JP4127439B2 - Keyless entry device for vehicles - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a vehicle keyless entry device that can control, for example, door locks of various vehicles such as automobiles without using mechanical keys.
[0002]
[Prior art]
In recent years, various keyless entry devices for vehicles that can be locked and unlocked electronically and electrically without using a mechanical key plate have been proposed.
[0003]
As a vehicle keyless entry device according to the prior art, for example, as described in JP-A-60-119873, JP-B-2-22834, etc., by operating a switch provided on the door side, A request response type keyless entry device is known in which a request signal is transmitted from a fixed device installed on the door side, and a portable device transmits an identification code triggered by reception of the request signal.
[0004]
A system for releasing the steering lock by electrical remote operation is described in, for example, Japanese Patent Laid-Open No. 3-148353.
[0005]
[Problems to be solved by the invention]
In the above-described request response type prior art, since the identification code is transmitted from the portable device in response to the request signal from the fixed device, it is not necessary to take out the portable device from a bag or the like, and the door is locked and unlocked with relatively few operations be able to. However, in order to cause the request signal to be transmitted from the fixed machine, it is necessary to provide some trigger signal for requesting the fixed machine to transmit the request signal. For this reason, in the prior art, a special switch for inputting a trigger signal is provided near the door. However, if a special switch is provided on the door panel surface or the like, the structure becomes complicated, and there is a possibility of being destroyed or damaged by others.
[0006]
In addition, in the vehicle keyless entry device, the door lock can be released and the engine start can be permitted almost without being aware of the presence of the portable device, and a series of operations such as getting on, starting the engine, and getting off the vehicle can be performed smoothly. be able to. However, such a guarantee of smooth operation, on the other hand, may also allow an easy ride by an uninvited third party.
[0007]
Furthermore, since the presence of the portable device is thin, there is a possibility that the door may be locked while the portable device is left in the passenger compartment, or the portable device may be left behind in another place, which may worsen the usability.
[0008]
Further, the vehicle keyless entry device may be provided with a manual switch capable of operating the steering lock and the ignition switch. For example, from the viewpoint of preventing an erroneous operation, the manual switch is rotated while pushing the knob. In many cases, a kind of interlock is applied. Here, if the identification code is collated when the knob is pushed in, the switch operation cannot be smoothly performed although it depends on the length of the collation time, and the operability is lowered.
[0009]
The present invention has been made in view of the various problems as described above, and its purpose is to enable easy locking and unlocking while maintaining reliability and theft prevention, and to improve usability. An object of the present invention is to provide a vehicular keyless entry device.
[0010]
[Means for Solving the Problems]
Therefore, in order to solve the above-described problem, the keyless entry device for a vehicle according to the present invention transmits a transmission request signal triggered by a steering operation, and prohibits an unlocking operation from a portable device under certain conditions.
[0011]
That is, Book In the invention, the portable device and the control device provided on the vehicle side A control device connected to a door lock mechanism for locking or unlocking a door lock of the vehicle When the identification code transmitted from the portable device and the identification code registered in the control device in advance are collated, and both identification codes match , For locking or unlocking the door lock Predetermined control signal From the control device to the door lock mechanism A vehicle keyless entry device for outputting, wherein the portable device transmits a transmission code including an identification code in response to a transmission request signal, and the control device detects a steering operation of the vehicle. A transmission request signal generating means for generating the transmission request signal and transmitting the transmission request signal to the portable device; an identification code transmitted from the portable device in response to the transmission request signal; and an identification code registered in advance. When the matching means for matching and the identification codes match, the predetermined control signal is In the door lock mechanism Control means for outputting, in the vehicle The door lock When locked , For prohibiting the unlocking of the door lock using the portable device Set unlocking prohibition information, The door lock in the vehicle And unlocking permission / prohibition setting means for resetting the unlocking prohibition information when unlocked. Octopus It is characterized by.
[0012]
When getting on or off the vehicle, the user operates the door handle of the vehicle. By transmitting a transmission request signal from the control device by detecting this handle operation, it is not necessary to provide a special trigger switch on the door surface or the like, and the special trigger switch is prevented from being broken or damaged by mischief or the like. be able to. That is, in order to output a transmission request signal while saving power consumption, it is necessary to input some trigger signal to the control device. For this purpose, if a special trigger switch is provided on the door panel surface, etc. The trigger switch itself may be destroyed or damaged. Therefore, in the present invention, the steering operation of the vehicle is detected and used as a trigger signal for the control device. In the case of a configuration in which a transmission request signal is always transmitted from the control device, such a trigger signal can be made unnecessary, but the power consumption increases.
[0013]
When the user who gets on the vehicle locks the vehicle with the inside lock knob, unlocking prohibition information is set and the unlocking operation by the portable device is prohibited. Since the user has already boarded, there is no inconvenience even if the unlocking operation by the portable device is prohibited after boarding. On the other hand, if a third party operates the door handle to get on without permission, the unlocking prohibition information is set, so even if communication is performed between the portable device and the control device, it will be unlocked. Safety is improved.
[0014]
Here, the prohibition of the unlocking operation is performed in order to release the door lock although the communication is performed between the portable device and the control device when the handle operation is performed after the locking as in the invention according to claim 2. This can be realized by not outputting the control signal. Alternatively, as in the invention according to claim 3, when a handle operation after locking is detected, it can be realized by prohibiting communication between the portable device and the control device without transmitting a transmission request signal. Note that the unlocking permission information can be used instead of the unlocking prohibition information. In this case, unlocking permission information may be reset when locked in the vehicle, and unlocking permission information may be set in other cases.
[0015]
Further, as in the invention according to claim 4, there is further provided a determination unit that determines whether or not the portable device exists in the vehicle after locking from outside the vehicle, and the unlocking permission / prohibition setting unit includes: If it is determined by the determination means that the portable device is still present in the vehicle after locking, the unlocking prohibition information can be set.
[0016]
Since the user is not conscious of the existence of the portable device, the user may get off the vehicle and lock it from outside the vehicle while leaving the portable device in the vehicle. In this case, when a third person operates the door handle, communication is performed between the portable device and the control device, and the door lock may be unlocked. Therefore, when locked from outside the vehicle, it is determined whether the portable device has been left behind in the vehicle. If it is left behind, unlock prohibition information is set to prevent a third party from unlocking. Yes.
[0017]
Various methods can be adopted to determine whether the portable device is left behind. For example, a monitor camera for monitoring the passenger compartment may be provided to visually detect the portable device. In addition, when a storage location for a portable device is prepared in the vehicle interior, a photoelectric switch, a microswitch, or the like can be provided in the storage location to detect the presence or absence of the portable device. Alternatively, as in the invention according to claim 5, when communication with the portable device is possible for a predetermined time or more after locking, it can be determined that the device has been left behind. That is, by repeatedly transmitting a transmission request signal from the control device for a predetermined time, it is possible to easily determine whether or not the transmission request signal has been misplaced based on the presence or absence of a response from the portable device.
[0018]
As in the invention according to claim 6, identification codes of a plurality of portable devices can be set in the control device, and the verification and unlocking prohibition information is set for each identification code of each portable device. be able to.
[0019]
That is, each portable device can perform unlocking, locking, engine starting, and the like by communicating with the control device. In addition, since the release prohibition information is also set for each portable device, even when the release prohibition information is set due to misplacement of a certain portable device, the door lock can be unlocked by another legitimate portable device. . Thereby, joint use of the vehicle by a plurality of users can be realized while maintaining safety and reliability.
[0020]
When communication with a plurality of portable devices is possible, as in the invention according to claim 7, the control device can also change the communication order with each portable device in accordance with the verification history of the identification code.
[0021]
When communicating with each portable device in order to avoid interference, portable devices with a low communication order have a longer waiting time for the turn, and the verification time of the identification code is delayed. Therefore, as the number of registered mobile devices increases, and as the required communication time per mobile device increases, operations such as locking, unlocking, engine starting, etc. are quickly performed on a mobile device with a lower communication order. I can't do it. Therefore, a collation history of the identification code is collected, and the communication order is dynamically changed according to the collation history, so that the communication rank of the portable device with high use frequency is raised. Thereby, the actual use frequency can be reflected in the communication order, and usability can be improved.
[0022]
For example, as in the invention according to claim 8, the communication order can be changed so that communication is performed first from the portable device having the same identification code in the previous time. For example, if there are three portable devices A, B, and C, and the initial communication order is set to “A → B → C”, the portable device used last time is C. In this case, the communication order is changed as “C → A → B”. At least, getting on and getting off is a one-set operation, so if you change the order of communication when you get on (unlocked), you can quickly operate without waiting for the engine to start or when you get off (locked) It can be performed. Usually, since the portable device is operated a plurality of times during one run, such as refueling, resting, getting on and off at the destination, etc., convenience is enhanced. As is apparent from the seventh aspect of the invention, the present invention is not limited to the case where the communication rank of the portable device used last time is raised to the top. The communication order of a specific portable device is fixed, and the communication order can be changed between other portable devices. For example, if the communication order of mobile devices that are used most frequently or should be used on a daily basis is fixed, even if another mobile device is accidentally used, the operability of the mobile device with the highest priority is impaired. It will never be. Conversely, it is possible to fix the portable device having the lowest rank.
[0023]
As in the invention according to claim 9, the control device is further operated by a pre-operation for shifting to the operable state and a main operation performed in the operable state, and outputs an engine start permission signal. When the previous operation is performed, the control device proceeds to the main operation until it is determined that the identification code on the portable device side matches the identification code on the control device side. If the identification codes are determined to match, the first operation mode for permitting the transition to the main operation and outputting the engine start permission signal and the pre-operation are performed. A second operation mode for permitting the transition to the main operation and outputting the engine start permission signal when it is determined that the respective identification codes coincide with each other. If it is unlocked, you can also control the operation of the start switch only in the second operating mode at least a predetermined time.
[0024]
For example, the control device can be provided with a start switch that integrates the function of the release of the steering lock and the ignition key, but it is preferable to apply a kind of interlock in order to prevent an erroneous operation or the like. For this reason, the start switch is configured to be operated by a previous operation for shifting to the operable state and a main operation actually operated in the operable state. Specifically, for example, a start switch can be used to release the steering lock or start the engine by pushing the knob (previous operation) and then rotating the knob to a predetermined position (main operation). Can be configured.
[0025]
Here, when operating the start switch, it is preferable to perform an authentication operation of collating the identification code from the viewpoint of safety and the like. As one method, it is possible to collate the identification code when the previous operation is performed, and permit the transition to this operation when each identification code matches (first operation mode). As another method, a transition to the main operation is permitted when the previous operation is performed, but an engine start permission signal is not output unless the identification codes match (second operation mode). Since the verification of the identification code takes some time, the first operation mode does not smoothly shift from the previous operation to the main operation, and there is a risk of giving the user a catching feeling in terms of operation. Therefore, when unlocking is performed by the portable device, the second operation mode is applied only for a predetermined time, thereby enabling quick and smooth operation of the start switch and improving operability.
[0026]
Further, as in the invention according to claim 10, the control device can further enable at least the unlocking operation when the operation pattern of the handle matches the preset operation pattern.
[0027]
For example, even when the portable device is enclosed in the vehicle or the portable device is lost, at least the door lock is unlocked and the user can get on the vehicle by operating the handle with a predetermined operation pattern. For example, authentication can be performed by inputting a 4-digit PIN code by a handle operation.
[0028]
Further, as in the invention according to claim 11, the portable device may be further provided with an operation switch so that the transmission code can be transmitted by operating the operation switch.
[0029]
The user can transmit the transmission code from the portable device only by operating the operation switch without waiting for the transmission request signal from the control device by the handle operation. Therefore, before approaching the vehicle, unlocking or the like can be performed from a remote location, improving usability.
[0034]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS.
[0035]
1. First embodiment
1 to 11 relate to a first embodiment, and FIG. 1 is an explanatory view showing an external configuration of a vehicular keyless entry device.
[0036]
The door 2 of the vehicle 1 is provided with an outside handle 3 as a “vehicle handle”. A key cylinder (not shown) provided in the vicinity of the outside handle 3 is connected to a door lock mechanism 4 inside the door 2. In addition to the inside handle (not shown), the door lock mechanism 4 is connected to a lock knob 5 that protrudes upward inside the door 2.
[0037]
The portable device 11 includes, for example, a casing 12 formed of a synthetic resin material, an unlocking switch 13 and a locking switch 14 as “operation switches”, and a control unit 15 described later with reference to FIG. ing. The portable device 11 outputs a transmission code including an identification code in response to a request signal output using the operation of the outside handle 3 as a trigger. Here, the transmission code is transmitted by a radiated electromagnetic wave of, for example, several hundred MHz, preferably about 300 MHz. In the following description, radiated electromagnetic waves are expressed as RF signals. The configuration of the fixed machine 31 as the “control device” provided in the vehicle 1 will be described with reference to FIG.
[0038]
FIG. 2 is a block diagram illustrating functions of the vehicle keyless entry device. First, the configuration of the portable device 11 will be described. As will be described later, the portable device 11 includes a control unit 15, a storage unit 16, an LF reception unit 17 that receives a request signal transmitted as an induced electromagnetic wave (hereinafter referred to as “LF signal”), A trigger detection unit 18 for detecting the trigger of the code, a code detection unit 19 for detecting the encrypted identification code in the request signal, an RF transmission unit 20 for transmitting the transmission code as an RF signal, and a battery (not shown) And the like, and includes an unlocking switch 13 and a locking switch 14.
[0039]
The control unit 15 is embodied by a CPU or the like, for example, and generates a transmission code in response to the request signal. This transmission code can be configured to include a trigger signal and an encrypted identification code (expressed as “ID code” in the drawing).
[0040]
The storage unit 16 is constituted by, for example, a RAM or the like, and stores at least an identification code and encryption information for encrypting the identification code.
[0041]
The LF receiver 17 receives a request signal from the fixed device 31 by an LF antenna 17A such as a loop antenna. The request signal transmitted from the fixed device 31 includes a trigger signal and an identification code.
[0042]
The trigger signal included in the request signal or the like is detected by the trigger detection unit 18. This trigger signal can be used as a wake-up request signal from the power saving mode. Further, the identification code included in the request signal is detected by the code detection unit 19.
[0043]
The RF transmission unit 20 transmits the transmission code input from the control unit 15 as an RF signal from the antenna 20A.
[0044]
Next, the configuration on the stationary machine 31 side will be described. As will be described later, the fixed device 31 as the “control device” includes, for example, a control unit 32 realized by a CPU, an LF transmission unit 33 that transmits a request signal from an antenna 33A such as a loop antenna, and the portable device 11. An RF receiver 34 that receives a transmission code from the receiver 34 via an antenna 34A, a storage unit 35, a timer 36, and the like.
[0045]
Further, the fixed machine 31 includes a door switch 37 for detecting the open / closed state of the door, a start switch 39 in which the functions of the steering lock unlocking and ignition switch of the steering lock mechanism 38 are integrated, and the outside handle 3. A hook switch 40 for detecting the operation of the above and a buzzer 41 are connected. Each of these switches is normally provided in advance on the vehicle body 1 side, and need not be provided in the fixing machine 31 itself. In the figure, the switch is expressed as “SW”.
[0046]
As shown in FIG. 3A, the start switch 39 includes a LOCK position for performing steering lock, an ACC position for permitting power supply to various accessory parts, an ON position, and a START position for starting the engine. Each position. As shown in FIG. 3B, the start switch 39 has a push-in operation (previous operation) for shifting the knob 39A to a rotatable state and a rotation operation (main operation) for rotating the knob 39A to a desired position. ) And is operated in two stages. As shown in FIG. 3B, when the knob 39A in the initial state b1 is gripped and pushed in (b2), the knob 39A shifts to a rotatable state. Next, the user performs a turning operation to a desired position while holding the knob 39A (b3). When the user releases the hand, the knob 39A returns to the same horizontal position as in the initial state (b4). Thus, since the start switch 39 is operated in two stages, even if the user accidentally touches the knob 39A, an unintended operation is not performed. Note that the state detection switch 42 that can be grasped as the operation state detection means detects the operation state of the door lock mechanism 4.
[0047]
The control unit 32 of the fixed machine 31 corresponds to “control means”, generates a request signal based on the detection signal of the hook switch 40, and transmits this request signal to the portable device 11 as an LF signal. Further, the control unit 32 decodes the transmission code received as the RF signal from the portable device 11, collates the identification code in the transmission code with the identification code registered in the storage unit 35, and the two identification codes match. When doing so, the door lock mechanism 4 is operated. Further, as will be described later, the control unit 32 prohibits the unlocking operation by the portable device 11 under a predetermined condition, and switches the operation mode of the start switch 39.
[0048]
Next, the effect | action of this Embodiment is demonstrated with reference to FIGS. The flowchart shown below shows an example of the flow of processing, and may differ from an actual program. FIG. 4 is a flowchart showing processing executed on the portable device 11 side.
[0049]
First, it is determined whether or not a request signal from the fixed machine 31 has been received (S1). If a request signal is received, a transmission code including an identification code is generated (S2), and this transmission code is converted to RF. The signal is transmitted (S3). In this specification, the mode in which the stationary machine 31 is remotely operated through the steps of handle operation, reception of a request signal, and transmission of a transmission code is referred to as “passive entry mode” in this specification.
[0050]
On the other hand, if the request signal has not been received (S1: NO), it is determined whether or not the unlock switch 13 has been operated (S4). When the unlocking switch 13 is operated, a transmission code for unlocking including an identification code and a function code indicating the unlocking operation is generated (S5) and transmitted to the fixing device 31 (S3). If it is not an operation of the unlocking switch 13 (S4: NO), it is next determined whether or not the locking switch 14 has been operated (S6). When the lock switch 14 is operated, a lock transmission code including an identification code and a function code indicating the lock operation is generated (S7) and transmitted to the fixing device 31 (S3). A mode in which a transmission code is transmitted by operating the unlocking switch 13 or the locking switch 14 without waiting for a request signal and the fixed machine 31 is remotely operated is referred to as an “active entry mode” in this specification.
[0051]
As described above, the portable device 11 has two types of remote operation modes, that is, a passive entry mode that is executed using the operation of the door handle 3 as a trigger and an active entry mode that uses the unlocking switch 13 or the locking switch 14. Although not specifically shown, an operation mode using a conventional mechanical engine key can be added as an “emergency mode”, for example.
[0052]
5 to 11 show processing on the stationary machine 31 side. FIG. 5 schematically shows a flow of main processes executed on the fixed machine 31 side. As will be described later, the main processes are unlocking process M1 when boarding, inside locking process M2 when locked inside the vehicle after boarding, engine starting process M3, locking process M4 when getting off, and after getting off. Mobile device misplacement prevention processing M5.
[0053]
FIG. 6 shows an example of the unlocking process M1 during boarding. First, it is determined whether or not the signal from the hook switch 40 is on, that is, whether or not the outside handle 3 has been pulled (S11). When the outside handle 3 is pulled, for example, a timer for measuring a relatively short time t1 of about 5 seconds is started (S12), and a request signal is transmitted (S13). On the other hand, when the outside handle 3 is not operated, S12 and S13 are skipped and the process proceeds to S14.
[0054]
In S <b> 14, it is determined whether or not the identification code received by the RF reception unit 34 matches an identification code registered in advance. If the identification codes match, it is determined whether or not the passive entry mode is set (S15). Here, the determination of whether the mode is the passive entry mode or the active entry mode can be easily performed by changing the transmission code transmitted in each mode, for example. Alternatively, it is possible to determine which mode is in accordance with whether or not the outside handle 3 is operated.
[0055]
If it is determined that the mode is the passive entry mode, it is determined whether or not a function stop flag as “unlocking prohibition information” for stopping the function of the passive entry mode is set (S16). The function stop flag will be described later with reference to FIG.
[0056]
If the function stop flag is not set, it waits for the hook switch 40 to be turned off (S17), and after confirming that the outside handle 3 has been returned, outputs an unlock signal to the door lock mechanism 4. (S18). If the function stop flag is set (S16: YES), the service stop by the passive entry is instructed, so S17 and S18 are skipped and the process is terminated.
[0057]
On the other hand, when the user operates the unlocking switch 13 or the locking switch 14, since the operation in the active entry mode is being performed, “NO” is determined in S15. Then, it is determined whether or not an unlocking transmission code has been received (S19). If the unlocking transmission code is received, the process proceeds to S18 to output an unlocking signal. If it is not an unlocking transmission code (S19: NO), it is determined whether it is a locking transmission code (S20). If it is a locking transmission code, a locking signal is output to the door lock mechanism 4. (S21). If it is not a locking signal, the process is terminated.
[0058]
On the other hand, when it is determined as “NO” in S14, that is, when the identification code (transmission code) cannot be received from the portable device 11 or when the received identification code does not match the identification code on the fixed device 31 side, A transition is made to the entry mode based on the password (S22).
[0059]
FIG. 7 shows an example of an entry mode based on a password. First, it is determined whether or not the hook switch 40 has returned to the off state (S31), and then it is determined whether or not the time t1 has elapsed since the time measurement was started in S12 in FIG. 6 (S32). . If the outside handle 3 is returned before the time t1 elapses, the process ends. If the outside handle 3 is still pulled even after the time t1 elapses, the buzzer 41 is sounded to enter the password entry mode. The user is notified of the transition to (S33). That is, when the outside handle 3 is continuously pulled for a predetermined time t1 or more, the password entry mode can be entered.
[0060]
Next, it waits for the hook switch 40 to return to the off state (S34), and when the hook switch 40 enters the off state, the operation of the buzzer 41 is stopped (S35). The user inputs, for example, a 4-digit number by operating the outside handle 3 a predetermined number of times according to the password (S36). When the input of all digits is completed (S37: YES), it is determined whether or not the input security code matches the pre-registered security code (S38). An unlock signal is output to the mechanism 4 (S39).
[0061]
Next, FIG. 8 shows an example of the inside locking process M2. First, it is determined whether or not the door lock mechanism 4 is unlocked (S41). If the door lock mechanism 4 is unlocked, the function stop flag is reset (S42). If it is not in the unlocked state (S41: NO), it is determined whether or not it is locked in the vehicle, for example, whether or not it is locked by the lock knob 5 without passing through the control signal of the fixing machine 31 (S43). ). If it is locked in the vehicle, a function stop flag is set (S44). If it is not locked in the vehicle, S44 is skipped and the process is terminated.
[0062]
That is, when the user gets on and locks with the lock knob 5 or the like (S43: YES), the function stop flag is set (S44). When the function stop flag is set, the unlock signal is not output as shown in S16 in FIG. Therefore, immediately after the user gets on and locks from the inside, even if an uninvited third party pulls the outside handle 3, the passive entry function by the portable device 11 is stopped. You cannot ride without permission.
[0063]
Next, FIG. 9 shows an example of the engine start process M3. First, it is determined whether or not the door lock mechanism 4 is electrically unlocked by the portable device 11 (S51). If the door lock mechanism 4 is unlocked by the portable device 11, for example, a timer for measuring a time t2 of about 30 seconds is set. Start (S52). Then, it is determined whether or not the knob 39A of the start switch 39 has been depressed, that is, whether or not the previous operation has been performed (S53). Until the predetermined time t2 elapses (S54), the presence or absence of the pushing operation (push operation) of the knob 39A is monitored.
[0064]
When the knob 39A is pushed in (S53: YES), the fixing machine 31 immediately permits the rotation of the knob 39A (S55) and transmits a request signal (S56). Since the rotation of the knob 39A is immediately permitted, the user can smoothly rotate the depressed knob 39A. The identification code is collated during the rotation operation (S57), and if both the identification codes match, an engine start permission signal is output to the engine control unit (S58). As described above, the mode in which the rotation of the knob 39A is permitted first and the identification code is verified during the rotation operation corresponds to the “second operation mode”. When the door lock is unlocked, the mode is shifted to the second operation mode for a predetermined time t2 so that a smooth operation can be performed.
[0065]
On the other hand, when unlocked by other than a portable device such as unlocking with a mechanical key, or when it is determined that the unlocked state is not established (S51: NO), the start switch 39 is set in the first operation mode. Will be operated. That is, it is determined whether or not the knob 39A has been pushed (S59). If the knob 39A has been pushed, a request signal is transmitted without allowing the knob 39A to rotate (S60). If the received identification code matches the previously registered identification code (S61: YES), the knob 39A is allowed to rotate for the first time (S62), and an engine start permission signal is output (S63). ). Therefore, for example, when the engine is restarted while riding, the start switch 39 is operated in the first operation mode.
[0066]
Next, FIG. 10 shows an example of the locking process M4 when getting off. First, in S71, whether or not the door 2 is opened is monitored based on the detection signal of the door switch 37. When the door 2 is opened, the process waits until the hook switch 40 is turned on (S72). When the hook switch 40 is turned on, that is, when the user operates the outside handle 3 from outside the vehicle, a request signal is transmitted (S73).
[0067]
Then, it is determined whether or not the identification code received from the portable device 11 matches the identification code registered in the fixed device 31 (S74). If the two match, the timer 36 is started (S75). ), The buzzer 41 is operated at intervals of 1 second, for example (S76). By the intermittent operation of the buzzer 41, the user knows that the locking operation in the passive entry mode is possible. Next, it is monitored whether or not the door 2 is closed (S77). If the door 2 is closed, the buzzer 41 is stopped (S78) and a locking signal is output (S79). Operate for 3 seconds (S80). The user can confirm that the lock is made not only by the operation sound at the time of locking but also by the sound of the buzzer 41. On the other hand, for example, when the door 2 is not closed before the predetermined time t3 of about 10 seconds elapses (S81: YES), the buzzer 41 is stopped (S82), and the process ends. Although not particularly illustrated, locking can also be performed by an active entry mode using the locking switch 14.
[0068]
Next, FIG. 11 shows an example of the portable device misplacement prevention process M5. First, it is determined whether or not the vehicle is locked from the outside (S91). For example, based on the signal from the door switch 37 and the signal from the state detection switch 42, it can be determined whether or not the vehicle is locked from outside the vehicle.
[0069]
When locked from outside the vehicle (S91: YES), for example, a timer for measuring time t4 of about 10 seconds is started (S92), and a request signal is transmitted regardless of the operation of the door handle 3 (S93). Then, it is determined whether or not the received identification code matches the previously registered identification code (S94). If both match, it is determined whether or not the predetermined time t4 has elapsed (S95). ). The request signal is repeatedly transmitted until the predetermined time t4 elapses, and the identification code is verified.
[0070]
When the predetermined time t4 has elapsed (S95: YES), the buzzer 41 is kept only for the predetermined time because the portable device 11 exists in the communication range for the predetermined time t4 or more, that is, the portable device 11 can be regarded as being left in the vehicle. Is activated to alert the user (S96), and a function stop flag for stopping the passive entry mode service is set (S97). On the other hand, if the user who has the portable device 11 moves out of the communication range before the predetermined time t4 has elapsed, it is determined “NO” in S94, so the timer is reset and the process is terminated (S98). .
[0071]
Thus, when locked from the outside of the vehicle, the fixed machine 31 tries to communicate with the portable device 11, and when communication is possible for a predetermined time t4 or more, it is determined to be misplaced and an alarm is output, and a function stop flag is set. set. Accordingly, since the passive entry mode is stopped, the door lock is not unlocked only by pulling the outside handle 3 by a third party. Even when the passive entry mode is stopped, a legitimate user can unlock from each route of the unlock switch 13, input of a personal identification number, and mechanical engine key.
[0072]
According to the present embodiment configured as described above, the following effects can be obtained.
[0073]
First, since the operation of the outside handle 3 is detected by the hook switch 40 and the request signal is transmitted from the stationary machine 31 by the operation of the outside handle 3, the overall configuration can be simplified. Reliability and the like can be greatly improved.
[0074]
That is, in the conventional technology in which a special switch is exposed on the surface of the door, such a special switch is easy to catch the eye and may cause mischief in children and the like. However, in this embodiment, since the detection signal of the hook switch 40 is used as a trigger input for request signal transmission, the appearance of the vehicle equipped with this device is not different from the appearance of a normal vehicle, and alerts others. The anti-theft and reliability are improved because it is difficult to induce mischief.
[0075]
Second, when locked in a vehicle, the function stop flag is set to prohibit unlocking in the passive entry mode, thus preventing unauthorized third-party rides and improving safety. To do.
[0076]
Thirdly, even when the portable device 11 is left in the vehicle, the function stop flag is set and the unlocking in the passive entry mode is prohibited, so that the anti-theft property can be greatly improved.
[0077]
Fourth, when communication is possible for a predetermined time t4 or longer, it is determined that the portable device 11 has been left behind in the vehicle, and therefore, the misplacement of the portable device 11 is detected with a simple structure without using a special sensor or camera. be able to.
[0078]
Fifth, at the time of unlocking, the operation mode of the start switch 39 is switched to the second operation mode for a predetermined time t2, and the rotation operation of the knob 39A is permitted. Compared with the first operation mode in which the operation is permitted, the start switch 39 can be operated smoothly, and the operability is improved. Further, since the identification code is collated within the rotation operation period of the knob 39A and the engine start permission signal is output only when the identification codes match, the reliability of the keyless entry device is maintained while improving the operability. Can do.
[0079]
Sixth, since the door can be unlocked by operating the outside handle 3 in accordance with the password, even if the portable device 11 is not owned, the door lock can be unlocked by a legitimate user. Yes, it improves usability.
[0080]
Seventh, since the active entry mode by the unlocking switch 13 and the locking switch 14 is provided in addition to the passive entry mode, the user can use the mode properly according to the situation, and the usability is improved. For example, when unloading luggage from the rear seat, the door lock can be locked only by operating the lock switch 14 at that location without returning to the door 2 on the driver's seat side. In addition, when driving by multiple people, when a person who does not have the portable device 11 tries to get on the vehicle before the driver, unlock the door lock at a place away from the vehicle. Can do.
[0081]
Eighth, even when the function stop flag is set and unlocking in the passive entry mode is prohibited, the door lock can be unlocked in the active entry mode or the entry mode with the PIN, so both safety and ease of use are achieved. Can do.
[0082]
Ninth, since it can be locked by simply pulling up the outside handle 3 and closing the door 2 when getting off, it can be locked with a smooth operation even when getting off, improving usability. Further, since it is possible to lock only for the predetermined time t3 when getting off the vehicle, the door 2 is not locked even after the predetermined time t3 has elapsed. Therefore, for example, when the door 2 is frequently moved in and out, such as during cleaning or maintenance, the door 2 can be freely opened and closed without being locked, and the usability is improved.
[0083]
2. Second embodiment
Next, a second embodiment of the present invention will be described with reference to FIG. In the following embodiments, the same components as those described above are denoted by the same reference numerals, and the description thereof is omitted. The feature of this embodiment is that, when a plurality of portable devices are registered, the communication order is changed according to the identification code verification history.
[0084]
FIG. 12 shows an example of the unlocking process M1 during boarding according to the present embodiment. First, the latest communication order stored in the storage unit 35 is read and set in advance (S101). For convenience of explanation, symbols A, B, and C are attached to three portable devices, and the latest communication order is “A → B → C”.
[0085]
Next, it is determined whether or not the hook switch 40 is in an on state (S102). If the hook switch 40 is in an on state, a request signal is transmitted to the first portable device A based on the latest communication order (S103). Then, it is determined whether or not there is a response from the portable device A and whether or not the identification code from the portable device A matches the identification code on the fixed device 31 side (S104). When a regular identification code is transmitted from the portable device A (S104: YES), the unlocking signal is output (S106) without changing the communication order (S105).
[0086]
When there is no response from the portable device A or when an erroneous identification code is received (S104: NO), a request signal is transmitted to the second portable device B based on the latest communication order (S107). Then, the response from the portable device B is inspected (S108), and when the regular identification code is received from the portable device B, the communication order is changed from “B → A → C” and the communication order of the portable device B is changed. Is raised (S109) and an unlock signal is output (S106).
[0087]
When there is no response from the portable device B or when an erroneous identification code is received (S108: NO), the communication is switched to the portable device C based on the communication order, and a request signal is transmitted to the portable device C ( S110). Similarly, the response from the portable device C is checked (S111). If the identification codes match, the communication order is changed from “C → A → B” to raise the communication order of the portable device C ( S112), an unlock signal is output (S106).
[0088]
In this embodiment configured as described above, in addition to the effects described in the first embodiment, the communication order is dynamically changed according to the frequency of use of the plurality of portable devices 11 (A to C). It is possible to improve usability. That is, when the communication order is fixed, the portable device 11 (C) having a low communication order always has a long waiting time for the communication order, and the useless waiting time increases. When a plurality of people use a vehicle jointly, such as a business car or a rental car, the operability differs depending on the communication order of the portable devices 11 possessed, so the usability is reduced. Moreover, if use concentrates on the portable device 11 having a high communication order, the battery of the specific portable device 11 is consumed earlier than others. Eventually, the user uses the remaining portable device 11 with a low communication order, but must always endure a long waiting time. Such a problem occurs not only when a plurality of people share one vehicle, but also when a single user has a plurality of portable devices 11.
[0089]
On the other hand, in the present embodiment, since the previous collation result of the identification code is reflected in the communication order, even the portable device 11 (C) having a low communication order can raise the rank by the first communication. The subsequent operations can be performed smoothly. If there is enough computer resources on the fixed machine 31 side, it is possible to collect a detailed collation history such as when to communicate with which portable machine and change the communication order more appropriately. is there. For example, when the portable device 11 to be used is regularly changed between morning and afternoon or every other day by two shift systems, the order of use may be changed in advance before the portable device 11 is switched. Is possible. Alternatively, the communication order may be fixed with a specific portable device 11 as a master, and the communication order may be changed only between other portable devices.
[0090]
3. Third embodiment
FIG. 13 is an example of the boarding process M1 of the vehicle keyless entry device according to the third embodiment. In the present embodiment, when the hook switch 40 is turned on (S11: YES), the state of the function stop flag is inspected (S16), and when the function stop flag is set, the portable device 11 The process is terminated without communication with. That is, the difference from the flowchart shown in FIG. 6 is that S16 is performed after S11. Thereby, useless communication and verification processing can be avoided, and power consumption can be reduced.
[0091]
A person skilled in the art is not limited to the above-described embodiments, and various additions and changes can be made without departing from the present invention. For example, each of the flowcharts described above shows only an example of processing, and the order of steps can be changed or added.
[0092]
【The invention's effect】
As described above, according to the vehicle keyless entry device according to the present invention, the handle operation is used as a trigger for transmitting the transmission request signal, so that a difference in appearance is prevented and mischief by others is performed. In addition, since a transmission wave with low directivity is used, the degree of freedom of ownership of the portable device is increased, and usability is improved.
[0093]
In addition, after locking inside the vehicle or when the portable device is misplaced, the unlocking operation of the portable device based on the handle operation is prohibited, so that safety and anti-theft properties can be improved.
[0094]
In addition, when unlocked, the transition from the previous operation to the main operation is allowed for a predetermined time, and the identification code can be verified during the main operation, so that the start switch can be operated smoothly and the operability is improved. And usability is improved.
[Brief description of the drawings]
FIG. 1 is a configuration explanatory view showing an external configuration of a vehicle keyless entry device according to an embodiment of the present invention.
FIG. 2 is a block diagram showing functional configurations of a portable device and a fixed device.
FIG. 3 is an explanatory diagram showing a configuration and operation method of a start switch.
FIG. 4 is a flowchart showing processing on the portable device side.
FIG. 5 is a flowchart showing an overall processing flow on the fixed machine side;
FIG. 6 is a flowchart showing an unlocking process when boarding.
FIG. 7 is a flowchart showing an unlocking process based on a password.
FIG. 8 is a flowchart showing an inside locking process when the user locks from the inside of the vehicle.
FIG. 9 is a flowchart showing an engine start process.
FIG. 10 is a flowchart showing a locking process when getting off the vehicle.
FIG. 11 is a flowchart showing processing when the portable device is left in the vehicle.
FIG. 12 is a flowchart showing unlocking processing at the time of boarding according to the second embodiment of the present invention.
FIG. 13 is a flowchart showing an unlocking process at the time of boarding according to a third embodiment of the present invention.
[Explanation of symbols]
1 vehicle
2 door
3 Outside handle
4 Door lock mechanism
11 Mobile devices
13 Unlock switch
14 Locking switch
15 Control unit
17 LF receiver
20 RF transmitter
31 Fixing machine
32 Control unit
33 LF transmitter
34 RF receiver
39 Start switch
40 Hook switch

Claims (8)

An identification code transmitted from the portable device, comprising: a portable device; and a control device provided on the vehicle side, the control device being connected to a door lock mechanism for locking or unlocking the door lock of the vehicle. And an identification code registered in advance in the control device, and if the two identification codes match, a predetermined control signal for locking or unlocking the door lock is sent from the control device to the door lock mechanism. a keyless entry system to be output to,
The portable device transmits a transmission code including an identification code in response to a transmission request signal,
The controller is
When a steering operation of the vehicle is detected, transmission request signal generation means for generating the transmission request signal and transmitting it to the portable device;
Collating means for collating an identification code transmitted from the portable device in response to the transmission request signal with an identification code registered in advance;
Control means for outputting the predetermined control signal to the door lock mechanism when the identification codes match;
When the door lock is locked in the vehicle, unlock prohibition information for prohibiting the unlocking of the door lock using the portable device is set, and the door lock is unlocked in the vehicle. are keyless entry device comprising a kite and a unlock availability setting means for resetting the unlocking prohibition information when the. The prohibition of unlocking the door lock using the portable device is realized by not causing the control means to output a control signal for unlocking the door lock from the control means. Keyless entry device for vehicles. The vehicle keyless entry device according to claim 1, wherein prohibition of unlocking the door lock using the portable device is realized by prohibiting transmission of the transmission request signal by the transmission request signal generation unit. Determining means for determining whether there the portable device in the vehicle after locking from outside the vehicle further provided in the control device,
The unlocking permission / prohibition setting means sets the unlocking prohibition information when the determination means determines that the portable device still exists in the vehicle after locking. A keyless entry device for vehicles as described in 1. The vehicle keyless entry according to claim 4, wherein the determination unit determines that the portable device exists in the vehicle when the collating unit can receive the identification code from the portable device for a predetermined time or more after locking. apparatus. The control device is further provided with an engine start switch for outputting an engine start permission signal. The engine start switch performs a pre-operation for shifting to a state in which the main operation can be performed and after the pre-operation. The engine start permission signal is output by being operated by the main operation .
The controller is
When the previous operation is performed, the transition to the main operation is prohibited until it is determined that the identification code on the portable device side matches the identification code on the control device side, and the identification code is determined to match. A first operation mode for permitting the transition to the main operation and outputting the engine start permission signal;
When the previous operation is performed, the shift to the main operation is permitted, and the engine start permission signal is output when it is determined that the identification code on the portable device side matches the identification code on the control device side A second operation mode to
The vehicle keyless entry device according to any one of claims 1 to 5 , wherein when the portable device is unlocked, the operation of the engine start switch is controlled in the second operation mode for at least a predetermined time. . The control device according to any one of claims 1 to 6 , wherein the control device further enables at least the door lock to be unlocked when an operation pattern of the handle matches a preset operation pattern. Keyless entry device for vehicles. The vehicle keyless entry device according to any one of claims 1 to 7 , wherein the portable device is further provided with an operation switch, and the transmission code can be transmitted also by operation of the operation switch.

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