CN110361206A - The test device and testboard bay of vehicle stability control system - Google Patents

Abstract

This disclosure relates to the test device and testboard bay of a kind of vehicle stability control system.A kind of test device of vehicle stability control system, the vehicle stability control system includes solenoid valve and direct current generator, the test device includes: controller, obtains the test tested the vehicle stability control system and instructs, and generates control signal based on test instruction；And driver, according to the control signal generated by the controller, generate the driving signal for driving the vehicle stability control system, the controller is configured as: being instructed in response to obtaining the first test tested the solenoid valve, first control signal is generated, generates the first driving signal for connecting the solenoid valve to control the driver；It is instructed in response to obtaining the second test tested the direct current generator, generates second control signal, make the second driving signal of the direct current generator rotation to control the driver generation.

Description

The test device and testboard bay of vehicle stability control system

Technical field

This disclosure relates to vehicular field, the in particular to test device of vehicle stability control system.

Background technique

Vehicle stability control system is a kind of active safety systems of vehicles, can be improved vehicle performance safety coefficient and driving Convenience.When there are the emergency cases such as break turn, urgent acceleration and emergency braking, the vehicle with Vehicle Stability System can To perceive rapidly and automatically take corresponding brake measure, it is dynamic that braking appropriate is such as carried out to wheel by oil pressure control system Make, in a manner of reducing distributive value, late ignition output for reducing engine etc., to maintain the stabilization of vehicle body.

Generally the function of vehicle stability control system is tested using special inspecting equipment.Detection device is for example simulated The actual travel process of vehicle detects under the control of vehicle stability control system, the control shape of the braking conditions of wheel, engine Condition etc., so that it is determined that whether the function of vehicle stability control system is normal.

Summary of the invention

Present disclose provides a kind of test devices of vehicle stability control system, for the hardware of vehicle stability control system Part is tested, and to determine the quality of vehicle stability control system, test period is short, and can be realized the small of test device Type and low cost.

According to one aspect of the disclosure, a kind of test device of vehicle stability control system is provided, the vehicle is steady Determining control system includes solenoid valve and direct current generator.The test device may include controller, obtain to the vehicle stabilization The test instruction that control system is tested, and control signal is generated based on test instruction；And driver, according to by institute The control signal for stating controller generation, generates the driving signal for driving the vehicle stability control system.The controller It can be configured as: being instructed in response to obtaining the first test tested the solenoid valve, generate first control signal, with It controls the driver and generates the first driving signal for connecting the solenoid valve；The direct current generator is carried out in response to obtaining Second test instruction of test, generates second control signal, makes the direct current generator rotation to control the driver and generate Second driving signal.

According to another aspect of the present disclosure, a kind of testboard bay is provided, for installing the test device according to the disclosure To carry out the test of vehicle stability control system.The testboard bay may include: fixed part, for fixing the controller； And supporter, it is used to support the vehicle stability control system, the electricity of the driver and the vehicle stability control system Magnet valve interface is connected with direct current generator interface, and is mutually coupled with the controller.

Detailed description of the invention

The middle description disclosure is described in detail below with reference to the drawings, wherein running through the identical appended drawing reference table of attached drawing Show the same or similar component.It is to be understood that the drawings are not necessarily drawn to scale, and attached drawing is served only for illustrating the disclosure Exemplary embodiment, it should not be assumed that be the limitation to disclosure range.Wherein:

Fig. 1 shows the schematic diagram of vehicle stability control system, and (a) is the perspective view of vehicle stability control system, is (b) The top view of vehicle stability control system；

Fig. 2 shows the exemplary configuration frames of the test device of vehicle stability control system according to an embodiment of the present disclosure Figure；

Fig. 3 shows the exemplary of the test device of vehicle stability control system according to another embodiment of the present disclosure and matches Set block diagram；

Fig. 4 shows the schematic diagram of the control panel of the controller of test device according to an embodiment of the present disclosure；

Fig. 5 shows showing for the test method of the test device of vehicle stability control system according to an embodiment of the present disclosure Example property flow chart；

Fig. 6 shows the schematic diagram of testboard bay according to an embodiment of the present disclosure.

Specific embodiment

The various exemplary embodiments of the disclosure are described in detail below with reference to the accompanying drawings.It is to be understood that showing various The description of example property embodiment is merely illustrative, not as any restrictions of the technology to the disclosure.Unless in addition specifically It is bright, component and the positioned opposite of step, expression formula and the unlimited the scope of the present disclosure processed of numerical value in the exemplary embodiment.

Term used herein, it is only for describe specific exemplary embodiment, and be not intended to limit the disclosure. Unless the context clearly states otherwise, " one " of singular used herein and "the" are intended to equally include plural shape Formula.It will further be understood that one word of " comprising " as used herein, illustrate there are pointed feature, entirety, step, operation, Unit and/or component, but it is not excluded that in the presence of or increase one or more of the other feature, entirety, step, operation, unit and/ Or component and/or their combination.In addition, term " first ", " second " etc. are only used for describing in the description of the disclosure Purpose is not understood to indicate or imply relative importance or sequence.In addition, in the description of the disclosure, unless otherwise saying Bright, the meaning of " plurality " is two or more.

Vehicle stability control system involved in the disclosure is the vehicle stability control system of broad sense, including but not limited to dynamic State stability contorting (Dynamic Stability Control, DSC), electronic stability program (Electronic Stability Program), vehicle stabilization auxiliary (Vehicle Stability Assist, VSA), vehicle stabilization control (Vehicle Stability Control, VSC), anti-blocking brake system (Antilock Brake System, ABS) etc..It is retouched below It in stating, will be illustrated by taking DSC as an example, but it is to be understood that it is steady to can be used for other vehicles in accordance with an embodiment of the present disclosure Determine control system.

DSC may include solenoid valve and direct current generator.Solenoid valve can be used for controlling oil inlet access and fuel-displaced access, with right The wheel of vehicle is braked.Direct current generator can be used for control loop oil pressure, be controlled with the output to engine.For example, Direct current generator can be used for increasing circuit oil pressure, and the rotation of direct current generator will drive plunger pump movement, to continue in oil circuit Increase the pressure of oil.

Fig. 1 instantiates the DSC100 including 12 solenoid valves and 1 direct current generator, and (a) is the perspective view of DSC100, (b) It is the top view of DSC100.In DSC100,12 solenoid valves are for controlling 2 oil inlet accesses and 4 fuel-displaced accesses, Mei Getong 2 solenoid valve controls in road, 4 fuel-displaced accesses correspond respectively to the brake of 4 wheels of vehicle.

As shown in (b) of Fig. 1, DSC100 includes 12 solenoid valve interfaces 102 corresponding with 12 solenoid valves, and 1 direct current generator interface 104 corresponding with 1 direct current generator.By the electricity of hardware driving (not shown) and DSC100 of DSC100 Magnet valve interface 102 and direct current generator interface 104 connect, and the vehicle stabilization control function of DSC100 may be implemented.

It should be appreciated that Fig. 1 is only an example, it also can be applied to that there are other differences in accordance with an embodiment of the present disclosure The solenoid valve of quantity and the vehicle stability control system of direct current generator.

During before using DSC or using DSC, need to test DSC, to determine the quality of DSC.This The mode that invention disclosed people knows is tested using function of the special inspecting equipment to DSC.Detection device is for example simulated The actual travel process of vehicle detects under the control of vehicle stability control system, the control shape of the braking conditions of wheel, engine Condition etc., so that it is determined that whether the function of DSC is normal.However, due to need the actual travel process of simulating vehicle and to wheel and Engine is detected, and such special inspecting equipment is usually large-scale, and testing cost is higher, test period is longer.

The disclosure inventors noted that DSC generally comprises hardware components as solenoid valve and direct current generator, by right The hardware components of DSC are tested, and can quickly determine the quality of DSC hardware components.Therefore, present disclose provides one kind The test device of DSC does not test the function of DSC, but tests the hardware components of DSC, and test period is short, and And it can be realized the miniaturization and low cost of test device.

The survey according to the exemplary embodiment of the disclosure for being tested DSC is described in detail referring to Fig. 2 to 4 Trial assembly is set.

Fig. 2 shows the exemplary configuration block diagram of test device 200 according to an embodiment of the present disclosure, test devices 200 It can be used for testing DSC212.DSC212 shown in Fig. 2 for example can correspond to the DSC100 in Fig. 1.

As shown in Fig. 2, test device 200 may include controller 204 and driver 208.The acquisition pair of controller 204 The test instruction 202 that DSC212 is tested, and control signal 206 is generated based on test instruction 202.Driver 208 according to by The control signal 206 that controller 204 generates, generates the driving signal 210 for driving DSC212.

In some embodiments, test instruction 202 may include the first test tested the solenoid valve of DSC212 Instruction and the second test tested the direct current generator of DSC212 instruct.In addition, including multiple solenoid valves in DSC212 In the case of, test instruction 202 may include the multiple first test instructions tested respectively multiple solenoid valves.

In some embodiments, controller 204 can be configured as in response to obtaining the first test instruction, generate the first control Signal processed generates the first driving signal for connecting solenoid valve to control driver 208.It include multiple solenoid valves in DSC212 In the case of, controller 204 can be generated to be respectively corresponded with the multiple first test instructions tested respectively multiple solenoid valves Multiple first control signals.

When solenoid valve is connected, due to the collision of metal can issue " " sound.Therefore, in some embodiments, Ke Yitong The sound of monitoring DSC212 is crossed to judge whether solenoid valve is connected.For example, in the case where acquisition first is tested and instructed, if prison Hear from DSC212 " " sound, then can be determined that the solenoid valve of DSC212 has been turned on, i.e., the solenoid valve is good；If Do not hear from DSC212 " " sound, then can be determined that the solenoid valve access failure of DSC212, the i.e. solenoid valve have damaged.It is logical Such mode is crossed, external sensor or other decision circuits is not necessarily to, can simply determine whether the solenoid valve of DSC212 is good It is good.

In some embodiments, controller 204 can be configured as in response to obtaining the second test instruction, generate the second control Signal processed generates the second driving signal for rotating direct current generator to control driver 208.

In direct current generator rotation, it can issue and correspondingly rotate sound.Therefore, in some embodiments, monitoring can be passed through The sound of DSC212 judges whether direct current generator is connected.For example, in the case where acquisition second is tested and instructed, if listened to The rotation sound of direct current generator from DSC212 then can be determined that the direct current generator of DSC212 is rotating, i.e., the direct current generator is It is good；If not hearing the rotation sound of the direct current generator of DSC212, it can be determined that the direct current generator of DSC212 does not rotate, I.e. the direct current generator has damaged.In this way, it is not necessarily to external sensor or other decision circuits, can simply be determined Whether the direct current generator of DSC212 is good.

In some embodiments, it is also possible to the direct current generator interface of DSC212 (such as the direct current generator in (b) of Fig. 1 Interface 104) connection current sensor, the electric current of direct current generator is flowed through with acquisition, determines direct current by the size of the current value Whether motor is good.For example, in the case where acquisition second is tested and instructed, if the current value that current sensor measures is not 0, Then it is determined as that the direct current generator of DSC212 is good；If current value is 0, it is determined as that the direct current generator of DSC212 has damaged It is bad.

Many forms can be used according to the controller 204 of disclosure exemplary embodiment, for example including based on computer System, microprocessor-based system, SCM Based system, microcontroller, electronic control module (ECM), electronics control Unit (ECU) processed or any other suitable Control Cooling circuit or system.Controller can also include one or more special With integrated circuit (ASIC), field programmable gate array (FPGA) and logic circuit, it is configured as that controller may be implemented According to the function of the various exemplary embodiments of the disclosure.

In the exemplary embodiment, controller 204 may include with one or more of lower component (not shown): storage Device；The processing component coupled with storage operation, such as microcontroller or microprocessor；Store equipment；Input and output (I/O) Interface；And communication component.

Processing component can be configured as reception test and instruct and generate control signal, send for example, by I/O interface The control signal generates corresponding driving signal to control driver.In operation, processing component can execute memory and/or The computer instruction stored in storage equipment.

Memory and storage device may include the storage medium of any suitable type respectively.Memory for example can wrap Nonvolatile computer readable storage medium is included, it includes can be by the instruction for the application or method that processing component executes.For example, this is non- Temporary computer readable storage medium can be read-only memory (ROM), random access memory (RAM), flash memories, deposit Store up chip (or integrated circuit) etc..Storage equipment may include volatibility or non-volatile, magnetic, semiconductor, light, can be removed, no Removable or other kinds of storage equipment or computer-readable medium, to provide additional memory space for controller 204.

I/O interface may include one for allowing controller 204 to communicate with other systems and equipment (such as driver 208) Or multiple digital and/or artificial traffic equipments.For example, I/O interface can send the control signal generated by controller 204 to Driver 208.

Communication component can be configured as wired between pilot controller 204 and other equipment (such as user interface) or Wireless communication.For example, communication component can obtain the test instruction 202 tested DSC212 with pilot controller 204.Communication Component can access wireless network by communication standard (such as WiFi, LTE, 2G, 3G, 4G, 5G etc.) based on one or more.At one In exemplary embodiment, communication component may include near-field communication (NFC) module between pilot controller 204 and other equipment Short haul connection.In a further exemplary embodiment, communication component may be implemented as based on radio frequency identification (RFID) technology, Infrared Data Association (IrDA) technology, ultra wide band (UWB) technology, bluetooth (BT) technology or other technologies.

In the test device of the disclosure, controller obtains test instruction, generates control signal based on test instruction, so that Driver generates driving signal to drive the solenoid valve and direct current generator of DSC, and whether the hardware components so as to determine DSC are good It is good.The test device of the disclosure is not due to testing the function of DSC, there is no need to the actual travel process of simulating vehicle, Vehicle braking conditions of wheel and the control situation of engine etc. under DSC control are detected, test period is short, and can be realized survey The miniaturization and low cost that trial assembly is set.

It is suitable for carrying out quick, batch screening to the quality of DSC according to the test device of the disclosure.

Specifically, the screening when depot assembles vehicle generally without DSC quality, it is believed that from production firm The DSC part come is good.But in DSC in the transportational process from part production firm to depot, the hardware of possible DSC Part generate damage, and it is such damage generally can only vehicle complete assembling after vehicle is tested when discovery, and by Step investigation failure.Since the test period of the test device of the disclosure is short, DSC can be tested before vehicle assembling, The assembling of vehicle is just carried out when confirming that DSC is good.In this way, the time of malfunction elimination can be reduced.

On the other hand, when the DSC in some vehicle that discovery completes after assembling breaks down, it is intended to think with a batch There may be similar failures by secondary multiple DSC.Therefore, the test device that can use the disclosure carries out batch to multiple DSC Failure screening.In this way, a possibility that vehicle assembling is broken down later can be reduced, production efficiency is improved.

In some embodiments, the driver 208 of test device 200 according to an embodiment of the present disclosure may include being used for The first interface of drive magnetic valve and second interface for driving direct current generator, first interface and second interface respectively with DSC Solenoid valve interface (such as solenoid valve interface 102 in (b) of Fig. 1) and direct current generator interface it is (such as straight in (b) of Fig. 1 Flow motor interface 104) connection.

In this way, hardware interface (first interface of driver 208 and of the test device 200 of the disclosure Two interfaces) it can be adapted to the hardware interface of DSC itself.Therefore, when testing DSC, by by the hardware of DSC itself Driving is removed, and the corresponding interface of driver 208 is connected to the solenoid valve interface and direct current generator interface of DSC, can be carried out The test of DSC changes and/or adds other components without carrying out other structures to DSC.

It can be used as portable test device according to the test device of the present embodiment, it is straight to the DSC of installation in the car Tap into capable test.Specifically, DSC may also can be damaged after vehicle is completed (such as after vehicle release). Exist in such a case, it is possible to which portable test device is carried in vehicle and carries out real vehicle to the DSC of installation in the car Line test.Specifically, the hardware driving for the DSC itself that script can be connect with DSC is removed, and the test of the disclosure is filled The corresponding interface for the driver set and the solenoid valve interface of DSC and direct current generator interface connect, to carry out the test of DSC.

According to the portable test device of the disclosure, without dismantling DSC from vehicle, by a system such as be vented, drain the oil Column processing uses special inspecting equipment to be detected as isolated part, and can be realized real vehicle on-line checking, so as to Improve the efficiency of malfunction elimination.

Fig. 3 shows the exemplary configuration block diagram of test device 300 according to an embodiment of the present disclosure, test device 300 It can be used for testing DSC312.In addition, the test device 300 of Fig. 3, controller 304, driver 308, DSC312 are for example It can correspond respectively to test device 200, the controller 204, driver 208, DSC212 of Fig. 2.

In some embodiments, driver 308 may include electromagnetic coil 3081, for generating according to by controller 304 First control signal 3061 generate the first driving signal 3101 for being driven to the solenoid valve 3121 of DSC312.

In some embodiments, electromagnetic coil 3081 can connect via the solenoid valve interface of DSC312 with solenoid valve 3121 It connects.Electromagnetic coil 3081 can be powered under the control of first control signal 3061, so that generating makes the connection of solenoid valve 3121 First driving signal 3101.

In some embodiments, controller 304 may include control unit of electromagnetic valve 304, for generating the first control letter Numbers 3061.Control unit of electromagnetic valve 3041 may include switch element.Switch element for example can be MOSFET (metal oxide Semiconductor field effect transistor), IGBT (insulated gate bipolar transistor) or other elements with switching function.Controller 304, in response to obtaining the first test instruction 3021, make the switching elements ON of control unit of electromagnetic valve 3041, make to drive to generate The first control signal 3061 that the electromagnetic coil 3081 of device 308 is powered.

In some embodiments, control unit of electromagnetic valve 3041 can directly be connected with electromagnetic coil 3081 via conducting wire It connects.In the case where controller 304 obtains the first test instruction 3021, pass through the switch element of control unit of electromagnetic valve 3041 It connects, generates electric signal as first control signal 3061 and be output to electromagnetic coil 3081 via conducting wire.

In some embodiments, driver 308 may include direct circuit 3082, for generating according to by controller 304 Second control signal 3062 generate the second driving signal 3102 for being driven to the direct current generator 3122 of DSC312.

In some embodiments, direct circuit 3082 can via the direct current generator interface of DSC312 and and direct current generator 3122 connections.Second control signal 3062 can drive via direct circuit 3082 as rotate direct current generator 3122 second Dynamic signal 3102 is input to direct current generator 3122.

Direct circuit 3082 can be made of conducting wire (such as high current copper wire column), to make the direct current of controller 308 Machine control unit 3042 is connect via direct circuit 3082 with the direct current generator of DSC312 3122.

In some embodiments, controller 304 may include DC MOTOR CONTROL unit 3042, for generating the second control Signal 3062.Controller 304 can make DC MOTOR CONTROL unit 3042 generate packet in response to obtaining the second test instruction 3022 Include the second control signal 3062 of current controling signal and voltage control signal.

Current controling signal can be used for controlling the direction of rotation of direct current generator 3122.In some embodiments, it is controlling When the second test instruction 3022 that the rotating forward of direct current generator 3122 is tested in the acquisition of device 304, DC MOTOR CONTROL unit 3042 generate positive current controling signal, are used as 3102 input direct-current motor of the second driving signal via direct circuit 3082 3122, so that direct current generator 3122 rotates forward.Similarly, the reversion of direct current generator 3122 is tested in the acquisition of controller 304 Second test instruction 3022 when, DC MOTOR CONTROL unit 3042 generates reversed current controling signal, via direct circuit 3082 are used as 3102 input direct-current motor 3122 of the second driving signal, so that direct current generator 3122 inverts.

It in some embodiments, can be to 3122 external impressed current sensor of direct current generator, by measuring current sensor The sense of current of direct current generator be compared with information forward or reverse indicated by the second test instruction 3022, with true Whether good determine direct current generator 3122.

In addition, voltage control signal can be used for controlling the revolving speed of direct current generator 3122.In general, the revolving speed of direct current generator can It is adjusted with the size by the voltage for being input to direct current generator, voltage is bigger, then the revolving speed of direct current generator is bigger；Conversely, straight The revolving speed of galvanic electricity machine is smaller.Therefore, in some embodiments, obtained in controller 304 and the revolving speed of direct current generator 3122 is carried out When the second test instruction 3022 of test, according to revolving speed indicated by the second test instruction 3022, DC MOTOR CONTROL unit 3042 generate corresponding second control signal 3062, are input to direct current as the second driving signal 3102 via direct circuit 3082 Motor 3122, so that direct current generator 3122 rotates.By determining whether the revolving speed of direct current generator 3122 is surveyed with acquired second Revolving speed matching indicated by examination instruction 3022 can determine whether direct current generator 3122 is good.

It in some embodiments, can be to 3122 external voltage sensor of direct current generator, by measuring voltage sensor The size of voltage of direct current generator be compared with the information of revolving speed indicated by the second test instruction 3022, can determine straight Whether galvanic electricity machine 3122 is good.Alternatively, it is also possible to dynamically adjust the second test instruction 3022, by judging that voltage sensor is surveyed The variation whether variation of the voltage obtained tests instruction 3022 with second matches, so that it is determined that whether direct current generator 3122 is good It is good.

In general, the revolving speed of direct current generator is bigger, then the whir issued is also bigger.Therefore, in some embodiments, may be used To dynamically adjust the second test instruction 3022, and determine whether the variation of the whir of direct current generator 3122 refers to the second test 3022 variation is enabled to match, so that it is determined that whether direct current generator 3122 is good.

In some embodiments, controller 304 may include Power Management Unit (not shown), for controller 304 Control unit of electromagnetic valve 3041 and DC MOTOR CONTROL unit 3042 power.For example, can be external to Power Management Unit The household AC power of 220V, Power Management Unit carries out transformation to 220V alternating current and rectification, the constant pressure for being converted to 5V1A are straight Galvanic electricity source is supplied to the switch element (such as MOSFET) of control unit of electromagnetic valve 3041, in addition, being converted to the constant pressure of 12V30A DC power supply is supplied to DC MOTOR CONTROL unit 3042.In this way, the test device of the disclosure is without dedicated Power supply power supply can work under the power supply of the household AC power of 220V, can be realized plug and play, to improve to DSC The convenience tested.

It should be appreciated that the Power Management Unit of the disclosure can also be under other conditions of power supply (such as 380V alternating current etc.) Work.In addition, the Power Management Unit of the disclosure can be the arbitrary electricity for being capable of providing the power management functions such as transformation, rectification The form on road, the disclosure are not construed as limiting the particular circuit configurations of Power Management Unit.

It in some embodiments, may include for obtaining test instruction according to the controller of the test device of the disclosure Control panel is specifically described referring to Fig. 4.

Fig. 4 instantiates the schematic diagram of the control panel 400 of the controller of the test device according to the disclosure.

As shown in figure 4, control panel 400 may include key 406, tested for the solenoid valve to DSC.Fig. 4 example Show 12 keys 406, it is corresponding with 12 solenoid valves of DSC respectively, it is respectively used to obtain the corresponding solenoid valve progress to DSC Whether the test of test instructs, good to test each solenoid valve in DSC.

In some embodiments, it is pressed in response to 1 key 406, controller 304 generates corresponding first control signal 3061, the first driving letter that the corresponding solenoid valve in 12 solenoid valves for making DSC312 is connected is generated to control driver 308 Numbers 3101.In accordance with an embodiment of the present disclosure, can determine whether any one solenoid valve in DSC is good.

In some embodiments, 1 key 406 can correspond to 1 pull-up resistor.When 1 key 406 is pressed, Corresponding pull-up resistor generates high potential, for the corresponding switch element of control unit of electromagnetic valve 3041 to be connected, to generate the One control signal 3061.The first control signal 3061 makes electromagnetic coil 3081 be powered, to generate the first driving signal 3101 Drive corresponding solenoid valve.

As described above, in some embodiments, it is corresponding to determine the sound of DSC can be monitored when pressing the button 406 Whether solenoid valve is good.If listened to when pressing the button 406 from DSC " " sound, can be determined that DSC's is corresponding Solenoid valve is good；Conversely, determining that the solenoid valve of DSC has damaged.It in further embodiments, can be to solenoid valve control Switch element in unit 3041 connects voltage sensor, and when key 406 is pressed, the voltage observed in voltage sensor becomes Change.If the voltage when key 406 is pressed in voltage sensor generates variation, show that DSC's is corresponding with key 406 Solenoid valve is switched on, so that it is determined that the solenoid valve is good；, whereas if when key 406 is pressed in voltage sensor Voltage do not generate variation, it is determined that solenoid valve corresponding with key 406 has damaged.

As shown in figure 4, control panel 400 can also include threephase switch 404, threephase switch 404 is respectively mutually respectively used to Test rotating forward, reversion and the stopping of direct current generator.

In some embodiments, in the case where threephase switch forward direction is connected, controller 304 generates positive current control Signal, via 3082 input direct-current motor 3122 of direct circuit, so that direct current generator 3122 rotates forward.On the other hand, it is opened in three-phase In the case where closing reversed connect, controller 304 generates reversed current controling signal, via 3082 input dc power of direct circuit Machine 3122, so that direct current generator 3122 inverts.In the case where threephase switch disconnects, controller 304 makes current controling signal 0, so that direct current generator 3122 stops operating.

In some embodiments, can direct current generator interface to direct current generator 3122 connect current sensor, adjust on one side The connection status (forward direction connection, reversed on-off) of whole threephase switch 404, detects direct current by current sensor on one side The sense of current of machine 3122.By determine direct current generator 3122 current direction whether the connection status with threephase switch 404 Matching can determine whether direct current generator 3122 is good.

In some embodiments, three kinds of connection status of threephase switch 404 can be converted to by analog to digital conversion circuit Digital value.For example, positive connect of threephase switch 404 corresponds to " 001 ", reversed connect corresponds to " 010 ", and disconnection corresponds to "100".The corresponding digital value of the connection status of threephase switch 404 is input to DC MOTOR CONTROL unit 3042, can produce Current controling signal corresponding with the connection status of threephase switch.For example, when inputting " 001 " to DC MOTOR CONTROL unit 3042 When, positive current controling signal is generated, when inputting " 010 " to DC MOTOR CONTROL unit 3042, generates reversed electric current Signal is controlled, when inputting " 100 " to DC MOTOR CONTROL unit 3042, makes current controling signal 0.The electric current generated in this way Control signal can be input to direct current generator 3122 via direct circuit 3102, so that 3122 forward, reverse or stop of direct current generator Only.

As shown in figure 4, control panel 400 can also include knob 402, the rotation amount of knob 402 is for testing direct current The revolving speed of machine 3122.

In some embodiments, controller 304 generates voltage control letter of corresponding size according to the rotation amount of knob 402 Number.For example, the rotation amount of knob 402 is bigger, then voltage control signal is bigger；The rotation amount of knob 402 is smaller, then voltage controls Signal is smaller.To, by adjusting the rotation amount of knob 406, the size of the adjustable voltage for being input to direct current generator 3122, So as to adjust the revolving speed of direct current generator 3122.

In some embodiments, knob 406 can be realized by variable resistance.By adjusting the rotation of knob 406 Amount, the resistance change of variable resistance, so that the voltage being applied on variable resistance also changes.It therefore, can be according to can The size of the voltage value of variohm generates voltage control signal.

In some embodiments, the rotation amount of knob 402 is adjusted by one side, monitors the rotation of direct current generator 3122 on one side The variation of sound, can determine whether the rotation of direct current generator 3122 matches with the rotation of knob 402, to determine direct current generator 3122 It is whether good.In addition, in some embodiments, it is also possible to the direct current generator interface to direct current generator 3122 connects voltage sensor Device adjusts the rotation amount of knob 402 on one side, detects the size of the voltage of direct current generator 3122 by voltage sensor on one side, really Whether the voltage change situation for determining direct current generator 3122 is flux matched with the rotation of knob 402, whether to determine direct current generator 3122 Well.

In some embodiments, the corresponding resistance value of the rotation amount of knob 402 (can be simulated by analog to digital conversion circuit Value) be converted to digital value (for example, 0~1023 this 1024 values).Digital value is transformed to via pulse width modulation (PWM) PWM wave.The duty ratio of PWM wave is 0~100%, linearly corresponds to 0~1023 this 1024 digital resistance values respectively.By PWM Wave is input to DC MOTOR CONTROL unit 3042, can produce and the linear corresponding voltage control signal (electricity of the duty ratio of PWM wave Pressure value is, for example, 0~12V).It accordingly, can be by the voltage value of input direct-current motor 3122 by adjusting the rotation amount of knob 402 It is adjusted between 0~12V, so as to adjust the revolving speed of direct current generator 3122.

It should be appreciated that analog to digital conversion circuit described above, PWM transformation can controller by mentioned earlier processing unit Part is realized.Moreover, it is achieved that the DC MOTOR CONTROL unit 3042 of each function as described above can use existing direct current Electric machine controller realizes that the disclosure do not limit this.

It should be appreciated that the control panel of Fig. 4 is only an example, it can also be by aobvious on touch screen and touch screen Show interface to obtain test instruction from the user.Alternatively, it is also possible to be assisted by the communication component of above-described controller Controller and terminal device are (for example, smart phone, mobile PC, personal digital assistant (PDA), wearable device (such as intelligent hand Table) etc.) between wired or wireless connection, by terminal device to controller input test instruct.

Referring to Fig. 5, illustrate the test method 500 of test device according to an embodiment of the present disclosure.For example, the test Method 500 can be implemented by test device 200,300 as described above.

As shown in figure 5, in step S502, controller (such as controller 204, the test device 300 of test device 200 Controller 304) in response to obtain to solenoid valve tested first test instruct, generate first control signal, with control Driver (such as driver 208,300 driver 308 of test device of test device 200) generates connect solenoid valve first Driving signal.

In step S504, controller (such as the controller of the controller 204 of test device 200, test device 300 304) it is instructed in response to obtaining the second test tested direct current generator, second control signal is generated, to control driver (such as driver 208,300 driver 308 of test device of test device 200) generates the second driving for rotating direct current generator Signal.

In the test method 500 of the disclosure, controller obtains test instruction, generates control signal based on test instruction, So that driver generates driving signal to drive the solenoid valve and direct current generator of DSC, the hardware components so as to determining DSC are It is no good.The test method 500 of the disclosure is not due to testing the function of DSC, and there is no need to the practical rows of simulating vehicle Journey is crossed, detection vehicle braking conditions of wheel and the control situation of engine etc. under DSC control, test period is short, and energy Enough realize the miniaturization and low cost of test device.

In some embodiments, the driver of test device may include the first interface for drive magnetic valve and be used for Drive the second interface of direct current generator.Test method 500 can also include: by first interface and second interface respectively with DSC's Solenoid valve interface (such as solenoid valve interface 102 in (b) of Fig. 1) and direct current generator interface (such as the electromagnetism in (b) of Fig. 1 Valve interface 104) connection.

In this way, the hardware interface (first interface and second interface of driver) of the test device of the disclosure It can be adapted to the hardware interface of DSC itself.Therefore, when being tested using the test method 500 of the disclosure DSC, lead to It crosses and removes the hardware driving of DSC itself, and the corresponding interface of driver is connected to the solenoid valve interface and direct current generator of DSC Interface can carry out the test of DSC, change and/or add other components without carrying out other structures to DSC.

In addition, the test method 500 of the disclosure can test DSC in the case where DSC is installed in vehicle.? In some embodiments, it can use the DSC of 500 pairs of test method installations in the car and carry out real vehicle on-line testing.Specifically, The hardware driving of the DSC itself that script can be connect with DSC is removed, and by the correspondence of the driver of the test device of the disclosure The solenoid valve interface and direct current generator interface of interface and DSC connection, to carry out the test of DSC.

According to the test method of the disclosure, without dismantling DSC from vehicle, by a series of processing such as be vented, drain the oil, make It is detected for isolated part using special inspecting equipment, and can be realized real vehicle on-line monitoring, so as to improve failure The efficiency of investigation.

In some embodiments, the controller of test device may include the control with key, knob and threephase switch Panel (such as control panel 400 shown in Fig. 4) processed.Test method 500 can also include: to obtain the first test via key to refer to It enables, obtains the second test via knob and threephase switch and instruct.The specific test process of the test method 500 of the present embodiment is It is described in detail above with reference to Fig. 4, details are not described herein.

Fig. 6 shows the schematic diagram of testboard bay 600 according to an embodiment of the present disclosure.Testboard bay 600 can be used for Test device (such as test device 200, test device 300) according to the disclosure is installed, to carry out the test of DSC.

As shown in fig. 6, testboard bay 600 may include fixed part 602, for fixing the controller 606 of test device.It surveys Test stand frame 600 can also include supporter 604, be used to support DSC608.The driver 610 of test device and the solenoid valve of DSC Interface is connected with direct current generator interface, and is mutually coupled with controller.

In accordance with an embodiment of the present disclosure, test device and DSC can be mounted on testboard bay 600, with test Device tests DSC.

In some embodiments, testboard bay 600 can also include slideway (not shown), and DSC608 is navigated to via slideway Supporter 604.

In some embodiments, supporter 604 may include the bolt hole (not shown) to match with DSC.DSC can lead to It crosses the fixed mode of bolt and is fixed on supporter 604.

It according to the testboard bay 600 of the disclosure, can be simple by test device and DSC and firmly fixes, to carry out The test of DSC.In addition, after testing is complete, simply DSC and test device can be removed from testboard bay 600.

In this specification the reference of " embodiment " or similar expression way refer to the special characteristic in conjunction with described in the embodiment, Structure or characteristic system include in an at least specific embodiment for the disclosure.Therefore, in the present specification, " in the reality of the disclosure Apply in example " and the appearance of term of similar expression way be not necessarily referring to identical embodiment.

It will be appreciated by those skilled in the art that the disclosure may be embodied as various forms, such as complete hardware embodiment, Complete software implementation (including firmware, resident software, microcode etc.), or it also is embodied as the reality of software and hardware Form is applied, circuit, " module " or " system " can be referred to as following.In addition, the disclosure can also be with any tangible media shape Formula is embodied as computer program product, program code can be used to be stored thereon with computer.

The related narration of the disclosure is referring to according to the system of disclosure specific embodiment, device, method and computer program The flowchart and or block diagram of product is illustrated.It is understood that each of each flowchart and or block diagram block, with And any combination of the block in flowchart and or block diagram, computer program instructions can be used to implement.These computer programs Instruct machine composed by the processor or other programmable data processing units for general purpose computer or special computers It executes, and instructs via computer or the processing of other programmable data processing units so as in implementation flow chart and/or block diagram Illustrated functions or operations.

Showing in the accompanying drawings can be real according to the system of the various embodiments of the disclosure, device, method and computer program product The flow chart and block diagram of framework, function and the operation applied.Therefore, each of flowchart or block diagram piece can indicate a module, area Section or partial program code comprising one or more executable instructions, to implement specified logic function.In addition should Note that function described in block can not be carried out by sequence shown in figure in certain other embodiments.For example, two A block being connected that illustrates in fact also may be performed simultaneously, or in some cases can also be by figure according to related function Opposite sequence is marked to execute.Furthermore it is further noted that block in the block of each block diagram and or flow chart and block diagram and or flow chart Combination, can implement by based on the system of specialized hardware, or by the combination of specialized hardware and computer instruction, to hold The specific functions or operations of row.

The presently disclosed embodiments is described above, above description is exemplary, and non-exclusive, and It is not limited to disclosed each embodiment.Without departing from the scope and spirit of illustrated each embodiment, for this skill Many modifications and changes are obvious for the those of ordinary skill in art field.The selection of term used herein, purport In principle, the practical application or to the technological improvement of Market and Technology for best explaining each embodiment, or make the art Other those of ordinary skill can understand each embodiment disclosed herein.

Claims (12)

1. a kind of test device of vehicle stability control system, the vehicle stability control system include solenoid valve and direct current Machine, the test device include:

Controller obtains the test tested the vehicle stability control system and instructs, and based on test instruction life At control signal；And

Driver is generated according to the control signal generated by the controller for driving the vehicle stability control system Driving signal,

The controller is configured as:

It is instructed in response to obtaining the first test tested the solenoid valve, first control signal is generated, described in control Driver generates the first driving signal for connecting the solenoid valve；

It is instructed in response to obtaining the second test tested the direct current generator, second control signal is generated, to control It states driver and generates the second driving signal for making the direct current generator rotation.

2. test device according to claim 1, wherein

The driver includes electromagnetic coil,

The first control signal is for making the electromagnetic coil be powered, to generate the connect the solenoid valve first driving letter Number.

3. test device according to claim 2, wherein

The controller includes the control unit of electromagnetic valve with switch element,

The controller is instructed in response to obtaining first test, makes the switching elements ON of the control unit of electromagnetic valve, To generate the first control signal for making the electromagnetic coil of the driver be powered.

4. test device according to claim 1, wherein

The driver includes direct circuit, for the controller to be connect with the direct current generator,

The second control signal is via the direct circuit, as the second driving signal input for making the direct current generator rotation To the direct current generator.

5. test device according to claim 4, wherein

The controller includes DC MOTOR CONTROL unit,

The controller is instructed in response to obtaining second test, and generating the DC MOTOR CONTROL unit includes electric current control The second control signal of signal and voltage control signal processed, the current controling signal are used to control the rotation of the direct current generator Direction, the voltage control signal are used to control the revolving speed of the direct current generator.

6. test device according to claim 1, wherein

The driver includes first interface for driving the solenoid valve and for driving the second of the direct current generator to connect Mouthful, the first interface and the second interface respectively with the solenoid valve interface and direct current generator of the vehicle stability control system Interface connection.

7. test device according to claim 1, wherein

The controller includes control panel, the control panel include for obtain it is described first test instruction key and For obtaining the knob and threephase switch of the second test instruction.

8. test device according to claim 7, wherein

The vehicle stability control system includes multiple solenoid valves, and the control panel includes multiple keys, and each key is used for One first test for testing the corresponding solenoid valve in the multiple solenoid valve is obtained to instruct,

The controller is instructed in response to obtaining one first test, generates the first control corresponding with the first test instruction Signal processed generates the connect the corresponding solenoid valve in the multiple solenoid valve first driving letter to control the driver Number.

9. test device according to claim 7, wherein

The second control signal includes current controling signal and voltage control signal, and the controller is according to the threephase switch Connection status determine the current controling signal, and the voltage control letter is determined according to the rotation amount of the knob Number.

10. a kind of testboard bay, for installing test device described in any one of claim 1 to 9 to carry out the vehicle The test of stabilizing control system, the testboard bay include:

Fixed part, for fixing the controller；And

Supporter is used to support the vehicle stability control system,

The driver is connect with the solenoid valve interface of the vehicle stability control system and direct current generator interface, and with the control Device processed mutually couples.

11. testboard bay according to claim 10 further includes slideway,

The vehicle stability control system navigates to the supporter via described slide into.

12. testboard bay according to claim 10, wherein

The supporter includes the bolt hole to match with the vehicle stability control system, and the vehicle stability control system is logical It crosses the fixed mode of bolt and is fixed on the supporter.