CN204462841U - Line control brake system pedal sense simulator test and calibration system - Google Patents

Abstract

The utility model discloses line control brake system pedal sense simulator test and calibration system, be intended to overcome prior art and there is the lower problem jiggly with organisation operations of test and calibration precision; It comprises prior art assembly system, air-liquid transmission system, pedal touch device and accuracy-control system.The liquid in-out mouth of the pneumohydraulic pressure-cylinder (32) in air-liquid transmission system adopts oil pipe to be connected with the liquid in-out mouth of the hydraulic piston cylinder (5) in pedal touch device, and holder weldering nut (18) in pedal touch device adopts 2 geometrical clamps (19) to be connected and fixed with the brake pedal (39) of the brake pedal unit (20) of prior art assembly system; The rotary angle transmitter (21) of accuracy-control system adopts screw to be fixedly connected on the upper end of brake pedal unit (20), and the end of the displacement transducer (33) in accuracy-control system is fixed on the brake pushrod (41) of the brake pedal unit (20) in prior art assembly system.

Description

Line control brake system pedal sense simulator test and calibration system

Technical field

The utility model relates to a kind of device of test and calibration line control brake system pedal sense simulator, and or rather, the utility model relates to a kind of comprehensive Gas fluid pressure transmission and realizes line control brake system pedal sense simulator test and calibration system.

Background technology

Because line control brake system and electrically controlled brake system eliminate traditional hydraulic pressure, air pressure and mechanical-force-transmission mechanism, under identical damped condition, pedal displacement, pedal pressing force differ very large with Conventional braking systems, be not easy to perception and the control of driver, therefore be necessary that arranging a kind of specific device carrys out simulating brake pedal characteristic, make driver can have good control feel in braking procedure, accurate grasp apply the size of severity of braking, i.e. so-called pedal sense simulator.

When designing pedal sense simulator, in order to determine that whether designed device is similar to the pedal sense of Conventional braking systems, a device is needed to carry out test and calibration to it.Research at present for pedal sense simulator has a lot, but for the direction that the present invention tells about study less.

Compared with structure of the present utility model, there is the patent that part is close both at home and abroad, but be very different again.Such as, it is CN203908780U that Chinese patent announces (announcement) number, announcing (announcement) day is 2014.10.29, denomination of invention is a kind of automobile brake robot actuating mechanism, a kind of braking robot mechanism is disclosed in this patent, using motor as power source in this patent, the size of feedback pedal force, function ratio is more single, and configuration aspects is left to be desired.It is CN201707166U that Chinese patent announces (announcement) number, announcing (announcement) day is 2011.01.12, denomination of invention is brake pedal force simulating device, a kind of brake pedal force simulating device is disclosed in this patent, this device take motor as power source, gathers the pressure of brake pedal and displacement and analyze brake pedal input end performance and brake-pipe pressure and brake moment relation.Meanwhile, present occurred brake pedal simulator obtain are mostly relations between pedal travel and pedal force, seldom relate to the size of stroke and angle control pedal power simultaneously.

Summary of the invention

Technical problem to be solved in the utility model overcomes prior art to there is the lower problem stable not with organisation operations of test and calibration precision, provides a kind of line control brake system pedal sense simulator test and calibration system.

For solving the problems of the technologies described above, the utility model adopts following technical scheme to realize: described line control brake system pedal sense simulator test and calibration system comprises prior art assembly system, air-liquid transmission system, pedal touch device and accuracy-control system.

The liquid in-out mouth of the pneumohydraulic pressure-cylinder in air-liquid transmission system adopts oil pipe to be connected with the liquid in-out mouth of the hydraulic piston cylinder in pedal touch device, and the geometrical clamp that holder in pedal touch device weldering nut and the brake pedal in the brake pedal unit of prior art assembly system adopt 2 structures identical is connected and fixed; Rotary angle transmitter in accuracy-control system and brake pedal unit adopt screw to be connected, and the end of the displacement transducer in accuracy-control system is fixed on the brake pushrod of the brake pedal unit in prior art assembly system.

Air-liquid transmission system described in technical scheme comprises gas path control valve assembly, motor, air compressor and pneumohydraulic pressure-cylinder.Described gas path control valve assembly comprises reduction valve, a solenoid directional control valve, No. two solenoid directional control valves, No. three solenoid directional control valves and throttle grverning valves.Motor and air compressor are mechanically connected, the gas outlet of air compressor and the air intake opening of reduction valve adopt tracheae to be connected, the gas outlet of reduction valve adopts tracheae to be connected with the P mouth of a solenoid directional control valve, the A mouth of a solenoid directional control valve adopts tracheae to be connected with two No. two solenoid directional control valves in parallel with the P mouth of No. three solenoid directional control valves, two No. two solenoid directional control valves in parallel adopt tracheae to be connected with the A mouth of No. three solenoid directional control valves and the air inlet/outlet of throttle grverning valve, and throttle grverning valve air gate adopts tracheae to be connected with the air inlet/outlet of pneumohydraulic pressure-cylinder.

V-0.25/8 type single-stage compression belt-type air compressor machine selected by air compressor described in technical scheme; YK43X-F-Y type reduction valve selected by reduction valve; K23D-2-B type two-position three-way normal-opened solenoid valve selected by a solenoid directional control valve; No. two solenoid directional control valves and No. three solenoid directional control valves all select PDW2120-03-AC220V type bi-bit bi-pass to lead directly to cut-off type solenoid directional control valve; QLA-L8 type one-way throttle valve selected by throttle grverning valve; Pneumohydraulic pressure-cylinder selects CZ-4 type direct press type pneumohydraulic pressure-cylinder.

Pedal touch device described in technical scheme also comprises support, self-made components, hydraulic piston cylinder, No. two self-made components, slide rail, slide block, No. three self-made components, self-control ear piece and pressure transducers.The upper end of described self-made components suit cradling piece is in the bracket for being slidably connected, the lower end of No. two self-made components suits cradling piece in the bracket, one end of cylinder body one end of hydraulic piston cylinder and a self-made components is hinged, bi-lug plate in the tailpiece of the piston rod of hydraulic piston cylinder and ear piece is hinged, and the mounting base in ear piece and the top end face of slide rail are welded to connect; No. 2 bi-lug plate in slide rail one end and No. two self-made components are hinged; Slide block set is contained in the bottom of slide rail, and the other end of slide block is fixedly connected with the rectangular flat in No. three self-made components; No. 3 bi-lug plate in No. three self-made components are hinged with one end of self-control ear piece, and the self-control other end of ear piece is connected with the threaded one end of the pressure transducer in accuracy-control system, and the other end of pressure transducer welds nut thread with holder and is connected.

Described in technical scheme No. one self-made components is overlapped by No. 1 square tube to be welded with No. 1 bi-lug plate, No. 1 bi-lug plate is parallel to each other, No. 1 bi-lug plate is provided with the bolt hole of axis of rotation conllinear, the lateral vertical that No. 1 bi-lug plate and No. 1 square tube are overlapped, is provided with No. 1 tapped through hole with the center of tube wall on No. 1 square tube casing wall opposite fixing No. 1 bi-lug plate.No. two self-made components are overlapped by No. 2 square tubes to be welded with No. 2 bi-lug plate, No. 2 bi-lug plate are parallel to each other, No. 2 bi-lug plate are provided with the bolt hole of axis of rotation conllinear, the lateral vertical that No. 2 bi-lug plate and No. 2 square tubes are overlapped, is provided with No. 2 tapped through holes with the center of tube wall on No. 2 square tube casing wall opposites fixing No. 2 bi-lug plate; The height of No. 1 square tube cover in a self-made components is greater than the height of No. 2 square tube covers in No. two self-made components, and the square hole size of No. 1 square tube cover is equal with the square hole size that No. 2 square tubes are overlapped.

Slide rail described in technical scheme selects model to be the rail plate of TRS15VN; Namely slide rail is prismatic straight-bar class formation part, the arranged on left and right sides of slide rail is provided with the groove equipped with slide block, one end of slide rail is planar end, planar end is vertical with longitudinal plane of symmetry of slide rail, the other end of slide rail is provided with a dull and stereotyped earrings, dull and stereotyped earrings is provided with through hole, longitudinal plane of symmetry of dull and stereotyped earrings and longitudinal plane of symmetry of slide rail coplanar.Slide block is the structural member of the matching used cuboid with slide rail, U-lag is vertically arranged with in the side of slide block, two cell walls of U-lag are provided with the outstanding guide rail equipped with the groove of slide rail arranged on left and right sides, the bottom surface that bottom face is and U-lag bottom surface parallels of slide block is provided with 4 threaded holes equably.

Described in technical scheme No. three self-made components is a structural member be welded by rectangular flat and No. 3 bi-lug plate with four fixed vias, two otic placodes in No. 3 bi-lug plate are parallel to each other, No. 3 bi-lug plate are provided with No. 4 bolts hole of axis of rotation conllinear, No. 3 bi-lug plate are connected with rectangular flat is vertical; Rectangular flat is provided with 4 rectangular flat bolt holes of erection bolt, 4 threaded hole centerings on the bottom face of 4 rectangular flat bolt holes and slide block.Described self-control ear piece is made up of the right cylinder of a threaded blind hole and monaural plate, one end and cylindrical one end of monaural plate are welded to connect, the other end of monaural plate is provided with through hole, through hole axis of rotation is vertical with monaural plate, the axis of rotation of the right cylinder other end is provided with tapped blind hole, and the axis of rotation of the through hole on the axis of rotation of tapped blind hole and monaural plate intersects vertically.

Support described in technical scheme is made up of cradling piece and base.Four sides of the iso-cross-section that described cradling piece selects Europe superscript 4048 microlight-type industrial aluminum profile to make are provided with the straight-bar class formation part of cross-shaped aperture groove.Described base is the square iron plate that corner place is provided with four through holes, and base adopts welding manner to be fixedly connected with the bottom face of cradling piece, and cradling piece is perpendicular to base, and cradling piece and base tie point are positioned at the center of base.Described ear piece is dual-lug type structural member, is made up of bi-lug plate and mounting base.Bi-lug plate is connected with the two ends of installing floor board are vertical, bi-lug plate is provided with the through hole of axis of rotation conllinear.

Accuracy-control system described in technical scheme comprises rotary angle transmitter, rotary angle transmitter fixed support, displacement transducer, Sensor Data Record display device, controller board and drive plate.Rotary angle transmitter and rotary angle transmitter fixed support adopt screw to be connected, rotary angle transmitter fixed support adopts screw to be connected with the upper end of the brake-pedal support in brake pedal unit, the measure portion of rotary angle transmitter is arranged in the chute on the brake pedal shaft in brake pedal unit as being slidably connected, displacement transducer is placed on the position of the same axis with master cylinder, and the end of displacement transducer is fixed on the brake pushrod of master cylinder; Rotary angle transmitter, displacement transducer, drive plate, pressure transducer and Sensor Data Record display device adopt electric wire to be connected with controller board respectively.

Controller board described in technical scheme selects model to be the controller board of dSPACE 1103; It is the low-end switch chip circuit version of TLE6216 that drive plate is selected with model; Rotary angle transmitter selects model to be the photoelectric encoder of E6B2-CWZ6C, and displacement transducer selects model to be the stay wire displacement sensor of LZZS-360B-L5, and Sensor Data Record display device is computer.Described model is the controller board of dSPACE 1103 comprises board that model is DS817, model is DS1103 processor and model is the interface panel of CLP1103.Model is that the processor that interface panel and the model of CLP1103 is DS1103 is connected by the harness band that three labels are P1, P2, P3, and model is that the board that processor and the model of DS1103 is DS817 is connected by the netting twine with crystal head.Rotary angle transmitter, displacement transducer are that Inc1 and the Inc2 interface of the interface panel of CLP1103 is connected respectively by model with controller board; Pressure transducer and controller board are that the ADCH1 interface of the interface panel of CLP1103 is connected by model; Drive plate and controller board are that the Digital I/O interface of the interface panel of CLP1103 is connected by model.

Compared with prior art the invention has the beneficial effects as follows:

1. line control brake system pedal sense simulator test and calibration system described in the utility model can realize accurate control.The Dynamic matrix control devices such as the controller board that the model adopted in the utility model is dSPACE1103 process the displacement measured by sensor and angle-data, data transformations after process is become current signal, then the break-make of each solenoid valve in gas path control valve assembly is controlled with the low-end switch chip that company of Infineon model is TLE6216, realize air-liquid transmission system and provide required pressure with whole device demand, thus realize accurately controlling.

2. line control brake system pedal sense simulator test and calibration system described in the utility model adopts air-liquid transmission, and compared with providing damping force with people, damping force is more steady.The present invention adopts gas cap liquid mode, air pressure provides pressure, the transmission of pressure is completed by hydraulic pressure, due to the accuracy of air pressure energy supply and the stationarity of hydraulic pressure transfer, add FEEDBACK CONTROL, this mode of air-liquid transmission is made to there will not be suddenly big or suddenly small and middle " getting stuck " phenomenon when transmission damping force, compared with therefore providing damping force with people, more steady by the air-liquid transmission damping force by FEEDBACK CONTROL.

3. can to realize sampled data even for line control brake system pedal sense simulator test and calibration system described in the utility model.Displacement transducer and rotary angle transmitter are installed in the utility model, the break-make situation of each solenoid valve can be controlled by certain algorithm simultaneously, during image data, often cross certain angle and displacement, controller will the break-make of Controlling solenoid valve, when reaching the angle or displacement wanted, keep hydraulic pressure to carry out data acquisition, therefore image data is accurate and even.

4. line control brake system pedal sense simulator test and calibration system described in the utility model is when pedal applies damping force, similar, more realistic to forms of motion during people's foot pedal.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the present invention is further illustrated:

Fig. 1 is the structure principle chart of line control brake system pedal sense simulator test and calibration system described in the utility model;

Fig. 2 is the structure principle chart of gas-liquid running part in line control brake system pedal sense simulator test and calibration system described in the utility model;

Fig. 3 is that the structure of pedal touch device and prior art assembly system in line control brake system pedal sense simulator test and calibration system described in the utility model forms and the front view of annexation;

Fig. 4 is the axonometric projection graph that in line control brake system pedal sense simulator test and calibration system described in the utility model, pressure transducer is fixedly connected with;

Fig. 5 is pedal assembly and the front view that is fixedly connected with rotary angle transmitter thereof in line control brake system pedal sense simulator test and calibration system described in the utility model;

Fig. 6 is the axonometric projection graph of rotary angle transmitter structure composition in line control brake system pedal sense simulator test and calibration system described in the utility model;

Fig. 7 is the axonometric projection graph of pressure sensor structure composition in line control brake system pedal sense simulator test and calibration system described in the utility model;

Fig. 8 is the front view of line control brake system pedal sense simulator test and calibration system medium-height trestle cross-sectional structure described in the utility model composition;

Fig. 9 is the axonometric projection graph that the understructure be welded to connect with cradling piece in line control brake system pedal sense simulator test and calibration system described in the utility model forms;

Figure 10 is the axonometric projection graph of No. 1 self-made components structure composition adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 11 is the axonometric projection graph of No. 2 self-made components structure compositions adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 12-a is the axonometric projection graph of the structure composition of the slide rail one end adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 12-b is the axonometric projection graph of the structure composition of the slide rail other end adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 13 is the axonometric projection graph of the ear piece structure composition adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 14 is the axonometric projection graph of the self-control ear piece structure composition adopted in the novel described line control brake system pedal sense simulator test and calibration system of the utility model;

Figure 15 is the axonometric projection graph of the slide block structure composition adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 16 is the axonometric projection graph of No. 3 self-made components structure compositions adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 17 is the axonometric projection graph of the holder weldering nut structure composition adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 18 is the axonometric projection graph of the fixed folder structure composition adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 19-a is the front view of the support structure for brake pedal composition in the brake pedal unit adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 19-b is the axonometric projection graph of the brake pedal structure composition in the brake pedal unit adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 19-c is the front view of the brake pedal shaft structure composition in the brake pedal unit adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 19-d is the axonometric projection graph of the brake pushrod structure composition in the brake pedal unit adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 20 is CLP1103 interface panel interfaces positional alignment schematic diagram in the controller board adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 21-a is that in the controller board adopted in line control brake system pedal sense simulator test and calibration system described in the utility model, on CLP1103 interface panel, label is 15 pin holes number sorting schematic diagram of Inc1 to Inc7 interface (namely corresponding with CP32 to CP37 in Figure 20 and CP39 interface);

Figure 21-b is 50 contact pin number sorting schematic diagram of the Digital I/O interface in the controller board adopted in line control brake system pedal sense simulator test and calibration system described in the utility model on CLP1103 interface panel;

The pin numbering schematic diagram of Figure 22 to be Infineon's model on the drive plate that adopts in line control brake system pedal sense simulator test and calibration system described in the utility model be low-end switch chip of TLE6216;

Figure 23 is the wiring diagram of the drive plate adopted in line control brake system pedal sense simulator test and calibration system described in the utility model;

Figure 24 is that in the controller board 35 adopted in line control brake system pedal sense simulator test and calibration system described in the utility model, model is the structural representation of the terminal block of the processor of DS1103;

Figure 25 is that in the controller board adopted in line control brake system pedal sense simulator test and calibration system described in the utility model, model is the structural representation of the board of DS817;

In figure: 1. support, 2. a self-made components, No. 3.1 adjustment bolts, No. 4.1 bolts, 5. hydraulic piston cylinder, No. 6.2 bolts, 7. No. two self-made components, No. 8.3 bolts, 9. base, 10. slide rail, 11. ear pieces, 12. slide blocks, 13.4 number bolt, 14. screws, 15. No. three self-made components, 16. self-control ear pieces, 17. pressure transducers, 18. holder weldering nuts, 19. geometrical clamps, 20. brake pedal units, 21. rotary angle transmitters, 22. rotary angle transmitter fixed supports, 23. master cylinders, 24. pedal sense simulators, 25. oil pipes, 26. motor, 27. air compressor, 28. reduction valve, No. 29. solenoid directional control valves, 30. No. two solenoid directional control valves, 31. throttle grverning valves, 32. pneumohydraulic pressure-cylinders, 33. displacement transducers, 34. Sensor Data Record display devices, 35. controller boards, 36. drive plates, 37. No. three solenoid directional control valves, 38. pedal supports, 39. brake pedals, 40. brake pedal shafts, 41. brake pushrods.

Embodiment

Below in conjunction with accompanying drawing, the utility model is explained in detail:

Line control brake system pedal sense simulator test and calibration system described in the utility model comprises air-liquid transmission system, pedal touch device, accuracy-control system and prior art assembly system four part composition.

Consult Fig. 2, described air-liquid transmission system comprises gas path control valve assembly (reduction valve 28, solenoid directional control valve 29, No. two solenoid directional control valves 30, No. three solenoid directional control valves 37 and throttle grverning valve 31), motor 26, air compressor 27, pneumohydraulic pressure-cylinder 32.

YY90L-2 type motor selected by described motor 26, (specification: 2.2Kw, 2800r/min (compressor is 980r/min), 220V (air compressor machine 220380V)); V-0.25/8 type single-stage compression belt-type air compressor machine selected by air compressor 27; YK43X-F-Y type reduction valve selected by reduction valve 28; K23D-2-B type two-position three-way normal-opened solenoid valve selected by a solenoid directional control valve 29; No. two solenoid directional control valves 30 and No. three solenoid directional control valves 37 all select PDW2120-03-AC220V type bi-bit bi-pass to lead directly to cut-off type solenoid directional control valve; QLA-L8 type one-way throttle valve selected by throttle grverning valve 31; Pneumohydraulic pressure-cylinder 32 selects CZ-4 type direct press type pneumohydraulic pressure-cylinder.

Consult Fig. 1 to Fig. 2, the liquid in-out mouth of pneumohydraulic pressure-cylinder 32 adopts oil pipe to be connected with the liquid in-out mouth of the hydraulic piston cylinder 5 in pedal touch device, the air inlet/outlet of pneumohydraulic pressure-cylinder 32 adopts tracheae to be connected with throttle grverning valve 31 gas outlet, the air inlet/outlet of throttle grverning valve 31 adopts tracheae to be connected with two No. two solenoid directional control valves 30 in parallel with the A mouth of No. three solenoid directional control valves 37, two No. two solenoid directional control valves 30 in parallel adopt tracheae to be connected with the P mouth of No. three solenoid directional control valves 37 and the A mouth of a solenoid directional control valve 29, the P mouth of a solenoid directional control valve 29 adopts tracheae to be connected with the gas outlet of reduction valve 28, the air intake opening of reduction valve 28 adopts tracheae to be connected with the gas outlet of air compressor 27, air compressor 27 and motor 26 are mechanically connected, motor 26 is connected with power supply.

Consult Fig. 3 and Fig. 4, pedal touch device comprises No. 2,1, support 1, self-made components adjustment bolt 3, No. 1 bolt 4, hydraulic piston cylinder 5, No. 2 bolts 6, No. two self-made components 7, No. 3 bolts 8, base 9, slide rail 10, ear piece 11, slide block 12, No. 4 bolts 13, screw 14, No. three self-made components 15, self-control ear piece 16, pressure transducer 17, holder weldering nut 18, geometrical clamp 19.

Described No. 1 adjustment bolt 3 selects GB/T5781-2000 specification to be the bolt of M6; No. 1 bolt 4 selects GB/T 5789-1896 specification to be the bolt of M16; No. 2 bolts 6 select GB/T 5789-1896 specification to be the bolt of M16; Hydraulic piston cylinder 5 selects 30 × 60 single-acting clevis mounting cylinder.

Consult Fig. 3, described support 1 is made up of cradling piece and base 9.

Consult Fig. 8, four sides of the iso-cross-section that cradling piece selects Europe superscript 4048 microlight-type industrial aluminum profile to make are provided with the straight-bar class formation part of cross-shaped aperture groove.

Consult Fig. 9, described base 9 is square iron plates that corner place is provided with four fixed vias, base 9 adopts welding manner to be fixedly connected with the bottom face of cradling piece, and cradling piece is perpendicular to base 9, and cradling piece and base 9 tie point are positioned at the center of base 9.

Consult Figure 10, a self-made components 2 is overlapped by No. 1 square tube to be welded with No. 1 bi-lug plate, No. 1 bi-lug plate is parallel to each other, No. 1 bi-lug plate is provided with the bolt hole of axis of rotation conllinear, the lateral vertical that No. 1 bi-lug plate and No. 1 square tube are overlapped, is provided with the center of opposing pipe wall of No. 1 square tube casing wall fixing No. 1 bi-lug plate No. 1 tapped through hole that No. 1, installation adjusts bolt 3.

Consult Figure 11, No. two self-made components 7 are overlapped by No. 2 square tubes to be welded with No. 2 bi-lug plate, No. 2 bi-lug plate are parallel to each other, No. 2 bi-lug plate are provided with the bolt hole of axis of rotation conllinear, the lateral vertical that No. 2 bi-lug plate and No. 2 square tubes are overlapped, is provided with the center of relative tube wall of No. 2 square tube casing walls fixing No. 2 bi-lug plate No. 2 tapped through holes that No. 2, installation adjusts bolt.The height of No. 1 square tube cover in a self-made components 2 is greater than the height of No. 2 square tube covers in No. two self-made components 7, and the square hole size of No. 1 square tube cover is equal with the square hole size that No. 2 square tubes are overlapped.No. 3 bolts 8 select GB/T 5789-1896 specification to be the bolt of M8;

Consult Figure 12-a and Figure 12-b, slide rail 10 selects model to be the rail plate of TRS15VN; Namely slide rail 10 is prismatic straight-bar class formation part, the arranged on left and right sides of slide rail 10 is provided with the groove equipped with slide block 12, one end of slide rail 10 is planar end, planar end is vertical with longitudinal plane of symmetry of slide rail 10, the other end of slide rail 10 is provided with a dull and stereotyped earrings, dull and stereotyped earrings is provided with through hole, longitudinal plane of symmetry of dull and stereotyped earrings and longitudinal plane of symmetry of slide rail 10 coplanar.

Consult Figure 15, slide block 12 is the structural members with the matching used cuboid of slide rail 10, U-lag is vertically arranged with in the side of slide block 12, two cell walls of U-lag are provided with the outstanding guide rail equipped with the groove of slide rail 10 arranged on left and right sides, the bottom surface that bottom face is and U-lag bottom surface parallels of slide block 12 is provided with 4 threaded holes equably.

Consult Figure 13, ear piece 11 is dual-lug type structural members, is made up of bi-lug plate and mounting base, and bi-lug plate is connected with the two ends of installing floor board are vertical, bi-lug plate is provided with the through hole of installation No. 2 bolts 6 of axis of rotation conllinear; The bottom surface of the mounting base in ear piece 11 adopts welding manner to be connected with the top end face of slide rail 10, bi-lug plate adopts No. 2 bolts 6 to be rotationally connected with one end (tailpiece of the piston rod) of hydraulic piston cylinder 5, and the other end of hydraulic piston cylinder 5 adopts No. 1 bolt 4 to be rotationally connected with No. 1 bi-lug plate of the self-made components 2 be sleeved on support 1.

No. 4 bolts 13 select GB/T 5789-1896 specification to be the bolt of M8; Screw 14 selects GB/T65-200 specification to be the screw of M4.

Consult Figure 16, No. three self-made components 15 are the stent-like structure parts be welded by rectangular flat and No. 3 bi-lug plate with four fixed vias, two otic placodes in No. 3 bi-lug plate are parallel to each other, No. 3 bi-lug plate are provided with No. 4 bolts hole of installation No. 4 bolts 13 of axis of rotation conllinear, and No. 3 bi-lug plate are connected with rectangular flat is vertical; Rectangular flat is provided with 4 rectangular flat bolt holes of erection bolt, 4 threaded hole centerings on the bottom face of 4 rectangular flat bolt holes and slide block 12; No. three self-made components 15 are arranged between slide block 12 and self-control ear piece 16, namely the rectangular flat in No. three self-made components 15 adopts bolt to be fixedly connected with the bottom face of slide block 12, and No. 3 bi-lug plate in No. three self-made components 15 adopt No. 4 bolts 13 to be rotationally connected with one end (monaural plate) of self-control ear piece 16.

Consult Figure 14, described self-control ear piece 16 is that the right cylinder of a threaded blind hole and monaural plate are welded, one end and cylindrical one end of monaural plate are welded and fixed, the other end of monaural plate is provided with through hole, through hole axis of rotation is vertical with monaural plate, the axis of rotation of the right cylinder other end is provided with tapped blind hole, the axis of rotation of tapped blind hole is coplanar with (vertical with its through hole axis of rotation) plane of symmetry of monaural plate, in other words, the axis of rotation of the through hole on the axis of rotation of tapped blind hole and monaural plate intersects vertically.

Consult Fig. 7, described pressure transducer 17 selects model to be the pull pressure sensor of PLD204L;

Consult Figure 17, described holder weldering nut 18 is that the nut of M6 and a rectangular blade are welded by the model of a GB/T889.2-2000, and model is the center that the nut of M6 is positioned at rectangular blade.

Consult Figure 18, the stainless steel glass clamp of western wheat brand selected by described geometrical clamp 19, the xsect of geometrical clamp 19 is U-shaped structure, two side plates are had to be parallel to each other and vertical with base plate respectively, on a side plate, there is a threaded hole in centre position wherein, threaded hole is vertical with two side plates, therewith threaded hole with the use of be the screw supporting with it, be used for pretension.

Consult Fig. 3, a described self-made components 2 is sleeved on the upper end of the cradling piece in support 1, and can be free to slide on cradling piece and adjust its position, a self-made components 2 is fixed on cradling piece by tightening No. 1 adjustment bolt 3 after adjusting by its position, in like manner, No. two self-made components 7 are sleeved on the lower end of the cradling piece in support 1, and can be free to slide on cradling piece and adjust its position, No. two self-made components 7 are fixed on cradling piece by tightening another No. 1 adjustment bolt 3 after adjusting by its position, and a self-made components 2 is above No. two self-made components 7, this part mechanism is mainly used in the installation site of adjustment pedal touch device to adapt to different setting height(from bottom)s and the setting angle of pedal.The ear piece of described hydraulic piston cylinder 5 cylinder body one end and one end (No. 1 bi-lug plate) of a self-made components 2 adopt No. 1 bolt 4 to be articulated and connected, bi-lug plate in the earrings of hydraulic piston cylinder 5 tailpiece of the piston rod and ear piece 11 is articulated and connected by No. 2 bolts 6, and the top end face of the mounting base in ear piece 11 and slide rail 10 adopts welding manner to link into an integrated entity; No. 2 bi-lug plate in the dull and stereotyped earrings of slide rail 10 one end and No. two self-made components 7 adopt No. 3 bolts 8 to be articulated and connected, the angle that this part mechanism regulates slide rail 10 to move around No. 3 bolts 8 by regulating the extended length of hydraulic piston cylinder 5.Described slide block 12 is sleeved on the bottom of slide rail 10, and namely slide block 12 one end is sleeved on slide rail 10, makes the outstanding guide rail on two cell walls of the U-lag on slide block 12 be equipped with as linear slide is connected with the groove of slide rail 10 arranged on left and right sides, slide block 12 other end adopts screw 14 to be fixedly connected with the rectangular flat in No. three self-made components 15, No. 3 bi-lug plate in No. three self-made components 15 adopt No. 4 bolts 13 to be articulated and connected with one end (monaural plate) of self-control ear piece 16, another (having tapped blind hole) end of self-control ear piece 16 is held with one (screw thread) of pressure transducer 17 and is threaded connection, another (screw thread) end of pressure transducer 17 is connected with the holder nut thread welded in nut 18, namely pressure transducer 17 is connected between self-control ear piece 16 and holder weldering nut 18, for measuring pedal pressing force, the geometrical clamp 19 that holder weldering nut 18 and the brake pedal in brake pedal unit 20 adopt 2 structures identical is connected and fixed, geometrical clamp 19 is fixed on the both sides of brake pedal.With the threaded hole on screw precession geometrical clamp 19 side plate supporting with geometrical clamp 19, realization holder weldering nut 18 is fixedly clamped with brake pedal unit 20.

Prior art assembly system comprises brake pedal unit 20, master cylinder 23, pedal sense simulator 24, oil pipe 25.

Consult Fig. 5, Figure 19-a to Figure 19-d, the mechanism that brake pedal unit 20 is made up of brake-pedal support 38, brake pedal 39, brake pedal shaft 40, brake pushrod 41, No. 1 bearing pin and No. 2 bearing pins.Brake pedal unit 20 is fixed with vehicle body (stand) by its brake-pedal support 38, the upper end of brake-pedal support 38 is provided with a No. 1 bearing pin through hole, the axis of rotation of No. 1 bearing pin through hole is vertical with brake-pedal support 38 upper end, and the surrounding of No. 1 bearing pin through hole on brake-pedal support 38 is provided with four threaded holes.The top of brake pedal shaft 40 is provided with No. 1 through hole, brake pedal shaft 40 and brake-pedal support 38 are by No. 1 hinge, make the axis of bearing pin vertical with brake-pedal support 38 upper end and the axis of rotation of brake pedal shaft 40 overlaps with the axis of rotation of bearing pin, in brake pedal shaft, the below of No. 1 through hole is provided with No. 2 through holes, the axis being parallel of the axis of No. 2 through holes and No. 1 through hole in the top of brake pedal shaft, the top (namely between No. 1 through hole and No. 2 through holes) of No. 2 through holes on brake pedal shaft is welded with a U-shaped chute.The ears structure of brake pushrod 41 and brake pedal shaft 40 are by No. 2 hinge, and brake pedal 39 carries out welding linking with brake pedal shaft 40 lower end, makes longest edge and No. 2 bearing pin axis being parallel of brake pedal 39, brake pedal and horizontal plane angled.

Consult Fig. 3, brake pedal unit 20 is fixed on one (left side) side of vehicle body (stand), master cylinder 23 and pedal sense simulator 24 are fixed on another (right side) side of vehicle body (stand), master cylinder 23 is directly over pedal sense simulator 24, the oil inlet and outlet of master cylinder 23 is connected by oil pipe 25 with the oil inlet and outlet of pedal sense simulator 24, and brake pushrod is connected by the ball pivot on brake pushrod with master cylinder 23.

Accuracy-control system comprises rotary angle transmitter 21, angular transducer fixed support 22, displacement transducer 33, Sensor Data Record display device 34, controller board 35 and drive plate 36.

Consult Fig. 6, described rotary angle transmitter 21 selects model to be the photoelectric encoder of E6B2-CWZ6C;

Consult Fig. 5, described rotary angle transmitter fixed support 22 has four threaded holes, and the position in hole is corresponding with the threaded hole on brake-pedal support 38 in brake pedal unit 20, and its effect connects rotary angle transmitter 21 and brake pedal unit 20.

Consult Fig. 1, described displacement transducer 33 selects model to be the stay wire displacement sensor of LZZS-360B-L5;

Described Sensor Data Record display device 34 is computer, computer needs to install Controldesk (development platform of controller board 35 correspondence) and Mat lab (matrix labotstory), the effect of Sensor Data Record display device 34 is control, record and display pressure, displacement and corner data, is convenient to revise.

Consult Fig. 1, Figure 20 to 25, controller board 35 selects model to be the controller board of dSPACE 1103, and model is the controller board of dSPACE 1103 comprises board that model is DS817, model is DS1103 processor and model is the interface panel of CLP1103; Wherein: model be DS817 board for communication, model be the processor of DS1103 for the treatment of information, model is that the interface panel of CLP1103 is changed for signal.

The interface that the interface panel of to be model in the controller board 35 of dSPACE 1103 the be CLP1103 of the model described in this patent uses only has four, consult Figure 20, be respectively ADCH1 interface (CP1), Digital I/O (CP30), Inc1 (CP32) and Inc2 (CP33), wherein ADCH1 interface (CP1) is BNC type female, Digital I/O (CP30) is for containing 50 contact pins, the numbering of contact pin is as shown in Figure 21-b, Inc1 (CP32) and Inc2 (CP33) is containing 15 pin holes, and the numbering of pin holes is as shown in Figure 21-a.Model is that the processor that interface panel and the model of CLP1103 is DS1103 is connected by three harness bands, the interface panel of harness band to be model be CLP1103 carries, interface respectively label is P1, P2 and P3 and is all the male with 50 contact pins, P1, P2 and P3 male with model be respectively DS1103 processor terminal block on label be that P1, P2 and P3 female is connected, the shape of joint is trapezoidal, so there will not be the situation of installation direction mistake.The board of model to be processor and the model of DS1103 be DS817 is connected by the netting twine (cross spider) with the twisted-pair feeder form of crystal head (RJ45 type is reticle plug provided), one end of netting twine is connected on the network interface that model is the terminal block of the processor of DS1103, consult Figure 24, model is that the network interface of the terminal block of the processor of DS1103 is in terminal block lower left, the other end of netting twine is connected on the network interface that model is the board of DS817, consult Figure 15, model be the board of DS817 network interface its lower left.

Consult Fig. 1, Figure 22 and Figure 23, drive plate 36 selects the model with Infineon to be the low-end switch chip circuit version of TLE6216, the model of Infineon is that the low-end switch chips welding of TLE 6216 is on drive plate 36, low-end switch chip has 20 pins, pin numbering as shown in figure 22, the pin wherein used has No. 1 pin (GND), No. 2 pins (OUT1), No. 3 pins (ST1), No. 5 pins (VS), No. 16 pins (ENA), No. 8 pins (ST2), No. 13 pins (ST3), No. 17 pins (IN1), No. 14 pins (IN2), No. 7 pins (IN3), No. 9 pins (OUT2), No. 12 pins (OUT3).GND is ground wire, and VS is supply voltage, and ENA is enable signal end, and IN1 is control inputs passage 1, IN2 be control inputs passage 2, IN3 be control inputs passage 3, OUT1 be power stage passage 1, OUT2 be power stage passage 2, OUT3 is power stage passage 3.No. 1 pin (GND) be connected power supply that a voltage is 50V in the middle of No. 5 pins (VS) and positive source is connected with No. 5 pins (VS), No. 5 pins (VS) are drawn another line and are connected and another termination No. 1 pin (GND) of two of parallel connection electric capacity with No. 1 electric capacity in parallel and No. 2 electric capacity, wherein No. 1 electric capacity is the electrochemical capacitor of 1000 μ F, and No. 2 electric capacity are the conventional capacitive of 470nF.

Consult Fig. 1 to Fig. 6 and Figure 20 to 25, rotary angle transmitter 21 and rotary angle transmitter fixed support 22 are connected by screw, rotary angle transmitter fixed support 22 is connected by screw with the upper end of the brake-pedal support 38 in brake pedal unit 20, the main body of rotary angle transmitter 21 is maintained static, the measure portion of rotary angle transmitter 21 is arranged in the chute on the brake pedal shaft 40 in brake pedal unit 20 as being slidably connected, when brake pedal 39 steps down time, the measure portion of rotary angle transmitter 21 is rotated together with brake pedal 39, the rotate centre of gyration of the motionless main part of angle transducer 21 of the measure portion of rotary angle transmitter 21 is rotated, displacement transducer 33 is owing to not easily representing in the drawings, so adopt the mode of explanatory note to explain, displacement transducer 33 mainly moves horizontally stroke in order to what measure the brake pushrod 41 that is connected with master cylinder 23, so displacement transducer 33 is placed on on the position of the same axis of master cylinder 23, end is fixed on brake pushrod 41 and measures, green line in rotary angle transmitter 21 wire harness connects No. 2 stitch holes in a stitch insertion Inc1 interface, white line in rotary angle transmitter 21 wire harness connects No. 4 stitch holes in a stitch insertion Inc1 interface, red line in rotary angle transmitter 21 wire harness connects No. 9 stitch holes in a stitch insertion Inc1 interface, and the black line in rotary angle transmitter 21 wire harness connects No. 10 stitch holes in a stitch insertion Inc1 interface, green line in displacement transducer 33 wire harness connects No. 2 stitch holes in a stitch insertion Inc2 interface, white line in displacement transducer 33 wire harness connects No. 4 stitch holes in a stitch insertion Inc2 interface, red line in displacement transducer 33 wire harness connects No. 9 stitch holes in a stitch insertion Inc2 interface, and the black line in displacement transducer 33 wire harness connects No. 10 stitch holes in a stitch insertion Inc2 interface, No. 16 pins of the TLE6216 chip in drive plate 36 are drawn a line and are connected with No. 50 stitch in Digital I/O interface, No. 17 pins of the TLE6216 chip in drive plate 36 are drawn a line and are connected with No. 1 stitch in Digital I/O interface, No. 14 pins of the TLE6216 chip in drive plate 36 are drawn a line and are connected with No. 2 stitch in Digital I/O interface, and No. 7 pins of the TLE6216 chip in drive plate 36 are drawn a line and are connected with No. 3 stitch in Digital I/O interface.Model is that the board of DS817 inserts in the PCI bridge of computer housing, the gap of board is aimed at the bossing of the PCI bridge of computer housing, there will not be the situation of wrong plug.

Air-liquid transmission system is connected by common elements hydraulic piston cylinder 5 with pedal touch device, realizes gas-liquid power transmission to mechanically operated conversion, prior art assembly system and pedal touch device are fixed by geometrical clamp 19 and are connected, and power mechanism transmitted is applied on brake pedal 39, rotary angle transmitter 21 in accuracy-control system and displacement transducer 33 mode are as described above fixed in prior art assembly system, drive plate 36 in accuracy-control system controls gas path control valve assembly by circuit and carries out gas path on-off control, connected mode is as follows, No. 2 pins of TLE6216 are connected with the negative terminal of the solenoid of a solenoid directional control valve 29, No. 9 pins of TLE6216 are connected with the negative terminal of the solenoid of No. two solenoid directional control valves 30, No. 12 pins of TLE6216 are connected with the negative terminal of the solenoid of No. three solenoid directional control valves 37, a solenoid directional control valve 29, No. two solenoid directional control valves 30 are all connected with No. 5 connected positive sources of pin of TLE6216 with the anode of the solenoid of No. three solenoid directional control valves 37, pressure transducer 17 in pedal touch device is connected by wire harness with accuracy-control system, concrete connected mode is as follows, the screw that green line in pressure transducer 17 is carried by BNC type male with the metallic member of the centre of the BNC type male bought in advance is fixedly connected with, white line in pressure transducer 17 therewith BNC type male housing parts connect, red line in pressure transducer 17 is connected with the positive source of 10V, black line in pressure transducer 17 is connected with the power cathode of 10V, finally the BNC type male connected is inserted in the BNC type female of ADCH1 interface.

The principle of work of described line control brake system pedal sense simulator test and calibration system:

The utility model fundamental purpose is the relation of pedal force respectively and between the pedal anglec of rotation and master cylinder stroke in order to test and calibration pedal sense simulator feeds back.Air compressor 27 is connected the rear air-flow producing certain air pressure that is energized with motor 26, air-flow is successively by reduction valve 28, a solenoid directional control valve 29, No. two solenoid directional control valves 30 in parallel, No. three solenoid directional control valves 37, throttle grverning valve 31, pneumohydraulic pressure-cylinder 32 and hydraulic piston cylinder 5, brake pedal 39 corner recorded according to rotary angle transmitter 21 and displacement transducer 33 and master cylinder 23 displacement data pass to controller board 35 and process, after controller board 35 is connected with each sensor, each interface message is transferred to Sensor Data Record display device 34, and arrange with the simulink (modeling and simulation platform) in Controldesk (development platform of controller board 35 correspondence) and Mat lab (matrix labotstory), setting rotary angle transmitter 21, displacement transducer 33 and pressure transducer 17 signal be input signal, set the signal that is transferred to drive plate as output signal, after operation, the signal of each sensor can be shown in Controldesk (development platform of controller board 35 correspondence) software interface, and can by rotary angle transmitter 21, control signal after displacement transducer 33 processes passes to drive plate 36, a solenoid directional control valve 29 and No. two solenoid directional control valves 30 are controlled with drive plate 36, the solenoid of No. three solenoid directional control valves 37 carries out feedback regulation, realize regulating the air inflow entering pneumohydraulic pressure-cylinder 32, thus realize regulating the liquid inlet volume entering hydraulic piston cylinder 5 to regulate its elongation.The object of feedback is in order to by regulating the elongation of hydraulic piston cylinder 5 to carry out the displacement stroke that adjustable brake pedal 39 moves to specific angle or adjustable brake master cylinder 23, thus uniform sampling demarcate pedal sense simulator pedal force respectively with the relation of brake pedal 39 anglec of rotation and master cylinder 23 displacement stroke.Wherein, the setting of reduction valve 28 is to ensure that airline pressure can not be excessive; The setting of solenoid directional control valve 29 is to make gas circuit realize inflation/deflation; Two No. two solenoid directional control valves 30, No. three solenoid directional control valves 37 in parallel are the break-makes in order to realize gas circuit, can realize the location of pneumohydraulic pressure-cylinder 32, thus ensure that the elongation of hydraulic piston cylinder 5 is constant; The effect of pneumohydraulic pressure-cylinder 32 makes air pressure transmission be converted into hydraulic pressure transfer.Topworks of the present invention part regulates slide rail 10 around the anglec of rotation of No. 3 bolts 8 by regulating the elongation of hydraulic piston cylinder 5, thus having imitated people, to step on brake pedal 39 take heel as the action of stepping under axis, in the process stepped on downwards, brake pedal unit 20 and slide rail 10 have relative slip and the change of relative angle, so with slide block 12 and brake pedal unit 20 by No. three self-made components 15 with make ear piece 16 by oneself and carry out hingedly offsetting this impact.

Claims (10)

1. a line control brake system pedal sense simulator test and calibration system, comprise prior art assembly system, it is characterized in that, described line control brake system pedal sense simulator test and calibration system also comprises air-liquid transmission system, pedal touch device and accuracy-control system;

The liquid in-out mouth of the pneumohydraulic pressure-cylinder (32) in air-liquid transmission system adopts oil pipe to be connected with the liquid in-out mouth of the hydraulic piston cylinder (5) in pedal touch device, and the geometrical clamp (19) that holder in pedal touch device weldering nut (18) and the brake pedal (39) in the brake pedal unit (20) of prior art assembly system adopt 2 structures identical is connected and fixed; Rotary angle transmitter (21) in accuracy-control system adopts screw to be connected with brake pedal unit (20), and the end of the displacement transducer (33) in accuracy-control system is fixed on the brake pushrod (41) of the brake pedal unit (20) in prior art assembly system.

2. according to line control brake system pedal sense simulator test and calibration system according to claim 1, it is characterized in that, described air-liquid transmission system comprises gas path control valve assembly, motor (26), air compressor (27) and pneumohydraulic pressure-cylinder (32);

Described gas path control valve assembly comprises reduction valve (28), a solenoid directional control valve (29), No. two solenoid directional control valves (30), No. three solenoid directional control valves (37) and throttle grverning valves (31);

Motor (26) and air compressor (27) are mechanically connected, the gas outlet of air compressor (27) adopts tracheae to be connected with the air intake opening of reduction valve (28), the gas outlet of reduction valve (28) adopts tracheae to be connected with the P mouth of a solenoid directional control valve (29), the A mouth of a solenoid directional control valve (29) adopts tracheae to be connected with two No. two solenoid directional control valves (30) in parallel with the P mouth of No. three solenoid directional control valves (37), two No. two solenoid directional control valves (30) in parallel adopt tracheae to be connected with the A mouth of No. three solenoid directional control valves (37) and the air inlet/outlet of throttle grverning valve (31), throttle grverning valve (31) gas outlet adopts tracheae to be connected with the air inlet/outlet of pneumohydraulic pressure-cylinder (32).

3. according to line control brake system pedal sense simulator test and calibration system according to claim 2, it is characterized in that, V-0.25/8 type single-stage compression belt-type air compressor machine selected by described air compressor (27); YK43X-F-Y type reduction valve selected by reduction valve (28); A solenoid directional control valve (29) selects K23D-2-B type two-position three-way normal-opened solenoid valve; No. two solenoid directional control valves (30) all select PDW2120-03-AC220V type bi-bit bi-pass to lead directly to cut-off type solenoid directional control valve with No. three solenoid directional control valves (37); QLA-L8 type one-way throttle valve selected by throttle grverning valve (31); Pneumohydraulic pressure-cylinder (32) selects CZ-4 type direct press type pneumohydraulic pressure-cylinder.

4. according to line control brake system pedal sense simulator test and calibration system according to claim 1, it is characterized in that, described pedal touch device also comprises support (1), self-made components (2), hydraulic piston cylinder (5), No. two self-made components (7), slide rail (10), slide block (12), No. three self-made components (15), self-control ear piece (16) and pressure transducers (17);

A described self-made components (2) is sleeved on the upper end of the cradling piece in support (1) for being slidably connected, No. two self-made components (7) are sleeved on the lower end of the cradling piece in support (1), cylinder body one end of hydraulic piston cylinder (5) and one end of a self-made components (2) hinged, bi-lug plate in the tailpiece of the piston rod of hydraulic piston cylinder (5) and ear piece (11) is hinged, and the top end face of the mounting base in ear piece (11) and slide rail (10) is welded to connect; No. 2 bi-lug plate in slide rail (10) one end and No. two self-made components (7) are hinged; Slide block (12) is sleeved on the bottom of slide rail (10), and the other end of slide block (12) is fixedly connected with the rectangular flat in No. three self-made components (15); No. 3 bi-lug plate in No. three self-made components (15) are hinged with one end of self-control ear piece (16), the other end of self-control ear piece (16) is connected with the threaded one end of the pressure transducer (17) in accuracy-control system, and the other end of pressure transducer (17) welds nut (18) with holder and is threaded.

5. according to line control brake system pedal sense simulator test and calibration system according to claim 4, it is characterized in that, a described self-made components (2) is overlapped by No. 1 square tube to be welded with No. 1 bi-lug plate, No. 1 bi-lug plate is parallel to each other, No. 1 bi-lug plate is provided with the bolt hole of axis of rotation conllinear, the lateral vertical that No. 1 bi-lug plate and No. 1 square tube are overlapped, is provided with No. 1 tapped through hole with the center of tube wall on No. 1 square tube casing wall opposite fixing No. 1 bi-lug plate;

No. two self-made components (7) are overlapped by No. 2 square tubes to be welded with No. 2 bi-lug plate, No. 2 bi-lug plate are parallel to each other, No. 2 bi-lug plate are provided with the bolt hole of axis of rotation conllinear, the lateral vertical that No. 2 bi-lug plate and No. 2 square tubes are overlapped, is provided with No. 2 tapped through holes with the center of tube wall on No. 2 square tube casing wall opposites fixing No. 2 bi-lug plate; The height of No. 1 square tube cover in a self-made components (2) is greater than the height of No. 2 square tube covers in No. two self-made components (7), and the square hole size of No. 1 square tube cover is equal with the square hole size that No. 2 square tubes are overlapped.

6. according to line control brake system pedal sense simulator test and calibration system according to claim 4, it is characterized in that, described slide rail (10) selects model to be the rail plate of TRS15VN; Namely slide rail (10) is prismatic straight-bar class formation part, the arranged on left and right sides of slide rail (10) is provided with the groove equipped with slide block (12), one end of slide rail (10) is planar end, planar end is vertical with longitudinal plane of symmetry of slide rail (10), the other end of slide rail (10) is provided with a dull and stereotyped earrings, dull and stereotyped earrings is provided with through hole, and longitudinal plane of symmetry of longitudinal plane of symmetry of dull and stereotyped earrings and slide rail (10) is coplanar;

Slide block (12) is the structural member with slide rail (10) matching used cuboid, U-lag is vertically arranged with in the side of slide block (12), two cell walls of U-lag are provided with the outstanding guide rail equipped with the groove of slide rail (10) arranged on left and right sides, the bottom surface that bottom face is and U-lag bottom surface parallels of slide block (12) is provided with 4 threaded holes equably.

7. according to line control brake system pedal sense simulator test and calibration system according to claim 4, it is characterized in that, No. three described self-made components (15) are structural members be welded by rectangular flat and No. 3 bi-lug plate with four fixed vias, two otic placodes in No. 3 bi-lug plate are parallel to each other, No. 3 bi-lug plate are provided with No. 4 bolts hole of axis of rotation conllinear, No. 3 bi-lug plate are connected with rectangular flat is vertical; Rectangular flat is provided with 4 rectangular flat bolt holes of erection bolt, 4 threaded hole centerings on the bottom face of 4 rectangular flat bolt holes and slide block (12);

Described self-control ear piece (16) is made up of the right cylinder of a threaded blind hole and monaural plate, one end and cylindrical one end of monaural plate are welded to connect, the other end of monaural plate is provided with through hole, through hole axis of rotation is vertical with monaural plate, the axis of rotation of the right cylinder other end is provided with tapped blind hole, and the axis of rotation of the through hole on the axis of rotation of tapped blind hole and monaural plate intersects vertically.

8. according to line control brake system pedal sense simulator test and calibration system according to claim 4, it is characterized in that, described support (1) is made up of cradling piece and base (9);

Four sides of the iso-cross-section that described cradling piece selects Europe superscript 4048 microlight-type industrial aluminum profile to make are provided with the straight-bar class formation part of cross-shaped aperture groove;

Described base (9) is the square iron plate that corner place is provided with four through holes, base (9) adopts welding manner to be fixedly connected with the bottom face of cradling piece, cradling piece is perpendicular to base (9), and cradling piece and base (9) tie point are positioned at the center of base (9);

Described ear piece (11) is dual-lug type structural member, is made up of bi-lug plate and mounting base; Bi-lug plate is connected with the two ends of installing floor board are vertical, bi-lug plate is provided with the through hole of axis of rotation conllinear.

9. according to line control brake system pedal sense simulator test and calibration system according to claim 1, it is characterized in that, described accuracy-control system comprises rotary angle transmitter (21), rotary angle transmitter fixed support (22), displacement transducer (33), Sensor Data Record display device (34), controller board (35) and drive plate (36);

Rotary angle transmitter (21) adopts screw to be connected with rotary angle transmitter fixed support (22), rotary angle transmitter fixed support (22) adopts screw to be connected with the upper end of the brake-pedal support (38) in brake pedal unit (20), the measure portion of rotary angle transmitter (21) is arranged in the chute on the brake pedal shaft (40) in brake pedal unit (20) as being slidably connected, displacement transducer (33) is placed on on the position of master cylinder (23) same axis, the end of displacement transducer (33) is fixed on the brake pushrod (41) of master cylinder (23), rotary angle transmitter (21), displacement transducer (33), drive plate (36), pressure transducer (17) and Sensor Data Record display device (34) adopt electric wire to be connected with controller board (35) respectively.

10. according to line control brake system pedal sense simulator test and calibration system according to claim 9, it is characterized in that, described controller board (35) selects model to be the controller board of dSPACE 1103; It is the low-end switch chip circuit version of TLE6216 that drive plate (36) is selected with model; Rotary angle transmitter (21) selects model to be the photoelectric encoder of E6B2-CWZ6C, displacement transducer (33) selects model to be the stay wire displacement sensor of LZZS-360B-L5, and Sensor Data Record display device (34) is computer;

Described model is the controller board (35) of dSPACE 1103 comprises board that model is DS817, model is DS1103 processor and model is the interface panel of CLP1103; Model is that the processor that interface panel and the model of CLP1103 is DS1103 is connected by the harness band that three labels are P1, P2, P3, and model is that the board that processor and the model of DS1103 is DS817 is connected by the netting twine with crystal head;

Rotary angle transmitter (21), displacement transducer (33) are that Inc1 and the Inc2 interface of the interface panel of CLP1103 is connected respectively by model with controller board (35); Pressure transducer (17) and controller board (35) are that the ADCH1 interface of the interface panel of CLP1103 is connected by model; Drive plate (36) and controller board (35) are that the Digital I/O interface of the interface panel of CLP1103 is connected by model.