Source: https://patents.google.com/patent/JP2009241921A/en
Timestamp: 2020-01-17 15:42:21
Document Index: 452011266

Matched Legal Cases: ['art 8', 'art 200', 'art 9', 'art 100', 'art 8', 'art 200', 'art 54', 'art 54', 'art 54', 'art 43', 'art 43', 'art, 9', 'art, 13']

JP2009241921A - Headlamp for vehicle - Google Patents
JP2009241921A
JP2009241921A JP2008264329A JP2008264329A JP2009241921A JP 2009241921 A JP2009241921 A JP 2009241921A JP 2008264329 A JP2008264329 A JP 2008264329A JP 2008264329 A JP2008264329 A JP 2008264329A JP 2009241921 A JP2009241921 A JP 2009241921A
JP2008264329A
JP5145190B2 (en
Hirotoku Tsukamoto
弘美 中村
広徳 塚本
2008-03-13 Priority to JP2008064033 priority Critical
2008-03-13 Priority to JP2008064033 priority
2008-10-10 Application filed by Koito Mfg Co Ltd, 株式会社小糸製作所 filed Critical Koito Mfg Co Ltd
2008-10-10 Priority to JP2008264329A priority patent/JP5145190B2/en
2009-10-22 Publication of JP2009241921A publication Critical patent/JP2009241921A/en
2013-02-13 Publication of JP5145190B2 publication Critical patent/JP5145190B2/en
<P>PROBLEM TO BE SOLVED: To provide a headlamp for a vehicle in which the light sources of marker lamp units are protected. <P>SOLUTION: This headlamp 1 for a vehicle comprises: the marker units 5 each having a plurality of light sources; a headlamp unit 6 which emits light forward; and an electric circuit 7 which supplies a current to the maker lamp units 5. Each marker lamp unit 5 is divided into a first light source section 8 with the light source and a second light source section 9 with the light source. The electric circuit 7 so controls each of divided light source sections 8, 9 that the current supplied to the first light source section 8 disposed close to the headlamp unit 6 is smaller than the current supplied to the second light source section 9. <P>COPYRIGHT: (C)2010,JPO&INPIT
The present invention relates to a vehicle headlamp. More specifically, the present invention relates to a technical field for protecting a light source of a marker lamp unit that is affected by heat generated in the headlamp unit in a vehicle headlamp in which the headlamp unit and the marker lamp unit are arranged.
A so-called combination-type vehicle headlamp incorporating a headlamp unit and a marker lamp unit is known (see, for example, Patent Document 1 and Patent Document 2). Examples of the marker lamp unit include a clearance lamp unit that functions as a vehicle width lamp, a turn signal lamp unit that functions as a direction indicator, and a daytime running lamp unit that lights up in a time zone other than nighttime and exhibits a marker function. .
In the combination type vehicle headlamp disclosed in Patent Document 1, the headlamp unit and the marker lamp unit are arranged close to each other in the vertical direction.
In the combination-type vehicle headlamp disclosed in Patent Document 2, a headlamp unit is disposed at the front portion of the vehicle, and a marker lamp unit is disposed at a wraparound portion that extends from the front portion of the vehicle to the side portion. .
JP 2006-236588 A JP 2002-324418 A
By the way, when a semiconductor light emitting element (LED: Light Emitting Diode) is used as the light source of the marker lamp unit, the heat generated in the headlamp unit affects the light source of the marker lamp unit.
In the lamp chamber of the vehicle headlamp, there is a high temperature region that is hotter than other regions when the headlamp unit is turned on. Signs and other units arranged in the high temperature region are more susceptible to the heat generated by the headlamp unit than in other regions.
In Patent Document 1, since the headlamp unit and the marker lamp unit are arranged close to each other, the LED of the marker lamp unit is affected by the heat generated in the headlamp unit, and the life of the light source (LED) is shortened. turn into.
Further, in Patent Document 2, the marker lamp unit is disposed in a sneak portion that wraps around from the front surface portion to the side surface portion of the vehicle, and the wraparound portion is a narrow space. Therefore, the marker lamp unit is caused by heat generated in the headlamp unit. It is difficult to arrange a heat radiating member (such as a heat sink) for removing the influence of the light source on the wraparound portion. Therefore, the influence of heat on the light source of the marker lamp unit cannot be reduced, and the life of the light source (LED) is shortened.
Furthermore, when the marker lamp unit has a plurality of LEDs arranged vertically, the upper LED is more susceptible to the heat from the headlamp unit than the lower LED. Accordingly, the upper LED of the marker lamp unit is affected by the heat generated in the headlamp unit, and the life of the light source (LED) is shortened.
Therefore, an object of the vehicle headlamp of the present invention is to protect the light source of the marker lamp unit.
The vehicle headlamp according to the first aspect of the present invention includes a headlamp unit that irradiates light forward, a marker lamp unit that uses a plurality of semiconductor light emitting elements as a light source, and at least current to the marker lamp unit. In the vehicular headlamp including the electric circuit for supplying the lamp, the marker lamp unit is divided into at least two light source sections each having the light source, and at least one of the light source sections is turned on when the headlamp unit is turned on. The electric circuit is present in a high temperature region that is higher than the other region, and the electric circuit is configured such that the current supplied to the light source unit existing in the high temperature region is smaller than the current supplied to the light source unit existing in the other region Thus, each of the divided light source units is controlled separately.
Accordingly, the current supplied to the light source unit existing in the high temperature region out of at least two light source units of the marker lamp unit is smaller than the current supplied to the light source unit existing in the other region.
A vehicle headlamp according to the present invention includes a headlamp unit that emits light forward, a marker lamp unit that uses a plurality of semiconductor light emitting elements as light sources, and an electric circuit that supplies current to at least the marker lamp unit. The marker lamp unit is divided into at least two light source units each having the light source, and at least one of the light source units has a higher temperature than other regions when the headlamp unit is turned on. The electric circuit is divided so that the current supplied to the light source unit existing in the high temperature region is smaller than the current supplied to the light source unit existing in the other region. Each light source unit is controlled separately.
Therefore, the influence of the heat generated in the headlamp unit on the marker lamp unit can be reduced, and the light source of the light source unit existing in the high temperature region can be protected.
In the invention described in claim 2, in the electric circuit, the current supplied to the light source unit disposed in the vicinity of the headlamp unit is smaller than the current supplied to the other light source units. As described above, since each of the divided light source units is controlled separately, the influence of the heat generated in the headlight unit on the marker lamp unit can be reduced, and the light source unit is disposed in the vicinity of the headlight unit. The light source of the light source unit can be protected.
In the invention described in claim 3, at least one light source unit is disposed on the side surface of the vehicle, and the electric circuit is supplied with a current supplied to the light source unit disposed on the side surface of the vehicle. Since each of the divided light source units is controlled to be smaller than the current supplied to the light source unit, it is possible to reduce the influence on the marker lamp unit due to the heat generated in the headlamp unit, The light source of the light source part arrange | positioned at the side part of a vehicle can be protected.
In the invention described in claim 4, at least one light source unit is arranged above the other light source unit, and the electric circuit supplies current supplied to the light source unit arranged above the other light source unit. Since each of the divided light source units is controlled to be smaller than the current supplied to the light source unit, it is possible to reduce the influence on the marker lamp unit due to the heat generated in the headlamp unit, The light source of the light source unit disposed on the upper side can be protected.
In the invention described in claim 5, since the electric circuit controls to turn off all the light sources when at least one of the divided light source units is disconnected, the divided light source unit When at least one of these is abnormal due to disconnection, it is possible to prevent wasteful power consumption.
In the invention described in claim 6, since the daylight running lamp that lights up in the time zone other than the night and exhibits the sign function is used as the indicator light unit, it is continuous in the time zone other than the night. The life of the light source of the daytime running lamp that is often lit up can be increased.
Below, 1st Embodiment of the vehicle headlamp of this invention is described with reference to FIGS.
The vehicle headlamps 1 and 1 are respectively attached to the left and right ends of the front end of the vehicle.
The vehicle headlamp 1 includes a lamp body 2 having a recessed portion opened forward and a cover 3 that closes an opening surface of the lamp body 2 (see FIGS. 1 to 3). The formed internal space is formed as a lamp chamber 4.
As shown in FIGS. 1 and 2, the lamp chamber 4 includes a marker lamp unit 5 disposed from the front surface portion 100 to the side surface portion (wraparound portion) 200 of the vehicle, and a headlight disposed on the side surface portion 200 side. An electric circuit 7 for supplying current to the lamp unit 6, the marker lamp unit 5 and the headlamp unit 6 is provided.
The indicator light unit 5 is a so-called daytime running lamp unit that lights up in a time zone other than nighttime (that is, a time zone before and after sunrise to a time zone before and after sunset) and exhibits a sign function. For example, the first light source unit 8 and the second light source unit 9 are provided.
In general, the marker lamp unit 5 is often arranged from the front portion of the vehicle to the wraparound portion in order to improve the visibility from the outside of the vehicle, as described above. In particular, when the marker lamp unit is used as a lamp unit for a daytime running lamp, it is desirable that the marker lamp unit is formed in a horizontally long shape from the viewpoint of improving the visibility and disposed from the front surface portion to the side surface portion of the vehicle.
The indicator lamp unit 5 is not limited to a daytime running lamp, and may be another indicator lamp such as a clearance lamp or a turn signal lamp.
The 1st light source part 8 is arrange | positioned at the side part 200 of a vehicle, and is arrange | positioned close to the headlamp unit 6 above the headlamp unit 6 (refer FIG. 3). The first light source unit 8 includes, for example, a plurality of first lamp units 8a, 8a,... (See FIG. 2). As shown in FIG. 3, the first lamp unit 8 a includes a reflector 10 that is opened forward, a substrate attachment portion 11 that is attached to the rear end portion of the reflector 10 and that faces in the vertical direction, and the substrate attachment portion 11. And a substrate (LED) (semiconductor light emitting element) 13 mounted on the substrate 12. .. Of the first lamp units 8a, 8a,... Are integrally formed in an adjacent state.
The 2nd light source part 9 is arrange | positioned at the front-surface part 100, and is arrange | positioned at the side of the 1st light source part 8 (refer FIG. 2). The second light source unit 9 includes, for example, a plurality of second lamp units 9a, 9a,. Since the second lamp unit 9a is substantially the same as the structure of the first lamp unit 8a of the first light source unit 8, a detailed description thereof is omitted, but the same function as that of the first lamp unit 8a is omitted. It has LED (semiconductor light emitting element) 14 which has as a light source (refer FIG.1 and FIG.2). In addition, the second light source unit 9 is provided with a heat sink (not shown) for releasing heat generated when light is emitted from the LEDs 14, 14.
2, the first light source unit 8 includes five first lamp units 8a, 8a,..., And the second light source unit 9 includes six second lamp units 9a, 9a,. However, the number of the first lamp units 8a and the second lamp units 9a is not limited to these numbers, and it is sufficient that at least one is provided.
As shown in FIG. 3, the headlamp unit 6 is attached to a reflector 21 that opens forward, a bracket 22 that is supported by a frame (not shown) so as to be rotatable in a horizontal direction, and the bracket 22. A substrate 24, an LED (semiconductor light emitting element) 25 mounted on the substrate 24, a shade 26 for controlling the amount of light, a projection lens 27 that projects the light emitted from the LED 25 forward, And a lens holder 28 for holding the projection lens 27. Although FIG. 1 and FIG. 3 show one LED 25 as an example, the number of LEDs 25 may be plural.
The bracket 22 is provided with a substrate mounting portion 23 that faces in the vertical direction, and a substrate 24 is disposed on the substrate mounting portion 23.
The electric circuit 7 is connected to the LEDs 13, 13,..., The LEDs 14, 14,.
The plurality of LEDs 13, 13,... Are connected in series (see FIG. 4), and a constant current flows through each LED 13, 13,. A plurality of LEDs 14, 14,... Are also connected in series (see FIG. 4), and a constant current flows through each LED 14, 14,.
As shown in FIG. 4, the electric circuit 7 includes a power supply circuit 30, an LED drive circuit 31, and a control circuit 32.
The LED drive circuit 31 is a switching regulator and includes a transformer, a capacitor, a diode, and an NMOS (Negative Channel Metal Oxide Semiconductor) transistor. The LED drive circuit 31 functions as current supply means for receiving a DC power from the power supply circuit 30 and supplying current to the LEDs 13, 13,..., The LEDs 14, 14,.
Below, control with respect to the LED drive circuit 31 of the control circuit 32 is demonstrated.
The control circuit 32 has a current (hereinafter referred to as “first current”) supplied to the LEDs 13, 13,... That is supplied to the LEDs 14, 14,. The LED drive circuit 31 is controlled to be smaller than the value of “current”. That is, the control circuit 32 controls the first light source unit 8 and the second light source unit 9 separately by controlling the LED drive circuit 31.
Here, since the first light source unit 8 of the marker lamp unit 5 is disposed close to the headlamp unit 6, the heat generated in the headlamp unit 6 compared to the second light source unit 9. Susceptible to Therefore, the region where the first light source unit 8 exists is a high temperature region where the temperature is higher than other regions.
However, in the vehicular headlamp 1, the control circuit 32 supplies the second current that is supplied to the LEDs 14, 14,. Since the current is controlled to be smaller than the current value, the influence of the heat generated in the headlight unit 6 on the first light source unit 8 can be reduced, and the headlight unit 6 is disposed in the vicinity. It is possible to improve the durability of the LEDs 13, 13,.
In addition, since the first light source unit 8 of the marker lamp unit 5 is disposed on the side surface part 200 of the vehicle having a small arrangement space, heat dissipation such as a heat sink that releases heat generated in the first light source unit 8 to the outside. It is difficult to arrange the members, and it is easily affected by the heat generated in the headlamp unit 6.
However, in the vehicle headlamp 1, the control circuit 32 supplies the first current value supplied to the LEDs 13, 13,... Existing on the side surface portion 200 of the vehicle to the LEDs 14, 14,. .. Is controlled so as to be smaller than the value of the second current supplied to the LED, it is possible to improve the durability of the LEDs 13, 13,.
When a daytime running lamp is used as the marker lamp unit 5, the daytime running lamp and the headlamp unit 6 are rarely turned on at the same time, but immediately after the daytime running lamp is turned off, the LED 13 of the daytime running lamp is used. , 13,... Are in a high temperature state and are easily affected by the heat generated in the headlamp unit 6.
Further, when a turn signal lamp or a position lamp is used as the marker lamp unit 5, it may be turned on simultaneously with the headlamp unit 6 unlike the daytime running lamp. Therefore, the LEDs 13, 13,... Of the turn signal lamp or the position lamp are in a high temperature state and are easily affected by heat generated in the headlamp unit 6.
However, in the vehicle headlamp 1, the current value flowing through the LEDs 13, 13,... Of the daytime running lamp, turn signal lamp or position lamp is smaller than the current value flowing through the LEDs 14, 14,. Thus, the influence on the daytime running lamp, turn signal lamp or position lamp due to the heat generated in the headlamp unit 6 can be reduced.
In addition, when the daytime running lamp which lights up in the time zone other than nighttime and exhibits the sign function is used as the indicator light unit 5, it is continuously lit in the time zone other than nighttime and the daytime running is frequently performed. The lifetime of the lamp light source can be increased.
In the above, the side surface portion 200 is shown as an example including a space where it is difficult to dispose a heat radiating member such as a heat sink. However, the portion where it is difficult to secure such a space is limited to the side surface portion 200. There is nothing. Therefore, for example, due to the arrangement configuration of each lamp unit, the location of the side surface portion 200 is a high temperature region where it is difficult to arrange a space, and this high temperature region is easily affected by the heat generated in the headlamp unit 41. When the light source unit is disposed, the above-described current control can be performed to reduce the influence of heat.
Next, control of the control circuit 32 when an abnormality or the like due to disconnection of the marker lamp unit 5 occurs will be described.
If there is an abnormality due to disconnection or the like in either the first light source unit 8 or the second light source unit 9, a predetermined light distribution cannot be obtained or a necessary luminance cannot be obtained. As a result, the problem of not functioning properly arises. Further, for example, there is a problem in that power consumption is wasted even if only the LEDs 13, 13,.
In order to prevent the occurrence of such a problem, in the vehicle headlamp 1, if there is an abnormality due to disconnection or the like in either the first light source unit 8 or the second light source unit 9 The control circuit 32 controls the supply of current to all the LEDs 13, 13,..., 14, 14,.
Specifically, current detection means (not shown) for detecting the currents of the LEDs 13, 13,... And the currents of the LEDs 14, 14,. When a disconnection occurs in either the first light source unit 8 or the second light source unit 9, the current detection unit sends out an abnormality detection signal. When the control unit 32 receives the abnormality detection signal sent from the current detection unit, the LED drive circuit stops the supply of current to all the LEDs 13, 13,..., 14, 14,. 31 is controlled.
Therefore, even if there is an abnormality due to disconnection in either the first light source unit 8 or the second light source unit 9, current is supplied to all the LEDs 13, 13,..., 14, 14,. It is stopped and the above-mentioned problems such as wasteful power consumption can be prevented.
In addition, although the abnormality due to the disconnection has been described above, in addition to the above, in the case of the abnormality due to the short circuit between the anode and the cathode of the LED, the anode ground fault, the abnormality due to the cathode ground fault, etc. The same effect as described above can be obtained by stopping the supply of current to the LEDs 13, 13,.
Although the example which divided | segmented the light source part of the marker lamp unit 5 into two was shown above, the division | segmentation number of a light source part is not restricted to two, Three or more may be sufficient.
Below, 2nd Embodiment of the vehicle headlamp of this invention is described with reference to FIGS.
The vehicle headlamps 40 and 40 are respectively attached to the left and right ends of the front end of the vehicle.
The vehicular headlamp 40 includes a lamp housing 50 having a recess opened forward and a cover 51 that closes an opening surface of the lamp housing 50 (see FIGS. 5 to 7). An internal space formed by the lamp housing 50 and the cover 51 is formed as a lamp chamber 55.
As shown in FIG. 5, a headlamp unit 41 and a marker lamp unit 42 are disposed in the lamp chamber 55. The marker lamp unit 42 includes a daytime running lamp 43 and a turn signal lamp 44. The headlamp unit 41, the daytime running lamp 43, and the turn signal lamp 44 are provided with LEDs 45, LEDs 46, 47, and LEDs 48, respectively. The LED 46 is disposed close to the headlamp unit 6.
The headlamp unit 41 includes a lamp chamber 55 in which a reflector 52 and a light source 45 attached to the reflector 52 are arranged (see FIG. 6).
The reflector 52 has an inner surface formed as a reflecting surface. At both upper and lower ends of the reflector 52, supported portions 52a and 52a that protrude rearward are provided.
The reflector 52 is connected to the lamp housing 50 by connecting members 53 and 53. The connecting members 53 and 53 have front ends connected to the supported portions 52 a and 52 a, respectively, and rear ends connected to the lamp housing 50.
A light bulb mounting hole is formed at the rear end of the reflector 52, and a light source 45 is mounted in the light bulb mounting hole. The light source 45 has a base part 54, and the base part 54 has a flange part 54a.
As shown in FIG. 7, the daytime running lamp 43 includes an upper first light source unit 43a and a lower second light source unit 43b. The first light source unit 43a includes a reflector 63 that is opened forward, a substrate attachment unit 62 that is attached to the rear end of the reflector 63 and faces in the vertical direction, and a substrate 61 that is attached on the substrate attachment unit 62. And an LED 46 mounted on the substrate 61. The second light source unit 43b includes a reflector 63 that is opened forward, a substrate mounting unit 62 that is attached to the rear end of the reflector 63 and faces in the vertical direction, and a substrate 61 that is mounted on the substrate mounting unit 62. The LED 47 mounted on the substrate 61 is provided.
The electric circuit 65 is connected to the LEDs 46 and 47 of the marker lamp unit 43 and the light source 45 of the headlamp unit 41. As shown in FIG. 8, the electric circuit 65 includes a power supply circuit 70, an LED drive circuit 71, and a control circuit 72. Since the power supply circuit 70, the LED drive circuit 71, and the control circuit 72 have the same configuration as the power supply circuit 30, the LED drive circuit 31, and the control circuit 32 in the first embodiment, detailed descriptions thereof are omitted.
Below, control with respect to the LED drive circuit 71 of the control circuit 72 is demonstrated.
In the control circuit 72, the value of the current supplied to the LED 46 (hereinafter referred to as “third current”) is smaller than the value of the current supplied to the LED 47 (hereinafter referred to as “fourth current”). Thus, the LED drive circuit 71 is controlled. That is, the control circuit 72 controls the first light source unit 43a and the second light source unit 43b separately by controlling the LED drive circuit 71.
Here, since the heat generated from the second light source unit 43b and the heat generated when the headlamp unit 41 is turned on are easily transmitted upward, the region where the first light source unit 43a located on the upper side in the lamp chamber 55 is present. It becomes a high temperature region. Therefore, since the first light source unit 43a disposed in the high temperature region is placed in a higher temperature state than the lower region, which is another region, it is easily affected by heat generated from the second light source unit 43b.
Moreover, since the 1st light source part 43a is arrange | positioned adjacent to the headlamp unit 41, it is easy to receive the influence by the heat | fever which arises from the headlamp unit 41 compared with the 2nd light source part 43b.
However, in the vehicle headlamp 40, the control circuit 72 controls the third current value supplied to the LED 46 to be smaller than the fourth current value supplied to the LED 47. The influence of the heat generated in the headlamp unit 41 on the upper first light source unit 43a can be reduced. Therefore, it is possible to improve the durability of the upper first light source unit 43a disposed in the vicinity of the headlamp unit 41.
FIG. 5 shows an example in which the upper first light source unit 43a includes one LED 46 and the lower second light source unit 43b includes one LED 47. There may be two or more.
The above-described embodiment is merely an example of a preferred embodiment of the present invention, and the present invention can be implemented with various modifications without departing from the gist thereof.
It is a schematic front view of the vehicle headlamp according to the first embodiment. It is sectional drawing of the vehicle headlamp which follows the II-II line | wire of FIG. It is sectional drawing of the vehicle headlamp which follows the III-III line of FIG. It is a figure for demonstrating control of the electric current supply to LED. It is a schematic front view of the vehicle headlamp which concerns on 2nd Embodiment. It is sectional drawing of the vehicle headlamp which follows the VI-VI line of FIG. It is sectional drawing of the vehicle headlamp which follows the VII-VII line of FIG. It is a figure for demonstrating control of the electric current supply to LED.
DESCRIPTION OF SYMBOLS 1, 40 ... Vehicle headlamp, 5, 42 ... Mark light unit, 6, 41 ... Headlamp unit, 7, 65 ... Electric circuit, 8 ... 1st light source part, 9 ... 2nd light source part, 13, 13, ..., 14, 14, ..., 46, 47 ... LED (semiconductor light emitting element), 30, 70 ... power supply circuit, 31, 71 ... LED drive circuit, 32, 72 ... control circuit, 43 ... Daytime running lamp
In a vehicle headlamp comprising a headlamp unit that emits light forward, a marker lamp unit that uses a plurality of semiconductor light emitting elements as light sources, and an electric circuit that supplies current to at least the marker lamp unit ,
The marker lamp unit is divided into at least two light source units each having the light source,
At least one of the light source units is present in a high temperature region that is higher than other regions when the headlamp unit is turned on,
The electric circuit separately sets the divided light source units so that a current supplied to a light source unit existing in the high temperature region is smaller than a current supplied to a light source unit existing in the other region. A vehicle headlamp characterized by being controlled.
The electric circuit separately sets the divided light source units so that a current supplied to a light source unit arranged close to the headlamp unit is smaller than a current supplied to another light source unit. It controls. The vehicle headlamp of Claim 1 characterized by the above-mentioned.
At least one light source is disposed on the side of the vehicle;
The electric circuit controls each of the divided light source units so that a current supplied to a light source unit disposed on a side surface of the vehicle is smaller than a current supplied to another light source unit. The vehicle headlamp according to claim 1.
At least one light source unit is disposed above the other light source unit,
The electrical circuit controls each of the divided light source units so that a current supplied to the light source unit arranged on the upper side is smaller than a current supplied to another light source unit. The vehicle headlamp according to claim 1.
The electrical circuit controls to turn off all the light sources when at least one of the divided light source units is disconnected. 5. The claim 1, 2, 3, or 4. The vehicle headlamp described.
The daylight running lamp which lights up in the time zone other than nighttime and exhibits the sign function is used as the beacon lamp unit. The claim 1, claim 2, claim 3, claim 4 or claim 4 5. A vehicle headlamp according to 5.
JP2008264329A 2008-03-13 2008-10-10 A vehicle headlamp Expired - Fee Related JP5145190B2 (en)
JP2008064033 2008-03-13
JP2008264329A JP5145190B2 (en) 2008-03-13 2008-10-10 A vehicle headlamp
KR1020090020291A KR101045617B1 (en) 2008-03-13 2009-03-10 Headlights for vehicles
US12/401,991 US7993045B2 (en) 2008-03-13 2009-03-11 Vehicular headlamp
EP20090154979 EP2103483B1 (en) 2008-03-13 2009-03-12 Vehicular headlamp
CN 200910117885 CN101532632B (en) 2008-03-13 2009-03-13 Vehicular headlamp
JP2009241921A true JP2009241921A (en) 2009-10-22
JP5145190B2 JP5145190B2 (en) 2013-02-13
ID=40688579
JP2008264329A Expired - Fee Related JP5145190B2 (en) 2008-03-13 2008-10-10 A vehicle headlamp
US (1) US7993045B2 (en)
EP (1) EP2103483B1 (en)
JP (1) JP5145190B2 (en)
KR (1) KR101045617B1 (en)
CN (1) CN101532632B (en)
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2008-10-10 JP JP2008264329A patent/JP5145190B2/en not_active Expired - Fee Related
2009-03-10 KR KR1020090020291A patent/KR101045617B1/en not_active IP Right Cessation
2009-03-11 US US12/401,991 patent/US7993045B2/en not_active Expired - Fee Related
2009-03-12 EP EP20090154979 patent/EP2103483B1/en not_active Expired - Fee Related
2009-03-13 CN CN 200910117885 patent/CN101532632B/en not_active IP Right Cessation
EP2103483A3 (en) 2010-07-07
JP5145190B2 (en) 2013-02-13
CN101532632B (en) 2011-02-16
US20090231876A1 (en) 2009-09-17
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