CN103538557B - Engine starting system - Google Patents

Abstract

The present invention provides the engine starting system that can improve the response started relative to the engine of driver.Engine starting system includes：Engine start switch；Engine starting control portion, which carries out the engine start up process of vehicle when the making operation of the engine start switch is detected；Electric steering-lock device (1), which carries out the lock locking/unlocking of the steering spindle (30) of vehicle, wherein, the engine starting control portion after the engine start switch carries out making operation and the electric steering-lock device (1) unblock process complete before start the start up process of engine, then, in the case where the unblock process of the electric steering-lock device (1) is not normally carried out, the stopping for carrying out engine is processed.

Description

Engine starting system

Technical field

The present invention relates to possess in vehicle parking by electronic to enter line-locked electronic to the rotation of steering wheel The engine starting system of Lenkradschlossvorrichtung.

Background technology

In recent years, for antitheft purpose, vehicle possess for when stopping by electronic entering to the rotation of steering wheel Line-locked electric steering-lock device.The electric steering-lock device is fixed on and the through hole phase being formed on steering column tube Corresponding position, the steering column tube receive the steering spindle of vehicle in the way of it can rotate, and the electric steering-lock device includes：Lock Determine component, which can be released from the latched position engaged with the steering spindle and the engaging and relative in the steering column tube All portions are located between the unlocked position in outside and move；The electric actuator of electro-motor etc., which makes the locking component action；First Position detection component, which is used for the latched position for detecting the locking component；Second place detection part, which is used to detect described The unlocked position of locking component；Control unit, its testing result control based on first and second position detection component are described The driving of electric actuator.

In addition, in the vehicle for possessing the electric steering-lock device, possessing and detecting connecing for engine start switch The engine starting system of the engine start up process of vehicle is carried out during logical operation.In the engine starting system, starting Under machine halted state, when driver carries out making operation to engine start switch, as the upper bit location for detecting the operation Engine starting control portion relative to electric steering-lock device send " unlocking request signal ".Then, electric steering locking Device drives electric actuator, locking component is moved to unlocked position using the electric actuator, enters to be about to the locking component The unblock that engaging with steering spindle is released is processed.Then, engine starting control portion is by connecing from electric steering-lock device Receive " unblock completes signal " and confirm that the unblock processes the start up process that engine is carried out when completing.

On the other hand, under vehicle stopping, engine behavior, driver turns off behaviour to engine start switch When making, detect the operation engine starting control portion make engine stop, confirm safety under conditions of relative to electronic Lenkradschlossvorrichtung sends " locking request signal ".Then, electric steering-lock device drives electric actuator, electronic using this Actuator makes locking component move to latched position, enter to exercise the locking processing that engages with steering spindle of the locking component and to direction The rotation of disk is locked.

But, in electric steering-lock device, for the lock locking/unlocking by electronic travel direction disk, need detection Locking component is located at latched position still positioned at unlocked position being controlled to the driving of electric actuator, therefore, it is provided with lock Determine the position detecting mechanism of component.As the position detecting mechanism, for example with following mechanisms：In the movable structure of locking component etc. Magnet is installed on part, the magnetic detecting element of Hall element etc. is respectively configured at position corresponding with locked, The magnetic force of magnet is detected using these magnetic detecting elements, so as to detect that locking component is located at latched position or unlocked position (example Such as, with reference to patent document 1).

Patent document 1：Japanese Unexamined Patent Publication 2008-049908 publications

But, it is in conventional electric steering-lock device, different according to the shape of steering spindle, there is the shifting of locking component The larger situation of dynamic stroke.So, when the shift motion of locking component is larger, its actuation time is elongated, electronic with this In the engine starting system of Lenkradschlossvorrichtung, driver arrives engine after making operation is carried out to engine start switch The actual time for starting is elongated, there are problems that the response started relative to the engine of driver is deteriorated such.

The content of the invention

In order to achieve the above object, the engine starting system of the invention that technical scheme 1 is recorded possesses：

Engine start switch；

Engine starting control portion, which carries out starting for vehicle when the making operation of the engine start switch is detected Machine start up process；

Electric steering-lock device, which carries out the lock locking/unlocking of the steering spindle of vehicle,

Engine starting system is characterised by,

The engine starting control portion is after the engine start switch carries out making operation and the electric rotating The start up process for starting engine before completing is processed to the unblock of locking device, then, in the electric steering-lock device Unblock process abnormally carry out in the case of carry out engine stopping process.

Based on the invention that the invention that technical scheme 2 is recorded is recorded by technical scheme 1, it is characterised in that the electric rotating To locking device after the engine start switch carries out making operation and at the unblock of the electric steering-lock device Described in the forward direction that reason is completed, engine starting control portion sends " engine starting enabling signal ", fills in the electric steering locking The unblock put to be processed and send " engine stop letter to the engine starting control portion in the case of not completing at the appointed time Number ".

Based on the invention that the invention that technical scheme 3 is recorded is recorded by technical scheme 2, it is characterised in that the electric rotating The device of the position corresponding with the through hole being formed on steering column tube is integrally fixed to locking device, the steering column tube is by car Steering spindle received in the way of it can rotate, the electric steering-lock device includes：

Locking component, which can be released from the latched position and engaging engaged with the steering spindle and relative to the steering The inner peripheral portion of column jecket is located between the unlocked position in outside and moves；

Electric actuator, which makes the locking component action；

First position detection part, which is used for the latched position for detecting the locking component；

Second place detection part, which is used for the unlocked position for detecting the locking component；

3rd position detection component, during which is used to detect that the locking component is located between locked Way position；

Control unit, its drive of testing result based on first and second position detection component to the electric actuator It is dynamic to be controlled,

The control unit is configured to, and is moved at the unblock of unlocked position from latched position entering to exercise the locking component During reason, detected using the 3rd position detection component locking component be located at the half-way in the case of to institute State engine starting control portion and send engine starting enabling signal, do not utilize the second place test section at the appointed time In the case that part carries out the unlocked position detection of the locking component, engine stop is sent to the engine starting control portion Signal.

Based on the invention that the invention that technical scheme 4 is recorded is recorded by technical scheme 3, it is characterised in that the midway position Install be scheduled on the boundary position that engaging of the steering spindle with the locking component be released from and boundary position engaged with the solution Between lock position.

Based on the invention that the invention that technical scheme 5 is recorded is recorded by technical scheme 1, it is characterised in that the engine Starting control portion sends " solution to the electric steering-lock device when the making operation of the engine start switch is detected Lock request signal ", the electric steering-lock device send " solution to the engine starting control portion when unblock is processed and completed Lock completes signal ",

Also, the engine starting control portion is to described in electric steering-lock device transmission, " unlocking request is believed Number " before and after or start the start up process of engine while send, afterwards, at the appointed time not from the electric steering Determine to receive " during engine is started in the case that device receives " unblock completes signal " or from the electric steering-lock device The stopping that engine is carried out in the case of stop signal " is processed.

Invention effect

According to the invention that technical scheme 1 is recorded, it is not that the unblock in electric steering-lock device as in the past processes knot The start up process of engine is carried out after beam but in the stage before, accordingly, it is capable to more quickly carry out the starting of engine, energy Improve engine and start the response relative to driver.And, processing in the unblock of electric steering-lock device can not be normal Carry out in the case of, carry out engine stopping process, therefore, in electric steering-lock device, lock-out state can be prevented The maintenance of the engine work in the state of not being released from, can ensure that higher security.

According to the invention that technical scheme 2 is recorded, the electric powered steering after making operation has been carried out to engine start switch The unblock of locking device processes the forward direction engine starting control portion for completing and sends " engine starting enabling signal " and carry out sending out The start up process of motivation, accordingly, it is capable to more quickly carry out the starting of engine, can improve the engine starting relative to driver Response.

According to the invention that technical scheme 3 is recorded, in the solution for entering to exercise locking component and being moved to from latched position unlocked position When lock is processed, be not as conventional after locking component is moved to unlocked position but wherein the stage on way to engine Starting control portion sends " engine starting enabling signal " and carries out the start up process of engine, accordingly, it is capable to rapider than ever Carry out the starting of engine, the response started relative to the engine of driver can be improved.

And, starting to the unlocked position that locking component was not carried out before the stipulated time what is detected from unlocking motion In the case of, the stopping for sending " engine halt signal " to engine starting control portion and carrying out engine is processed, accordingly, it is capable to hinder The maintenance of the engine work in the state of only engaging of the locking component with steering spindle is not released from, can ensure that higher safety Property.

According to the invention that technical scheme 4 is recorded, in the state of locking component is located at half-way, in the locking component The released state that engaging with steering spindle is released from, therefore, even if due to failure etc., some reason locking components are not moved in contingency Move to unlocked position and continue in the case that engine works, engaging of the locking component with steering spindle is also released from, can be true Protect the security started relative to engine.

According to the invention that technical scheme 5 is recorded, it is not that the unblock in electric steering-lock device as in the past processes knot After beam but detect the making operation of engine start switch in engine starting control portion and fill to electric steering locking Put transmission " unlocking request signal " before and after or start the start up process of engine while send, accordingly, it is capable to more fast than ever The starting of engine is carried out fastly, can improve the response started relative to the engine of driver.And, rising in engine It is dynamic process started after at the appointed time not from electric steering-lock device receive " unblock completes signal " in the case of or In the case of " engine starting abort signal " be have received from electric steering-lock device, the stopping for carrying out engine is processed, because This, in electric steering-lock device, the maintenance of the engine work in the state of lock-out state can be prevented not to be released from can be really Protect higher security.

Description of the drawings

Fig. 1 is the longitudinal section of the lock-out state for representing electric steering-lock device.

Fig. 2 is the longitudinal section of the released state for representing electric steering-lock device.

Fig. 3 is the exploded perspective view of electric steering-lock device.

Fig. 4 is the system construction drawing of electric steering-lock device.

Fig. 5 is the locking carried out by Hall element for illustrating the engine starting system of embodiments of the present invention 1 The figure of the position detection of component.

Fig. 6 is that the engine when unblock of the engine starting system for representing embodiments of the present invention 1 is processed starts control The flow chart of step processed.

Engine stop control when Fig. 7 is the locking processing of the engine starting system for representing embodiments of the present invention 1 The flow chart of step processed.

Fig. 8 is the engine starting control portion of the engine starting system for representing embodiments of the present invention 2 and electric rotating To the figure at the transmitting-receiving moment of the signal between locking device.

Engine when Fig. 9 is the engine starting control of the engine starting system for representing embodiments of the present invention 2 The flow chart of starting control step.

Symbol description

1 electric steering-lock device；2 housings；The locking component incorporating section of 2A housings；The substrate reception of 2B housings Portion；3 shells；The recess of 3a shells；The connector disposed portion of 3b shells；The pin-and-hole of 3c shells；The clamping screw of 3d shells Through hole；The slot of 3e shells；4 lids；The pin fixed part of 4A lids；The cover press section of 4B lids；The gear holding cylinder of 4C lids Portion；The pin through hole of 4a lids；The spring-loaded portion of 4b lids；5 pins；6 locking components；7 drivers；The arm of 7A drivers； The rotation prevention portion of 7B drivers；The external thread part of 7a drivers；The pin through hole of 7b drivers；The next door of 7c drivers；7d The magnet incorporating section of arm；8 clamping screws；The elongated hole of 8a clamping screws；9 pins；10 springs；11 magnet；12 gear parts； 12a worm gears；The internal thread part of 12b gear parts；13 springs；14 electro-motors (electric actuator)；14a electro-motors Output shaft；15 worm screws；16 printed circuit boards (PCB)；17 Hall elements (first position detection part)；18 Hall elements (second place detection part)；19 Hall elements (the 3rd position detection component)；20 microcomputers (control unit)；21 communication interfaces (communication I/F)；The order wire of 22 vehicles；23 connectors；24 batteries；25 lock-up relays；26 unblock relays；27 Motor power supplying terminal；30 steering spindles；The slot of 30a steering spindles；31 steering column tubes；The through hole of 31a steering column tubes；A Latched position；B engages boundary position；C unblocks determine position；D unlocked positions.

Specific embodiment

Hereinafter, based on description of the drawings embodiments of the present invention.

<Embodiment 1>

The engine starting system of present embodiment includes engine start switch, is detecting the engine start switch Making operation when carry out vehicle engine start up process engine starting control portion, carry out vehicle steering spindle lock The electric steering-lock device of locking/unlocking.Hereinafter, the structure of electric steering-lock device is illustrated based on Fig. 1～Fig. 4.

Fig. 1 is the longitudinal section of the lock-out state for representing electric steering-lock device, and Fig. 2 is to represent the electric steering locking The longitudinal section of the released state of device, Fig. 3 are the exploded perspective views of the electric steering-lock device, and Fig. 4 is the electric powered steering The system construction drawing of locking device.

Electric steering-lock device 1 carries out locking/solving to the rotation of the steering spindle 30 (steering wheel) of vehicle by electronic Lock, as shown in Figures 1 and 2, electric steering-lock device 1 is fixed on and the through hole 31a phases for being formed in 31 bottom of steering column tube Steering spindle 30 is received in the way of it can rotate in corresponding position, the steering column tube 31.

Here, the housing 2 of electric steering-lock device 1 is by shell 3 and the metal of the lower surface opening portion for covering the shell 3 The lid 4 of system is constituted, and the shell 3 is made up of the metal (such as magnesium alloy) of nonmagnetic material.

Above-mentioned shell 3 is configured to rectangular box, is formed with the recess 3a of arc-shaped at an upper portion thereof, and the steering column tube 31 is embedding Enter recess 3a, the shell 3 is fixed on steering column tube 31 using the bracket of the arc-shaped (not shown) for being connected to the shell 3.Need It is noted that steering column tube 31 and the steering spindle 30 being accommodated in inside steering column tube 31 are along vehicle fore-and-aft direction (Fig. 1 and figure 2 paper vertical direction) configuration, the periphery of steering spindle 30 circumferentially equiangularly spacing be formed with it is multiple (in illustrated example For 10) slot 30a.In addition, although not shown, steering wheel, the lower end of steering spindle 30 are connected with the upper end of steering spindle 30 It is connected with the steering box for constituting steering.And, if driver carries out rotation process to steering wheel, rotation Jing Steering box is transferred to by steering spindle 30, rack shaft is converted to using the rack and pinion mechanism being contained in steering box The motion in overall width direction, so as to the front-wheel of the left and right being connected via the left and right two ends of track rod and the rack shaft is diverted And complete the steering for needing.

In addition, as shown in figure 3, the sidepiece in shell 3 opens up connector disposed portion 3b of rectangle, being formed with the connector Other 3 sides beyond the side of disposed portion 3b are formed with the pin-and-hole 3c of the circular hole of the press-in of supply and marketing 5 and (only illustrate in figure 3 Two).

On the other hand, the lid 4 is configured to rectangular flat shape, integratedly erects in its inner surface (upper surface) and is provided with 3 The gear holding cylinder portion 4C of individual block pin fixed part 4A and 3 columned cover press section 4B and bottomed tube.Here, 3 Pin fixed part 4A is formed at the position corresponding with the position of the pin-and-hole 3c of shell 3, sells fixed part 4A at 3 and is formed with confession The pin through hole 4a (only illustrating 1 in figure 3) of the circular hole of the press-in of the pin 5.

And, as shown in Figures 1 and 2, lid 4 is embedded in shell 3 in the way of the lower surface opening portion of covering shell 3 from below Bottom inner circumferential, be pressed into by will pass through the pin 5 of 3 pin-and-hole 3c (with reference to Fig. 3) formed in the sidepiece in shell 3 It is formed at the pin through hole 4a of 3 pin fixed part 4A that the setting on the lid 4 is put and lid 4 is fixed on into shell 3.

By the way, as shown in Figures 1 and 2, locking component incorporating section 2A and substrate reception portion are formed with housing 2 2B, in locking component incorporating section, 2A is accommodated with locking component 6.The locking component 6 is provided with external thread part by bottom periphery quarter The substantially cylindric driver 7 and the clamping screw 8 of the tabular being contained in the way of it can move up and down in the driver 7 of 7a Constitute.Here, be formed with longer elongated hole 8a on clamping screw 8 along the vertical direction, clamping screw 8 by transversely through The pin 9 of elongated hole 8a is connected with driver 7.It should be noted that pin 9 is run through to be held in transversely to run through by press-in setting It is placed in the pin through hole 7b of driver 7.

And, clamping screw 8 is embedded in the through hole 3d of the rectangle formed in shell 3 in the way of it can move up and down, All the time exerted a force by the spring 10 installed with the state being compressed between clamping screw 8 and the next door 7c of driver 7 upward, led to Often, engaged with pin 9 by the bottom of the elongated hole 8a of clamping screw 8, the clamping screw 8 is moved up and down together with driver 7.

In addition, the opposite site in the upper periphery of driver 7 is integrally formed with along horizontal-extending arm 7A and upper Lower section rotation prevention portion 7B longer upwards, arm 7A are contained in housing 2 (shell 3) in the way of it can move up and down, and rotation prevention portion 7B leads to Cross and engage to prevent the rotation of driver 7 with the slot 3e for being formed at shell 3.And, horizontal stroke is formed with the leading section of arm 7A The magnet incorporating section 7d of section rectangle, is accommodated with the magnet 11 (magnet) of quadrangular shape in the magnet incorporating section 7d by press-in.

In addition, as shown in Figures 1 and 2, in the locking component incorporating section 2A being formed in housing 2 with revolvable side Formula contains the gear part 12 of cylindrical shape, the lower, outer perimeter of the gear part 12 using stand up lid 4 inner surface (on Surface) the gear holding cylinder portion 4C kept in revolvable mode.And, formed in the lower, outer perimeter of the gear part 12 There is worm gear 12a, internal thread part 12b is formed with the inner circumferential of the gear part 12.

The bottom of the driver 7 is inserted with the inside of said gear component 12,12 inner circumferential of gear part is formed at The internal thread part 12b is engaged with the external thread part 7a of the lower, outer perimeter for being formed at the driver 7.And, in the shape of lid 4 Into between the next door 7c of columned spring-loaded portion 4b and driver 7 of the central part in gear holding cylinder portion 4C with compress State is provided with spring 13, and locking component 6 (driver 7 and clamping screw 8) is exerted a force all the time upward by spring 13.

In addition, as shown in Figures 1 and 2, the locking component incorporating section 2A of housing 2 is being formed at, is being received with horizontal state Receiving has electro-motor 14 as electric actuator, is formed with the worm screw 15 of path in the output shaft 14a of the electro-motor 14.And And, the worm screw 15 is engaged with the worm gear 12a for being formed at 12 periphery of gear part.Here, worm screw 15 will with worm gear 12a compositions The revolving force of the output shaft 14a of electro-motor 14 is converted to the drive mechanism of the advance and retreat power of locking component 6.

On the other hand, as shown in Figures 1 and 2, printed circuit is accommodated with the substrate reception portion 2B for being formed at housing 2 Plate (PCB) 16, but the printed circuit board 16 vertically erect in the way of its inner surface is parallel with the direction of action of locking component 6 The state storage of setting.And, in upper and lower corresponding with locked of the inner surface of the printed circuit board 16 Position be each configured with as first position detection part lock side Hall element (SW-1) 17 and as the second place examine Unblock side Hall element (SW-2) 18 of part is surveyed, is examined using these Hall elements (SW-1) 17, (SW-2) 18 as described later Survey the position (locking (Lock)/unblock (Unlock) position) of locking component 6 (clamping screw 8).

And, in the present embodiment, in the centre of the latched position and unlocked position of the inner surface of printed circuit board 16 Position is that half-way is configured with the Hall element (SW-3) 19 as the 3rd position detection component, using the Hall element (SW- 3) 19 detect locking component 6 (clamping screw 8) positioned at the situation of half-way (Middle) as described later.

Here, the top of clamping screw 8 is respectively defined as " latched position ", " card positioned at the position of A, B, C, D of Fig. 2 Conjunction boundary position ", " unblock determines position ", " unlocked position "." latched position " is that the top ends of clamping screw 8 are as shown in Figure 1 Ground is engaged with the slot 30a of steering spindle 30 and the locked state of the rotation of steering spindle 30 (steering wheel) completely, " engaging border Position " is the boundary position that the slot 30a of steering spindle 30 is released from the engaging of clamping screw 8, and " unblock determines position " is The top of clamping screw 8 is located at the position in the inner peripheral portion of steering column tube 31, and " unlocked position " is the top of clamping screw 8 as schemed Inner peripheral portion shown in 2 relative to steering column tube 31 is located at the position in outside.

And, in the present embodiment, it is configured with the Hall element (SW-3) 19 as the 3rd position detection component Half-way be set in " engaging boundary position " and " unlocked position " between.

Then, illustrate the system architecture of electric steering-lock device 1 based on Fig. 4 as follows.

The Hall element (SW-1) 17, (SW-2) 18, (SW-3) 19 and the control that control is driven to electro-motor 14 Portion processed is that microcomputer (hereinafter referred to as " microcomputer ") 20 is electrically connected, and microcomputer 20 is via communication interface (communication I/F) 21 and car Order wire 22 and the upper bit location engine starting control portion (hereinafter referred to as " ECU ") i.e. (not shown) for being equipped on vehicle Electrical connection.It should be noted that as shown in figure 3, the company of the function of playing communication interface 21 is provided with printed circuit board 16 Device 23 is connect, the electric connection line (not shown) for extending, Hall unit are connected with from the microcomputer 20 (with reference to Fig. 4) on the connector 23 Part (SW-1) 17, (SW-2) 18, (SW-3) 19 as described above with 20 electrical links of microcomputer.

And, as shown in figure 4, by lock-up relay 25 and unblock relay 26 on the battery 24 for be equipped on vehicle It is electrically connected with the electro-motor (M) 14, " the locking letter sent out from microcomputer 20 with unblock relay 26 by lock-up relay 25 Number " driven with " unlocking signal " respectively.Here, as shown in figure 3, upper and lower two motor power supplyings are equipped with the connector 23 Terminal 27, these motor power supplying terminals 27 are connected with electro-motor 14.

Then, illustrate the control action of the engine starting system of present embodiment based on Fig. 5～Fig. 7 as follows.

Fig. 5 is the locking carried out by Hall element for illustrating the engine starting system of embodiments of the present invention 1 The figure of the position detection of component, Fig. 6 are engine starting control steps when representing that the unblock of the engine starting system is processed Flow chart, the flow chart of engine stop rate-determining steps when Fig. 7 is the locking processing for representing the engine starting system.

(engine starting control when unblock is processed)

First, engine starting control when processing with regard to unblock is illustrated, the microcomputer 20 of electric steering-lock device 1 Enter to exercise clamping screw 8 from latched position be moved to unlocked position unblock process when, using Hall element (SW-3) 19 Detect clamping screw 8 be located at half-way when, to engine starting control portion send " engine starting enabling signal ", from Unblock processes the unlocked position detection of the clamping screw 8 for starting not carry out being carried out by Hall element (SW-2) 18 in the stipulated time In the case of, " engine halt signal " is sent to engine starting control portion.Hereinafter, its specific control is illustrated based on Fig. 5 and Fig. 6 Step processed.

In the state of engine stop (not shown), as shown in figure 1, the clamping screw 8 of locking component 6 is located at the upper limit Latched position, its upper end are projected in recess 3a from the through hole 3d of shell 3 and are engaged with the slot 30a of steering spindle 30. In this condition, the rotation of steering spindle 30 is locked, in this locked condition, it is impossible to carry out rotation behaviour to steering wheel (not shown) Make, it is stolen thus, it is possible to prevent vehicle.Now, the Hall element (SW-1) 17 being configured in the latched position of printed circuit board 16 exists Detect located at the magnetic force of the magnet 11 of locking component 6 (arm 7A) when as shown in Figure 5 from disconnect (Not Lock (OFF)) switch to Connect (Lock (ON)), thus, microcomputer 20 recognizes clamping screw 8 and is moved to latched position.

When making operation is carried out to engine start switch (not shown) from above-mentioned state driver, the engine of body side Starting control portion detects the operation, carries out the unblock work of " unlocking request signal " is sent relative to electric steering-lock device 1 Deal with (the step of Fig. 6 S1).Then, the microcomputer 20 of electric steering-lock device 1 is relative to the unblock relay 26 shown in Fig. 4 Output " unlocking signal ".Then, unblock relay 26 switches to the position shown in dotted line, lock-up relay 25 to be located at solid line position Put, therefore, the path shown in solid of Fig. 4 is flow through from the electric current of battery 24 and start electro-motor 14, clamping screw 8 To unblock side shifting (step S2).

That is, when electro-motor 14 is activated as described above, the rotation of its output shaft 14a is subtracted by worm screw 15 and worm gear 12a Fast and direction is transferred to gear part 12 after being converted into right angle, and the gear part 12 rotates, therefore, it is formed with and is somebody's turn to do with carving to be located at The driver 7 of the external thread part 7a that the internal thread part 12b of 12 inner circumferential of gear part is screwed togather overcomes the active force of spring 13 and downward Motion.So, when driver 7 is moved downward, it is integrally formed in the arm 7A of the driver 7 and by pin 9 and 7 phase of driver The clamping screw 8 of link is moved downward.

Next, it is determined that whether detected from electro-motor 14 using Hall element (SW-3) to start to drive the stipulated time (such as 0.5 second) internal locking bolt 8 is moved to half-way (step S3).When clamping screw 8 is moved to half-way, configuration The magnet 11 located at locking component 6 (arm 7A) is detected in the Hall element (SW-3) 19 of the half-way of printed circuit board 16 Magnetic force, switches to connection (Middle (ON)) from disconnection (Not Middle (OFF)) as illustrated in fig. 5, and thus microcomputer 20 is recognized Half-way is moved to clamping screw 8.

And, when detecting that clamping screw 8 is moved to half-way at the appointed time, (judged result of step S3 is During "Yes"), the microcomputer 20 of electric steering-lock device 1 sends " engine starting enabling signal " to engine starting control portion, The engine starting control portion that have received " the engine starting enabling signal " starts the starting (step S4) of engine.Afterwards, Judge whether to detect that the driving from electro-motor 14 started in the stipulated time (such as 1.0 seconds) using Hall element (SW-2) 18 Clamping screw 8 is moved to unlocked position (step S5).When clamping screw 8 is moved to unlocked position, printed circuit board is configured at The Hall element (SW-2) 18 of 16 unlocked position detect located at the magnetic force of the magnet 11 of locking component 6 (arm 7A) when, such as Fig. 5 Shown to switch to connection (Unlock (ON)) from disconnection (Not Unlock (OFF)), thus microcomputer 20 recognizes clamping screw 8 and moves Move to unlocked position.

And, detect at the appointed time clamping screw 8 be shifted as shown in fig. 2 to during unlocked position (step S5 When judged result is "Yes"), as the inside of the through hole 3d of shell 3 is kept out of the way in the upper end of the clamping screw 8, therefore, lock The engaging of the slot 30a of tight bolt 8 and steering spindle 30 is released from, and the locking of steering spindle 30 is released from and becomes released state, The rotation process of driver's energy travel direction disk.

So, when judging that clamping screw 8 is moved to unlocked position by microcomputer 20, stop the driving of electro-motor 14 (step S6), and sent to the engine starting control portion of body side by communication I/F21 as shown in Figure 4 and order wire 22 " unblock completes signal ", normally terminates so as to the unblock of electric steering-lock device 1 is processed, and the start up process of engine is normal Ground terminates, and vehicle can be travelled (step S7), terminates a series of process (step S8).

On the other hand, start in the stipulated time, not detecting that clamping screw 8 is moved to solution in the driving from electro-motor 14 In the case of lock position (in the case that the judged result of step S5 is "No"), clamping screw 8 may not move to unlocked position, Therefore, the microcomputer 20 of electric steering-lock device 1 stops the driving (step S9) of electro-motor 14, to engine starting control portion Send " engine halt signal (unblock failure signal) ".Then, " engine halt signal (unsuccessfully believe by unblock to have received this Number) " engine starting control portion make engine stop (step S10), and make the start up process abnormal ending of engine, and make Vehicle can not be travelled (step S11), and the emergency warning lamp of instrument board (not shown) is flashed and, end abnormal to driver's notification A series of process (step S8).

In addition, do not detected using Hall element (SW-3) 19 send as an envoy to clamping screw 8 to unblock side shifting after regulation In the case that in time, the clamping screw 8 is moved to half-way (in the case that the result of determination of step S3 is "No"), also deposit In the possibility that the engaging of the slot 30a of clamping screw 8 and steering spindle 30 is not released from, therefore, electric steering-lock device 1 Microcomputer 20 stop electro-motor 14 driving (step S12), stop unblock process and abnormal ending (vehicle can not be travelled) (step Rapid S13), terminate a series of process (step S8).

As described above, in the present embodiment, entering to exercise clamping screw 8 and be moved to from latched position the solution of unlocked position When lock is processed, be not as conventional after clamping screw 8 is moved to unlocked position but wherein the way stage to engine Starting control portion sends " engine starting enabling signal " to carry out the start up process of engine, accordingly, it is capable to rapider than ever Carry out the starting of engine, the response started relative to the engine of driver can be improved.

And, do not carried out locking screw using Hall element (SW-2) 18 before the stipulated time being begun to pass through from unlocking motion In the case that the unlocked position of bolt 8 is detected, to the transmission of engine starting control portion, " engine halt signal (unsuccessfully believe by unblock Number) " and carry out the stopping process of engine, accordingly, it is capable to prevent not can confirm that clamping screw 8 in the state of unlocked position movement Engine work maintenance (engine continuous work), can ensure that higher security.

In addition, in the present embodiment, the half-way for starting the start up process of engine is set in clamping screw 8 and turns Boundary position i.e. " the engaging boundary position " being released to the engaging of the slot 30a of axle 30 and " unlocked position " between, therefore, In clamping screw 8 in the state of the half-way, in the engaging quilt of the clamping screw 8 and the slot 30a of steering spindle 30 The released state of releasing, therefore, even if just in case as some reason clamping screws 8 such as failure do not move to " unlocked position " In the case of continuing to engine work, the engaging with the slot 30a of steering spindle 30 of clamping screw 8 is also released from, can be really Protect the security started relative to engine.

(engine stop control during locking processing)

Then, illustrate engine stop control during locking processing based on Fig. 5 and Fig. 7 as follows.

In the state of under engine behavior, vehicle stops, as shown in Fig. 2 clamping screw 8 is located at the unblock of lower limit Position and the rotation of steering spindle 30 are not locked out, and can carry out rotation process to steering wheel (not shown) in this condition.

When operation is turned off to engine start switch (not shown) from above-mentioned state driver, engine starting control Portion carries out the stopping of engine and processes, and makes engine stop.And, engine starting control portion is carried out relative to electric steering Determine lock out action process (the step of Fig. 7 S1) that device 1 sends " locking request signal ".Then, electric steering-lock device 1 Microcomputer 20 exports " locking signal " relative to lock-up relay 25.Then, lock-up relay 25 as shown in Figure 4 switches to dotted line Shown position, unblock relay 26 are located at solid line position, therefore, the electric current from battery 24 is flow through shown in the dotted line of Fig. 4 Path and make electro-motor 14 invert start, clamping screw 8 to locking side shifting (step S2).

When the output shaft 14a of electro-motor 14 is inverted as described above, its rotation is delivered to via worm screw 15 and worm gear 12a Gear part 12, the gear part 12 are inverted, therefore, driver 7 is moved upwards, is integrally formed in the arm 7A of the driver 7 Moved with the clamping screw 8 being connected with driver 7 by pin 9 upwards.

It is determined whether being detected in stipulated time (such as 1.0 seconds) internal locking spiral shell using Hall element (SW-1) 17 Bolt 8 is moved to the situation (step S3) of latched position.

When clamping screw 8 is moved to latched position, the Hall element of the latched position of printed circuit board 16 is configured at (SW-1) 17 detect the magnetic force of the magnet 11 located at locking component 6 (arm 7A), as shown in figure 5, from disconnect (Not Lock (OFF) connection (Lock (ON))) is switched to, thus microcomputer 20 recognizes clamping screw 8 and is moved to latched position.

And, when detecting that clamping screw 8 is moved to latched position as shown in Figure 1 at the appointed time (step S3 When judged result is "Yes"), the upper end of clamping screw 8 is projected and slot 30a with steering spindle 30 from the recess 3a of shell 3 Engaging, therefore, becoming the locked lock-out state of the rotation of steering spindle, when can prevent from stopping, vehicle is stolen.It should be noted that In the case where clamping screw 8 is not carried out well to the engaging of the slot 30a of steering spindle 30, clamping screw 8 can be in pin 9 It is formed in the elongated hole 8a on the clamping screw 8 in the range of relative movement and overcomes the active force of spring 10 and move downward, because This, will not act on excessive load to clamping screw 8.

So, when microcomputer 20 is judged to that clamping screw 8 is moved to latched position, stop the driving (step of electro-motor 14 Rapid S4), and " locking is sent to the engine starting control portion of body side by the communication I/F21 and order wire 22 shown in Fig. 4 Complete signal ", so as to the locking processing of electric steering-lock device 1 normally terminates, vehicle can not be travelled (step SS), terminate A series of process (step S6).

On the other hand, the locking screw is not detected in clamping screw 8 into the stipulated time after the mobile beginning of lock side (situation of the judged result of step S3 for "No"), clamping screw 8 and steering spindle 30 in the case that bolt 8 is moved to latched position Slot 30a is possible to not engage, therefore, the microcomputer 20 of electric steering-lock device 1 stops the driving of electro-motor 14 and makes Locking processing stops (step S7), and microcomputer 20 sends " locking failure signal " to engine starting control portion.Then, have received this The engine starting control portion of " locking failure signal " makes the emergency warning lamp of instrument board (not shown) flash and report to driver different Often, terminate a series of process (step S6).

It should be noted that in the present embodiment, microcomputer 20 confirms to start the stipulated time from the driving of electro-motor 14 Whether internal locking bolt 8 is moved to half-way and unlocked position, but the counting start time of stipulated time is not limited to this, example Such as can also confirm when unlocked position is confirmed that release screw bolt 8 be moved to and whether be moved in the stipulated time after half-way solution Lock position, the counting start time of the stipulated time arbitrarily can set.

<Embodiment 2>

Then, embodiments of the present invention 2 are illustrated as follows based on Fig. 8 and Fig. 9.

Fig. 8 is the engine starting control portion of the engine starting system for representing embodiments of the present invention 2 and electric rotating To the figure at the transmitting-receiving moment of the signal between locking device, Fig. 9 is the engine starting control for representing the engine starting system When engine starting control step flow chart.It should be noted that the engine starting system of present embodiment and its institute Comprising electric steering-lock device structure it is identical with the embodiment 1, therefore, in the following description, using in reality Apply the symbol used in mode 1.

In the embodiment 1, the engine starting control portion of body side is being have received from electric steering locking dress Engine start up process is carried out after " the engine starting enabling signal " of the microcomputer 20 for putting 1, but in the present embodiment, is being examined Measure the making operation of engine start switch and engine starting control portion is sent to the microcomputer 20 of electric steering-lock device 1 Start the start up process of engine before and after " unlocking request signal " or while transmission, afterwards at the appointed time not from electronic Have received " during engine is started in the case that the microcomputer 20 of Lenkradschlossvorrichtung 1 receives " unblock completes signal " or from microcomputer 20 In the case of stop signal ", the stopping for carrying out engine is processed.Hereinafter, with regard in engine starting control portion to electric steering Determine device 1 microcomputer 20 send " unlocking request signal " before, start engine start up process in the case of engine rise Dynamic control is illustrated.

When unlocking motion process starts (the step of Fig. 9 S1), whether detection driver is carried out to engine start switch Making operation (step S2).(the judged result of step S2 when detecting that driver has carried out making operation to tail-off For "Yes" when), engine starting control portion sends that " unblock please as shown in Figure 8 relative to electric steering-lock device 1 in moment T2 Seek signal " (step S4), in the present embodiment, the moment T1 shown in the Fig. 8 before T2 starts the starting (step of engine S3).It should be noted that engine start up process is identical with the process performed in the embodiment 1.

When the moment T2 shown in Fig. 8 sends " unlocking request signal " relative to the microcomputer 20 of electric steering-lock device 1, In electric steering-lock device 1, clamping screw 8, to unblock side shifting (step S5), and judges by driving for electro-motor 14 Whether the microcomputer 20 in " unlocking request signal " stipulated time (such as 1.5 seconds) afterwards from electric steering-lock device 1 is being sent Have sent " unblock completes signal " or engine starting control portion does not receive " engine starting abort signal from microcomputer 20 (unblock failure signal) " (step S6).

Unlocked position is being moved to due to clamping screw 8 and engine starting control portion is from electric powered steering at the appointed time The microcomputer 20 of locking device 1 receives " unblock completes signal " and does not receive " engine starting abort signal (unblock mistake from microcomputer 20 Lose signal) " in the case of the situation of "Yes" (result of determination of step S6 for), engine works on (step S7), terminates one The process (step S8) of consecutive.

On the other hand, do not move to unlocked position at the appointed time in some reasons and the clamping screw 8 such as barrier for some reason and Engine control section at the appointed time not from microcomputer 20 receive " unblock completes signal " in the case of or receive from microcomputer 20 (situation of the result of determination of step S6 for "No" in the case of " the starting abort signal (unblock failure signal) of engine " Under), the engaging with the slot 30a of steering spindle 30 of clamping screw 8 is possible to not be released from, therefore, make engine stop (step S9), prevent the start up process abnormal ending of engine and vehicle and makes instrument board (not shown) from travelling (step S10) Emergency warning lamp flashes and, end a series of process (step S8) abnormal to driver's notification.

As described above, in the present embodiment, it is not that the unblock in electric steering-lock device 1 as in the past processes knot After beam, but the making operation of engine start switch is detected in engine starting control portion and filled to electric steering locking The microcomputer 20 for putting 1 sends the start up process that " unlocking request signal " starts engine before, accordingly, it is capable to more quickly enter than ever The starting of row engine, can improve engine and start the response relative to driver.And, open in the start up process of engine After beginning, at the appointed time not from the microcomputer 20 of electric steering-lock device 1 receive " unblock completes signal " in the case of or In the case of " engine starts abort signal (unblock failure signal) " be have received from microcomputer 20, carry out at the stopping of engine Reason, therefore, in electric steering-lock device 1, the dimension of the engine work in the state of lock-out state can be prevented not to be released from Hold, can ensure that higher security.

It should be noted that above with respect to microcomputer 20 from engine starting control portion to electric steering-lock device 1 Before sending " unlocking request signal ", the example of the start up process of (the moment T1 of Fig. 8) beginning engine is illustrated, even in While sending " unlocking request signal " (the moment T2 of Fig. 8) or after have sent " unlocking request signal " (the moment T3 of Fig. 8) The start up process for starting engine can also obtain effect same as described above.

Claims (4)

1. a kind of engine starting system, which possesses：

Engine start switch；

Engine starting control portion, its engine that vehicle is carried out when the making operation of the engine start switch is detected rise It is dynamic to process；

Electric steering-lock device, which has the control unit of the lock locking/unlocking of the steering spindle for carrying out vehicle, engine starting system It is characterised by,

The control unit of the electric steering-lock device is after the engine start switch carries out making operation and institute The unblock for stating electric steering-lock device processes engine starting control portion transmission engine starting license described in the forward direction for completing Signal, rises to the engine in the case where the unblock process of the electric steering-lock device is not completed at the appointed time Dynamic control unit sends engine halt signal,

The engine starting control portion is receiving the engine from the control unit of the electric steering-lock device Start the start up process of engine when starting enabling signal, then, in the control unit from the electric steering-lock device The stopping that engine is carried out when receiving the engine halt signal is processed.

2. engine starting system according to claim 1, it is characterised in that

The electric steering-lock device is integrally fixed at the device of the position corresponding with the through hole being formed on steering column tube, The steering spindle of vehicle is received in the way of it can rotate by the steering column tube, and the electric steering-lock device includes：

Locking component, which can be released from the latched position and engaging engaged with the steering spindle and relative to the steering column tube Inner peripheral portion be located at outside unlocked position between move；

Electric actuator, which makes the locking component action；

First position detection part, which is used for the latched position for detecting the locking component；

Second place detection part, which is used for the unlocked position for detecting the locking component；

3rd position detection component, which is used to detect the midway position that the locking component is located between locked Put；

The control unit, its drive of testing result based on first and second position detection component to the electric actuator It is dynamic to be controlled,

The control unit is configured to, and processes from the unblock that latched position is moved to unlocked position entering to exercise the locking component When, detected using the 3rd position detection component in the case that the locking component is located at the half-way to described Engine starting control portion sends engine and starts enabling signal, does not utilize the second place detection part at the appointed time In the case of carrying out the unlocked position detection of the locking component, engine stop letter is sent to the engine starting control portion Number.

3. engine starting system according to claim 2, it is characterised in that

The half-way is set in the boundary position that engaging of the steering spindle with the locking component be released from and engages side Between boundary position and the unlocked position.

4. a kind of engine starting system, which possesses：

Engine start switch；

Engine starting control portion, its engine that vehicle is carried out when the making operation of the engine start switch is detected rise It is dynamic to process；

Electric steering-lock device, which has the control unit of the lock locking/unlocking of the steering spindle for carrying out vehicle, engine starting system It is characterised by,

The engine starting control portion is when the making operation of the engine start switch is detected to the electric powered steering Locking device sends unlocking request signal,

The control unit of the electric steering-lock device is sent out to the engine starting control portion when unblock is processed and completed Unblock is sent to complete signal,

Also, the engine starting control portion is configured to, sending to the control unit of the electric steering-lock device Start the start up process of engine before and after the unlocking request signal or while transmission, afterwards, at the appointed time not from The control unit of the electric steering-lock device is received in the case that unblock completes signal or from the electric steering The control unit for determining device receives the stopping process that engine is carried out in the case that engine starts abort signal.