JP2016204839A - Electronic key system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electronic key system including a mobile unit that offers a function for enhancing convenience of a user.SOLUTION: An initial state refers to a period until a user makes an action to a first input unit 7 of a mobile unit 1 after the first input unit shifts from a stand-by state, during which the first input unit is not operated by the action by the user, to a start-up state, in which the first input unit is operated by the action by the user, the first input unit being for selecting one among a plurality of control signals for controlling a vehicle. During the initial state, a control unit selects a prescribed signal among the plurality of control signals as an output control signal, and does not output the selected control signal until the user makes an action to a second input unit 9. Furthermore, a display control unit displays only an icon corresponding to the control signal selected by the control unit on an icon display unit 5, during the initial state.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a vehicle electronic key system.

  In vehicles, a so-called keyless entry system that locks / unlocks a door in accordance with an operation of a portable electronic key (hereinafter referred to as a “portable device”) possessed by a user is widely used (see Patent Document 1). ).

  In addition, electronic key systems that lock and unlock doors and start vehicle engines by touching (operating) the outer handle (door knob) of a vehicle door while carrying a portable device have also become widespread. (See Patent Document 2).

JP 2009-167638 A Japanese Patent Laying-Open No. 2015-042808

  In Patent Document 1, it is detected which door the portable device is close to. In Patent Document 2, it is detected whether the portable device is inside or outside the vehicle. In these conventional technologies, the location of the portable device is detected. However, there is no disclosure or suggestion of a mechanism for causing the portable device to recognize the state of the vehicle using the result and improving the operability of the user.

  In view of the above problems, an object of the present invention is to provide an electronic key system including a portable device that can provide a function for improving user convenience.

An electronic key system for solving the above problems is as follows.
The portable device includes a portable device (1) possessed by a user of the vehicle, and the portable device displays an icon indicating the contents of a plurality of control signals for controlling the vehicle and an icon for displaying the icon. A display control unit (11) to be displayed on the unit, a first input unit (7) for selecting one of a plurality of control signals by an action from the user, and an output from the user by an action from the user A second input unit (9) for instructing, a control unit (11) for outputting a control signal selected based on an instruction from the second input unit, and a transmission unit for transmitting radio waves of the control signal output by the control unit ( 13) and an input control unit (12) for controlling the switching of the state of the first input unit between a standby state in which the first input unit does not operate in response to an action from the user and an activation state in which the operation is performed by the action from the user. Shi
The control unit is predetermined among a plurality of control signals during an initial state after the first input unit transitions from the standby state to the activated state until there is an action from the user to the first input unit. Select one as the control signal to output, and do not output the selected control signal until there is an action from the user to the second input unit,
During the initial state, the display control unit displays only the icon corresponding to the control signal selected by the control unit on the icon display unit.

  The present invention is a configuration in which a user selects a control signal corresponding to an icon displayed on the icon display unit by an action on the first input unit, and then transmits a control signal from the portable device by an action on the second input unit Is assumed. Normally, all icons are displayed on the icon display unit, but icons of control signals that cannot be used or are not used are also displayed depending on conditions such as the state of the vehicle and the position of the portable device. Therefore, only icons (that is, usable control signals) that seem to be appropriate for display are displayed. As a result, the number of times the user operates the portable device can be reduced from the conventional two times to one time, and convenience is improved.

The figure which shows the structure of an electronic key system. The front view of a portable machine. The rear view of a portable machine. The block diagram which shows the electric constitution of a portable device. The flowchart explaining the operation control processing of a portable machine. The flowchart explaining the registration process of a portable device. The figure which shows the user's operation at the time of automatic selection execution, and the example of a transition of a display. The figure which shows another example of a user's operation and display transition at the time of automatic selection execution. The figure which shows a user's operation at the time of registration processing execution, and a transition of a display.

  As shown in FIG. 1, an electronic key system 100 includes a portable device 1 possessed by a user, an in-vehicle device 20 mounted on the vehicle, and a portable terminal 30 possessed by the user. The mobile terminal 30 may not be included. The portable device 1 is used for a remote keyless entry (hereinafter, abbreviated as “RKE”) function that is a remote operation of a vehicle, such as locking / unlocking or opening / closing a door (including a trunk).

  The in-vehicle device 20 includes an ECU 21 (information generation unit, position estimation unit of the present invention), a DCM (Data Communication Module) 24 (information output unit of the present invention) connected to the ECU 21, and a transmission / reception unit 25 (information output of the present invention). Part), a vehicle state detector 26, and a position detector 27.

  The above-described configuration includes “an in-vehicle device (20) mounted on a vehicle, and the in-vehicle device generates vehicle state information based on the vehicle state detection unit (26) that detects the state of the vehicle and the vehicle state. It has an information generation part (21) and an information output part (24, 25) which outputs vehicle state information. " In recent vehicles, it is common to perform control based on the state of the vehicle. In addition, operation control by bidirectional communication between the vehicle and the outside and provision of various functions are also widespread. With this configuration, the configuration of the present invention can be realized at a relatively low cost.

  The ECU 21 uses a known CPU 22, for example, a nonvolatile storage medium such as a flash memory, and includes a memory 23 for storing a control program and data necessary for the operation of the in-vehicle device 20, a signal input / output circuit, or a communication interface circuit. It is configured as a computer including / O29. Various functions of the ECU 21 are realized by the CPU 22 executing the control program stored in the memory 23.

  The DCM 24 is a communication circuit for the ECU 21 to communicate with the portable terminal 30 directly or via a public communication line. Normally, the ECU 21 communicates with the portable terminal 30 via the portable device 1 (the communication method between the portable device 1 and the portable terminal 30 will be described later). Thereby, the security of communication is securable.

  The transmission / reception unit 25 includes a reception antenna and receives radio waves of signals (details will be described later) transmitted from the portable device 1. Further, the transmission / reception unit 25 can detect the received signal strength (hereinafter referred to as “RSSI”) of the signal transmitted from the portable device 1. The ECU 21 estimates the position of the portable device 1 or the distance between the in-vehicle device 20 and the portable device 1 based on the RSSI. And based on the change (history) of a position or distance, it is determined whether the portable device 1 (namely, user) is approaching a vehicle.

  Further, the position information may be acquired from the portable device 1 or the portable terminal 30 to determine whether or not the user is approaching the vehicle. In this case, the portable device 1 may include a position detection unit having the same configuration as the position detection unit 37 (described later) of the mobile terminal 30.

  The above-described configuration is “the vehicle state detection unit includes a position estimation unit (21) that estimates the position of the portable device”. With this configuration, it is possible to grasp the position of the portable device (inside or outside the vehicle) or the positional relationship between the vehicle and the portable device.

  The transmission / reception unit 25 transmits a request signal for requesting transmission of an ID code for identifying the portable device 1 to the portable device 1, and is transmitted from the portable device 1 in response to the request signal. In the case of a configuration for receiving a response signal including an ID code, a transmission antenna is included. At this time, the ECU 21 performs operation control as a so-called smart entry system that instructs control such as locking / unlocking of each door, engine start permission, and the like based on the collation result of the received ID code and master code.

  When the configuration of the electronic key system 100 is a smart entry system, the transmission antenna is disposed in the vehicle interior and in the vicinity of each door. Therefore, it is possible to determine which transmission antenna the received response signal is a response to the request signal transmitted from. That is, it can be determined whether the portable device 1 is outside or inside the vehicle.

  Further, in the configuration of the electronic key system 100, when the transmission / reception unit 25 receives a control signal from the portable device 1, the control signal for starting the motor (engine or motor) of the vehicle is controlled by the motor control for controlling the motor. You may apply to the well-known remote engine starter which outputs to a part (not shown).

The vehicle state detection unit 26 detects at least one of the following.
-Detecting the state of the door lock device (not shown): Detects whether the vehicle door (including slide door, back door, trunk lid) is locked or unlocked.
Detecting the presence or absence of a user in the vehicle interior: for example, a switch or sensor provided in the seat of the vehicle seat, a camera for photographing the interior of the vehicle, a well-known tire air pressure sensor (changes in vehicle weight from changes in air pressure) Detection).
-Elapsed time since detecting that the user got on or off the vehicle.

  The position detection unit 27 includes a GPS receiver that receives a GPS signal from a known GPS satellite, and identifies the current position of the vehicle based on the received GPS signal. A known navigation device may be used as the position detection unit 27, and the ECU 21 may acquire the current position from the navigation device. As described above, position information may be acquired from the portable device 1 or the portable terminal 30 and used as the current position.

The ECU 21 creates vehicle state information including at least one of the following. For example, when the transmission request from the portable device 1 or the portable terminal 30 is received, or the vehicle state information is transmitted via the DCM 24 or the transmission / reception unit 25 at a predetermined cycle.
The position of the portable device 1 and the distance between the in-vehicle device 20 and the portable device 1 obtained based on RSSI. The positional relationship between the in-vehicle device 20 and the portable device 1 (whether the portable device 1 is close to the vehicle). It may be based on position information acquired from the portable device 1 or the portable terminal 30.
The state of the vehicle detected by the vehicle state detection unit 26.
The position of the vehicle detected by the position detection unit 27.

  The configuration described above is “vehicle state information includes a positional relationship between the portable device and the vehicle”. With this configuration, it is possible to determine whether the portable device (user) is outside or inside the vehicle, whether the user is approaching or leaving the vehicle, and based on this determination, a more appropriate control signal can be transmitted. You can choose.

  The portable terminal 30 uses, for example, a tablet-type terminal represented by a known smartphone (a general term for a portable information terminal that is equipped with a touch panel on a display portion such as a liquid crystal display and is operated with a finger). The portable terminal 30 includes a well-known CPU 31, a memory 32 composed of a non-volatile storage medium such as a flash memory connected to the CPU 31, a DCM 33 that communicates with the ECU 21 with the same configuration as the DCM 24 described above, and short-range communication Unit 36, position detection unit 37, operation unit 38, and display unit 39.

  Various functions of the mobile terminal 30 are realized by the CPU 31 executing the mobile terminal control program stored in the memory 32. When a smartphone is used as the mobile terminal 30, the mobile terminal control program is included in application software that operates on an OS (Operating System).

  The short-range communication unit 36 transmits / receives data to / from the short-range communication unit 14 (see FIG. 4) of the portable device 1 using a short-range wireless communication technology such as BLUETOOTH (BLUETOOTH is a registered trademark). . Note that BLUETOOTH can communicate only between devices that have been paired in advance, so a third party cannot intercept the communication content, and security can be ensured.

  The position detection unit 37 detects the position of the mobile terminal 30 based on the GPS signal received from the GPS satellite, similarly to the position detection unit 27 described above. In a configuration that can receive vehicle state information from the in-vehicle device 20, the distance between the vehicle and the portable device 1 can be calculated from the position of the vehicle included in the vehicle state information and the position of the mobile terminal 30. Then, the behavior of the portable device 1 (whether or not it is approaching the vehicle or the like) can be estimated from the history of distance calculation.

  The above-described configuration is “the vehicle state information includes the position of the vehicle, has a position acquisition unit that acquires the position of the mobile terminal, and a calculation unit that calculates the distance or positional relationship between the vehicle and the mobile terminal, and outputs The unit outputs the result including the calculated result in the vehicle state information. " With this configuration, it is not necessary to detect the position of the portable device 1 or calculate the positional relationship in the in-vehicle device 20.

  Further, the position of the mobile terminal 30 when the vehicle is parked may be set as the position of the vehicle. In this case, for example, when the vehicle speed is 0 km / h and the shift position is “P (parking)”, or when the parking brake is in an operating state, it is determined that the vehicle is parked. This determination may be performed by the in-vehicle device 20 (included in the vehicle state information) or the portable terminal 30. Further, as in the smart entry system described above, when the portable device 1 can determine whether the portable device 1 is outside or inside the vehicle, the vehicle is parked when the portable device 1 moves from the inside of the vehicle to the outside of the vehicle. It may be determined that When the mobile terminal 30 acquires information that the vehicle is parked, the position detection unit 37 detects the position of the mobile terminal 30. In this case, the vehicle position detector 27 is not required.

  The display unit 39 uses, for example, a well-known LCD or organic EL display. The operation unit 38 includes a touch panel or a mechanical switch formed on the display screen of the display unit 39.

  FIG. 2 shows a front view of the portable device 1. In the portable device 1, the surface on which the first input unit 7 and the icon display unit 5 (described later) and the like are arranged is referred to as a front surface, and the surface opposite to the front surface is referred to as a back surface. Moreover, let the left-right direction of FIG. 2 be the left-right width direction of the portable device 1, and let the up-down direction be the up-down width direction of the portable device.

  Near the center of the front of the portable device 1 in the left-right width direction, there is provided an icon display unit 5 that is arranged in a row in the vertical width direction of the portable device 1 and displays a plurality of icons indicating the control contents of the vehicle. FIG. 2 shows a state in which all icons are displayed for the sake of explanation.

  The icon display unit 5 displays five types of icons 6 (generic names of 6a to 6e, the same applies hereinafter). The icon display unit 5 is divided into five display areas 5a to 5e corresponding to the control contents. In FIG. 2, the boundaries of the display areas 5a to 5e are indicated by broken lines. However, for the sake of explanation, the boundaries are not actually displayed.

The display areas 5a to 5e divided into five are assigned as follows.
Display area 5a: a display area of an icon 6a indicating vehicle door lock control.
Display area 5b: A display area of an icon 6b indicating vehicle door unlock control.
Display area 5c: A display area of an icon 6c indicating unlocking control of the left power slide door of the vehicle.
Display area 5d: A display area of an icon 6d indicating unlocking control of the right side power sliding door of the vehicle.
Display area 5e: A display area of an icon 6e indicating unlocking control of the trunk of the vehicle.

  The arrangement, the number, and the control contents of the icons displayed on the icon display unit 5 are not limited to the above-described configuration. For example, an icon indicating start control of the motor of the vehicle, and opening / closing of the vehicle window An icon indicating control may be displayed. In this case, a radio wave of a control signal for instructing start of the prime mover of the vehicle or a control signal for instructing opening / closing of the window is transmitted from the portable device 1.

  The icon display unit 5 may display not only an icon related to vehicle control but also an icon indicating the state of the portable device 1 such as a battery remaining amount display of the portable device 1.

  The icon display unit 5 can switch between display and non-display of each icon 6 by turning on / off the icon display LED 17 (see FIG. 4). In this case, the icon display part 5 has a light transmission part which can transmit light and shows the control content of each icon 6a-6e. A light shielding part that blocks light is formed around the light transmitting part. Thereby, an icon is displayed by the LED 17 for icon display irradiating from the back surface of a light transmission part.

  Near the outer edge on the left side of the portable device 1, the first input unit 7 that selects one of the icons 6, that is, selects the type of control signal to be output to the control unit 11 (see FIG. 4), is an array of icons 6. They are arranged in a row in the same direction as the direction. The first input unit 7 can be switched between display and non-display for each operation range described later by turning on / off the first input unit display LED 18 (see FIG. 4). FIG. 2 shows a state where the first input unit 7 is displayed.

The first input unit 7 is divided into operation ranges 7a to 7e so as to correspond to the icons 6a to 6e as follows. That is, the operation range is divided for each type of control signal.
Operation range 7a: Select icon 6a (control signal for instructing locking of vehicle door).
Operation range 7b: Select icon 6b (control signal for instructing unlocking of vehicle door).
Operation range 7c: Select icon 6c (control signal for instructing unlocking of left power sliding door).
Operation range 7d: Select icon 6d (control signal for instructing unlocking of the right power slide door).
Operation range 7e: Select icon 6e (control signal for instructing unlocking of trunk).

  In addition, although the boundary between the operation ranges 7a-7e is illustrated by the dotted line, the boundary is not actually displayed.

  The first input unit 7 may use a mechanical switch having a mechanical intermittent contact that moves so as to be connected to or disconnected from the fixed contact of the switch in response to a force applied to the operation unit. Alternatively, a capacitance switch that detects a change in capacitance of a capacitor formed by an object (finger) touching the operation unit may be used. A mechanical switch or a capacitance switch is provided for each operation range, and it is possible to determine which operation range among the operation ranges 7a to 7e has been operated.

  As a switch having no mechanical intermittent contact, a switch based on, for example, an ultrasonic surface acoustic wave method, an acoustic pulse recognition method, an infrared light shielding method, or the like may be used in addition to the capacitance method.

  The first input unit 7 may have a planar shape arranged on the same plane as the icon display unit 5, a shape that rises slightly with respect to the icon display unit 5 (convex shape), a bowl shape (concave) shape, or the like. Any shape that is easy for the user to operate is acceptable.

  The first input unit 7 is configured to be lit, that is, configured to transmit light. The periphery of the first input unit 7 (portion excluding the icon display unit 5) forms a light blocking unit that blocks light. Moreover, the 1st input part 7 is comprised translucent, such as a smoke tone, so that the back side (for example, LED 18 for 1st input part display) of the 1st input part 7 is not visually recognized.

  A second input unit 9 is disposed below the center of the portable device 1 in the left-right width direction, that is, below the icon display unit 5. The second input unit 9 is a part where the user performs a pressing operation (push operation), and turns on / off a mechanical mechanical switch (not shown) disposed on the back side of the second input unit 9. It is a knob. The second input unit 9 is provided to be displaceable in the pressing direction. The second input unit 9 instructs the output of the control signal selected by the first input unit 7.

  It is desirable that the surface of the second input unit 9 be lower than the plane formed by the icon display unit 5. Thereby, an operation unintended by the user can be prevented. Further, a capacitance switch may be used for the second input unit 9.

  As shown in FIG. 3, the third input unit 10 is disposed on the back surface of the portable device 1. For the third input unit 10, for example, a capacitance switch is used. A mechanical switch may be used. The third input unit 10 instructs the first input unit 7 to transition from a standby state in which the first input unit 7 does not operate (react) to an action from the user to an operating startup state by a user operation.

  The above-described configuration is “the portable device has a third input unit (10) that instructs the first input unit to transition from the standby state to the activated state based on the action from the user, and the input control unit Is a switch control of the state of the first input unit based on an instruction from the third input unit ”. With this configuration, the portable device normally needs to operate only the function of detecting a change in the state of the third input unit, so that power consumption can be reduced.

  In addition, for example, when a well-known capacitance switch is used for the first input unit, an electric field is generated around the switch, which may be a noise source for radio waves communicated between the portable device and the vehicle depending on the situation. However, in the configuration of the present invention, in the standby state, the first input unit does not operate, so that transmission of radio waves from the portable device is not affected. Furthermore, when the first input unit is always in an activated state, there is a possibility that some operation is performed when the first input unit is pushed by an object in the bag. However, in the configuration of the present invention, in the standby state, the first input unit does not operate, so that no operation is accepted even if it is pushed by an object. Thereby, the possibility of accepting an operation unintended by the user can be reduced.

  FIG. 4 is a block diagram showing an electrical configuration of the portable device 1. The portable device 1 includes a control unit 11 (also a display control unit of the present invention), an input control unit 12 connected to the control unit 11, a transmission / reception unit 13 (a transmission unit and an information acquisition unit of the present invention), and a short-range communication unit. 14. Connected to the input control unit 12 are a first input unit 7, a second input unit 9, a third input unit 10, an icon display LED 17, a first input unit display LED 18, and a registration unit 19.

  The control unit 11 includes a CPU 11a, a memory 11b, peripheral circuits (not shown), and the like, and performs overall control of the portable device 1. Various functions of the portable device 1 are realized by the CPU 11a executing the portable device control program stored in the memory 11b.

  The control unit 11 acquires, from the input control unit 12, presence / absence of an action for each input unit (7, 9, 10) and a signal of the operation position of the first input unit 7. Then, the control unit 11 selects one of a plurality of predetermined control signals based on the content of the action for the first input unit 7. Thereafter, when an action for the second input unit 9 is acquired, the selected control signal is output to the transmission / reception unit 13 and the transmission / reception unit 13 transmits the radio wave of the control signal. The control signal output by the control unit 11 corresponds to the content of the icon 6. Specifically, the control signal for instructing locking of the vehicle door, the control signal for instructing unlocking, and the unlocking of the left power slide door are performed. A control signal for instructing, a control signal for instructing unlocking of the right power sliding door, and a control signal for instructing unlocking of the trunk.

  The input control unit 12 includes a circuit (not shown) that detects a change in the state of each input unit (7, 9, 10). The input control unit 12 outputs the detection result to the control unit 11. The input control unit 12 individually controls voltage supply / cutoff for each input unit. That is, when a voltage is supplied to each input unit by the input control unit 12, a state in which the user's action on the input unit can be detected (a startup state) is set. On the other hand, when the voltage supply to each input unit is interrupted by the input control unit 12, a state in which a user action on the input unit is not detected (standby state) is entered.

  Moreover, the input control part 12 contains the driver circuit (not shown) for performing lighting control of each LED (17,18).

  The input control unit 12 may execute the control of the control unit 11 and output the result to the control unit 11. Further, the control unit 11 and the input control unit 12 may be integrated.

  The transmission / reception unit 13 includes a transmission antenna, and transmits a control signal output from the control unit 11, that is, a radio wave of a signal instructing various controls of the vehicle (such as door locking / unlocking) from the transmission antenna. When the portable device 1 is compatible with the smart entry system, the transmission / reception unit 13 includes a reception antenna and receives a request signal transmitted from the in-vehicle device 20 through the reception antenna. Then, the control unit 11 generates a response signal in response to the request signal, and outputs the response signal to the transmission / reception unit 13 for transmission.

  The short-range communication unit 14 transmits and receives data to and from the mobile terminal 30 with the same configuration as the short-range communication unit 36 of the mobile terminal 30.

  An icon display LED (sometimes abbreviated as “LED”) 17 is individually provided for each icon at a position opposite to each icon 6 and emits light. Note that the LED 17 may be disposed at a position shifted from the position opposite to the icon 6, and light from the LED 17 may be guided to the icon 6 by a light guide unit (light guide).

  A first input unit display LED (also abbreviated as “LED”) 18 irradiates the back surface of the first input unit 7. For example, a light guide unit (not shown) is provided at a position facing the first input unit 7 so as to cover the entire range of the first input unit 7. LED18 is arrange | positioned in the side surface position of the light guide part, and irradiates light to the side surface of a light guide part. The light from the LED 18 enters the back surface of the first input unit 7 through the light guide unit.

  The registration unit 19 is used by a user to register a control signal (details will be described later). The registration unit 19 may use a vibration sensor or an acceleration sensor in addition to the mechanical switch or the capacitance switch as in the first input unit 7. That is, the registration operation includes applying vibration to the portable device 1 or shaking it in a predetermined direction. As will be described later, the second input unit 9 and the third input unit 10 may be used as a registration unit.

  The above-described configuration is “the portable device has a registration unit (19) for registering a control signal that the control unit selects during the initial state based on an action from the user”. According to this configuration, an icon that the user wants to display in the initial state (that is, a control signal that the user wants to transmit from the portable device) can be selected and registered, so that convenience for the user can be improved.

  FIG. 5 shows an operation control process included in the portable device control program and executed by the CPU 11 a of the control unit 11. The input control unit 12 places the first input unit 7 and the second input unit 9 in a standby state until there is a user action on the third input unit 10 (S11). In the standby state, the icon display LED 17 and the first input unit display LED 18 are turned off. The input control unit 12 always supplies a voltage to the third input unit 10.

  When a user action on the third input unit 10 is detected (S12: Yes), the input control unit 12 outputs the state to the control unit 11 and activates the first input unit 7 (S13). At this time, all the icon display LEDs 17 may be turned on, and all the icons (6a to 6e) of the icon display unit 5 may be displayed.

  Next, the control unit 11 refers to the memory 11b and determines whether or not a setting for automatically selecting one of a plurality of types of control signals (hereinafter referred to as “automatic selection setting”) is valid. When the automatic selection setting is valid (S14: Yes), the memory 11b is referred to (S15), and it is checked whether or not the control signal to be automatically selected is registered. When the control signal is registered (S16: Yes), the control unit 11 activates the second input unit 9 with respect to the input control unit 12, and displays only icons corresponding to the registered control signal. Instruct to turn on (S17). Thereafter, the process proceeds to step S18, where the action waiting state for the second input unit 9 is entered.

On the other hand, when the control signal is not registered (S16: No), vehicle state information reflecting the state of the vehicle is acquired using at least one of the following (S21).
Obtained from the in-vehicle device 20 via the transmission / reception unit 13.
Obtained from the mobile terminal 30 via the short-range communication unit 14.

  The above-described configuration is as follows: “The portable device has information acquisition units (13, 14) that acquire vehicle state information reflecting the state of the vehicle, and the control unit outputs a control signal to be output based on the vehicle state information. "Select". With this configuration, a more appropriate control signal can be selected by referring to, for example, the locked state of the vehicle door.

  Moreover, the structure which acquires vehicle state information from the portable terminal 30 is "the portable terminal contains the portable terminal which a user carries, an output part which outputs the acquired vehicle state information, the acquisition part which acquires vehicle state information, and ”. With this configuration, even when the distance between the in-vehicle device 20 and the portable device 1 is large and communication is not possible, the portable device 30 acquires the vehicle state information through the relay operation of the portable terminal 30 via the public communication line or the like. it can.

  Next, the control unit 11 selects a control signal based on the vehicle state information, and instructs the input control unit 12 to display (light) only the icon corresponding to the control signal (S22). Thereafter, the process proceeds to step S18, where the action waiting state for the second input unit 9 is entered.

The selection of the control signal based on the vehicle state information uses at least one of the following.
-When the door is locked, select the control signal that instructs the door to unlock.
・ When the door is unlocked, select the control signal that instructs the door to be locked.
-Select a control signal to unlock the door when the user is approaching the vehicle.
• Select a control signal to lock the door when the user is leaving the vehicle.
You may add on condition that there is no passenger | crew in the vehicle interior. A power slide door may be used instead of the door.

  When the user is approaching the vehicle, the control signal may be selected when the distance between the user and the vehicle falls below a predetermined value. Further, when the distance between the user and the vehicle exceeds a predetermined value, the control signal may not be selected. At this time, all icons are turned off.

  When there are a plurality of control signals corresponding to the vehicle state, a signal having a high priority may be selected. For example, with regard to unlocking, the priority of the driver's seat door is set to the highest priority, and the passenger seat door, the left power slide door, the right power slide door, the trunk (or back door), and all the doors are set in this order. Further, when there are a plurality of control signals corresponding to the vehicle state, all of the plurality of control signals may be selected. At this time, the icon corresponding to the control signal is turned on.

  When the input control unit 12 detects an action to the second input unit 9 within a predetermined time (S18: Yes), the control unit 11 instructs the transmission / reception unit 13 to transmit the selected control signal (S19). ). Thereafter, the process returns to the standby state (S20). On the other hand, when an action to the second input unit 9 is not detected within a predetermined time (S18: No → S23: Yes), the process returns to the standby state (S20).

  When the automatic selection setting is not valid (S14: No), the control unit 11 turns on all the icon display LEDs 17 and displays all the icons (6a to 6e) of the icon display unit 5 to the input control unit 12. The first input unit display LED 18 is instructed to be lit (S24). Thereafter, the first input unit 7 is in an action waiting state.

  As a result, the user can easily grasp that the first input unit 7 is activated, and can also grasp the position of the first input unit 7. Further, since all the icons 6 are displayed, the user can grasp which type of control signal can be selected. It can also be understood that the automatic selection setting is not valid.

  When the input control unit 12 detects an action to the first input unit 7 within a predetermined time (S25: Yes), only the LED corresponding to the operation position of the first input unit 7 is turned on among the icon display LEDs 17 ( S26). That is, for example, when there is an action on the operation range 7a, only the LED corresponding to the icon 6a is turned on. Thus, the user can easily grasp which control signal is currently selected. And while making the 2nd input part 9 into a starting state, it progresses to step S18 and will be in the waiting state of the action with respect to the 2nd input part 9. On the other hand, when an action to the first input unit 7 is not detected within a predetermined time (S25: No → S27: Yes), the process returns to the standby state (S20).

  When only the icon corresponding to the registration information is displayed in step S17, or when only the icon corresponding to the control signal based on the vehicle state information is displayed in step S22, the input control unit 12 is the first input unit. When a user action for 7 is detected, the action is prioritized and an icon at a position operated by the user is displayed.

  It is good also as a structure which does not use the 3rd input part 10 by the above-mentioned process. In this case, the input control unit 12 always keeps the first input unit 7 in the activated state, as described later in a configuration in which “the first input unit serves as the second input unit and the third input unit”. Step S12 is in a state of waiting for an operation of the first input unit 7.

  FIG. 6 shows a control signal registration process included in the portable device control program and executed by the CPU 11a of the control unit 11. The input control unit 12 puts the first input unit 7 and the second input unit 9 in a standby state until there is a user action on the third input unit 10 (S31).

The transition operation to the registration mode uses at least one of the following in order to distinguish it from the operation control process.
Operation of the registration unit 19
-Long press of the third input unit 10 (may be the second input unit 9) (for example, press and hold for more than 1 second).
-Pressing the third input unit 10 (may be the second input unit 9) multiple times (for example, pressing twice within a predetermined time).
-Simultaneous pressing of a plurality of input units (for example, the second input unit 9 and the third input unit 10).

  When the input control unit 12 detects an action for shifting to the registration mode by the user (S32: Yes), the input control unit 12 activates the first input unit 7 and All icons (6a to 6e) are displayed (all icon display LEDs 17 are lit) (S33).

  In the registration mode, the lighting color of the icon display LED 17 may be different from that in the normal mode. In the registration mode, the icon display LED 17 may be blinked. In addition to the LED 17 for icon display, an LED indicating the registration mode may be provided.

  Thereafter, the first input unit 7 is in an action waiting state.

  When the user operates the first input unit 7 and selects an icon to be registered (S34: Yes), the input control unit 12 performs lighting control of the icon display LED 17 so as to display only the icon selected by the user. (S35). After this, the system waits for a user registration operation.

The registration operation uses at least one of the following.
・ Press the second input unit 9 once.
-Long press of the second input unit 9 (for example, keep pressing for more than 1 second).
-Press the second input unit 9 a plurality of times (for example, press twice within a predetermined time).
-Operation of the registration unit 19 (switch operation, giving vibration to the portable device 1, shaking the portable device, etc.).
-Simultaneous pressing of a plurality of input units (for example, the second input unit 9 and the third input unit 10).

  When the information which detected the user's registration operation is acquired from the input control part 12 (S36: Yes), the control part 11 memorize | stores the registration content in the memory 11b (S37). That is, the control signal corresponding to the icon is stored. Thereafter, the process returns to the standby state (S38).

  When a predetermined time elapses while waiting for icon selection (that is, waiting for an action for the first input unit 7) and waiting for a user's registration operation (that is, waiting for an action for the second input unit 9), the process returns to the standby state.

In the configuration of FIG. 6, the user can register one control signal, but a plurality of control signals may be registered. For example, when three control signals can be registered, the registration area (associated with the registration number) of the memory 11b is designated and registered as follows.
-During the registration operation, the second input unit 9 is stored in the first area by long pressing, the second area by pressing twice, the third area by pressing three times.
At the time of registration operation, the registration area is designated by the number of vibrations of the registration unit 19 (for example, the first area if it is once)

  When a predetermined number of control signals are registered and a new control signal is registered, the oldest registered content may be overwritten.

  Selection of a plurality of registered control signals (designation of registration area) is performed by, for example, designating the first area by long pressing the third input unit 10, the second area by pressing twice, and the third area by pressing three times. Thus, the control signal in the area designated by the CPU 11a may be read.

  FIG. 7 shows a transition example of user operation and display during execution of automatic selection in the operation control process when the portable device 1 (that is, the user) is outside the vehicle and the door is unlocked. As shown in FIG. 7A, in the standby state, the icon display LED 17 and the first input portion display LED 18 are turned off. The user's finger is indicated by F.

  As shown in FIG. 7B, when the user operates (presses) the third input unit 10 in the standby state, all the icon display LEDs 17 are lit and all the icons 6 are displayed. The first input portion display LED 18 is also lit. Here, since the door is unlocked when the automatic selection setting is valid, only the “lock” icon 6a is displayed as shown in FIG. 7C. Thereafter, as shown in FIG. 7D, when the user operates the second input unit 9, a control signal (lock) is transmitted.

  FIG. 8 shows a transition example of the user's operation and display during execution of automatic selection in the operation control process when the portable device 1 (that is, the user) is outside the vehicle and the door is locked. As shown in FIG. 8A, in the standby state, the icon display LED 17 and the first input portion display LED 18 are turned off.

  As shown in FIG. 8B, when the user operates (presses) the third input unit 10 in the standby state, all the icon display LEDs 17 are lit and all the icons 6 are displayed. The first input portion display LED 18 is also lit. Here, since the door is locked when the automatic selection setting is valid, only the “unlock” icon 6b is displayed as shown in FIG. 8C (corresponding to other icons of the LEDs 17). The ones that have been turned off). Thereafter, when the user operates the second input unit 9 as shown in FIG. 8D, a control signal (unlock) is transmitted.

  7 and 8, when the user operates the third input unit 10 in the standby state, not all icons may be displayed, and only the icons corresponding to the vehicle state or registered may be displayed immediately. . In this case, the states of FIG. 7B and FIG. 8B are skipped, and the state shifts to the states of FIG. 7C and FIG. When the automatic selection setting is not valid, when the user operates the third input unit 10 in the standby state, the state transitions to the states of FIGS. 7B and 8B.

  FIG. 9 shows an example of transition of user operation and display during registration processing execution. As shown in FIG. 9A, in the standby state, the icon display LED 17 and the first input portion display LED 18 are turned off. In FIG. 9, the second input unit 9 is used as a registration unit.

  As shown in FIG. 9B, when the operation for shifting to the registration mode is performed with the third input unit 10 in the standby state, all the icon display LEDs 17 are lit and all the icons 6 are displayed. The first input portion display LED 18 is also lit. Here, the first input unit 7 is operated to select an icon corresponding to the function to be registered. As shown in FIG. 9C, when an icon is selected, only the icon (“unlock” icon 6b) is displayed.

  Thereafter, as shown in FIG. 9D, when the user performs a registration operation on the second input unit 9, a control signal corresponding to the selected icon is registered in the memory 11b.

  In the above embodiment, an example in which the first input unit, the second input unit, and the third input unit are provided separately has been described, but the second input unit may also serve as the third input unit. For example, the third input unit 10 shown in FIGS. 2 and 3 is eliminated, and the function of the third input unit 10 is performed by the second input unit 9. In this case, the input control unit 12 sets the first input unit 7 in a standby state until there is an action for the second input unit 9, and activates the first input unit 7 when there is an action for the second input unit 9. Transition to. The subsequent operation is the same as in the above embodiment. Thus, since the second input unit also serves as the third input unit, the configuration of the portable device can be simplified.

  The first input unit may also serve as the second input unit and the third input unit. For example, the second input unit 9 and the third input unit 10 shown in FIGS. 2 and 3 are eliminated, and the functions of these input units are performed by the first input unit 7.

  In this case, the input control unit 12 always keeps the first input unit 7 in the activated state. However, the input control unit 12 keeps the icon 6 off until there is an action from the user to the first input unit 7, and even if there is an action on the first input unit 7 in this off state, the control is performed. Disable signal selection. That is, when the icon 6 is turned off, the first input unit 7 is in a standby state as an input unit for selecting a control signal. Further, the input control unit 12 hides the first input unit 7 when the icon 6 is turned off.

  When there is an action from the user to the first input unit 7 with the icons 6 turned off, the input control unit 12 turns on the LEDs 17 of all the icons 6 and displays all the icons 6. In addition, the LED 18 is turned on to bring the first input unit 7 into a display state. As a result, the user can grasp that the first input unit 7 has transitioned to a state where the control signal can be selected (starting state).

  Thereafter, the control unit 11 selects one control signal to be output from among the plurality of control signals based on the user's action on the first input unit 7. After selecting the control signal, the control unit 11 causes the transmission / reception unit 13 to transmit the selected control signal based on an action from the user to the first input unit 7. The action for the first input unit 7 that instructs the output of the control signal may be any action. For example, after the user performs a touch operation on the first input unit 7 to select a control signal, an action of releasing the finger from the first input unit 7 or a double tap on the first input unit 7 (continuously 2 An operation of touching once) and a long press on the first input unit 7 (touch operation for a predetermined time or longer) may be an action for the first input unit 7 instructing to output a control signal. The action for instructing the registration of the control signal may be the same.

  As described above, the configuration of the portable device 1 can be further simplified because the second input unit 9, the third input unit 10, and the configuration related thereto can be omitted.

  The first input unit may also serve as the second input unit. For example, the second input unit 9 shown in FIGS. 2 and 3 is eliminated, and the function of the second input unit 9 is performed by the first input unit 7.

  In this case, the input control unit 12 puts the first input unit 7 in a standby state until there is an action on the third input unit 10, and transitions the first input unit 7 to an activated state when there is an action. Thereafter, the control unit 11 selects one control signal to be output from among the plurality of control signals based on the user's action on the first input unit 7. Thereafter, the control unit 11 sends the selected control signal based on the action on the first input unit 7 (the finger has left the first input unit 7, long press of the first input unit 7, double tap, etc.). Output. The action for instructing the registration of the control signal may be the same.

  As described above, since the second input unit 9 and the configuration related thereto can be omitted, the configuration of the portable device 1 can be simplified.

  The first input unit may also serve as the third input unit. For example, the third input unit 10 shown in FIGS. 2 and 3 is eliminated, and the function of the third input unit 10 is performed by the first input unit 7.

  In this case, the first input unit 7 can select the control signal based on the action for the first input unit 7 in the same manner as the example in which the first input unit also serves as the second input unit and the third input unit. Transition to (startup state). After the control signal is selected using the first input unit 7, the selected control signal is output based on the action for the second input unit 9.

  Since the 3rd input part 10 and the structure relevant to this can be abbreviate | omitted as mentioned above, the structure of the portable device 1 can be simplified.

  Although the embodiments of the present invention have been described above, these are merely examples, and the present invention is not limited to these embodiments, and the knowledge of those skilled in the art can be used without departing from the spirit of the claims. Various modifications based on this are possible.

DESCRIPTION OF SYMBOLS 1 Portable machine 5 Icon display part 7 1st input part 9 2nd input part 10 3rd input part 11 Control part (display control part)
12 Input control unit 13 Transmission / reception unit (transmission unit, information acquisition unit)
14 Short-range communication unit (information acquisition unit)
19 registration unit 20 in-vehicle device 21 ECU (information generation unit, position estimation unit)
24 DCM (information output unit)
25 Transmission / reception unit (information output unit)
26 Vehicle State Detection Unit 27 Position Detection Unit 100 Electronic Key System

Claims (12)

Including a portable device (1) owned by the user of the vehicle,
The portable device is
An icon display section (5) for displaying an icon indicating the contents of a plurality of control signals for controlling the vehicle;
A display control unit (11) for displaying the icon on the icon display unit;
A first input unit (7) for selecting one of the plurality of control signals by an action from the user;
A second input unit (9) for instructing output of the control signal by an action from the user;
A control unit (11) for outputting the selected control signal based on an instruction of the second input unit;
A transmission unit (13) for transmitting a radio wave of a control signal output by the control unit;
An input control unit (12) for switching and controlling a state of the first input unit between a standby state that does not operate in response to an action from the user and an activation state that operates according to the action from the user;
Have
The controller is
During the initial state from when the first input unit transitions from the standby state to the activated state until there is an action from the user to the first input unit, a predetermined one of the plurality of control signals is predetermined. Selected one as the output control signal, and
Do not output the selected control signal until there is an action from the user to the second input unit,
The display control unit
During the initial state, only the icon corresponding to the control signal selected by the control unit is displayed on the icon display unit. The portable device is
An information acquisition unit (13, 14) for acquiring vehicle state information reflecting the state of the vehicle;
The electronic key system according to claim 1, wherein the control unit selects the control signal to be output based on the vehicle state information.   The electronic key system according to claim 2, wherein the vehicle state information includes a positional relationship between the portable device and the vehicle. The portable device is
A third input unit (10) for instructing the first input unit to transition from the standby state to the activated state based on an action from the user;
4. The electronic key system according to claim 1, wherein the input control unit switches and controls a state of the first input unit based on an instruction from the third input unit. 5. . The portable device is
The control unit according to any one of claims 1 to 4, wherein the control unit includes a registration unit (19) for registering a control signal to be selected during the initial state based on an action from the user. Electronic key system as described in.   The electronic key system according to claim 5, wherein at least one of the first input unit, the second input unit, and the third input unit also serves as the registration unit.   The electronic key system according to any one of claims 1 to 6, wherein the first input unit also serves as the second input unit.   The electronic key system according to claim 4, wherein the first input unit also serves as the second input unit and the third input unit.   The electronic key system according to claim 4, wherein the first input unit also serves as the third input unit.   The electronic key system according to claim 4, wherein the second input unit also serves as the third input unit. In-vehicle device (20) mounted on the vehicle,
The in-vehicle device is
A vehicle state detector (26) for detecting the state of the vehicle;
An information generator (21) for generating vehicle state information based on the state of the vehicle;
An information output unit (24, 25) for outputting the vehicle state information;
11. The electronic key system according to claim 2, wherein the electronic key system is cited by claim 2 or claim 2.   The electronic key system according to claim 11, wherein the vehicle state detection unit includes a position estimation unit (21) for detecting a position of the portable device.

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