CN206633997U - A kind of EHB - Google Patents

Abstract

A kind of EHB of the utility model includes electronic control unit ECU, battery, automatically controlled Linear Moving Module, push rod, master cylinder first piston, the working chamber of master cylinder first, fluid reservoir, master cylinder second piston, the working chamber of master cylinder second, master cylinder, ABS/ESP modules, switch valve, pedal simulator, line traffic control magnetic valve, hydraulic pressure force snesor 1, hydraulic pressure force snesor 2, pattern switching valve, secondary master cylinder, pedal push rod, pedal displacement sensor, brake pedal, automatically controlled Linear Moving Module, control to motor is realized by displacement signal, and the rotary motion of motor is converted into the linear motion of push rod, so as to be controlled to brake pressure.The utility model can preferably meet braking requirement, and with the response time is short, can accurately control hydraulic braking force, realizes the advantages of maximization recovery braking energy, security reliability height.

Description

A kind of EHB

Technical field

The utility model belongs to automobile brake technical field, more particularly to a kind of EHB.

Background technology

One of brake system of car, the important component as automobile, just play since its generation particularly important Role, and with requirement more and more higher of the people to braking ability, original brakes is due in structure and principle side Raising limited potential of the limitation in face to braking ability, thus, urgent need has a kind of new brakes to meet its new need Ask.Automobile line control brake system（Brake-By-Wire System, abbreviation BBW）Grow up under this background.

Line control brake system, orthodox car brakes and wire control technology are combined, can preferably meet Hyundai Motor system The new demand of dynamic System Development, it is the direction of New Times brake system of car development.Automobile line control brake system can be divided into electronics Brake fluid system（Electro-Hydraulic Brake System, abbreviation EHB）And electromechanical braking system （Electro-Mechanical Brake System, abbreviation EMB）Two types.Wherein, EMB systems, its hydraulic system are electric Sub- mechanical system substitutes completely, and eliminates mechanical or fluid pressure type back-up system, is generally treated as line control brake system Final developing direction.But due to eliminating back-up system, reliability just more significant；Also, because its executing agency needs Possessing has enough energy to maintain efficient brake efficiency, now with vehicle-mounted 12V power supplys can not meet its requirement, this Vehicle power high-pressure system with regard to needing to re-establish new 42V, and therefore caused safety related technical problems remain unsolved.And EHB systems, it is the transiting product from Conventional braking systems to EMB system transition processes, still remains traditional hydraulic braking work( Can, reliability is relatively preferable；Meanwhile as a kind of new brakes, it is by some mechanical element in Conventional braking systems Substituted with electronic component, compensate for the weak point of traditional design and principle, automobile braking performance can be improved to the utmost Energy.In addition, EHB systems are still using existing 12V vehicle powers, it is not necessary to establish new circuit system.

The EHB of current trend mostly using motor, high pressure accumulator and pump be used as power source, but height There is the danger of helium leak in pressure accumulator, reliability and security still have much room for improvement.

Pump, high pressure accumulator are replaced with motor and reducing gear in existing EHB, also can be real Existing its controls to adjust function, and with motor-driven mechanism to act on master cylinder, and deposited in the absence of high pressure accumulator etc. Potential safety hazard.Compared with the EHB of prevalence, this brake system structure is simple, reduces cost, can Direct control higher by property and security, and passing through ECU, it is possible to achieve the function such as ABS, ESP, TCS, ACC, it develops empty Between it is huge, be the developing direction of following brakes.

Chinese patent Authorization Notice No. CN103754210A discloses " a kind of motor-driven EHB ", The system is using worm and wormwheel+pinion and rack as motion transforming unit, and under normal mode, ECU receives the letter of pedal simulator Motor is passed to after breath, powered motion converting unit makes master cylinder work produce hydraulic braking force to motor again, so as to act on Wheel braking wheel cylinder realizes braking；Under failure mode, brake pedal push rod, which pushes directly on rack, makes master cylinder work, so as to real Now brake.Because caloric value is larger, the flank of tooth is easy to wear, is produced into when endless screw worm gear actuating mechanism has transmission efficiency low, work The shortcomings that this is high, the present invention uses Bevel Gear Transmission+pinion and rack as motion transforming unit, with Worm and Worm Gear Driving machine Structure is compared, and bevel gear transmission has that service life is long, can bear high load operation state, be corrosion-resistant, cost is low, efficiency high The advantages that；Under failure mode, brake pedal push rod directly acts on secondary master cylinder and produces hydraulic braking force, so as to act on wheel cylinder Realize braking.

The content of the invention

In view of problem above, the purpose of this utility model is to provide a kind of EHB, and the system has Reclaim braking energy, improve response time, the function of accurate control brake force, brake force can be fed back into driving well Member, realize the active control of hydraulic coupling and pedal force.

A kind of EHB of the utility model includes electronic control unit ECU, battery, automatically controlled linear motion mould Block, push rod, master cylinder first piston, the working chamber of master cylinder first, fluid reservoir, master cylinder second piston, master cylinder Second working chamber, master cylinder, ABS/ESP modules, switch valve, pedal simulator, line traffic control magnetic valve, hydraulic pressure force snesor 1, liquid Pressure sensor 2, pattern switching valve, secondary master cylinder, pedal push rod, pedal displacement sensor, brake pedal.

Electronic control unit ECU, required total braking force is calculated according to displacement signal, further according to motor, the shape of battery State calculates regenerative braking force, and total braking force, which subtracts regenerative braking force, can obtain caused brake force needed for brakes；It is automatically controlled Linear Moving Module includes electric rotating machine and motion transforming unit, and motion transforming unit includes bevel gear engagement transmission mechanism and tooth Rack engagement transmission mechanism is taken turns, the rotary motion of motor is converted into rack and pinion engagement driver by bevel gear engagement transmission mechanism The linear motion of structure, so as to promote push rod master cylinder is started working, and the control to motor is realized by displacement signal, And the rotary motion of motor is converted into the linear motion of push rod, so as to be controlled to brake pressure；Push rod, made for promoting The piston of dynamic master cylinder；Fluid reservoir, for storing and reclaiming the fluid in fluid pressure line；Master cylinder, including master cylinder first Chamber and the chamber of master cylinder second, for the mechanical energy from pedal to be converted into hydraulic energy.

The working chamber of master cylinder first is connected by fluid pressure line and switch valve respectively with the working chamber of master cylinder second； ABS/ESP modules, it is made up of four two-position two-way solenoid valves, for adjusting the brake force of each wheel cylinder；Switch valve is normally closed type, just Often prevent fluid from flowing backwards during braking, influence braking effect, under failure mode, with pattern switching valve collective effect, pattern switching valve Switch over, switch valve is opened, brake pedal, and secondary master cylinder directly acts on each wheel braking wheel cylinder, realizes braking；Step on Plate simulator, for simulating the Brake feedback power of pedal；Line traffic control magnetic valve, for adjusting damping, carrying out active control to pedal force System；Hydraulic pressure force snesor, for judging the braking intention of driver；Pattern switching valve, for normal mode and failure mode it Between switching；Secondary master cylinder, pedal sense is used under normal brake mode and is simulated, braking is directly used under failure mode；Pedal Displacement transducer, for obtaining the displacement information of brake pedal and being fed back to ECU；Brake pedal, for obtaining driver Braking information.

Pattern switching valve is located in secondary master cylinder with the brake piping between pedal simulator, the magnetic valve is two three Three-way electromagnetic valve；And a hydraulic pressure force snesor is also equipped with the brake piping between pattern switching valve and pedal simulator, measure The hydraulic coupling in the loop, to identify the braking intention of driver and carry out the feedback control of pedal sense simulation.Simulated in pedal A line traffic control magnetic valve is also arranged on pipeline between device and fluid reservoir, the magnetic valve is two position two-way valve, can actively be adjusted Section simulation pedal force.

Secondary master cylinder, pedal simulator, hydraulic pressure force snesor and line traffic control magnetic valve carry out the mould of brake pedal feel jointly Intend, active control can be carried out to pedal force by adjusting the flow of line traffic control magnetic valve.

Secondly, fault diagnosis system and electronic control unit ECU are communicated to connect, when some brake parts breaks down nothing Fault message can be passed to electronic control unit ECU during method normal work；Fault diagnosis system be diagnosed to be brakes some When place is broken down, warning system can remind driver the very first time.

Compared with existing EHB, the utility model has following obvious advantage.

Secondary master cylinder is connected by magnetic valve with each wheel braking wheel cylinder, and when electric rotating machine fails, secondary master cylinder is direct Wheel braking wheel cylinder is acted on, realizes braking.

ABS/ESP modules are replaced traditional by 12 magnetic valves, i.e., each solenoid valve control one using four magnetic valves The hydraulic coupling of individual wheel braking wheel cylinder, simple in construction, cost reduces.

Brief description of the drawings

Fig. 1 is the integrally-built schematic diagram of the utility model.

Fig. 2 is the schematic diagram of bevel gear engagement transmission mechanism.

Fig. 3 is the schematic diagram of rack and pinion engagement transmission mechanism.

In figure, 1- electronic control units ECU；2- batteries；3- electric rotating machines；4- bevel gear engagement transmission mechanisms；5- gears； 6- racks；7- push rods；8- master cylinder first pistons；The working chamber of 9- master cylinders first；10- fluid reservoirs；11- master cylinders Two pistons；The working chamber of 12- master cylinders second；13- master cylinders；14-ABS/ESP modules；15- switch valves；16- pedals are simulated Device；17- line traffic control magnetic valves；18- hydraulic pressure force snesor 1；19- hydraulic pressure force snesor 2；20- pattern switching valves；21- level master cylinder； 22- pedal push rods；23- pedal displacement sensors；24- brake pedals.

Embodiment

To make the purpose of this utility model, technical scheme and technique effect clearer, 1~Fig. 3 pairs below in conjunction with the accompanying drawings The utility model makees detailed description further.

When driver's brake pedal（24）When, pattern switching valve（20）, switch valve（15）, line traffic control magnetic valve（17） It is in running order, pedal displacement sensor（23）Obtain displacement information and pass to electronic control unit ECU（1）, electronics control Unit ECU processed（1）Receive after information according to electric rotating machine（3）Working characteristics and cell operating status calculate driving rotation Motor（3）Regenerative braking force size, regenerative braking force is subtracted by total brake force, can obtain this time brake needed for liquid Power size is suppressed, and electric signal is passed into electric rotating machine（3）, then electric rotating machine（3）According to electronic control unit ECU （1）The automatically controlled Linear Moving Module of order-driven promote and push rod（7）Connected master cylinder first piston（8）, led in braking Cylinder first piston（8）The working chamber of master cylinder first when blocking the first compensation hole（9）Start to build pressure, so as to push away by spring spindle Dynamic master cylinder second piston（11）, and work as master cylinder second piston（11）The work of master cylinder second when blocking the second compensation hole Make chamber（12）Also begin to build pressure, now brake fluid flows to ABS/ESP modules by fluid pressure line（14）, to each wheel cylinder transmission Brake force.

In the utility model, automatically controlled Linear Moving Module includes electric rotating machine（3）, bevel gear engagement transmission mechanism（4）、 Gear（5）Rack（6）Engagement transmission mechanism.Electric rotating machine（3）Pass through circuit and electronic control unit ECU（1）Connection, according to electricity Sub-control unit ECU（1）The electric rotating machine of transmission（3）Torque signals drive straight-line motion mechanism.Master cylinder（13）Including system Dynamic master cylinder first piston（8）, the working chamber of master cylinder first（9）, master cylinder second piston（11）, master cylinder second works Chamber（12）, the working chamber of master cylinder first（9）With the working chamber of master cylinder second（12）It is braked master cylinder second piston（11）Every Open, and all by compensating hole and fluid reservoir（10）Connection.The working chamber of master cylinder first（9）With the working chamber of master cylinder second （12）Pass through fluid pressure line and ABS/ESP modules respectively（14）It is connected, and ABS/ESP modules（14）Also through fluid pressure line and vehicle Each brake is connected.

Work as electric rotating machine（3）Hinder for some reason and can not provide braking moment or automatically controlled Linear Moving Module damage so that it cannot When transmitting brake force, fault diagnosis system is diagnosed to be fault message and passes to electronic control unit ECU（1）, Electronic Control list First ECU（1）Whole brakes is set to be in off working state, pattern switching valve at once（20）, switch valve（15）After not working, Secondary master cylinder（21）With ABS/ESP modules（14）It is directly connected to, brake pedal（24）, brake fluid is by secondary master cylinder（21）Directly Connect and flow to ABS/ESP modules（14）, so as to produce brake force, vehicle is realized and braked.

Claims (4)

1. a kind of EHB, including electronic control unit ECU（1）, battery（2）, automatically controlled Linear Moving Module, push away Bar（7）, master cylinder first piston（8）, the working chamber of master cylinder first（9）, fluid reservoir（10）, master cylinder second piston （11）, the working chamber of master cylinder second（12）, master cylinder（13）, ABS/ESP modules（14）, switch valve（15）, pedal simulation Device（16）, line traffic control magnetic valve（17）, hydraulic pressure force snesor 1（18）, hydraulic pressure force snesor 2（19）, pattern switching valve（20）, it is secondary Master cylinder（21）, pedal push rod（22）, pedal displacement sensor（23）, brake pedal（24）, it is characterised in that：Described is automatically controlled straight Line motion module includes electric rotating machine（3）And motion transforming unit, described motion transforming unit include bevel gear engaged transmission Mechanism（4）And gear（5）Rack（6）Engagement transmission mechanism；Described line traffic control magnetic valve（17）Installed in pedal simulator（16） With fluid reservoir（10）Between pipeline in.

A kind of 2. EHB according to claim 1, it is characterised in that：Described master cylinder（13）Bag Include the working chamber of master cylinder first（9）With the working chamber of master cylinder second（12）；The described working chamber of master cylinder first（9）With The working chamber of master cylinder second（12）Pass through fluid pressure line and the switch valve of normally closed type respectively（15）Connection.

3. EHB according to claim 1, it is characterised in that：Described pedal simulator（16）Outlet Pipeline is equipped with a line traffic control magnetic valve（17）, and and fluid reservoir（10）It is connected.

A kind of 4. EHB according to claim 1, it is characterised in that：Described hydraulic pressure force snesor 2 （19）It is arranged in pattern switching valve（20）With pedal simulator（16）Between brake piping in；Described pattern switching valve（20） It is arranged in secondary master cylinder（21）With pedal simulator（16）Between brake piping in.