KR20130005623A - Apparatus for sensing intensity of illumination for vehicle - Google Patents

Abstract

PURPOSE: An illuminance sensor device for a vehicle head lamp is provided to automatically turn on and off the headlight of a vehicle. CONSTITUTION: An illuminance sensor device(100) is arranged on one side of a vehicle(300). A housing is arranged on one side of a vehicle body. The housing has an opening part. The opening part is opened to face the front of the vehicle body. A light receiving sensor receives light coming into the opening part of the housing. The light receiving sensor is installed within the housing. [Reference numerals] (AA) Sun; (BB) Light receiving region of a light receiving device; (CC) Entrance of a tunnel

Description

Ambient light sensor device for vehicle headlights {Apparatus For Sensing Intensity Of Illumination For Vehicle}

The present application relates to an illuminance sensor device, and more particularly, to an illuminance sensor device for a vehicle headlight that can collect only the brightness of light in a specific area when driving a vehicle.

In general, the vehicle headlights are turned on by the driver's operation, but the majority of vehicles are automatically flashing the headlights. This is done by attaching an illumination sensor to the vehicle and detecting the brightness around the vehicle. That is, the vehicle headlights automatically turn on the headlights when the surroundings of the vehicle are dark using light detected by the illumination sensor, and the headlights automatically turn off when the headlights are bright.

For example, as shown in FIG. 1, the illuminance sensor 10 is installed at the lower part of the windshield at the top of the crash board 50 of the vehicle, and the headlamp 30 is installed at the front of the vehicle, so that the amount of ambient light from the illuminance sensor when the vehicle is driven. After that, the headlight is turned off when the measured light quantity value is higher than the reference light quantity value, and the headlight is turned on when the measured light quantity value is lower than the reference light quantity value.

At this time, the direction of the illuminance sensor 10 is disposed in the upper direction of the crash board 50 to receive the light incident from the entire area. As shown in FIG. 2, the light receiving element 11 of the illuminance sensor generally faces the vertical upward direction of the vehicle, that is, the vertical direction of the vehicle progression. It will accept the light and dark around the vehicle. Specifically, light introduced from the outside passes through the light transmission cover 15 disposed on the crash board 50, and the light passed through the lens 13 converges again to the light receiving element 11. You will join.

On the other hand, when looking at the conventional prior patent (Korean Patent Application No. 10-2007-0129507) with respect to the illumination sensor for vehicle headlights, having a similar structure as shown in FIG. 2, the light transmission cover receives the light transmission cover so as to vary the intensity of light through the lens Allow distance adjustment to the device. As a result, it is possible to directly adjust the timing of automatic lighting and turning off the headlight. It is shown.

However, even when the headlight sensor is adjusted when the headlights are turned on, the light sensor detects light incident from the entire upper part of the crash board of the vehicle, rather than a specific area required by the driver, for example, a tunnel that appears in front of the vehicle. Therefore, when the vehicle moves from a bright place to a dark place, such as when entering a tunnel during the actual day, the headlights are turned on only after the entrance of the tunnel is completed even if the front of the vehicle is dark due to the vehicle speed. For this reason, at the moment when the vehicle enters the tunnel, the driver may not collect visual information in front of the vehicle, thereby exposing a risk of an accident.

The present application is to solve the problems of the prior art as described above, by detecting only the light in a specific area, such as a dark tunnel in front, the headlights for vehicle headlights so that the headlights of the vehicle can be automatically turned on and off in advance The object is to provide a sensor device.

An illumination sensor device for a vehicle headlight according to an embodiment may include: a housing disposed on one surface of a vehicle body and having an opening opened in front of the vehicle body; And a light receiving sensor installed in the housing to receive the light flowing into the opening of the housing.

An illuminance sensor device includes an optical structure accommodated in an opening of the housing and disposed above the light receiving sensor and transmitting light from the opening; And a blocking member disposed between the optical structure and the light receiving sensor and having an opening smaller than the opening of the housing to reduce an incident angle of light flowing from the opening of the housing.

The diameter of the opening of the blocking member is adjustable.

The illuminance sensor device may further include a cover member covering and protecting the light receiving sensor, and the cover member may be a light transmissive material.

The optical structure may be a convex lens for converging the light.

The illumination sensor device includes an optical structure that is accommodated in an opening of the housing and disposed above the light receiving sensor, and transmits light flowing from the opening, and an upper end of the housing that defines the opening is formed at one end of the light receiving sensor. It is disposed at a position higher than the upper end of the optical structure as a reference.

The housing includes a base portion disposed in parallel with the optical structure and a protrusion extending from the base portion, the protrusion defining an opening of the housing.

The illumination sensor device for a vehicle headlight according to the embodiment automatically lights up the vehicle headlight in advance even in a dark structure in front of a vehicle such as a tunnel, thereby enabling the driver to prevent a danger caused by sudden dark field of view.

1 is a view schematically showing an illuminance sensor attached to a conventional vehicle.
2 is a view showing in detail the structure of the illumination sensor attached to a conventional vehicle.
3 is an embodiment of the present invention, a view for explaining the structure of the illumination sensor device disposed in a vehicle.
Figure 4 is an embodiment of the present invention, a cross-sectional view for explaining the structure of the vehicle headlight illumination sensor device.
5 is an embodiment of the present invention, a view for explaining the structure and operation method of the blocking member.
FIG. 6 is a cross-sectional view for describing a structure of an illuminance sensor device for a vehicle headlight according to another exemplary embodiment of the present disclosure.
7 is a view for explaining a process of operating the illuminance sensor device of the present invention mounted on the vehicle.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the appended drawings illustrate the present invention in order to more easily explain the present invention, and the scope of the present invention is not limited thereto. You will know.

3 is an embodiment of the present invention, a view for explaining the structure of the illumination sensor device disposed in a vehicle.

Referring to Figure 3, the illumination sensor device 100 is disposed on one surface of the vehicle 300, in this case, the illumination sensor direction is disposed to face the front of the vehicle. Generally, one surface of the vehicle may be one surface of the crash board of the vehicle, but the illumination sensor device 100 may be disposed anywhere if it can be disposed toward the front of the vehicle. Specifically, the opening of the housing (not shown) is disposed to face the front of the vehicle so that light from the front of the vehicle, rather than the top of the vehicle, may be introduced. A light receiving sensor (not shown) is disposed in the housing and detects light introduced into the opening.

As such, when the illumination sensor device is disposed toward the front of the vehicle, the brightness of the light in front of the vehicle may be detected in advance before the vehicle enters a place where the field of view such as a tunnel suddenly darkens, thereby controlling the headlight of the vehicle. Allow the driver to drive safely.

On the other hand, the illumination sensor device is generally sufficient to be disposed on one side of the vehicle to face the front of the vehicle, but it is possible to change the illumination sensor device so as to sense only the light in a substantially required area by reducing the angle of incident light. 4 and 6 are embodiments of the illumination sensor device.

Figure 4 is an embodiment of the present invention, a cross-sectional view for explaining the structure of the vehicle headlight illumination sensor device.

As shown, the illumination sensor device 100 includes a housing 110, an optical structure 120, a blocking member 130, a cover member 140, and a light receiving sensor 150.

The housing 110 forming the overall shape of the illuminance sensor device includes an opening G1 such that external light is incident therein, and the opening G1 mainly forms a circular shape. It is possible. The opening G1 of the housing 110 is covered with an auxiliary optical structure 125 through which light is transmitted.

The auxiliary optical structure 125 is an optical structure in which light is scattered or diffused in the auxiliary optical structure 125 and disposed in the opening G1 of the housing when external light is incident into the opening G1 of the housing. It may have a roughness on the surface to be totally incident on the (120). In addition, the auxiliary optical structure 125 may have a lens shape of convex shape toward the front side of the opening of the housing. The auxiliary optical structure 125 protects the optical structure 120 installed therein from external impact or foreign matter.

Although not shown in the drawings, the auxiliary optical structure 125 may be screwed into the housing and coupled to the housing by an adhesive such as a silicone resin.

  The optical structure 120 is received in the opening G1 of the housing 110, where the optical structure 120 is supported by the opening side end of the housing as shown. The optical structure 120 may be any structure that can transmit the light flowing from the opening G1, and preferably, the optical structure 120 may be a convex lens that can converge light to one surface of the light receiving sensor 150. have. In addition, the focal point where the light is converged by the convex lens is preferably disposed on the light receiving sensor 150 and the optical structure 120 to be located on one surface of the light receiving sensor 150.

The light receiving sensor 150 is disposed on the printed circuit board 160 disposed in the housing 110 to receive the light flowing from the opening G1 of the housing 110. For example, the light receiving sensor 150 may use an optical sensor such as a photodiode that converts light energy into electrical energy when received.

The cover member 140 is disposed above the light receiving sensor 150 to surround and protect the light receiving sensor 150, and the cover member 140 is made of a transparent light transmissive material. The cover member 140 is to compensate for the vulnerability caused by the external light receiving sensor 150.

That is, the light receiving sensor 150 mounted on the vehicle is impacted by the curvature or obstacle of the road surface while driving, and thus the extinction sensor is separated from the printed circuit board or separated from the printed circuit board or at an appropriate angle away from the original position of the extinction sensor. This is because the light incident from the outside may not be recognized.

The blocking member 130 is an opaque material and is disposed between the optical structure 120 and the light receiving sensor 150 and supported by the support 131 installed on the printed circuit board. The support 131 may be the same as the material of the cover member 140, and the support 131 may be formed together with the cover member 140 to form an integrated body. In addition, although not shown in the drawings, the blocking member 130 may be supported by a member extending from the housing 110.

The structure of the support can be manufactured in various forms, and any structure can be applied as long as the structure can support the blocking member mechanically.

Meanwhile, the opening G2 of the blocking member 130 has an opening diameter smaller than that of the opening G1 of the housing 110 so that an incident angle of light flowing from the opening G1 of the housing 110 is reduced. In addition, the blocking member 130 may adjust the diameter of the opening (G2). That is, as shown in FIG. 5, the blocking member 130 is a ring-shaped structure 130a having an open center, and a lever 130b is provided at one side thereof.

The diameter of the opening portion G2 of the blocking member 130 is reduced or increased as the lever 130b rotates in one direction. That is, the lever 130b is rotated in a direction of reducing the diameter of the opening G2 of the blocking member 130 so as to reduce the incident angle of light incident from the outside to recognize the intensity or the total amount of light only in a specific region. On the contrary, when the angle of incidence of light is to be widened, the lever 130b is rotated in the opposite direction to be adjusted.

The illuminance sensor device having such a structure is disposed in a crash board or other structure formed on the front of the vehicle, wherein the illuminance sensor device is disposed so that the opening of the housing faces the front of the vehicle. Therefore, only light coming from a specific area such as a tunnel in front of the vehicle can be detected.

FIG. 6 is a cross-sectional view for describing a structure of an illuminance sensor device for a vehicle headlight according to another exemplary embodiment of the present disclosure.

Referring to FIG. 6, the illuminance sensor device is similar to the structure of FIG. 4. Therefore, in the case of the same component, a description thereof will be omitted, and the difference between the components of FIG. 4 will be described.

The optical structure 120 is disposed inside the housing 110 so that light flowing from the opening G1 of the housing 110 is transmitted, and may be a convex lens as in the embodiment of FIG. 4. In this case, the upper end of the optical structure 120 is disposed at a position lower than the upper end of at least the portion that partitions the opening G1 of the housing 110. This is to sense only the light corresponding to the required area when the light flowing from the outside is incident on the optical structure.

The housing 110 includes a base portion 111 disposed substantially parallel to the optical structure 120 and a protrusion 113 extending in a vertical direction from one surface of the base portion 111. The protrusion 113 partitions the opening G1 of the housing 110 and substantially reduces an incident angle of light incident to the opening G1 of the housing 110. That is, the protrusion 113 allows the light receiving sensor 150 disposed inside the housing to detect light coming from a specific area.

The light transmitting membrane 170 may be installed in the upper portion of the opening G1 of the housing 110 to prevent foreign substances from flowing in from the outside.

On the other hand, although the illumination sensor device for a vehicle headlight of the present invention includes a housing, a light receiving sensor for receiving light by improving a structure of a part of a vehicle, for example, a crash board, to receive light flowing from the front of the vehicle. It can be placed inside the crash board without a housing. That is, an opening is formed on one surface of the vehicle body, the opening is disposed to face the front of the vehicle, and a light receiving sensor may be attached to the inside of the opening.

7 is a view for explaining a process of operating the illuminance sensor device of the present invention mounted on the vehicle.

As shown, the illumination sensor device is disposed on one surface of the vehicle so that the opening G1 of the housing 110 is disposed in front of the vehicle body 300, and when the tunnel comes out in front of the vehicle, the illumination sensor device is as described above. It detects light coming from a specific area in front of the tunnel. That is, the light receiving sensor 150 of the illuminance sensor device detects the brightness of the light coming from the tunnel, and the detected light brightness is converted into a voltage value and transmitted to the BCM controller 210. When the BCM controller 210 is less than or equal to the reference value of the preset vehicle headlight 250, the headlamp 250 is turned on under the control of the relay 230, and when the BCM controller 210 is greater than or equal to the reference value, the headlamp 250 is turned off.

Therefore, even when the driver enters the tunnel, the headlights may be turned on by sensing the brightness of the tunnel light before entering the tunnel, thereby preventing the danger of sudden darkening of the front view.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

110: Housing
120: optical structure
130: blocking member
140: cover member
150: light receiving sensor

Claims (7)

A housing disposed on one surface of the vehicle body and having an opening opened to face the front of the vehicle body; And
And a light receiving sensor installed in the housing to receive light flowing into the opening of the housing. The method of claim 1,
An optical structure accommodated in an opening of the housing and disposed above the light receiving sensor and transmitting light from the opening; And
And a blocking member disposed between the optical structure and the light receiving sensor, the blocking member having an opening smaller than the opening of the housing to reduce an incident angle of light flowing from the opening of the housing. The method of claim 2,
Illumination sensor device for a vehicle headlight of the opening of the blocking member is adjustable. 3. The method according to claim 1 or 2,
And a cover member covering and protecting the light receiving sensor, wherein the cover member is a light transmitting sensor device for a vehicle headlight having a light transmissive material. The method of claim 2,
And the optical structure is a convex lens for converging the light. The method of claim 1,
An optical structure which is accommodated in an opening of the housing and disposed above the light receiving sensor, and transmits light flowing from the opening;
The upper end of the housing for partitioning the opening is disposed at a position higher than the upper end of the optical structure on the basis of one end surface of the light receiving sensor. The method according to claim 1 or 6,
The housing includes a base portion disposed in parallel with the optical structure and a protrusion extending from the base portion, wherein the protrusion defines an opening of the housing.

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