KR20130053546A - Apparatus and method for controlling operation of rain sensor - Google Patents

Abstract

PURPOSE: A rain sensor operation control device and a method thereof are provided to reduce electronic power which is consumed by a rain sensor and to prevent an LED(Light Emitting Diode) from being heated by suppressing unnecessary lighting of the LED. CONSTITUTION: A rain sensor operation control device comprises a luminous intensity sensor(20) and a control unit(30). The luminous intensity sensor senses luminous intensity around a vehicle. The control unit variably controls a detecting operation period of a rain sensor(10) according to current luminous intensity values based on a luminous intensity detecting signal. The current luminous intensity values are compared to a predetermined standard level by the luminous intensity sensor. The value of the detecting operation period is set to be short in a section in which the luminous intensity value is low. [Reference numerals] (10) Rain sensor; (20) Luminous intensity sensor; (30) Control unit; (40) Wiper device

Description

Apparatus and method for controlling operation of rain sensor}

The present invention relates to a rain sensor operation control device and method, and more particularly, by varying the detection operation cycle of the rain sensor according to the environment around the vehicle can reduce the power consumed by the rain sensor, unnecessary LED lighting The present invention relates to a rain sensor operation control apparatus and method capable of reducing the degradation of LED and maintaining the performance of the rain sensor.

In general, the front of the vehicle is equipped with a wind shield glass (wind shield glass) to prevent the inflow of wind or rain from the front while driving.

When dust or dirt accumulates on the surface of the windshield glass, it is difficult to secure the view in front of the windshield glass, especially when driving a vehicle in snowy or rainy areas, it is necessary to quickly remove the moisture on the surface of the windshield glass. The vision can be secured smoothly.

To this end, the vehicle is equipped with a wiper device to remove dust or rain on the surface of the windshield glass, and in recent vehicles, the amount of rainwater falling onto the windshield glass is detected by a rain sensor to control the controller (ETACS or BCM). The system for automatically controlling the operation of the wiper (speed of the wiper, etc.) is widely applied.

The rain sensor includes a light emitting unit for emitting light and a light receiving unit for receiving the light emitted from the light emitting unit, and the controller receives an output signal of the rain sensor (output signal of the light receiving unit) and water droplets present on the surface of the windshield glass. It is also used as a signal to drive the wiper.

1 and 2 are diagrams for explaining the principle of water droplet detection of the rain sensor, the conventional rain sensor 10 is an IR (Infra) for irradiating infrared light to the surface of the glass (windshield glass) 1 as the light emitting portion a red light emitting diode (LED) 12, a photo diode (PD) 13 for detecting infrared light emitted from the LED 12 as the light receiving portion and reflected from the surface of the glass 1, and the LED The lens 14 includes a lens 14 provided between the glass 12 and the front 12 and the PD 13.

In FIG. 1 and FIG. 2, reference numeral 11 denotes a PCB on which the light emitting unit and the light receiving unit elements, that is, the LED 12 and the PD 13 are mounted.

In such a configuration, the PD 13 outputs an electrical signal according to the amount of reflected light detected, that is, the amount (light amount) of infrared light (reflected light) that is reflected and received after being emitted from the LED 12.

If water droplets (raindrops) 2 adhere to the glass 1 surface, the reflectance of the infrared light is changed by the water droplet 2 or the infrared light is directed to the other side due to refraction, so that the PD 13 detects it. The amount of light supplied is different from the amount of light in the normal case without water droplets, and the controller can determine the presence of the water drop, the amount of deposition of the water droplets, and the rainfall level from the difference between the amount of light detected and the amount of light in the normal case without water droplets.

That is, when there is no water drop on the glass 1 surface, as shown in FIG. 1, the infrared light emitted from the LED 12 is almost totally reflected at the glass surface and is incident on the PD 13, but as shown in FIG. 2. (1) When the water droplets 2 are attached to the surface, part of the infrared light passes through the water droplets attached to the glass surface and is radiated to the outside, thereby reducing the amount of infrared light incident from the PD 13 (amount of detected light). .

At this time, the PD 13 continuously outputs an electric signal according to the incident amount of infrared light, and the controller receives the output signal of the PD 13 to determine whether water droplets are attached and the amount of adhesion from the detected change in incident amount. After the judgment, the wiper will be controlled.

On the other hand, the rain sensor can not detect the water droplets and rainfall on the glass surface if the continuous detection operation is not performed in the same manner as described above during the vehicle driving, in general, the RED, which emits light, is continuously turned on at regular intervals to emit infrared light. (Windshield glass) is irradiated, and the reflected light at this time is received by a photodiode.

However, in the conventional case, the rain sensor must be continuously operated at regular intervals even in sunny weather without rain, and thus there is a problem in that power is excessively consumed due to frequent lighting operation of the RED during the periodic detection operation of the rain sensor.

In particular, in electric vehicles (EVs) and hybrid electric vehicles (HEVs), which use an electric motor as a driving source of an electric motor while using an energy storage device such as a battery, the electric field is increased to increase the mileage of the vehicle. Reducing the power consumption of components is an important issue in the future, and therefore, it is necessary to reduce the power consumption of sensors such as rain sensors.

In addition, in the related art, deterioration of the LED occurs due to unnecessary LED lighting, and thus there is a problem in that performance decreases.

Therefore, the present invention was created to solve the above problems, and by controlling the rain sensor's detection operation cycle in accordance with the surrounding environment of the vehicle to reduce the power consumption and reduce unnecessary LED lighting to reduce the LED degradation An object of the present invention is to provide a rain sensor operation control apparatus and method.

In order to achieve the above object, the present invention provides a rain sensor operation control device for controlling the detection operation of the rain sensor attached to the glass of the vehicle, the illumination sensor for detecting the illuminance around the vehicle; A controller configured to variably control a detection operation period of a rain sensor according to a current illuminance value based on an illuminance detection signal output from the illuminance sensor; It provides a rain sensor operation control device comprising a.

And, in the rain sensor operation control method for controlling the detection operation of the rain sensor attached to the glass of the vehicle, the illumination intensity around the vehicle is detected by the illumination sensor, the controller detects the illumination output from the illumination sensor A rain sensor operation control method is characterized in that the control operation period of the rain sensor detection based on the signal variably controlled according to the current illuminance value.

In a preferred embodiment, the controller compares a current illuminance value detected by the illuminance sensor with a preset reference level to determine an illuminance value region to which the illuminance value belongs, and determines the illuminance value of the rain sensor as a preset value of the illuminance value region. It is characterized by controlling the detection operation cycle.

In addition, in a preferred embodiment, the value of the detection operation period is set shorter as the lower illuminance value region based on the reference level.

Accordingly, in the rain sensor operation control apparatus and method according to the present invention, by detecting the illuminance of the environment around the vehicle through the illuminance sensor, the rain sensor by appropriately controlling the detection operation period of the rain sensor based on the detected value of the illuminance sensor The power consumption can be reduced, and unnecessary LED lighting can be reduced to reduce the degradation of the LED and maintain the performance of the rain sensor.

1 and 2 are diagrams for explaining the detection principle of the rain sensor.
3 is a block diagram showing the configuration of a rain sensor operation control apparatus according to the present invention.
4 is a diagram illustrating a state in which the detection operation cycle of the rain sensor is variably controlled according to the illumination of the environment around the vehicle in the rain sensor operation control method according to the present invention.
5 is a flowchart illustrating a method for controlling a rain sensor operation according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains.

The present invention relates to a rain sensor operation control apparatus and method, and detects the illuminance of the environment around the vehicle through the illuminance sensor and the detection operation cycle of the rain sensor is detected value (output signal of the illuminance sensor, that is, illuminance detection signal) Apparatus and method for controlling rain sensor operation that can reduce power consumption by rain sensor by appropriately variable control on the basis of), and reduce deterioration of LED and maintain performance of rain sensor by reducing unnecessary LED lighting. It is about.

3 is a block diagram showing the configuration of the rain sensor operation control apparatus according to the present invention, the rain sensor 10, the illumination sensor 20, and receives the output signal of the illumination sensor 20 of the rain sensor 10 The controller 30 which controls the detection operation cycle is shown.

4 is a view illustrating a state in which the detection operation period of the rain sensor is variably controlled according to the illumination of the environment around the vehicle in the rain sensor operation control method according to the present invention, Figure 5 is a rain sensor operation control method according to the present invention It is a flowchart showing.

First, the device configuration for the implementation of the present invention will be described, as shown in Figure 3, based on the illuminance sensor 20 for detecting the illuminance around the vehicle, and based on the illuminance detection signal output from the illuminance sensor 20 The controller 30 variably controls the detection operation period of the rain sensor 10 according to the current illuminance value.

Since the rain sensor 10 is as described above, a description thereof will be omitted.

The rain sensor 10 detects the detection operation, that is, the operation of the light emitting unit for irradiating light onto the vehicle glass such as windshield glass, for example, the lighting operation of the LED (denoted by reference numeral 12 in FIG. 1) that emits infrared light. In order to consume power, unnecessary power consumption occurs when the rain sensor 10 that consumes power during the detection operation is constantly detected at a fixed cycle.

That is, if the detection operation cycle of the rain sensor 10 is fixed as in the prior art, the LED should be frequently turned on in the same short period as the cloudy cloudy weather even in the clear weather without clouds, thus fixing the rain sensor 10 The detection operation continues in the single detection mode of the cycle, resulting in unnecessary waste of power.

In addition, since the LED is turned on unnecessarily, the life of the LED is reduced due to the deterioration of the LED.

Therefore, in the present invention, the controller 30 capable of variably controlling the detection operation cycle of the rain sensor 10 receives an environmental condition around the vehicle through the sensor, and based on the detected environmental condition around the vehicle, And variably control the detection operation period.

The controller 30 is a component that controls the detection operation of the rain sensor 10, such as the lighting operation of the LED, which is a light emitting unit, in the conventional case, the controller turns on the LED at a fixed fixed period, but in the present invention, the controller operates the sensor. The LED is turned on by varying the period according to the detected environmental conditions around the vehicle.

In more detail, the controller 30 compares the current illuminance value detected by the illuminance sensor 20 with a preset reference level (for example, the first and second reference levels described later) to which the illuminance belongs. The value area is determined, and the detection operation period of the rain sensor 10 is controlled by a preset value of the illumination intensity area.

At this time, the value of the detection operation period is set shorter than that of the high illuminance value region in the low illuminance value region on the basis of the reference level.

As such, the controller 30 variably controls the detection operation period of the rain sensor 10, in particular, the lighting period of the LED, according to environmental conditions around the vehicle, thereby reducing power consumption and reducing unnecessary LED lighting, It is possible to achieve deterioration, increase the lifespan, and maintain the performance of the rain sensor.

The controller 30 may not be provided separately for the present invention, but may be a controller that is pre-installed to control the detection operation of the rain sensor (lighting operation of the LED, etc.) in the vehicle equipped with the rain sensor. The Electronic Time & Alarm Control System (ETACS) or Body Control Module (BCM) which processes the electrical signals of the PD (denoted by reference numeral 13 in FIG. 1) to control the operation of the wiper device 40 (such as the speed of the wiper) Can be.

In addition, the illuminance sensor 20 is a sensor that detects brightness, that is, an environmental condition around the vehicle, and outputs an electrical signal (illuminance detection signal) according to the detected value, which may also be used in the vehicle. have.

In addition, the illuminance sensor 20 is an auto light sensor that is a sensor for detecting ambient illuminance in an auto light system in which the BCM automatically controls an in-vehicle lighting device according to the detected illuminance value. Sensor).

Recently, the auto light sensor is provided with an integrated sensor while sharing a case with a rain sensor and a PCB. In the present invention, an auto light sensor (illuminance sensor) is detected after the controller receives an output signal (illumination detection signal). The detection operation period of the rain sensor is variably controlled according to the illuminance value of.

4 and 5 illustrate an example in which the controller differentiates and controls the rain sensor's detection operation cycle into three modes according to the detection value of the illuminance sensor. When the detection value (current illuminance value) of the illuminance sensor 20 is cut off and equal to or less than the first reference level set in advance (detection value ≤ first reference level), the detection operation period of the rain sensor (including the LED lighting cycle) Control to a first mode for shortly controlling a predetermined value (first cycle) (S11, S15).

On the other hand, when the detection value of the illuminance sensor 20 exceeds the first reference level, the detection operation period of the rain sensor 10 is controlled to be set longer than the first mode, in which case the first reference level is exceeded. It is possible to further refine the mode.

That is, when the solar radiation is blocked by the cloud and the detection value of the illuminance sensor 20 exceeds the first reference level but is lower than or equal to the second reference level which is set higher than that (first reference level <detection value ≤ second reference level) The detection operation period of the rain sensor 10 is controlled in a second mode that is controlled to a set value (second period) longer than that of the first mode (S11, S12, S14).

In addition, when the detected value of the illuminance sensor 20 exceeds the second reference level (second reference level <detection value) due to sunlight under clear weather without clouds, the detection operation cycle of the rain sensor 10 is assumed to be the most. Control is performed in the third mode which is controlled by the long set value (third period) (S11, S12, S13).

As such, when the detected value of the illuminance sensor 20 is less than or equal to the first reference level, a large amount of sunlight is blocked by clouds and the like, and thus the ambient light is very low, so the rainfall probability is very high. By shortly controlling the detection operation cycle of the rain sensor.

The rain sensor detection operation period in the first mode may be set to the same level as the conventional detection operation period.

On the other hand, in the second and third modes in which the detected value of the illuminance sensor 20 exceeds the first reference level, the detection cycle of the rain sensor 10 is controlled for a long time to reduce the number of times the RED is turned on, thereby unnecessary LEDs. By reducing the lighting, the power consumption is reduced, and the LED deterioration and life can be reduced, the rain sensor can be durable, and the performance can be maintained.

In addition, preferably by differentially controlling the detection operation cycle of the rain sensor 10 in various modes (first mode to third mode) according to the detection value of the illuminance sensor 20 while maintaining the detection performance of the rain sensor 10 This reduces unnecessary power consumption and the number of LED turns on.

As such, when the controller 30 determines the detection operation period of the rain sensor 10, the controller 30 controls the detection operation of the rain sensor according to the determined period, and then detects that raindrops are attached to the glass from the detection value of the rain sensor. In this case, the operation of the wiper device is controlled by turning on the operation of the wiper device 40 (S16 and S17).

The embodiments of the present invention have been described in detail above, but the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are provided. Forms are also included in the scope of the present invention.

1: glass (windshield glass)
2: water drop (raindrop)
10: rain sensor
11: PCB
12: LED (light emitting part)
13: PD (light receiving part)
14: Lens
20: Ambient light sensor (auto light sensor)
30: Controller

Claims (8)

In the rain sensor operation control device for controlling the detection operation of the rain sensor attached to the glass of the vehicle,
An illuminance sensor detecting an illuminance around the vehicle;
A controller configured to variably control a detection operation period of a rain sensor according to a current illuminance value based on an illuminance detection signal output from the illuminance sensor;
Rain sensor operation control device comprising a.
The method according to claim 1,
The controller determines the illuminance value region to which the illuminance value belongs by comparing the current illuminance value detected by the illuminance sensor with a preset reference level, and controls the detection operation period of the rain sensor with the preset value of the illuminance value region. Rain sensor operation control device, characterized in that.
The method according to claim 2,
Rain sensor operation control device characterized in that the value of the detection operation period is set short in the low illuminance value region on the basis of the reference level.
The method according to any one of claims 1 to 3,
The controller,
If the current illuminance value detected by the illuminance sensor is equal to or less than a first reference level, first mode control is performed to control the detection operation period of the rain sensor to a set first period,
If the current illuminance value detected by the illuminance sensor exceeds the first reference level and is less than or equal to the second reference level, a second mode control for controlling the detection operation period of the rain sensor to a second period set longer than the first period; Performing,
When the current illuminance value detected by the illuminance sensor exceeds a second reference level, performing a third mode control to control the detection operation period of the rain sensor to a third period set longer than the second period; Rain sensor motion control device.
In the rain sensor operation control method for controlling the detection operation of the rain sensor attached to the glass of the vehicle,
The illumination sensor around the vehicle is detected by the illumination sensor, and the controller variably controls the detection operation period of the rain sensor according to the current illumination value based on the illumination detection signal output from the illumination sensor. Way.
The method according to claim 5,
The controller determines the illuminance value region to which the illuminance value belongs by comparing the current illuminance value detected by the illuminance sensor with a preset reference level, and controls the detection operation period of the rain sensor with the preset value of the illuminance value region. Rain sensor operation control method characterized in that.
The method of claim 6,
And a value of a detection operation period is set shorter as a lower illuminance value region based on the reference level.
The method according to any one of claims 5 to 7,
The controller,
If the current illuminance value detected by the illuminance sensor is equal to or less than a first reference level, first mode control is performed to control the detection operation period of the rain sensor to a set first period,
If the current illuminance value detected by the illuminance sensor exceeds the first reference level and is less than or equal to the second reference level, a second mode control for controlling the detection operation period of the rain sensor to a second period set longer than the first period; Performing,
When the current illuminance value detected by the illuminance sensor exceeds a second reference level, performing a third mode control to control the detection operation period of the rain sensor to a third period set longer than the second period; How to control rain sensor operation.

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