JP2015064994A - Light guide lens and vehicle lamp - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress a luminance difference generated at a seam of a light guide plate even when a plurality of light guide plates are used, and to suppress an unnatural appearance. SOLUTION: A light incident portion 30 that draws light from a light source into the inside is provided at one end portion, and a reflection portion 40 that reflects light that has been drawn from the light incident portion 30 and passed through the inside is provided at the other end portion. In addition, the light guide lens 2 is formed by arranging a plurality of light guide plates (first linear portion 211 and second linear portion 212) having a large number of lens cuts (prism cuts 50) on the back surface. A first total reflection portion 60 that totally reflects light incident from the light incident portion 30 to the reflection portion 40 is provided at one end portion of one of the adjacent light guide plates. The other light guide plate is disposed such that the reflection portion 40 overlaps the first total reflection portion 60 in the front. The reflection part 40 of the other light guide plate includes a second total reflection part 80 that totally reflects the light drawn from the light incident part 30 of the light guide plate and passed through the interior toward the front, and the light that has passed through the interior. A light transmissive portion 90 that leads to the light guide plate. [Selection] Figure 2

Description

  The present invention relates to a light guide lens and a vehicle lamp.

Conventionally, in an illuminating device using a light guide lens, an illuminating device including a plurality of light guide plates having an exit surface and a light source disposed on the back side facing the exit surface is known (for example, Patent Documents). 1).
One end surface of each light guide plate is inclined at an obtuse angle with respect to the exit surface, and a light source is disposed on the back side thereof. The other end face of each light guide plate is inclined at an obtuse angle with respect to the back face. Both end surfaces reflect light totally. As a result, the light emitted from the light source is totally reflected by one end surface of the light guide plate, passes through the light guide plate, and is reflected forward by the other end surface and the back surface. The plurality of light guide plates are arranged adjacent to each other, and among the adjacent light guide plates, the light source side (one end surface side) of one light guide plate and the tip side (the other side of the other light guide plate). End face side). An end surface on the light source side of one light guide plate and an end surface on the front end side of the other light guide plate are arranged so as to overlap each other.

JP 2009-9825 A

Here, the light source side end face of one light guide plate totally reflects light from the light source into the light guide plate. Further, the end surface on the front end side of the other light guide plate totally reflects the light passing through the light guide plate toward the front. For this reason, in the joint part of the adjacent light-guide plate, the light source side of one light-guide plate became comparatively darker than the front end side of the other light-guide plate, and it had the appearance which produces discomfort.
For this reason, even if it is a case where a some light guide plate is used, the subject of this invention is suppressing the brightness difference which arises in the joint of a light guide plate, and suppressing the uncomfortable appearance.

The invention described in claim 1
A light incident part that draws light from the light source into the inside is provided at one end part, and a reflection part that reflects the light drawn from the light incident part and passed through the inside is provided at the other end part, and on the back side. A light guide lens in which a plurality of light guide plates having a large number of lens cuts are arranged,
Among the plurality of light guide plates, at least one pair of adjacent light guide plates has one end portion of one light guide plate that totally reflects light from the light source incident through the light incident portion to the reflection portion. A first total reflection part is provided;
The other light guide plate of the adjacent light guide plates is arranged so that the reflection portion overlaps the first total reflection portion in the front,
The reflection part of the other light guide plate includes a second total reflection part that totally reflects forward light that has been drawn from the light incident part of the light guide plate and has passed through the inside, and light that has passed through the inside is And a translucent part led to the light guide plate.

The invention according to claim 2 is the light guide lens according to claim 1,
The second total reflection part and the light transmission part are alternately arranged along the front-rear direction.

A vehicular lamp according to the invention of claim 3 is provided.
The light guide lens according to claim 1 or 2,
And the light source disposed in the light incident portion of the light guide lens.

  According to the first aspect of the present invention, of the adjacent light guide plates, the reflection portion of the other light guide plate totally reflects the light forward, and the transparent light guides the light to the one light guide plate. Since the light portion is provided, the luminance on the reflection portion side of the other light guide plate can be lowered to the same luminance as that on the one end portion side of the one light guide plate. Therefore, it is possible to suppress a luminance difference generated at the joint between adjacent light guide plates, and to suppress an uncomfortable appearance.

  According to the invention of claim 2, since the second total reflection part and the light transmission part are alternately arranged along the front-rear direction, the light reflected forward by the second total reflection part and the light transmission part The transmitted light to one of the light guide plates is dispersed in the front-rear direction, so that it is possible to further suppress an uncomfortable appearance.

  According to the third aspect of the present invention, the same effect as that of the first aspect of the present invention can be achieved in the vehicular lamp.

It is a front view which shows schematic structure of the light guide lens with which the vehicle lamp which concerns on this embodiment is equipped. It is the enlarged view which expanded and showed a part of light guide lens of FIG.

Hereinafter, the vehicular lamp according to the present embodiment will be described. FIG. 1 is a front view showing a schematic configuration of a light guide lens provided in a vehicular lamp according to the present embodiment. FIG. 2 is an enlarged view showing a part of the light guide lens of FIG.
In the following description, unless otherwise specified, “front”, “rear”, “left”, “right”, “upper”, and “lower” are described in the direction viewed from the vehicular lamp 1. It shall be used in correspondence with the description of the drawing as indicating the direction seen from the vehicle not shown.

  The vehicular lamp 1 is a headlamp mounted on the front portion of a vehicle, and includes a housing (not shown) whose front surface is open and an outer lens (not shown) that covers the front opening of the housing. In the lamp chamber formed by the housing and the outer lens, the light guide lens 2 forming the main light distribution is arranged along the opening periphery of the housing.

  As shown in FIG. 1, the light guide lens 2 is formed in a substantially U shape that opens rightward in a front view, and is held by a housing. The light guide lens 2 includes a straight portion 21 that is formed substantially linearly in a straight line, and a curved portion 22 that curves from the left end portion of the straight portion 21 to the lower right direction. A plurality of ribs 23 for fixing to the housing are provided at predetermined portions of the straight portion 21 and the curved portion 22. The light guide lens 2 is attached to the housing by being screwed to the housing via the ribs 23.

The straight portion 21 includes a straight first straight portion 211 and a second straight portion 212 made of a light guide plate having a substantially square cross section. The first straight portion 211 is disposed on the right side, the second straight portion 212 is disposed on the left side, and the left end portion of the first straight portion 211 and the right end portion of the second straight portion 212 are joined together.
The curved portion 22 includes a curved first curved portion 221 and a second curved portion 222 made of a light guide plate having a substantially square cross section. One end portion of the first curved portion 221 is joined to the left end portion of the second linear portion 212, and the other end portion is disposed on the lower right side of the one end portion. The other end of the first curved portion 221 is joined to the left end of the second curved portion 222.
As described above, the light guide lens 2 is formed by arranging a plurality of light guide plates (first linear portion 211, second linear portion 212, first curved portion 221 and second curved portion 222).

  Here, each of the first linear portion 211, the second linear portion 212, the first curved portion 221 and the second curved portion 222 has the light incident portion 30 that draws light from the light source (LED 70 to be described later) into one end. And a reflecting portion 40 that reflects light that has been drawn from the light incident portion 30 and passed through the inside to the other end portion and is reflected forward. In addition, the first straight portion 211, the second straight portion 212, the first curved portion 221 and the second curved portion 222 are all formed on the back surface with a large number of prism cuts 50 that reflect light passing through the inside forward. Yes. The prism cut 50 is an example of a lens cut according to the present invention, and the reflection part of the light guide plate may be formed by a dot lens cut into a dot shape.

Next, the joint structure of the light guide plate will be described by exemplifying a joint portion between the first straight portion 211 and the second straight portion 212.
As shown in FIG. 2, at one end portion of the first linear portion 211, a light incident portion 30 and a first total reflection portion 60 that totally reflects light incident on the light incident portion 30 toward the reflection portion 40, Is provided.
The light incident portion 30 protrudes rearward from a position facing the first total reflection portion 60 in a truncated cone shape, and a concave portion 31 is provided at the tip portion thereof. A convex (aspherical) first incident surface 32 bulging rearward is formed at the bottom of the recess 31. An LED 70 as a light source is disposed near the focal point of the first incident surface 32. Thereby, the light emitted from the LED 70 enters the light incident part 30 as parallel light substantially along the front-rear direction.
The inner peripheral surface of the recess 31 is a second incident surface 33. The second incident surface 33 is a partial truncated conical surface standing rearward from the peripheral portion of the first incident surface 32, and is directed to the side of the first incident surface 32 in the light emitted from the LED 70. A thing is made to enter the light incident part 30.
The outer peripheral surface of the light incident portion 30 is a reflective surface 34. The reflecting surface 34 is a partial truncated conical surface that is inclined so as to spread outward from the front end (rear end) of the second incident surface 33, and extends from the second incident surface 33 into the light incident portion 30. The light incident on is internally reflected so as to be substantially along the front-rear direction.
Light from the LED 70 travels toward the first total reflection portion 60 through the first incident surface 32, the second incident surface 33, and the reflecting surface 34. The first total reflection unit 60 is an angle that totally reflects light that has reached through the first incident surface 32, the second incident surface 33, and the reflection surface 34 mainly toward the reflection unit 40 of the first linear portion 211, The first straight portion 211 is inclined with respect to the front surface 213. The light that reaches the reflecting part 40 is reflected forward by the reflecting part 40. Further, the light that is reflected by the first total reflection part 60 but reaches the prism cut 50 instead of the reflection part 40 is reflected forward by the prism cut 50.

In addition, a reflecting portion 40 is provided at the other end portion of the second linear portion 212. The reflection part 40 is disposed so as to overlap the first total reflection part 60 of the first straight part 211 in the front. The reflecting portion 40 is inclined with respect to the front surface 214 of the second straight portion 212 so as to follow the first total reflection portion 60 of the first straight portion 211.
The reflection unit 40 includes a second total reflection unit 80 that totally reflects the light drawn from the light incident unit 30 and having passed through the interior toward the front, and a light transmission unit that guides the light that has passed through the interior to the first linear portion 211. 90 are alternately arranged along the front-rear direction.
The second total reflection part 80 is set to an angle at which the light passing through the inside and reaching the second total reflection part 80 is reflected forward. The light transmitting part 90 is transmitted at an angle that passes through the inside and reaches the light transmitting part 90 and enters the first straight part 211 via the first total reflection part 60 of the adjacent first straight part 211. Is set.
Here, the angle θ1 formed by the front surface 214 of the second linear portion 212 and the second total reflection portion 80 is preferably 45 degrees or less, although it depends on the material of the light guide plate. Further, the angle θ2 formed by the second total reflection portion 80 and the light transmitting portion 90 is such that the light transmitting portion 90 is substantially orthogonal to the front surface 214 of the second linear portion 212, and the angle θ2 = angle θ1 ± 15 degrees. A value satisfying the above relationship is preferable. Further, it is preferable that the portion 95 connecting the second reflecting portion 80 and the light transmitting portion 90 is formed substantially parallel to the front surface 214 of the second linear portion 212.

Next, the operation of this embodiment will be described.
The light emitted from the LED 70 of the first linear portion 211 enters the first linear portion 211 by the light incident portion 30 and is reflected mainly toward the reflecting portion 40 by the first total reflection portion 60. The light that reaches the reflecting portion 40 is reflected forward by the reflecting portion 40. Here, the light reflected toward the prism cut 50 by the first total reflection unit 60 is reflected forward by the prism cut 50.
On the other hand, the light that has passed through the second straight part 212 and reached the second total reflection part 80 of the second straight part 212 is reflected forward by the second total reflection part 80. Further, the light that has passed through the second linear portion 212 and has reached the light transmitting portion 90 of the second linear portion 212 passes through the light transmitting portion 90, and the first total reflection portion 60 of the adjacent first straight portion 211. It enters into the 1st straight part 211 via. Of the light that has entered the first linear portion 211, some of the light reaches the reflecting portion 40 and is reflected forward, and the other light is reflected forward by the prism cut 50.
The light that has passed through the translucent part 90 and entered the first straight part 211 substantially increases the amount of light incident on the first straight part 211, so that the first straight part 211 can be longer than the length of the second straight part 212. It is effective for elongating the linear light guide plate. Further, when the light guide plate has a curvature like the second curved portion 222, the light incident from the LED is attenuated during light guide. The seam having the light transmitting portion 90 also increases the amount of light incident on the second curved portion 222, so that the light attenuated during light guiding is supplemented, and it is effective for increasing the length of the curved light guide plate.

As described above, according to the present embodiment, of the adjacent first straight line portion 211 and second straight line portion 212, the second total reflection in which the reflection portion 40 of the second straight line portion 212 totally reflects light forward. Part 80 and the translucent part 90 that guides light to the first straight part 211, so that the brightness of the second straight part 212 is the same as that of the one end part side (light incident part 30 side) of the first straight part 211. The brightness on the reflection unit 40 side can be lowered. Therefore, it is possible to suppress a luminance difference that occurs at the joint between the adjacent first straight line portion 211 and the second straight line portion 212, and to suppress an uncomfortable appearance.
If the size, angle, ratio, etc. of the second total reflection part 80 and the light transmission part 90 are appropriately adjusted, it is also possible to suppress the luminance difference of the joint portion even if the material or shape of the light guide plate is different. is there.

  Further, since the second total reflection part 80 and the light transmission part 90 are alternately arranged along the front-rear direction, the light reflected forward by the second total reflection part 80 and the first straight part by the light transmission part 90 The transmitted light to 211 is dispersed in the front-rear direction, and it is possible to further suppress an uncomfortable appearance.

Of course, the present invention is not limited to the above-described embodiment and can be modified as appropriate.
For example, in the above embodiment, the vehicular lamp 1 has been described as a headlamp mounted on the front portion of the vehicle, but a rear lamp mounted on the rear portion of the vehicle may be used.

DESCRIPTION OF SYMBOLS 1 Vehicle lamp 2 Light guide lens 21 Straight line part 22 Curved part 30 Light incident part 40 Reflecting part 50 Prism cut (lens cut)
60 first total reflection part 70 LED (light source)
80 2nd total reflection part 90 Translucent part 211 1st linear part (one light guide plate)
212 Second straight part (the other light guide plate)
221 First curve portion 222 Second curve portion

Claims (3)

A light incident part that draws light from the light source into the inside is provided at one end part, and a reflection part that reflects the light drawn from the light incident part and passed through the inside is provided at the other end part, and on the back side. A light guide lens in which a plurality of light guide plates having a large number of lens cuts are arranged,
Among the plurality of light guide plates, at least one pair of adjacent light guide plates has one end portion of one light guide plate that totally reflects light from the light source incident through the light incident portion to the reflection portion. A first total reflection part is provided;
The other light guide plate of the adjacent light guide plates is arranged so that the reflection portion overlaps the first total reflection portion in the front,
The reflection part of the other light guide plate includes a second total reflection part that totally reflects forward light that has been drawn from the light incident part of the light guide plate and has passed through the inside, and light that has passed through the inside is A light guide lens comprising a translucent part that leads to the light guide plate. The light guide lens according to claim 1,
The light guide lens, wherein the second total reflection portion and the light transmission portion are alternately arranged along a front-rear direction. The light guide lens according to claim 1 or 2,
A vehicle lamp comprising: the light source disposed in the light incident portion of the light guide lens.

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