CN203832483U - Hub motor driving type electric automobile backing and turning assisting system - Google Patents
Hub motor driving type electric automobile backing and turning assisting system Download PDFInfo
- Publication number
- CN203832483U CN203832483U CN201420259470.5U CN201420259470U CN203832483U CN 203832483 U CN203832483 U CN 203832483U CN 201420259470 U CN201420259470 U CN 201420259470U CN 203832483 U CN203832483 U CN 203832483U
- Authority
- CN
- China
- Prior art keywords
- motor driving
- hub motor
- pins
- wheel hub
- driving wheel
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
Landscapes
- Arrangement Or Mounting Of Propulsion Units For Vehicles (AREA)
Abstract
The utility model discloses a hub motor driving type electric automobile backing and turning assisting system. Hardware cost is greatly increased due to backing radar and an imaging device. The hub motor driving type electric automobile backing and turning assisting system comprises a left front hub motor driving wheel, a right front hub motor driving wheel, a left rear hub motor driving wheel, a right rear hub motor driving wheel, a turning device, a braking device and a control system. The control system comprises a whole automobile controller, a corner sensor, a voltage converter T1, a backing assisting switch S5, a turning assisting switch S6, a motor forward-rotation control relay coil KJ1, a motor backward-rotation control relay coil KJ2, a relay power supply V2, a motor forward-rotation control relay first contact S1, a motor forward-rotation control relay second contact S2, a motor backward-rotation control relay first contact S3, a motor backward-rotation control relay second contact S4 and a fuse R1. The turning radius of an automobile is decreased when the system assists a user in backing the automobile into a garage or in turning the automobile around on a narrow road.
Description
Technical field
The utility model belongs to electronlmobil field, relates to reversing and turning system, is specifically related to a kind of In-wheel motor driving type electronlmobil assisting car backing and turning system.
Background technology
Along with increasing of automobile pollution, traffic congestion is day by day serious, and parking space is obviously not enough.Due to limited space, storing cycle is more difficult on the parking stall of appointment when stopping, and other vehicle of may swiping, make damaged vehicle.
In order to change the turn radius in motor turning process, on part internal-combustion engines vehicle, adopted four-wheel steering technology and trailing wheel follow-up steering technology, by these technology, can allow trailing wheel rotate certain angle and realize vehicle and in motion process, increase or reduce its turn radius.These technology that internal-combustion engines vehicle adopts are at present mainly to realize assistant car backing by Reverse Sensor and the audio-visual technology of Car reversion image-forming etc.This class Technology Need increases Reverse Sensor and imaging device etc., has greatly increased hardware cost.
In-wheel motor driving type electronlmobil is easily realized four-wheel individual drive, and can, by controlling respectively four wheels on the basis that increases hardly hardware cost, realize the reversing under tight turn radius.
Summary of the invention
The purpose of this utility model is for the deficiencies in the prior art, and a kind of In-wheel motor driving type electronlmobil assisting car backing and turning system are provided, and when automobile is reversed end for end on reversing warehouse-in or limited road, reduces Vehicular turn radius.
The utility model comprises left front wheel hub motor driving wheel, right front wheel hub motor driving wheel, left back wheel hub motor driving wheel, right back wheel hub motor driving wheel, steering hardware, brake equipment and control system.
Described steering hardware comprises steering column, bearing circle, deflector and Linkage steering.One end and the bearing circle of described steering column are fixed, and the other end is connected with Linkage steering by deflector; The left end of described Linkage steering and left front wheel hub motor driving wheel are fixed, and right-hand member and right front wheel hub motor driving wheel are fixed.
Described brake equipment comprises brake line, brake rod, off hind wheel brake disc, transmission shaft, brake clamp, left rear wheel brake disc and braking motor.The output shaft of described braking motor is connected with transmission shaft by coupler; One end of two brake rods is all fixed on transmission shaft, and the other end is connected with a brake clamp by a brake line respectively; A brake clamp mates setting with the left rear wheel brake disc being fixed on left back wheel hub motor driving wheel, and another brake clamp mates setting with the off hind wheel brake disc being fixed on right back wheel hub motor driving wheel.
Described control system comprises entire car controller, rotary angle transmitter, electric pressure converter T1, reversing pilot switch S5, turns to pilot switch S6, motor forward control relay coil KJ1, motor reversal control relay coil KJ2, relay power supply V2, motor forward control relay the first contact S1, motor forward control relay the second contact S2, motor reversal control relay the first contact S3, motor reversal control relay the second contact S4 and fuse R1; Described entire car controller comprises that control chip U1, logical process chip U2 and IGBT drive chip U3; Control chip U1 adopts TMS320F2812 chip, and logical process chip U2 adopts 74HC chip, and IGBT drives chip U3 to adopt IR2110 chip.Described rotary angle transmitter is arranged on the steering column of steering hardware.
62 pins of described control chip U1 are connected with one end of reversing pilot switch S5, and 63 pins are connected with turning to one end of pilot switch S6; 90 pins of control chip U1 are connected with brake pedal, and 91 pins are connected with acceleration pedal, and 140 pins are connected with the mouth of rotary angle transmitter.Reversing pilot switch S5 and turn to the other end of pilot switch S6, the voltage output end of the input end of rotary angle transmitter and electric pressure converter T1 positive pole is connected, the voltage output end negative pole of conv T1 is connected with the negative pole of relay power supply V2; The positive pole of relay power supply V2 is connected with one end of motor forward control relay coil KJ1, motor reversal control relay coil KJ2; The other end of motor forward control relay coil KJ1 is connected with 123 pins of control chip U1, and the other end of motor reversal control relay coil KJ2 is connected with 124 pins of control chip U1; The voltage input end positive pole of conv T1 is connected with positive pole, one end of motor forward control relay the first contact S1, one end of motor reversal control relay the first contact S3 of car load battery feed V1, and the voltage input end negative pole of conv T1 is connected with one end of one end of fuse R1, forward control relay the second contact S2, one end of motor reversal control relay the second contact S4; The other end of forward control relay the second contact S2 is connected with the voltage input end negative pole of the other end of motor reversal control relay the first contact S3, braking motor; The other end of motor reversal control relay the second contact S4 with motor forward control relay first other end of contact S1, the voltage input end of braking motor is anodal is connected; The other end of fuse R1 is connected with the negative pole of car load battery feed V1.
92,93,94,95,98,101 pins of described control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of right front wheel hub motor driving wheel, and the order of connection is not limit; 45,46,47,48,49,50 pins of control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of left front wheel hub motor driving wheel, and the order of connection is not limit; 20,22,25,26,28,29 pins of control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of left back wheel hub motor driving wheel, and the order of connection is not limit; 34,35,40,41,150,151 pins of control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of right back wheel hub motor driving wheel, and the order of connection is not limit.53,55,102,104 pins of control chip U1 are connected with the pin of a logical process chip U2 respectively, to each logical process chip U2 input pwm signal.57,59,60 pins of control chip U1 are inputted the wheel hub motor hall signal of right front wheel hub motor driving wheel, 61,71,72 pins are inputted the wheel hub motor hall signal of right back wheel hub motor driving wheel, 106,107,109 pins are inputted the wheel hub motor hall signal of left front wheel hub motor driving wheel, and 116,117,122 pins are inputted the wheel hub motor hall signal of left back wheel hub motor driving wheel.1,2,3,5,6,7 pins of each logical process chip U2 drive 4,8,9,10,11,12 pins of chip U3 to be connected one by one with an IGBT respectively, and the order of connection is not limit; The three-phase power line of the wheel hub motor of left front wheel hub motor driving wheel, right front wheel hub motor driving wheel, left back wheel hub motor driving wheel and right back wheel hub motor driving wheel drives 1,2,3 pins of chip U3 to connect with corresponding IGBT respectively; All IGBT drive the 14 pin ground connection of chip U3.
Described brake rod offers brake pulling wire hole, and the sidewall in described brake pulling wire hole offers brake pulling wire notch; The head of described brake line is provided with tightening bearing pin, and the diameter of tightening bearing pin is greater than the diameter of brake line; Brake line is embedded in brake pulling wire hole by brake pulling wire notch, and tightening bearing pin is pressed in brake pulling wire hole.
The beneficial effects of the utility model are:
1, the utility model can reduce the Turning radius of vehicle significantly, improves the manoevreability of In-wheel motor driving automobile, conveniently moves backward and turns to.
2, the utility model can be realized the independent brake of four-wheel, helps to turn to.
3, the utility model is simple in structure, easy to operate, cost is low.
Accompanying drawing explanation
Fig. 1 is system construction drawing of the present utility model;
Fig. 2 is the assembling schematic diagram of brake rod and transmission shaft in the utility model;
The structure cutaway view of brake rod in Fig. 3 the utility model;
The circuit diagram of control system in Fig. 4 the utility model;
Fig. 5 is the schematic diagram of control chip in the utility model;
Fig. 6 is the connection diagram that in the utility model, logical process chip and IGBT drive chip.
In figure: 1, steering column, 2, bearing circle, 3, deflector, 4, Linkage steering, 5, left front wheel hub motor driving wheel, 6, right front wheel hub motor driving wheel, 7, left back wheel hub motor driving wheel, 8, right back wheel hub motor driving wheel, 9, brake line, 10, brake rod, 11, off hind wheel brake disc, 12, transmission shaft, 13, coupler, 14, brake clamp, 15, left rear wheel brake disc, 16, braking motor, 17, entire car controller, 18, rotary angle transmitter, U1, control chip, U2, logical process chip, U3, IGBT drives chip, V1, car load battery feed, V2, relay power supply, T1, electric pressure converter, S5, reversing pilot switch, S6, turn to pilot switch, KJ1, motor forward control relay coil, KJ2, motor reversal control relay coil, S1, motor forward control relay the first contact, S2, motor forward control relay the second contact, S3, motor reversal control relay the first contact, S4, motor reversal control relay the second contact, R1, fuse.
The specific embodiment
Below in conjunction with drawings and Examples, the utility model is described in further detail.
As shown in Figure 1, In-wheel motor driving type electronlmobil assisting car backing and turning system comprise left front wheel hub motor driving wheel 5, right front wheel hub motor driving wheel 6, left back wheel hub motor driving wheel 7, right back wheel hub motor driving wheel 8, steering hardware, brake equipment and control system.
Steering hardware comprises steering column 1, bearing circle 2, deflector 3 and Linkage steering 4.One end of steering column 1 and bearing circle 2 are fixing, and the other end is connected with Linkage steering 4 by deflector 3; The left end of Linkage steering 4 and left front wheel hub motor driving wheel 5 are fixing, and right-hand member and right front wheel hub motor driving wheel 6 are fixing.During chaufeur steering wheel rotation 2, drive steering column 1 rotation, steering column 1 drives deflector 3 motions, thereby deflector 3 drives Linkage steering 4 to drive left front wheel hub motor driving wheel 5 and right front wheel hub motor driving wheel 6 to realize turning to of vehicle.
Brake equipment comprises brake line 9, brake rod 10, off hind wheel brake disc 11, transmission shaft 12, brake clamp 14, left rear wheel brake disc 15 and braking motor 16.The output shaft of braking motor 16 is connected with transmission shaft 12 by coupler 13; One end of two brake rods 10 is all fixed on transmission shaft 12, and the other end is connected with a brake clamp 14 by a brake line 9 respectively; A brake clamp 14 mates setting with the left rear wheel brake disc 15 being fixed on left back wheel hub motor driving wheel 7, and another brake clamp 14 mates setting with the off hind wheel brake disc 11 being fixed on right back wheel hub motor driving wheel 8.
As shown in Figures 2 and 3, brake rod 10 offers brake pulling wire hole 10-1, and the sidewall in brake pulling wire hole offers brake pulling wire notch 10-2; The head of brake line 9 is provided with tightening bearing pin 9-1, and the diameter of tightening bearing pin 9-1 is greater than the diameter of brake line 9; Brake line 9 is embedded in the 10-1 of brake pulling wire hole by brake pulling wire notch 10-2, and tightening bearing pin 9-1 is pressed in the 10-1 of brake pulling wire hole.
As shown in Fig. 1,4,5 and 6, control system comprises entire car controller 17, rotary angle transmitter 18, electric pressure converter T1, reversing pilot switch S5, turns to pilot switch S6, motor forward control relay coil KJ1, motor reversal control relay coil KJ2, relay power supply V2, motor forward control relay the first contact S1, motor forward control relay the second contact S2, motor reversal control relay the first contact S3, motor reversal control relay the second contact S4 and fuse R1; Entire car controller 17 comprises that control chip U1, logical process chip U2 and IGBT drive chip U3; Control chip U1 adopts TMS320F2812 chip, and logical process chip U2 adopts 74HC chip, and IGBT drives chip U3 to adopt IR2110 chip.Rotary angle transmitter 18 is arranged on the steering column 1 of steering hardware.
62 pins of control chip U1 are connected with one end of reversing pilot switch S5, and 63 pins are connected with turning to one end of pilot switch S6; 90 pins of control chip U1 are connected with brake pedal, and 91 pins are connected with acceleration pedal, and 140 pins are connected with the mouth of rotary angle transmitter 18, gather respectively braking, acceleration and the turn sign of car load.Reversing pilot switch S5 and turn to the other end of pilot switch S6, the voltage output end of the input end of rotary angle transmitter 18 and electric pressure converter T1 positive pole is connected, the voltage output end negative pole of conv T1 is connected with the negative pole of relay power supply V2; The positive pole of relay power supply V2 is connected with one end of motor forward control relay coil KJ1, motor reversal control relay coil KJ2; The other end of motor forward control relay coil KJ1 is connected with 123 pins of control chip U1, and the other end of motor reversal control relay coil KJ2 is connected with 124 pins of control chip U1; The voltage input end positive pole of conv T1 is connected with positive pole, one end of motor forward control relay the first contact S1, one end of motor reversal control relay the first contact S3 of car load battery feed V1, and the voltage input end negative pole of conv T1 is connected with one end of one end of fuse R1, forward control relay the second contact S2, one end of motor reversal control relay the second contact S4; The other end of forward control relay the second contact S2 is connected with the voltage input end negative pole of the other end of motor reversal control relay the first contact S3, braking motor 16; The other end of motor reversal control relay the second contact S4 with the other end of motor forward control relay the first contact S1, the voltage input end of braking motor 16 is anodal is connected; The other end of fuse R1 is connected with the negative pole of car load battery feed V1.
92,93,94,95,98,101 pins of control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of right front wheel hub motor driving wheel 6, and the order of connection is not limit; 45,46,47,48,49,50 pins of control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of left front wheel hub motor driving wheel 5, and the order of connection is not limit; 20,22,25,26,28,29 pins of control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of left back wheel hub motor driving wheel 7, and the order of connection is not limit; 34,35,40,41,150,151 pins of control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of right back wheel hub motor driving wheel 8, and the order of connection is not limit.53,55,102,104 pins of control chip U1 are connected with 9 pins of a logical process chip U2 respectively, to each logical process chip U2 input pwm signal.57,59,60 pins of control chip U1 are inputted the wheel hub motor hall signal of right front wheel hub motor driving wheel 6,61,71,72 pins are inputted the wheel hub motor hall signal of right back wheel hub motor driving wheel 8,106,107,109 pins are inputted the wheel hub motor hall signal of left front wheel hub motor driving wheel 5, and 116,117,122 pins are inputted the wheel hub motor hall signal of left back wheel hub motor driving wheel 7.1,2,3,5,6,7 pins of each logical process chip U2 drive 4,8,9,10,11,12 pins of chip U3 to be connected one by one with an IGBT respectively, and the order of connection is not limit; The three-phase power line of the wheel hub motor of left front wheel hub motor driving wheel 5, right front wheel hub motor driving wheel 6, left back wheel hub motor driving wheel 7 and right back wheel hub motor driving wheel 8 drives 1,2,3 pins of chip U3 to connect with corresponding IGBT respectively; All IGBT drive the 14 pin ground connection of chip U3.
The principle of work of this In-wheel motor driving type electronlmobil assisting car backing and turning system;
When vehicle immobilization is prepared reversing, chaufeur is pressed the reversing pilot switch S5 on gauge panel, issues entire car controller 17 reversing instructions, moves backward auxiliary.Vehicle operating under parking assist system state, chaufeur steering wheel rotation 2, rotary angle transmitter 18 detects turn sign, passes to entire car controller 17, entire car controller 17 collection turns to subsidiary signal, Acceleration Signal and angular signal, carries out computational analysis.When bearing circle 2 is right-handed, entire car controller 17 detects right turn signal, give the positive rotaring signal of braking motor 16, make braking motor 16 forwards, the brake line 9 on tension the right, the brake line 9 on the left side is in relaxation state, thereby give right back wheel hub motor driving wheel 8 braking forces, left back wheel hub motor driving wheel 7 is in free state, entire car controller 17 is given the logical process chip U2 output signal of controlling left back wheel hub motor driving wheel 7 simultaneously, drive left back wheel hub motor driving wheel 7 reversions, because right back wheel hub motor driving wheel 8 is braked, left back wheel hub motor driving wheel 7 just be take right back wheel hub motor driving wheel 8 as center of circle motion, drive left front wheel hub motor driving wheel 5 to make motor turning together with right front wheel hub motor driving wheel 6, thereby reach the object of original place reversing, greatly reduce Turning radius, the reversing of help chaufeur, tune.In like manner, when left-handed turning bearing circle 2, entire car controller 17 is accepted turn sign, controls braking motor 16 reversions, the brake line 9 on the tension left side, loosen the brake line 9 on the right, thereby give left back wheel hub motor driving wheel 7 braking forces, freely, entire car controller 17 is given the logical process chip U2 output signal of controlling right back wheel hub motor driving wheel 8 to right back wheel hub motor driving wheel 8 simultaneously, drive right back wheel hub motor driving wheel 8 reversions, realize original place reversing.
When vehicle is when low speed is ready about, chaufeur is pressed and is turned to pilot switch S6, issues entire car controller 17 steering orders, carries out low speed rotation to auxiliary.Vehicle operating under low speed steering assist system state, chaufeur steering wheel rotation 2, rotary angle transmitter 18 detects turn sign, passes to entire car controller 17, entire car controller 17 collection turns to subsidiary signal, Acceleration Signal and angular signal, carries out computational analysis.When bearing circle 2 is right-handed, entire car controller 17 detects right turn signal, give the positive rotaring signal of braking motor 16, make braking motor 16 forwards, the brake line 9 on tension the right, the brake line 9 on the left side is in relaxation state, thereby give right back wheel hub motor driving wheel 8 braking forces, left back wheel hub motor driving wheel 7 is in free state, entire car controller 17 is given the logical process chip U2 output signal of controlling left back wheel hub motor driving wheel 7 simultaneously, drive left back wheel hub motor driving wheel 7 to continue forward, because right back wheel hub motor driving wheel 8 is braked, left back wheel hub motor driving wheel 7 just be take right back wheel hub motor driving wheel 8 as center of circle motion, drive left front wheel hub motor driving wheel 5 to make motor turning together with right front wheel hub motor driving wheel 6, thereby reach the object of pivot stud, greatly reduce Turning radius, help chaufeur turns to.In like manner, when left-handed turning bearing circle 2, entire car controller 17 is accepted turn sign, controls braking motor 16 reversions, the brake line 9 on the tension left side, loosen the brake line 9 on the right, thereby give left back wheel hub motor driving wheel 7 braking forces, freely, entire car controller 17 is given the logical process chip U2 output signal of controlling right back wheel hub motor driving wheel 8 to right back wheel hub motor driving wheel 8 simultaneously, drive right back wheel hub motor driving wheel 8 to continue forward, realize pivot stud.
When vehicle is being run at high speed while turning to, chaufeur steering wheel rotation 2 turns to, rotary angle transmitter 18 passes to entire car controller 17 by steering angle signal, entire car controller 17 is according to Acceleration Signal and angular signal, control wheel hub motor and improve rotating speed, thereby the Turning radius while strengthening high speed steering, the road-holding property of raising high vehicle speeds.
Control chip U1 receives reversing subsidiary signal, Acceleration Signal and angular signal, processes after computing, controls braking motor 16 realizations and rotates and reverse; Control chip U1 by with logical process chip U2 communication, to IGBT, drive chip U3 to send instruction, control left front wheel hub motor driving wheel 5, right front wheel hub motor driving wheel 6, left back wheel hub motor driving wheel 7 and 8 operations of right back wheel hub motor driving wheel.
This In-wheel motor driving type electronlmobil assisting car backing and turning system can be realized in conjunction with ABS the independent brake of four-wheel, when the four wheels of automobile can be realized braking to four wheels respectively during in different road conditions, utilize fully road adherence, prevent wheel slip.
Claims (2)
1. In-wheel motor driving type electronlmobil assisting car backing and turning system, comprise left front wheel hub motor driving wheel, right front wheel hub motor driving wheel, left back wheel hub motor driving wheel, right back wheel hub motor driving wheel, steering hardware, brake equipment and control system, it is characterized in that:
Described steering hardware comprises steering column, bearing circle, deflector and Linkage steering; One end and the bearing circle of described steering column are fixed, and the other end is connected with Linkage steering by deflector; The left end of described Linkage steering and left front wheel hub motor driving wheel are fixed, and right-hand member and right front wheel hub motor driving wheel are fixed;
Described brake equipment comprises brake line, brake rod, off hind wheel brake disc, transmission shaft, brake clamp, left rear wheel brake disc and braking motor; The output shaft of described braking motor is connected with transmission shaft by coupler; One end of two brake rods is all fixed on transmission shaft, and the other end is connected with a brake clamp by a brake line respectively; A brake clamp mates setting with the left rear wheel brake disc being fixed on left back wheel hub motor driving wheel, and another brake clamp mates setting with the off hind wheel brake disc being fixed on right back wheel hub motor driving wheel;
Described control system comprises entire car controller, rotary angle transmitter, electric pressure converter T1, reversing pilot switch S5, turns to pilot switch S6, motor forward control relay coil KJ1, motor reversal control relay coil KJ2, relay power supply V2, motor forward control relay the first contact S1, motor forward control relay the second contact S2, motor reversal control relay the first contact S3, motor reversal control relay the second contact S4 and fuse R1; Described entire car controller comprises that control chip U1, logical process chip U2 and IGBT drive chip U3; Control chip U1 adopts TMS320F2812 chip, and logical process chip U2 adopts 74HC chip, and IGBT drives chip U3 to adopt IR2110 chip; Described rotary angle transmitter is arranged on the steering column of steering hardware;
62 pins of described control chip U1 are connected with one end of reversing pilot switch S5, and 63 pins are connected with turning to one end of pilot switch S6; 90 pins of control chip U1 are connected with brake pedal, and 91 pins are connected with acceleration pedal, and 140 pins are connected with the mouth of rotary angle transmitter; Reversing pilot switch S5 and turn to the other end of pilot switch S6, the voltage output end of the input end of rotary angle transmitter and electric pressure converter T1 positive pole is connected, the voltage output end negative pole of conv T1 is connected with the negative pole of relay power supply V2; The positive pole of relay power supply V2 is connected with one end of motor forward control relay coil KJ1, motor reversal control relay coil KJ2; The other end of motor forward control relay coil KJ1 is connected with 123 pins of control chip U1, and the other end of motor reversal control relay coil KJ2 is connected with 124 pins of control chip U1; The voltage input end positive pole of conv T1 is connected with positive pole, one end of motor forward control relay the first contact S1, one end of motor reversal control relay the first contact S3 of car load battery feed V1, and the voltage input end negative pole of conv T1 is connected with one end of one end of fuse R1, forward control relay the second contact S2, one end of motor reversal control relay the second contact S4; The other end of forward control relay the second contact S2 is connected with the voltage input end negative pole of the other end of motor reversal control relay the first contact S3, braking motor; The other end of motor reversal control relay the second contact S4 with motor forward control relay first other end of contact S1, the voltage input end of braking motor is anodal is connected; The other end of fuse R1 is connected with the negative pole of car load battery feed V1;
92,93,94,95,98,101 pins of described control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of right front wheel hub motor driving wheel, and the order of connection is not limit; 45,46,47,48,49,50 pins of control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of left front wheel hub motor driving wheel, and the order of connection is not limit; 20,22,25,26,28,29 pins of control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of left back wheel hub motor driving wheel, and the order of connection is not limit; 34,35,40,41,150,151 pins of control chip U1 are connected one by one with 4,8,10,11,12,13 pins of controlling the logical process chip U2 of right back wheel hub motor driving wheel, and the order of connection is not limit; 53,55,102,104 pins of control chip U1 are connected with the pin of a logical process chip U2 respectively, to each logical process chip U2 input pwm signal; 57,59,60 pins of control chip U1 are inputted the wheel hub motor hall signal of right front wheel hub motor driving wheel, 61,71,72 pins are inputted the wheel hub motor hall signal of right back wheel hub motor driving wheel, 106,107,109 pins are inputted the wheel hub motor hall signal of left front wheel hub motor driving wheel, and 116,117,122 pins are inputted the wheel hub motor hall signal of left back wheel hub motor driving wheel; 1,2,3,5,6,7 pins of each logical process chip U2 drive 4,8,9,10,11,12 pins of chip U3 to be connected one by one with an IGBT respectively, and the order of connection is not limit; The three-phase power line of the wheel hub motor of left front wheel hub motor driving wheel, right front wheel hub motor driving wheel, left back wheel hub motor driving wheel and right back wheel hub motor driving wheel drives 1,2,3 pins of chip U3 to connect with corresponding IGBT respectively; All IGBT drive the 14 pin ground connection of chip U3.
2. In-wheel motor driving type electronlmobil assisting car backing according to claim 1 and turning system, is characterized in that: described brake rod offers brake pulling wire hole, and the sidewall in described brake pulling wire hole offers brake pulling wire notch; The head of described brake line is provided with tightening bearing pin, and the diameter of tightening bearing pin is greater than the diameter of brake line; Brake line is embedded in brake pulling wire hole by brake pulling wire notch, and tightening bearing pin is pressed in brake pulling wire hole.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420259470.5U CN203832483U (en) | 2014-05-20 | 2014-05-20 | Hub motor driving type electric automobile backing and turning assisting system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420259470.5U CN203832483U (en) | 2014-05-20 | 2014-05-20 | Hub motor driving type electric automobile backing and turning assisting system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN203832483U true CN203832483U (en) | 2014-09-17 |
Family
ID=51510359
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420259470.5U Withdrawn - After Issue CN203832483U (en) | 2014-05-20 | 2014-05-20 | Hub motor driving type electric automobile backing and turning assisting system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN203832483U (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104029674A (en) * | 2014-05-20 | 2014-09-10 | 杭州电子科技大学 | Hub motor driving type electric vehicle auxiliary backing and turning system |
CN105882453A (en) * | 2016-04-20 | 2016-08-24 | 浙江吉利控股集团有限公司 | Driving structure and driving mode of electric vehicle |
CN107599868A (en) * | 2017-09-13 | 2018-01-19 | 无锡商业职业技术学院 | Transmission system of electric automobile |
CN112622618A (en) * | 2020-12-22 | 2021-04-09 | 上海钧正网络科技有限公司 | Electric vehicle speed limiting device, method, electric vehicle and computer readable storage medium |
-
2014
- 2014-05-20 CN CN201420259470.5U patent/CN203832483U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104029674A (en) * | 2014-05-20 | 2014-09-10 | 杭州电子科技大学 | Hub motor driving type electric vehicle auxiliary backing and turning system |
CN105882453A (en) * | 2016-04-20 | 2016-08-24 | 浙江吉利控股集团有限公司 | Driving structure and driving mode of electric vehicle |
CN105882453B (en) * | 2016-04-20 | 2018-07-13 | 浙江吉利控股集团有限公司 | A kind of driving structure of electric vehicle and type of drive |
CN107599868A (en) * | 2017-09-13 | 2018-01-19 | 无锡商业职业技术学院 | Transmission system of electric automobile |
CN112622618A (en) * | 2020-12-22 | 2021-04-09 | 上海钧正网络科技有限公司 | Electric vehicle speed limiting device, method, electric vehicle and computer readable storage medium |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN103101451B (en) | Double wheel hub motor electronic differential and speed governing Centralized Controller | |
CN203592907U (en) | Intelligent drive-by-wire chassis of mini-type electric car | |
CN203832483U (en) | Hub motor driving type electric automobile backing and turning assisting system | |
CN104401388A (en) | Intelligent electro-hydraulic steering system | |
CN109664937A (en) | Multi-mode line traffic control four-wheel independent steering/drive system and its steering pattern control method | |
CN105416392A (en) | Push rod type composite steering system and mode switching control method thereof | |
CN109263717A (en) | A kind of multi-mode steering-by-wire automobile and its rotating direction control method | |
CN204020566U (en) | A kind of driving device of four-wheel drive vehicle | |
CN205890972U (en) | Electric automobile intelligence corner drive arrangement | |
CN104029674B (en) | A kind of wheel hub motor driven electric automobile assisting car backing and turning system | |
CN202508145U (en) | Automobile electric power-assisted steering system | |
CN203581090U (en) | Four-wheel steering system | |
CN103407484B (en) | A kind of tricycle rear wheel drive steering control system | |
CN203854716U (en) | Automotive electric hydraulic power-assisted steering mechanism | |
CN204936787U (en) | A kind of rear-guard electro-tricycle | |
CN107499121A (en) | Four-wheel drive electric automobile transmission system | |
CN205574046U (en) | Four wheel steering's electric automobile | |
CN204871167U (en) | Electronic power assisted steering device based on four wheel steering | |
CN202342867U (en) | Intelligent model car for match | |
CN202345539U (en) | Intelligent rearview mirror control device | |
CN203611729U (en) | Independent drive system of double-hub motor of electric automobile | |
CN208324910U (en) | One kind distributing control system based on slip rate Dual-motors Driving torque | |
CN206307104U (en) | The system that EPS and EHPS is carried simultaneously on a kind of electric automobile | |
CN205273599U (en) | Electric traction car a steering system | |
CN202966522U (en) | Dual-drive dual-control system electro-tricycle |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140917 Effective date of abandoning: 20160706 |
|
AV01 | Patent right actively abandoned |
Granted publication date: 20140917 Effective date of abandoning: 20160706 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |