid valve, master Ejector half pedal sense simulator, hydraulic control unit, electronic control unit, master cylinder, system Driving wheel cylinder, it is characterised in that:

Described master cylinder comprise first piston, push rod, sealing ring, first piston return spring, Fluid reservoir, the second piston, the second piston return spring and cylinder body；

Described active pedal sense simulator comprises piston, return spring, sealing ring and simulation Device cylinder body；

Described hydraulic control unit comprises high pressure accumulator, hydraulic pump, check valve, 2/2 normally opened Electromagnetic valve, 2/2 normally closed solenoid valve, pressure transducer；

Described brake pedal is joined with described active control type booster input push rod by fulcrum post Connect；

Described fluid reservoir connects with the inlet opening of described master cylinder, and by pipeline, through described Check valve, 2/2 normally closed solenoid valve, hydraulic pump store with described wheel cylinder and described high pressure respectively Can device connection；

The liquid outlet of described master cylinder through described 2/2 normally open solenoid valve respectively with described braked wheel Cylinder connects, and described active pedal sense simulator is through described 2/2 normally closed solenoid valve and described system Dynamic master cylinder liquid outlet connects, and through described 2/2 normally closed solenoid valve, 2/2 normally open solenoid valve respectively It is connected with described high pressure accumulator, fluid reservoir；

Described high pressure accumulator connects with described wheel cylinder respectively through described 2/2 normally closed solenoid valve；

Described hydraulic control unit is connected with described wheel cylinder by brake piping；

Described 2/2 normally open solenoid valve, active control type booster, hydraulic control unit are all and institute State electronic control unit and connect and receive electronic control unit control signal, and described Electronic Control Unit is connected with described brake pedal displacement transducer, pressure transducer, wheel speed sensors and connects Receive the sensor letter of described brake pedal displacement transducer, pressure transducer, wheel speed sensors etc. Number.