JP2016210309A - Light control system and light control device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily set a reference value without an erroneous operation.SOLUTION: A light control system 100 includes: a light control device 10 for automatically lighting a light on the basis of brightness of the surroundings and a reference value and first to third switches 20. The light control device includes: a storage section 12 for storing the reference value to automatically light the light; a switch determination section 13 for determining the state of the switch 20; a control section 11 which does not change the reference value when the switch determination section determines that the first switch has a first value or the switch determination section determines that the first switch has a second value and the second switch has a third value and changes the reference value when it is determined that an on-off operation or an off-on operation of the third switch is performed within a second specified time after the second switch becomes the first value or the second value when the switch determination section determines that the first switch becomes the second value and subsequently the second switch becomes the first value or the second value within a first specified time.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a vehicle light control system and a light control device for turning on and off a headlight of a vehicle at an appropriate timing based on ambient brightness.

  2. Description of the Related Art Conventionally, there is known a control device for detecting brightness around a vehicle and automatically turning on / off a headlight of the vehicle at an appropriate timing. In such a control device, the change of the reference value, which is a threshold value for turning on the vehicle light, is performed only immediately after the purchase of the vehicle. For example, it is not frequently used, so it is usually displayed on the multi-information display in the meter. This is done by operating a switch. However, since an inexpensive vehicle is not equipped with such a display itself, it is necessary to bring the vehicle to a dealer and make adjustments in order to change the reference value. As countermeasures against such problems, the following light control devices are known.

  For example, Patent Document 1 discloses a lamp control device for the purpose of matching the timing at which a human wants to turn on and off a lamp with the timing at which the lamp is turned on and off by automatic control. The lamp control device includes an illuminance detection unit that detects illuminance and outputs illuminance information, a storage unit that stores a reference illuminance for switching the lamp on / off, an illuminance information, the reference illuminance, and a lamp on / off state. And a control unit that automatically switches on / off the lamp, and even when the control of the lamp on / off is automatically controlled by the control unit, according to the lamp on / off switching instruction It is possible to switch on / off of the lamp.

  However, depending on the setting of the reference illuminance to be turned on, the function may not be used because it does not match the user's sense, and as a result, a night-time no-light operation may occur, resulting in danger. As a countermeasure against such a problem, there is a method in which several threshold values are prepared on the vehicle side and the user selects a favorite threshold value.

  For example, Patent Document 2 discloses that in an autolight control device that automatically turns on a small light and a headlight of a car according to the ambient brightness, the user can easily adjust the setting of illuminance for turning on and off. An intended auto light control device is disclosed. This automatic light control device compares a detection value of an illuminance sensor with a reference value, and a memory circuit is provided in a comparator circuit of the automatic light control device that controls blinking of a small light or the like based on the comparison result. Then, the auto light control device repeatedly applies a predetermined change to the reference value according to the operation when the lighting switch for turning on / off the small light or the like is operated in the memory circuit, and the changed reference value is set. The user can easily adjust the illuminance setting for lighting and extinguishing by controlling lighting and extinguishing of the small light and the like based on it.

JP 2005-238940 A JP-A-9-136569

  The present invention provides a light control system and a light control device that allow a user to easily set a reference value without erroneous operation even if the vehicle is not equipped with a multi-information display or the like.

In order to solve the above-described problems, a vehicle light control device that automatically turns on a light of the vehicle based on the brightness around the vehicle and a reference value, and a function different from each other without having a lighting-related function In the vehicle light control system comprising: at least a binary first switch and at least a ternary second switch; and at least a binary third switch having a light lighting related function, the vehicle light control device includes: A storage unit that stores a reference value for automatically turning on the light, a switch determination unit that determines the state of the first switch to the third switch, a control unit that changes the reference value based on the determination of the switch determination unit, When the switch determination unit determines that the first switch is the first value, the control unit does not change the reference value, and the switch determination unit determines that the first switch is the second switch. And the second switch is determined to be the third value, the reference value is not changed, and the switch determination unit sets the first switch to the second value, and then the second switch does not change within the first specified time. When it is determined that the first value or the second value has been reached, the on / off operation or off / on operation of the third switch is performed within the second specified time after the second switch has reached the first value or the second value. A light control system is provided for changing the reference value when it is determined that the reference value has been met.
According to this, even if there is no equipment such as a multi-information display, the operation of the normally equipped switch that does not have the light lighting related function and the operation of the normally equipped switch that has the light lighting related function are performed on a daily basis. In combination with a series of operations that are meaningless and are not normally performed, it is possible to avoid erroneous operation for the user, and the last operation to change the reference value is related to the light lighting related function. By assigning a normally-equipped switch operation having the function to allow the user to recognize that it is a light-related operation, it is possible to provide a light control system that allows the user to easily set a reference value.

Furthermore, the first switch is a start switch for switching the start / stop function of the vehicle, and the second switch is a direction indicator switch for switching the lighting function of the vehicle direction indicator. The third switch may be a light switch for switching operation of turning on / off the light of the vehicle.
According to this, by combining the start switch and direction indicator switch, which are normally equipped with no light lighting related functions, and the switching operation of the light switch, even if there is no equipment such as a multi-information display, The user can easily set the reference value without erroneous operation.

Further, the first value of the start switch is in the stop state, the second value of the start switch is the accessory power-on state, the first value of the direction indicator switch is the left turn instruction state, and the second value of the direction indicator switch The value is a right turn indicating state, the third value of the turn indicator switch is in a neutral state, the first value of the light switch is in the off state, and the second value of the light switch is in an automatic control state. Also good.
According to this, in the state where the accessory power-on state of the start switch and the left turn instruction state and the right turn instruction state of the direction indicator switch are combined, there is no meaning in the daily operation of operating the light switch. By combining as a series of operations that are not present, the user can avoid changing the reference value by mistake.

Further, when the switch determination unit determines that the start switch is in the accessory power-on state, and determines that the direction indicator switch is in the left turn instruction state or the right turn instruction state within the first specified time. The number of times the light switch is switched from the extinguished state to the automatic control state within the second specified time is measured, and the control unit changes the reference value based on the state and number of times of the direction indicator switch. May be a feature.
According to this, by determining that each state is reached within a predetermined time, the user can prevent erroneous operations such as unintentionally changing the reference value.

Furthermore, the left turn instruction state and right turn instruction state of the direction indicator switch are switches that set the reference value to high sensitivity and low sensitivity, and the number of times the light switch is changed from the off state to the automatic control state indicates the amount of change in the reference value. It may be characterized by showing.
According to this, the left turn instruction state of the direction indicator switch (state where the switch lever is raised) changes the reference value to a highly sensitive direction, and the right turn instruction state (state where the switch lever is lowered) lowers the reference value. By combining the change in the direction of sensitivity and the operation that means the number of times the switch operation of the light switch means the amount of change from the current value of the reference value, the reference value can be set with an easy operation that is easy for the user to understand. It can be carried out.

Further, the first value of the start switch is in the stop state, the second value of the start switch is the accessory power-on state, the first value of the direction indicator switch is the left turn instruction state, and the second value of the direction indicator switch The value is a right turn indicating state, the third value of the turn signal switch is a neutral state, the first value of the light switch is a passing off state, and the second value of the light switch is passing on. Also good.
According to this, in the daily operation of operating the light switch called passing in the state where the accessory power-on state of the start switch and the left turn instruction state and the right turn instruction state of the direction indicator switch are combined, there is no meaning. By combining as a series of operations that are not normally performed, the user can avoid changing the reference value by mistake.

Further, when the switch determination unit determines that the start switch is in the accessory power-on state, and determines that the direction indicator switch is in the left turn instruction state or the right turn instruction state within the first specified time. In this case, the number of times the light switch is switched from the passing-off state to the passing-on state within the second specified time may be measured, and the control unit may set the reference value corresponding to the number of times.
According to this, by determining that each state is reached within a predetermined time, the user can avoid an erroneous operation such as unintentionally changing the reference value, and a passing operation. By setting the reference value itself according to the number of times, the reference value can be set by an easy operation that is easy for the user to understand.

Furthermore, after the control unit changes the reference value or by a predetermined operation of the user, the reference value may be notified to the user by a visual and / or auditory method.
According to this, the user can know the current reference value.

In order to solve the above-mentioned problem, a vehicle light control device for automatically turning on a light of a vehicle based on brightness around the vehicle and a reference value, and storing a reference value for automatically turning on the light Storage unit, at least a binary first switch and at least a ternary second switch having different functions without having a light lighting related function, and at least a second binary having a light lighting related function. A switch determining unit that determines a state of the switch, and a control unit that changes the reference value based on the determination of the switch determining unit, and the control unit determines that the first switch is the first value. If the reference value is not changed and the switch determination unit determines that the first switch is the second value and the second switch is the third value, the reference value is not changed and the switch determination unit When it is determined that the switch has the second value and then the second switch has reached the first value or the second value within the first specified time, the third switch is turned on or off or the second switch is turned on. A vehicle light control device is provided that changes the reference value when it is determined that the first value or the second value has been reached within the second specified time.
According to this, even if there is no equipment such as a multi-information display, the operation of the normally equipped switch that does not have the light lighting related function and the operation of the normally equipped switch that has the light lighting related function are performed on a daily basis. In combination with a series of operations that are meaningless and are not normally performed, it is possible to avoid erroneous operation for the user, and the last operation to change the reference value is related to the light lighting related function. By assigning a normally-equipped switch operation having the function to allow the user to recognize that it is a light-related operation, it is possible to provide a light control device that allows the user to easily set a reference value.

  As described above, according to the present invention, there is provided a light control system and a light control device that allow a user to easily set a reference value without erroneous operation even if the vehicle is not equipped with a multi-information display or the like. Can be provided.

1 is a block diagram of a light control system according to a first embodiment of the present invention. Explanatory drawing which shows the content of the reference value table part in a light control system of the 1st Example which concerns on this invention, and a memory | storage part. Explanatory drawing which shows the transition of each switch in the light control system of the 1st Example which concerns on this invention. The time chart of operation of each switch in the light control system of the 1st example concerning the present invention. The flowchart which shows the setting method of the reference value in the light control system of the 1st Example which concerns on this invention. The flowchart which shows the lighting control method of the light in the light control system of the 1st Example which concerns on this invention.

Embodiments according to the present invention will be described below with reference to the drawings.
<First Example>
A light control system 100 according to the present embodiment will be described with reference to FIG. The light control system 100 includes a light control device 10 that automatically turns on the light 31 of the vehicle 1, and first to third switches 20.

  The first to third switches 20 are switches different from the first switch having at least two values that do not have a lighting 31 lighting-related function, and have a lighting 31 lighting-related function. A second switch having at least three values and a third switch having a function related to lighting of the light 31 and having at least two values. That is, the first switch and the second switch are switches that do not have a lighting-related function of the light 31 and have different functions.

  The light 31 refers to lighting that is turned on / off depending on the brightness / darkness of the surroundings of the vehicle 1, such as headlights, small lights, and meter lighting of the vehicle 1. The lighting-related function of the light 31 refers to an automatic control function for turning on / off the light 31 and automatically turning it on / off. The third switch is a switch having these functions, and the first switch and the second switch. Is a switch that does not have these functions. In this example, the third switch is a light switch 23 for switching on and off the light 31 of the vehicle 1 and the automatic control function.

  The first switch is a start switch 21 for switching the start / stop function of the vehicle 1. The second switch has three values of neutral / left turn / right turn, and is a direction indicator switch 22 for switching operation of the turning on / off function of the direction indicator of the vehicle 1. The first to third switches are not limited to this. For example, the first switch may be an air conditioner switch that turns on / off an air conditioner that does not have the lighting 31 related function, or the second switch. May be a window up / down switch having at least three values without having the lighting 31 related function.

  The light control device 10 automatically turns on the light 31 of the vehicle 1 based on the ambient brightness and brightness reference values detected by the brightness sensor 40 provided in the vehicle 1. The light control device 10 includes a reference value table unit 14 that stores a reference value for each brightness level, a storage unit 12 that stores a reference value for automatically turning on the light 31, and a first switch to a third switch. The switch determination part 13 which determines the state of a switch, ie, the start switch 21, the direction indicator switch 22, and the light switch 23, and the control part 11 which changes a reference value based on the determination of the switch determination part 13 are provided. Note that the brightness sensor is a sensor that has a photoelectric element and senses light, such as an illuminance sensor or a solar radiation sensor.

  As shown in FIG. 2, the reference value for each level held in the reference value table unit 14 is selected from a high-sensitivity level 1 (L1) to a low-sensitivity level N (Ln) so that it can be selected according to the user's preference. N levels. The brightness reference value is a threshold for automatically turning on or off the light 31 of the vehicle 1. For determining the brightness, an infrared light amount may be added to the visible light amount.

  The storage unit 12 stores a reference value selected by the user from the reference values held in the reference value table unit 14. The light control device 10 automatically turns on and off the light 31 based on the reference value stored in the storage unit 12. FIG. 2 shows a case where the storage unit 12 stores a reference value of level 3 (L3).

  The switch determination unit 13 determines the states of the start switch 21, the direction indicator switch 22, and the light switch 23 that are the first to third switches. The state of the first switch to the third switch refers to each value of each switch. For example, the state of the first switch refers to the first value or the second value, and the state of the second switch refers to the first value, the second value, or the third value.

  As shown in FIG. 3A, the start switch 21, which is the first switch, can actually take three values, but the OFF state is the first value, and the accessory power-on state and the engine or motor start state Is the second value. The engine or motor start state means an ignition-on state in an engine vehicle, and a running battery start state in a hybrid / electric vehicle. The first switch may have at least two values and may have two or more values. As shown in FIG. 3B, the direction indicator switch 22 that is the second switch has a first value for a left turn indicating a left turn and a second value for a right turn indicating a right turn. The neutral state indicating is the third value. As shown in FIG. 3C, the light switch 23 that is the third switch has a first value in the unlit state and a second value in the lit state and the automatic control state. The third switch may take at least two values, may have two or more values, and further has two values of passing ON / OFF in each of the lighting state and the automatic control state, and a total of five values. Have The switch determination unit 13 determines which state these switches are in.

  With reference to FIG. 4, a series of operations of each switch for changing the reference value will be described. When the switch determination unit 13 determines that the start switch 21 is in the OFF state (stop state) of the first value, the control unit 11 does not change the reference value in the storage unit 12. Further, the control unit 11 is configured such that the switch determination unit 13 is in the second value accessory power-on state or the engine or motor start state, and the direction indicator switch 22 is operated within the first specified time. If it is determined that the third value is in a neutral state, the reference value in the storage unit 12 is not changed.

  On the other hand, in cases other than the above, the switching operation of the first value and the second value of the light switch 23 is performed within the second specified time after the turn signal switch 22 enters the left turn instruction state of the first value. If it is determined that the reference value is found, the reference value in the storage unit 12 is changed. That is, the case other than the above is a case where the switch determination unit 13 determines that the start switch 21 is in the accessory power-on state or the like and then the direction indicator switch 22 is in the left turn instruction state within the first specified time. The switching operation of the first value and the second value of the light switch 23 means that the light switch 23 is operated from the on state to the off state or from the off state to the on state. Further, in the drawing, the first value left turn instruction state in which the direction indicator switch 22 is changed to the high sensitivity direction has been described as an example. However, the second value right turn instruction state to be changed to the low sensitivity direction is described. Also good. In addition, this figure shows an example in which the switching operation from the light-off state of the first value of the light switch 23 to the automatic control state of the second value is performed twice. In this case, since the turn indicator switch 22 is in the left turn instruction state in which the direction indicator switch 22 is changed to a highly sensitive direction, the control unit 11 sets the two-level highly sensitive reference value. The direction indicator switch 22 is returned to the neutral state after the reference value is changed.

  According to this, even if there is no equipment such as a multi-information display, the switch operation of the start switch 21 and the direction indicator switch 22 which are normally equipped and which does not have the light lighting related function, and the normal which has the light lighting related function. By combining the switch operation of the equipped light switch 23 with a series of operations that are meaningless in daily operations and are not normally performed, it is possible to avoid erroneous operation for the user, and the reference value The user can easily set the reference value by allocating the switch operation that is normally equipped with the light lighting related function to the last operation to change the light and let the user recognize that it is a light related operation. A light control system capable of setting can be provided.

  For example, after the start switch 21 is set to the accessory power-on state, the direction indicator switch 22 is set to the left turn instruction state within the first specified time, and then the light switch 23 is turned on / off within the second specified time. Is a series of operations that have no meaning in daily operations and are not normally performed, and the last operation is assigned the operation of the normally equipped light switch 23 having a light lighting related function, so that the user can It can be recognized that the operation is related. In this way, by combining the switching operation of the start switch 21 and the direction indicator switch 22 and the light switch 23, which are normally equipped without a light lighting related function, there is no equipment such as a multi-information display. In addition, the user can easily set the reference value without erroneous operation.

  In addition, the vehicle 1 in a present Example is provided with the meter part 32 which displays the level of the reference value memorize | stored in the memory | storage part 12, and the alerting | reporting part 33 which alert | reports audibly.

  A reference value setting method in the light control system 100 will be described with reference to FIG. In the flowchart, S represents a step. In S100, the switch determination unit 13 of the light control system 100 checks the state of the start switch 21 of the first switch and continues to wait for the accessory power-on state (ACC state).

  When the accessory power is turned on, the control unit 11 activates a timer for monitoring the elapsed time in S102. In S104, the control unit 11 checks whether or not the first specified time has passed. If not, the control unit 11 checks the state of the direction indicator switch 22 of the second switch in S106. When the direction indicator switch 22 is in a neutral state that is neither a left turn instruction state nor a right turn instruction state, that is, when the user does not particularly perform any operation of the direction indicator switch 22, the process returns to S104 and the first specified time has elapsed. Inspect whether or not to do. When the first specified time has elapsed while the direction indicator switch 22 is in the neutral state, the light control system 100 ends without changing the reference value. Note that the first specified time is the time from when the start switch 21 is turned on to the accessory power-on state until the turn indicator switch 22 receives a change to the right turn instruction state or the left turn instruction state.

  If the switch determination unit 13 determines that the direction indicator switch 22 has changed from the neutral state to the left turn instruction state before the first specified time has elapsed, the control unit 11 changes the reference value to the high sensitivity side in S108. Doing (change direction) is stored. For example, in the example of FIG. 2, the storage unit 12 stores that the reference value is changed from L3 to L2 or L1. Further, when the switch determination unit 13 determines that the state of the direction indicator switch 22 has changed from the neutral state to the right turn instruction state, the storage unit 12 changes the reference value to the low sensitivity side in S110 (change direction). Remember. Also, changing the brightness reference value to the high sensitivity side means changing the threshold value so that the light 31 is lit even when the surroundings become slightly dark.

  When the direction indicator switch 22 is in the left turn instruction state or the right turn instruction state, the control unit 11 activates a timer for monitoring the elapsed time in S112. In S114, the control unit 11 checks whether or not the second specified time has passed. If not, the control unit 11 checks the state of the light switch 23 of the third switch in S116. If the light switch 23 is not operated, the process returns to S114 to check whether or not the second specified time has elapsed. When the second specified time has elapsed without the light switch 23 being operated, the light control system 100 ends without changing the reference value. The second specified time is a time during which the operation of the light switch 23 can be accepted after the direction indicator switch 22 is in a right turn or left turn instruction state.

  When the switch determination unit 13 determines that the light switch 23 has been operated and the state has changed before the second specified time has elapsed, the control unit 11 activates a timer for monitoring the elapsed time in S118. In S120, a counter for measuring the number of operations of the light switch 23 is initialized (set to zero). In S122, the control unit 11 checks whether or not the third specified time has elapsed. If not, the switch determination unit 13 checks the state of the light switch 23 in S124 and starts from the unlit state. It is determined whether there is a change to the automatic control state.

  When the state of the light switch 23 has changed, that is, when it has been operated, the control unit 11 adds 1 to the number of operations to the light switch 23 in S126. That is, in S122 to 126, the control unit 11 measures the number of times that the light switch 23 has changed from the unlit state to the automatic control state until the third specified time has elapsed. The third specified time is a time during which the operation of the light switch 23 can be accepted.

  When the third specified time has elapsed in S122, the control unit 11 changes the reference value in S128 according to the change direction stored in S108 or S110 and the number of operations measured in S126. That is, the number of operations here is equal to the number of levels to be changed from the current reference value. Then, the storage unit 12 stores the changed reference value according to an instruction from the control unit 11 in S130. In step S132, the meter unit 32 and / or the notification unit 33 notify the user of the level of the reference value stored in the storage unit 12 using a meter indicator, a notification sound, or the like. After the control unit 11 changes the reference value or by a predetermined operation of the user, the reference value is notified to the user by a visual and / or auditory method. Thus, the user can know the current reference value.

  As described above, when the switch determination unit 13 determines that the start switch 21 is in the accessory power-on state and the direction indicator switch 22 is in the left turn or right turn instruction state within the first specified time. The number of times the light switch 23 is switched from the extinguished state to the automatic control state within the second specified time is measured. And the control part 11 changes a reference value based on the state of the direction indicator switch 22, and its frequency | count. According to this, by determining that each state is reached within a predetermined time, the user can prevent erroneous operations such as unintentionally changing the reference value.

  Further, the left turn instruction state and the right turn instruction state of the direction indicator switch 22 are switches for setting the reference value to high sensitivity and low sensitivity, and the number of times the light switch 23 is changed from the unlit state to the automatic control state is a change in the reference value. Indicates the amount. According to this, the left turn instruction state of the direction indicator switch 22 (the state where the switch lever is raised) changes the reference value to a highly sensitive direction, and the right turn instruction state (the state where the switch lever is lowered) changes the reference value. Setting the reference value with easy operation that is easy for the user to understand by combining the change to the direction of low sensitivity and the operation that means the number of times the light switch is operated from the current value of the reference value. It can be performed.

  As a modification example, the first value of the light switch 23 may be in a passing-off state, and the second value of the light switch 23 may be in a passing-on state. According to this, in the daily operation of operating the light switch 23 called passing in a state where the accessory power-on state of the start switch 21 and the left turn instruction state and right turn instruction state of the direction indicator switch 22 are combined. By combining as a series of operations that are meaningless and are not normally performed, the user can avoid changing the reference value by mistake.

  When the switch determination unit 13 determines that the state of the start switch 21 is the accessory power-on state and the direction indicator switch 22 is in the left turn or right turn instruction state within the first prescribed time, the second regulation is performed. The number of times the light switch 23 switches from the passing-off state to the passing-on state within the time is measured. And the control part 11 may set to the reference value corresponding to the frequency | count. By determining that the switch determination unit 13 enters each state within a predetermined time, the user can avoid an erroneous operation such as unintentionally changing the reference value. Furthermore, the user can set the reference value by an easy operation that is easy for the user to understand by setting the reference value itself according to the number of passing operations.

  Based on the reference value stored in the storage unit 12 as described above, the light control device 10 controls the lighting of the light 31 as shown in FIG. In S <b> 200, the light control device 10 detects the brightness around the vehicle 1 output by the brightness sensor 40. In S202, the light control device 10 compares the brightness output from the brightness sensor 40 with the brightness of the current reference value stored in the storage unit 12, and the brightness output from the brightness sensor 40 is dark. Inspect whether or not. That is, when the current brightness around the vehicle 1 is darker than the brightness of the reference value of the threshold for turning on the light of the vehicle 1, the light control device 10 turns on the light 31 in S204. Conversely, in the state where the light 31 is turned on, if the current brightness around the vehicle 1 is brighter than the brightness of the reference value of the threshold for turning on the light of the vehicle 1, the light control device 10 Turn off the light.

  In addition, this invention is not limited to the illustrated Example, The implementation by the structure of the range which does not deviate from the content described in each item of a claim is possible. That is, although the present invention has been particularly illustrated and described with respect to particular embodiments, it should be understood that the present invention has been described in terms of quantity, quantity, and amount without departing from the scope and spirit of the present invention. Various modifications can be made by those skilled in the art in application examples and other detailed configurations.

DESCRIPTION OF SYMBOLS 1 Vehicle 100 Light control system 10 Light control apparatus 11 Control part 12 Memory | storage part 13 Switch determination part 14 Reference value table part 20 Switch 21 1st switch (start switch)
22 Second switch (direction indicator switch)
23 Third switch (light switch)
31 Light 32 Meter unit 33 Notification unit 40 Brightness sensor

Claims (9)

A vehicle light control device that automatically lights the vehicle light based on the brightness around the vehicle and the reference value;
A first switch having at least two values and a second switch having at least three values each having a different function without having a function related to lighting of the light; and a third switch having at least two values having a function related to lighting of the light;
In a vehicle light control system comprising:
The vehicle light control device comprises:
A storage unit for storing a reference value for automatically turning on the light;
A switch determination unit for determining a state of the first switch to the third switch;
A control unit that changes the reference value based on the determination of the switch determination unit;
With
The controller is
When the switch determination unit determines that the first switch is the first value, the reference value is not changed,
When the switch determination unit determines that the first switch is a second value and the second switch is a third value, the reference value is not changed,
When the switch determination unit determines that the first switch becomes the second value and then the second switch becomes the first value or the second value within the first specified time, the on / off operation of the third switch Alternatively, when it is determined that the off-on operation is performed within the second specified time after the second switch becomes the first value or the second value, the reference value is changed.
Light control system. The first switch is a start switch for switching the start / stop function of the vehicle.
The second switch is a direction indicator switch for switching the function of turning on and off the direction indicator of the vehicle,
The third switch is a light switch for switching operation of turning on / off the light of the vehicle.
The light control system according to claim 1. The first value of the start switch is in a stopped state, the second value of the start switch is in an accessory power-on state,
The first value of the direction indicator switch is a left turn indicating state, the second value of the direction indicator switch is a right turn indicating state, and the third value of the direction indicator switch is a neutral state,
The first value of the light switch is in the off state, and the second value of the light switch is in the automatic control state.
The light control system according to claim 2. The switch determination unit determines that the direction indicator switch is in the left turn instruction state or the right turn instruction state within a first specified time after determining that the start switch is in the accessory power-on state. If determined, the number of times the light switch is switched from the extinguished state to the automatic control state within a second specified time is measured,
The control unit changes the reference value based on the state of the direction indicator switch and the number of times.
The light control system according to claim 3.   The left turn instruction state and the right turn instruction state of the direction indicator switch are switches for setting the reference value to high sensitivity and low sensitivity, and the number of times the light switch is changed from the unlit state to the automatic control state is a reference. The light control system according to claim 4, wherein a change amount of the value is indicated. The first value of the start switch is in a stopped state, the second value of the start switch is in an accessory power-on state,
The first value of the direction indicator switch is a left turn indicating state, the second value of the direction indicator switch is a right turn indicating state, and the third value of the direction indicator switch is a neutral state,
The first value of the light switch is a passing-off state, and the second value of the light switch is a passing-on state.
The light control system according to claim 2. The switch determination unit determines that the direction indicator switch is in the left turn instruction state or the right turn instruction state within a first specified time after determining that the start switch is in the accessory power-on state. If determined, the number of times that the light switch has switched from the passing-off state to the passing-on state within a second specified time is measured,
The control unit sets the reference value corresponding to the number of times;
The light control system according to claim 6.   The reference value is notified to the user by a visual and / or auditory method after the control unit changes the reference value or by a predetermined operation of the user. The light control system according to any one of 1 to 7. A vehicle light control device that automatically turns on a light of the vehicle based on brightness around the vehicle and a reference value,
A storage unit for storing a reference value for automatically turning on the light;
The state of at least a binary first switch and at least a ternary second switch having different functions without having a function related to lighting of the light, and a state of at least a binary third switch having a function related to lighting of the light A switch determination unit for determining
A control unit that changes the reference value based on the determination of the switch determination unit;
With
The controller is
When the switch determination unit determines that the first switch is the first value, the reference value is not changed,
When the switch determination unit determines that the first switch is a second value and the second switch is a third value, the reference value is not changed,
When the switch determination unit determines that the first switch becomes the second value and then the second switch becomes the first value or the second value within the first specified time, the on / off operation of the third switch Alternatively, when it is determined that the off-on operation is performed within the second specified time after the second switch becomes the first value or the second value, the reference value is changed.
Vehicle light control device.