CN109305342A - A kind of emergency brake system and its design method of long-range control - Google Patents

Abstract

A kind of emergency brake system and its design method of long-range control, directly control the solenoid hydraulic lock being mounted in main landing gear compartment and Electric hydraulic pressure servo valve by the brake instruction transducer being mounted in cockpit, to realize emergency brake system long-range control.The solenoid hydraulic lock and Electric hydraulic pressure servo valve being mounted in main landing gear compartment are connected to hydraulic power source nearby, brake system fluid pressure line is arranged in main landing gear compartment close to brake machine wheel, solve the problems, such as that fluid pressure line must be into cockpit, to reduce the length of fluid pressure line, keep emergency brake system maintenance simple, reduces the complexity and maintenance difficulties of emergency brake system.

Description

A kind of emergency brake system and its design method of long-range control

Technical field

The present invention relates to airplane brake system field, the emergency brake system of specifically a kind of long-range control and its design side Method.

Background technique

Digital FBW anti-skid brake system (ABS) is widely used in existing airplane brake system, and airplane brake system is by normal braking system System and emergency brake system composition.Normal braking system has antiskid function；Emergency brake system is by brake reducing valve 1, oil Case 2, hydraulic power source 3, foot pedal 5 form, and emergency brake is realized by the hand brake, no antiskid function.It is specifically shown in Fig. 1 prior art emergency Brake system schematic diagram.

The reducing valve 1 that brakes is articulated and connected with foot pedal 5, is mounted in main driving cabin；Since emergency brake system uses Mechanical brake reducing valve, brake system fluid pressure line is from aircraft cockpit until the brake gear of brake machine wheel 4.It is existing There is the hydraulic oil of technology emergency brake system to have to enter into main driving cabin, causes fluid pressure line length, brake system weight big, directly The problems such as causing emergency brake system system maintenance complicated.The present invention proposes a kind of emergency brake system of long-range control and its sets Meter method solves all problems existing for prior art emergency brake system.

A kind of aircraft fax of brake instruction direct controlled type is disclosed in the innovation and creation of Publication No. CN106394525A Brake system, the innovation and creation include brake instruction transducer, brake control valve, brake-control box and velocity sensor；By stopping The brake instruction signal that vehicle instruction sensor issues is without brake-control box, and go directly brake control valve, directly manipulation brake control The aircraft brake-by-wire control system that valve processed brakes.The brake instruction signal of brake instruction transducer output is directly fed to stop Vehicle control valve, that is, electrohydraulic servo valve, electrohydraulic servo valve export the water brake pressure directly proportional to brake instruction signal and brake Control.When brake machine wheel skids or is locked, issued and brake instruction current direction phase from brake-control box to brake control valve Anti- anti-sliding control current signal, to reduce brake pressure, releases wheel and skids to reduce the control electric current of brake control valve Or it is locked, avoid quick-fried tire of stopping.

But the aircraft fax that a kind of brake instruction of the innovation and creation of Publication No. CN106394525A proposition is directly controlled is stopped Vehicle system is a kind of aircraft normal braking system, and the aircraft brake-by-wire system which directly controls has brake function, prevents Sliding function, brake function are realized by instruction sensor, brake control valve；Antiskid function is by brake-control box, velocity sensor It is realized jointly with brake control valve.But the aircraft brake-by-wire system as emergency brake system when, there are emergency brake liquid The problem that pressure pipe road is long, system weight is big and system complex bring maintenance difficulties are big.

Summary of the invention

To overcome, emergency brake fluid pressure line existing in the prior art is long, system weight is big and system complex is brought The big problem of maintenance difficulties, the invention proposes a kind of emergency brake system of long-range control and its design methods.

The emergency brake system of long-range control proposed by the present invention includes brake instruction transducer, solenoid hydraulic lock, electro-hydraulic Pressure servo valve, fuse, brake instruction transducer, power supply, landing gear position switch.Wherein: the Electric hydraulic pressure servo valve Actuator port and the brake oil-in of brake machine wheel connect, the oil outlet of the Electric hydraulic pressure servo valve and the oil return line of fuel tank Connection；The oil inlet of the Electric hydraulic pressure servo valve is connected to the oil outlet of solenoid hydraulic lock；The oil inlet of the solenoid hydraulic lock It is connected to the oil outlet of hydraulic power source, the oil return pipe connection of oil return opening and fuel tank, the actuator port and Electric hydraulic pressure servo valve Oil inlet connection.

The control signal input of Electric hydraulic pressure servo valve and the Electric hydraulic pressure servo valve control of brake instruction transducer refer to Output end is enabled to be connected to.The control signal input of the solenoid hydraulic lock and the electromagnetic hydraulic pressure lock control of brake instruction transducer are believed The connection of number output end.The DC power supply is connected through fuse with one end that landing gear position switchs, landing gear position switch The other end and brake instruction transducer power input connect.The brake instruction transducer is connect with brake lever.

The design process of the emergency brake system of the long-range control proposed by the present invention is:

Step 1, the control logic of brake instruction transducer is determined.

The process of the control logic of the determining brake instruction transducer is:

I, which determines that the solenoid hydraulic lock of brake instruction transducer output is unlocked, controls the voltage of signal；

II determines the control logic of brake instruction transducer；

When the electromagnetic hydraulic pressure lock control signal of brake instruction transducer is 0V, solenoid hydraulic lock is shut, and emergency brake is answered in cutting Vehicle system hydraulic power source；When the electromagnetic hydraulic pressure lock control signal of brake instruction transducer is 28V, solenoid hydraulic lock is unlocked, emergency Brake system hydraulic power source fuel feeding.

Emergency brake system brake instruction transducer solenoid hydraulic lock control logic is determined by formula (1):

In formula: S is brake instruction transducer control signal condition；1 is solenoid hydraulic lock unlocking control signal, the control Signal is the DC voltage of 28V；0 is that solenoid hydraulic lock shuts control signal, which is the DC voltage of 0V；L_sIt is to stop Vehicle instruction sensor impulse stroke；L_s0It is brake instruction transducer idle stroke.

The voltage of the solenoid hydraulic lock unlocking control signal of the brake instruction transducer output of the determination is, when brake refers to Enable the mechanical trip of sensor within the scope of idle stroke when, the electromagnetic hydraulic pressure lock control signal of brake instruction transducer is 0V；When Brake instruction transducer mechanical trip is in the idle stroke not less than brake instruction transducer and is not more than the brake instruction transducer Total kilometres when, the electromagnetic hydraulic pressure lock control signal of brake instruction transducer is the DC voltage of 28V.

Step 2, the Electric hydraulic pressure servo valve control instruction current logic of brake instruction transducer is determined.

When the mechanical trip of brake instruction transducer is within the scope of idle stroke, the electro-hydraulic pressure of brake instruction transducer is watched Taking valve control instruction electric current is static cost control electric current I_F0, it is anti-skidding that emergency brake system Electric hydraulic pressure servo valve, which exports brake pressure, Brake system return pressure；When brake instruction transducer mechanical trip is being not less than brake instruction transducer idle stroke and is being not more than When the brake instruction transducer total kilometres, the Electric hydraulic pressure servo valve control instruction electric current of brake instruction transducer is I_F, brake Instruction sensor output control electric current I_FDirectly proportional to brake instruction transducer mechanical trip, emergency brake system electro-hydraulic pressure is watched It is directly proportional to control electric current to take valve output brake pressure.Emergency brake system brake instruction transducer electricity is determined by formula (2) Hydraulic coupling servo valve control instruction current:

In formula: I_FIt is control electric current；I_F0It is static cost control electric current；K₁It is electric current/stroke gain；L_sIt is that brake instruction passes Sense device working stroke；L_s0It is brake instruction transducer idle stroke.

In the Electric hydraulic pressure servo valve control instruction current logic for determining brake instruction transducer, emergency brake system is set Brake instruction transducer machinery idle stroke of uniting is 2^+0.5Mm, total kilometres areElectric hydraulic pressure servo valve quiescent current isMaximum controlling current isControlling current range isBrake instruction transducer Electric hydraulic pressure servo valve control instruction electric current and stroke gain K₁=0.4444mA/mm.

When brake instruction transducer mechanical trip is in 0mm~2^+0.5Within the scope of mm, electric current is controlledWhen brake refers to Sensor mechanism stroke is enabled to existIn range, electric current is controlledBrake Instruction sensor electric current/stroke gain K₁=0.4444mA/mm.The Electric hydraulic pressure servo valve control instruction of brake instruction transducer Size of current is directly proportional to brake instruction transducer impulse stroke, and brake instruction transducer stroke is bigger, and output electric current is bigger, always It is exported when strokeMaximum brake electric current.

Step 3, the control parameter of solenoid hydraulic lock is determined.

Determine that the specified charge oil pressure of emergency brake system isFlow system flow is not less than 15L/min, emergency brake The return pressure of system is not more than 1.2MPa, solenoid hydraulic lock rated operational voltage 28V.DC, and minimum is not less than 16V.DC, maximum operating voltage 30V.DC.

Step 4, Electric hydraulic pressure servo valve control parameter is determined

The brake pressure of Electric hydraulic pressure servo valve output is determined by the electric current that brake instruction transducer exports；Brake instruction The electric current of sensor output is determined by brake instruction transducer mechanical trip: when brake instruction transducer mechanical trip is in idle stroke When in range, it is anti-skid brake system (ABS) return pressure P that Electric hydraulic pressure servo valve, which exports brake pressure,₀；Work as brake instruction transducer For mechanical trip when being not less than idle stroke and no more than within the scope of total kilometres, Electric hydraulic pressure servo valve exports brake pressure and control Electric current I_FIt is directly proportional.Brake pressure P is determined by formula (3).

P=K₂(I_F-I_F0)+P₀ (3)

In formula: K₂Pressure/current gain；P₀Anti-skid brake system (ABS) return pressure；P brake pressure.

Identified Electric hydraulic pressure servo valve control parameter is the specified charge oil pressure 21MPa of emergency brake system, system stream Amount is not less than 15L/min, and return pressure is not more than 1.2MPa, it is desirable that Electric hydraulic pressure servo valve is in 8 grades of oil liquid environment of GJB420B Lower energy long-term work, rated output pressureRated operational currentDead zone electric currentElectro-hydraulic pressure is watched Take valve output brake pressure and control electric current I_FIt is directly proportional, Electric hydraulic pressure servo valve pressure/current gain K₂=0.6167MPa/ mA。

So far, the design of the emergency brake system of long-range control is completed.

The present invention directly controls the electricity being mounted in main landing gear compartment by the brake instruction transducer being mounted in cockpit Magnetic hydraulic lock and Electric hydraulic pressure servo valve, to realize emergency brake system long-range control.It is mounted in main landing gear compartment Solenoid hydraulic lock and Electric hydraulic pressure servo valve are connected to hydraulic power source nearby, and brake system fluid pressure line is arranged in close to brake machine wheel In main landing gear compartment, solve the problems, such as that fluid pressure line, to reduce the length of fluid pressure line, must make to meet an urgent need into cockpit Brake system maintenance is simple.

Brake instruction transducer connects landing gear position switch, when brake instruction transducer mechanical trip is in idle stroke range When interior, it is 0V that the solenoid hydraulic lock of brake instruction transducer, which shuts control signal, and solenoid hydraulic lock closes emergency brake system liquid The fuel feeding of potential source；The Electric hydraulic pressure servo valve control instruction of brake instruction transducer is static cost control electric current I_F0, electro-hydraulic pressure watches The brake pressure for taking valve output is anti-skid brake system (ABS) return pressure.

Landing gear position switch is connected, when brake instruction transducer mechanical trip is not less than idle stroke and no more than head office When in range, the solenoid hydraulic lock of brake instruction transducer unlocks control signal as 28V.DC, and solenoid hydraulic lock opening answers emergency brake The fuel feeding of vehicle system hydraulic power source；The Electric hydraulic pressure servo valve control instruction of brake instruction transducer is control electric current I_F, electro-hydraulic pressure The control electric current I of force servo valve output and brake instruction transducer_FDirectly proportional brake pressure；Brake instruction transducer stroke is got over Greatly, output control electric current I_FBigger, Electric hydraulic pressure servo valve output brake pressure is higher, and brake instruction transducer mechanical trip reaches Electric hydraulic pressure servo valve exports emergency brake system maximum brake pressure when to total kilometres.

Brake instruction transducer of the invention is mounted in cockpit, and solenoid hydraulic lock and Electric hydraulic pressure servo valve are mounted on In main landing gear compartment, solenoid hydraulic lock and Electric hydraulic pressure servo valve are connected to hydraulic power source nearby, and brake system fluid pressure line is close Brake machine wheel is arranged in main landing gear compartment, to reduce the length of emergency brake system fluid pressure line, reduces brake system The weight of system, the present invention directly control solenoid hydraulic lock and Electric hydraulic pressure servo valve by brake instruction transducer at a distance, thus Realize emergency brake system long-range control.Reduce the complexity and maintenance difficulties of emergency brake system.

Detailed description of the invention

The structural schematic diagram of Fig. 1 prior art；

Structural schematic diagram Fig. 2 of the invention.

1. brake reducing valve；2. fuel tank；3. hydraulic power source；4. brake machine wheel；5. foot pedal；6. brake lever；7. brake Instruction sensor；8. Electric hydraulic pressure servo valve；9. solenoid hydraulic lock；10. landing gear position switchs；11. fuse；12.28VDC Power supply.

Specific embodiment

The present embodiment is a kind of emergency brake system of long-range control, including brake instruction transducer 7, solenoid hydraulic lock 9, Electric hydraulic pressure servo valve 8, fuse 11, brake instruction transducer 7, power supply 12, landing gear position switch 10.Wherein: the electricity The actuator port of hydraulic coupling servo valve 8 is connect with the brake oil-in of brake machine wheel 4, the oil outlet of the Electric hydraulic pressure servo valve with The oil return line of fuel tank 2 is connected to；The oil inlet of the Electric hydraulic pressure servo valve 8 is connected to the oil outlet of solenoid hydraulic lock 9；Electro-hydraulic pressure The control signal input of force servo valve 8 is connected to the Electric hydraulic pressure servo valve control instruction output end of brake instruction transducer 7.

There are three hydraulic ports for the solenoid hydraulic lock 9, are oil inlet, oil return opening and actuator port, oil inlet therein respectively Mouth is connected to the oil outlet of hydraulic power source 3, and oil return opening is connect with the oil return pipe of fuel tank 2, and the actuator port is watched with electro-hydraulic pressure Take the oil inlet connection of valve 8.

The control signal input of the solenoid hydraulic lock 9 and the electromagnetic hydraulic pressure lock control signal of brake instruction transducer 7 Output end connection.

The DC power supply 12 of 28V is connected through fuse 11 with one end of landing gear position switch 10, which opens The other end of pass 10 is connect with the power input of brake instruction transducer 7.The brake instruction transducer 7 and brake lever 6 Connection.

The design process of the emergency brake system for the long-range control that the present embodiment proposes is:

Step 1: determining the control logic of brake instruction transducer.

I, which determines that the solenoid hydraulic lock of brake instruction transducer output is unlocked, controls the voltage of signal:

When the mechanical trip of brake instruction transducer 7 is within the scope of idle stroke, the electromagnetic hydraulic pressure of brake instruction transducer 7 Lock control signal is 0V；When brake instruction transducer mechanical trip in the idle stroke not less than brake instruction transducer and is not more than When the total kilometres of the brake instruction transducer, the electromagnetic hydraulic pressure lock control signal of brake instruction transducer 7 is the direct current of 28V Pressure.

II determines the control logic of brake instruction transducer

When the electromagnetic hydraulic pressure lock control signal of brake instruction transducer 7 is 0V, solenoid hydraulic lock is shut, and emergency brake is answered in cutting Vehicle system hydraulic power source；When the electromagnetic hydraulic pressure lock control signal of brake instruction transducer 7 is 28V, solenoid hydraulic lock is unlocked, emergency Brake system hydraulic power source fuel feeding.

Emergency brake system brake instruction transducer solenoid hydraulic lock control logic is determined by formula (1):

In formula: S is brake instruction transducer control signal condition；1 is solenoid hydraulic lock unlocking control signal, the control Signal is the DC voltage of 28V；0 is that solenoid hydraulic lock shuts control signal, which is the DC voltage of 0V；L_sIt is to stop Vehicle instruction sensor impulse stroke；L_s0It is brake instruction transducer idle stroke.

In the present embodiment, emergency brake system brake instruction transducer machinery idle stroke is set as 2^+0.5Mm, total kilometres areOperating voltage is the DC voltage of 28V.Solenoid hydraulic lock shuts the DC voltage that control signal is 0V；Electromagnetic liquid Pressure lock, which is unlocked, controls signal as the DC voltage of 28V.

Step 2, the Electric hydraulic pressure servo valve control instruction current logic of brake instruction transducer is determined.

When the mechanical trip of brake instruction transducer 7 is within the scope of idle stroke, the electro-hydraulic pressure of brake instruction transducer 7 Servo valve control instruction current is static cost control electric current I_F0, emergency brake system Electric hydraulic pressure servo valve 8 export brake pressure be Anti-skid brake system (ABS) return pressure；When 7 mechanical trip of brake instruction transducer not less than brake instruction transducer idle stroke and When no more than the brake instruction transducer total kilometres, the Electric hydraulic pressure servo valve control instruction electric current of brake instruction transducer 7 is I_F, the output control of brake instruction transducer 7 electric current I_FIt is directly proportional to brake instruction transducer mechanical trip, emergency brake system electricity It is directly proportional to control electric current that hydraulic coupling servo valve 8 exports brake pressure.Emergency brake system brake instruction is determined by formula (2) Sensor Electric hydraulic pressure servo valve control instruction electric current:

In formula: I_FIt is control electric current；I_F0It is static cost control electric current；K₁It is electric current/stroke gain；L_sIt is that brake instruction passes Sense device working stroke；L_s0It is brake instruction transducer idle stroke.

In the present embodiment, emergency brake system brake instruction transducer machinery idle stroke is set as 2^+0.5Mm, total kilometres areElectric hydraulic pressure servo valve quiescent current isMaximum controlling current isControlling current range isThe Electric hydraulic pressure servo valve control instruction electric current and stroke gain K of brake instruction transducer₁= 0.4444mA/mm.When brake instruction transducer mechanical trip is in 0mm~2^+0.5Within the scope of mm, electric current is controlledWork as brake Vehicle instruction sensor mechanical trip existsIn range, electric current is controlled Brake instruction transducer electric current/stroke gain K₁=0.4444mA/mm.The Electric hydraulic pressure servo valve of brake instruction transducer controls Instruction current size is directly proportional to brake instruction transducer impulse stroke, and the bigger output electric current of brake instruction transducer stroke is more Greatly, it is exported when total kilometresMaximum brake electric current.

Step 3: determining the control parameter of solenoid hydraulic lock.

Solenoid hydraulic lock is common two-bit triplet solenoid valve, is integrated in an oil piping system with Electric hydraulic pressure servo valve In.When work, which is shut, and emergency brake system cutting hydraulic power source 13 simultaneously releases stress；Electromagnetic liquid It presses locking wire circle to be powered to unlock, emergency brake system and 13 connection of hydraulic power source, brake system export brake pressure.

Solenoid hydraulic lock coil blackout is shut, and emergency brake system cuts off hydraulic power source fuel feeding, supplies Electric hydraulic pressure servo valve Oil pressure is 0MPa or is return pressure.Solenoid hydraulic lock coil, which is powered, unlocks, and emergency brake system hydraulic power source connects fuel feeding, makes Electric hydraulic pressure servo valve charge oil pressure is

The present embodiment set the specified charge oil pressure of emergency brake system asFlow system flow is not less than 15L/min, The return pressure of emergency brake system is not more than 1.2MPa, solenoid hydraulic lock rated operational voltage 28V.DC, minimum Not less than 16V.DC, maximum operating voltage 30V.DC.

Step 4: determining Electric hydraulic pressure servo valve control parameter

The Electric hydraulic pressure servo valve of the present embodiment selection pressure Linear Control.The brake pressure of Electric hydraulic pressure servo valve output Power is determined by the electric current that brake instruction transducer exports；The electric current that brake instruction transducer 7 exports is by 7 machine of brake instruction transducer Tool stroke determines: when 7 mechanical trip of brake instruction transducer is within the scope of idle stroke, the output brake of Electric hydraulic pressure servo valve 8 Pressure is anti-skid brake system (ABS) return pressure P₀；When 7 mechanical trip of brake instruction transducer is being not less than idle stroke and is being not more than When within the scope of total kilometres, Electric hydraulic pressure servo valve exports brake pressure and control electric current I_FIt is directly proportional.It is determined and is stopped by formula (3) Vehicle pressure P.

P=K₂(I_F-I_F0)+P₀ (3)

In formula: K₂Pressure/current gain；P₀Anti-skid brake system (ABS) return pressure；P brake pressure.

In the present embodiment, the specified charge oil pressure 21MPa of emergency brake system is set, flow system flow is not less than 15L/min, returns Oil pressure is not more than 1.2MPa, it is desirable that Electric hydraulic pressure servo valve energy long-term work under 8 grades of oil liquid environment of GJB420B, it is specified defeated Pressure outRated operational currentDead zone electric currentElectric hydraulic pressure servo valve export brake pressure with Control electric current I_FIt is directly proportional, Electric hydraulic pressure servo valve pressure/current gain K₂=0.6167MPa/mA.

So far, the design of the emergency brake system of long-range control is completed.

Claims (5)

1. a kind of emergency brake system of long-range control, which is characterized in that including brake instruction transducer, solenoid hydraulic lock, electricity Hydraulic coupling servo valve, fuse, brake instruction transducer, power supply, landing gear position switch；Wherein: the electro-hydraulic pressure servo The actuator port of valve and the brake oil-in of brake machine wheel connect, the oil outlet of the Electric hydraulic pressure servo valve and the oil return pipe of fuel tank Road connection；The oil inlet of the Electric hydraulic pressure servo valve is connected to the oil outlet of solenoid hydraulic lock；The oil inlet of the solenoid hydraulic lock Mouth is connected to the oil outlet of hydraulic power source, the oil return pipe connection of oil return opening and fuel tank, the actuator port and electro-hydraulic pressure servo The oil inlet of valve connects；The DC power supply is connected through fuse with one end that landing gear position switchs, which opens The other end of pass and the power input of brake instruction transducer connect；The brake instruction transducer is connect with brake lever；

The brake instruction transducer is mounted in cockpit；The solenoid hydraulic lock and Electric hydraulic pressure servo valve, which are mounted on, to be led It falls in frame cabin.

2. the emergency brake system of long-range control as described in claim 1, which is characterized in that the control of the Electric hydraulic pressure servo valve Signal input part processed is connected to the Electric hydraulic pressure servo valve control instruction output end of brake instruction transducer；The solenoid hydraulic lock Control signal input be connected to the solenoid hydraulic lock control signal output of brake instruction transducer.

3. the emergency brake system of long-range control as described in claim 1, which is characterized in that the brake instruction transducer and brake Cart handle connection.

4. the emergency brake system of long-range control as described in claim 1, which is characterized in that the brake instruction transducer is mechanical Idle stroke is 2^+0.5Mm, total kilometres areElectric hydraulic pressure servo valve quiescent current isMaximum controlling current isControlling electric current isThe Electric hydraulic pressure servo valve control instruction electricity of brake instruction transducer Stream and stroke gain K₁=0.4444mA/mm.

5. the emergency brake system of long-range control as described in claim 1, which is characterized in that the specified confession of emergency brake system Oil pressure isFlow system flow is not less than 15L/min, and the return pressure of emergency brake system is not more than 1.2MPa, electricity Magnetic hydraulic lock rated operational voltage 28V.DC, minimum are not less than 16V.DC, maximum operating voltage 30V.DC.