CN210179516U - Vehicle lamp - Google Patents

Abstract

The utility model relates to a car light (1), this car light include car light casing (10), light guide unit (20) and light emitting component (30), wherein, light emitting component (30) include at least one light source (33) and support at least one back plate (31) of light source (33), light guide unit (20) receive and guide come from light source (33) light to light guide unit (20) directly keep in car light casing (10).

Description

Vehicle lamp

Technical Field

The utility model relates to a car lamp.

Background

Light guide elements, such as those known from EP1780463, which are usually of very long shape, are increasingly used in modern vehicle lamps. An important consideration for this is the positioning of the light guide member itself in the vehicle lamp. Furthermore, light emitting diodes are often used as light sources, so that also the correct positioning of the light emitting diodes with respect to the light guiding member should be taken into account. One way of doing this is to assign an additional positioning element, for example a sleeve, to the light-guiding element, in particular at the end of the light-guiding element facing the light-emitting diode, and then to position the light-guiding element by positioning it in the vehicle lamp housing. This approach requires additional parts and requires high manufacturing accuracy.

For this reason, a simpler, reliable structure for achieving the positioning of the light emitting diode with respect to the light guide member in the vehicular lamp is required.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a car light, it can solve above-mentioned problem at least partially.

According to the utility model provides a car light, this car light include car light casing, light guide unit and luminous component, and luminous component includes at least one light source and the at least back plate that supports the light source, and light guide unit receives and guides the light that comes from the light source, and wherein, light guide unit directly keeps in car light casing.

According to an embodiment of the present invention, the light guide member includes a light guide main body and a holding plate at an end portion of the light guide main body facing the light source, the holding plate being attached to the lamp housing.

According to an embodiment of the present invention, the light guide main body includes at least one light guide unit, the light incident surface of the light guide unit is provided with at least one light source, and at least one hollow is provided at a connecting portion of the light guide unit and the holding plate.

According to an embodiment of the invention, a support portion for the support plate is provided on the holding plate, the support portion being in the form of a boss and/or a rib.

According to an embodiment of the invention, studs are provided on the holding plate, the supporting plate having corresponding perforations into which the studs are inserted.

According to an embodiment of the present invention, the lamp housing has an opening, and a positioning table for a holding plate of the light guide member is provided in the opening, and the holding plate is placed on a table top of the positioning table. The opening can be considered here as a blind opening, and the at least one positioning table can be formed at the bottom of the opening, which can have an aperture therein for threading the light-guiding member.

According to an embodiment of the invention, a first positioning table and a second positioning table are provided which are opposite each other, at least one of them being elastic, and the surfaces of the first positioning table and the second positioning table facing each other, which surfaces are adjacent to the table top, form a cone, which cone diminishes towards the direction of the table top.

According to an embodiment of the invention, the first positioning table is formed by a U-shaped frame, for example a U-shaped frame connected to the circumferential inner wall of the opening or to a tab, and a tongue arranged at the bottom of the U-shaped frame, on which tongue a first table top is formed.

According to an embodiment of the present invention, the second positioning table is a V-shaped structure having a second table top in one plane with the first table top.

According to an embodiment of the invention, the vehicle lamp further has a heat sink, which is arranged at the opening, and the support plate can be placed on the heat sink.

According to an embodiment of the invention, the heat sink has a recess for the stud.

According to an embodiment of the invention, a heat transfer device is arranged between the heat sink and the support plate.

According to an embodiment of the present invention, the opening is closed by the heat sink.

According to an embodiment of the present invention, a sealing member is provided between the opening and the heat sink, and a spacing step for the sealing member is provided in the opening.

According to an embodiment of the present invention, the light source is a light emitting diode.

According to an embodiment of the present invention, the vehicle lamp is a front lamp or a rear lamp.

Drawings

The invention is further elucidated below with the aid of the accompanying drawing. Wherein the content of the first and second substances,

fig. 1 schematically shows an exploded view of a vehicle lamp according to the present invention;

FIG. 2 schematically illustrates an enlarged partial view of region A of the vehicle light of FIG. 1;

FIG. 3 schematically illustrates an enlarged partial view of region B of the vehicle light of FIG. 1;

fig. 4 schematically shows a partial view of a vehicle lamp according to the invention, wherein, for the sake of clarity, the heat sink is not depicted; and

fig. 5 schematically shows a sectional illustration of the vehicle lamp along the line C-C of fig. 4.

Detailed Description

Embodiments of the present invention are exemplarily described below. As those skilled in the art will appreciate, the illustrated embodiments may be modified in various different ways without departing from the inventive concept. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive. In the following, the same reference numbers generally indicate functionally identical or similar elements.

Fig. 1 schematically shows a vehicle lamp 1 according to the invention. The vehicular lamp 1 mainly includes a lamp housing 10, a light guide member 20, and a light emitting member 30. A heat sink 40 is additionally shown. They can be arranged in combination with one another at the vehicle lamp housing 10, which is preferably integrally molded from plastic. The lamp housing 10 is shown here in partial section. With regard to the vehicle lamp housing, it is understood here that it is a receiving housing of the vehicle lamp, by means of which a receiving space is formed, in which, in addition to the above-described components, further components, such as, for example, further light modules, sun visors, reflectors, wiring harnesses, fans or drives, etc., can be arranged. In other words, an interior space of the lamp is defined by the lamp housing. The lamp housing also has an open end that forms a light exit region of the lamp and is sealed by an at least partially light transmissive lens. The vehicle lamp and its specific components are further described below with the aid of further figures.

An enlarged partial view of one end of the light guide member 20 is shown in fig. 2. In the illustrated example, the light guide member 20 is constituted by a light guide body 21 and a holding plate 22. A holding plate 22 is provided at an end of the light guide body facing the light source, and serves to hold the light guide member on the housing. The light guide body includes at least one light guide unit 21a having an elongated rod shape. In the example shown, three light guide units 21a are provided alongside one another, wherein each light guide unit has a light entry face 21aa, to each of which at least one light source 33 is assigned, see fig. 5. It should be noted that in the case where a plurality of light guide units are provided, the number of light guide units may be selected according to specific needs. The light guide unit may have a structure known in the art and will not be described in detail herein.

The light guide body 21 and the holding plate 22 may be made of the same material, such as polycarbonate PC, polymethylmethacrylate PMMA, silicone or other suitable materials like glass. In this case, a hollowed-out portion 21ab is provided at a connection portion of the light guide unit 21a and the holding plate 22 to reduce the amount of light of the light source coupled into the holding plate, thereby improving optical efficiency. As can be seen in fig. 2, the cutouts provided are distributed in the circumferential direction.

Alternatively, the holding plate 22 may also be made of a material that is opaque to light, such as PMMA or PC with black masterbatch, or the like. This can prevent light of the light source from being coupled into the holding plate, thereby preventing light channeling.

The holding plate is provided with a support at its side facing away from the light-guiding unit, which support is in the form of a boss 25 and/or a rib 24, respectively. A pair of studs 23 are also provided on the holding plate 22. In the example shown, ribs 24 are arranged between studs 23. The provision of ribs 24 additionally contributes to the structural strength of the retaining plate. With regard to the above-described structure provided on the holding plate, further explanation will be made below in conjunction with the light-emitting member 30.

Fig. 3 shows a detail B of the lamp housing 10 at the location of the opening 11.

The opening 11 may be defined by a skirt 12. A step 13 is provided in the opening, which is arranged circumferentially inside the enclosure. Of course, the step 13 can also be provided intermittently circumferentially inside the shroud. Below the step there is also provided at least one tab 14 which bridges across the inner wall of the opening. In this case, the opening may be approximately regarded as a blind opening, wherein an aperture is formed in the bottom of the blind opening for threading the light-guiding member. To this end, the aperture may be considered as being defined by the tabs and the circumferential inner wall of the opening. The aperture may also be defined by two adjacent tabs, which are not shown in the drawings.

A positioning table for a holding plate of the light guide member is also provided in the opening.

In the example shown, a pair of oppositely disposed positioning tables is provided at a circumferential location of the aperture, the table faces of the positioning tables abutting against the faces of the holding plate 22 facing the light-guiding unit. Here, the first positioning stand 15 is provided at a circumferential portion of the opening toward the inner cavity side of the lamp housing. The first positioning table 15 is constituted by a U-shaped frame 15b attached to the lamp housing and a tongue piece 15c provided at the bottom of the U-shaped frame 15b, on which a first table surface 15a is formed. A second location station 16 is formed at the tab 14, the body of which is of a V-shaped configuration. The second positioning table 16 projects toward the inner cavity side of the lamp housing like the first positioning table, and one side portion 16b of the V-shaped structure of the second positioning table 16 is connected to the tab 14, and the other side portion 16c has a second land 16a formed thereon.

Alternatively, the first positioning table 15 may also be provided at the web, or the second positioning table 16 may be provided at a circumferential location of the opening toward the inner cavity side of the lamp housing. That is, the position of the positioning table may be set at an appropriate position in the opening as needed as long as a holding plate that can mount the light guide member, particularly, the end portion of the light guide member facing the light source is realized.

At least one of the first positioning stage 15 and the second positioning stage 16 is configured to be elastic. The surfaces of the tongue 15c of the first positioning land 15 and the other side 16c of the second positioning land 16 facing each other form a tapered mouth which becomes smaller in a direction from the inner cavity of the lamp housing toward the mesa surface.

The positioning tables described above can also have the same configuration and can also have other numbers, for example a third positioning table or a fourth positioning table.

At the tab 14 there may also be formed at least one protrusion 17 forming a guiding structure, the inner contour of which matches at least a part of the outer contour of the holding plate, thereby forming a guiding structure and simplifying the correct positioning of the light guiding member in the housing.

As can be appreciated from fig. 4 and 5, the light guide member is placed at the opening 11 of the lamp housing. At the opening is also placed a light emitting part 30 provided with a heat sink 40.

The light sources 33 of the light emitting part 30 face the light incident surfaces of the light guide units, respectively.

During assembly, the end of the light-guiding member 20 provided with the retaining plate 22 is pushed outwards in the direction from the lamp housing interior towards the housing opening, in this case guided by the inner wall of the protrusion 17. At this time, the outer periphery of the holding plate 22 is in contact with the faces of the tongue piece 15c and the other side portion 16c that face each other. As the pushing proceeds, at least one of the tongues 15c and the further side portions 16c is elastically deformed outwards in a direction transverse to the pushing direction until the face of the holding plate 22 facing the light-guiding unit abuts against the first and second table- top 15a, 16 a. At the same time, at least one of the tongue piece 15c and the other side portion 16c, which have been elastically deformed, is elastically restored.

Preferably, stops can additionally be provided at the first and second table top 15a, 16a to enable positioning of the holding plate 22 in at least one direction transverse to the normal direction of the table top.

The side of the light emitting member 30 on which the light source 33 is mounted is supported on the ribs 24 and the bosses 25 of the holding plate. Here, it is preferable that the face defined by the top faces of the ribs 24 and the bosses 25 is parallel to the light incident face of the light guide member, so that when the supporting plate 31 of the light emitting part 30 is supported on the ribs 24 and the bosses 25, the light emitting face of the light source 33, e.g., a light emitting diode, mounted on the supporting plate 31 is parallel to the light incident face, thereby achieving as high efficiency as possible when light emitted from the light source is coupled into the light guide member. The support plate 31 may be in the form of a printed circuit board.

In order to achieve a correct positioning of the light emitting member 30 with respect to the light guiding member 20 to ensure a correct coupling in of the light emitted by the light source, at least one pair of perforations 32 is further provided in the back plate 31 of the light emitting member 30. One of the through holes has a dimension which is exactly matched to the outer contour of a stud 23 in order to limit the translation of the supporting plate 31 of the luminous member 30 in two other directions transverse to the normal direction of the table top in a cartesian coordinate system. The other of the perforations is arranged to define another degree of freedom, such as a rotational degree of freedom. Illustratively, the two studs may be cylinders of the same size, and one of the perforations is a stud hole having a circular cross-section and the other is a stud hole having an elongated cross-section, the diameter of the cylinders matching the diameter of one stud hole and the distance between the two long sides of the other stud hole. Thereby defining at least five degrees of freedom in combination with the mesa implementation.

The light member 30 and the heat sink 40 may be assembled into a pre-assembled module. Here, they can be glued, riveted, screwed or connected in any other suitable manner. To further enhance the heat dissipation effect, a heat transfer device, such as a heat-dissipating silicone or a flexible heat sink, may be arranged between the light emitting member 30 and the heat sink 40, which are readily commercially available. The side of the heat sink 40 facing the light emitting component 30 is formed with a recess 44 for receiving the rest of the stud. In this case, the stud can additionally be used for mounting guidance of the heat sink 40. Especially when the light emitting part 30 and the heat sink 40 are connected by means of screws, screw holes are also formed in the heat sink 40.

The heat sink 40 is formed in the circumferential direction with a ring of flanges 41 which can rest in the assembled state on the upper edge of the open enclosure of the lamp housing. Here, the flange 41 divides the base body into two parts: a portion protruding into an opening of the lamp housing, a light emitting member 30 being mounted on a surface of the portion; the opposite further portion, which may be formed by a number of fins 42, increases the heat dissipation area. In the flange 41 a number of positioning holes 43 are provided, which co-act with holes in the elevations 18 of the housing 10, into which holes screws or self-tapping screws can be screwed, so that a positioning of the heat sink 40 relative to the housing 10 is achieved and thus a positioning of the housing 10, the light-emitting part 20, the light-emitting part 30 and the heat sink 40 relative to each other is established, i.e. the force introduced by tightening the heat sink is conducted to the housing via the heat sink, the light-emitting part, the light-guiding part, without play between each other. Here, the constraint of the sixth degree of freedom is achieved by the heat sink.

In the above embodiment, since the distance of the light exit surface of the light source 33 of the light emitting member 20 from the light incident surface of the light guide member is determined mainly by the height dimension of the supporting portion itself in the form of the bosses 25 and/or the ribs provided on the holding plate 22, and the distance of the light exit surface of the light source 33 itself from the mounting surface of the light source 33 on the supporting plate 31, more specifically, by the difference therebetween, it is possible to achieve positioning with high accuracy.

If necessary, the first positioning table 15 and the second positioning table may also be elastically deformed in a direction perpendicular to the table top to compensate for manufacturing tolerances of the above-mentioned components.

The heat sink may be made of a material with good heat dissipation, such as metal, in particular aluminum. Preferably, the heat sink is integrally formed.

In order to protect the interior of the lamp housing from external influences, such as moisture, a seal 45 is provided, which is arranged between the circumferential surface of the part of the heat sink projecting into the housing opening and the inner wall of the opening enclosure. The seal 45 is flexibly deformable to complementarily occupy the gap between the peripheral surface and the inner wall. The above-mentioned step 13 provided at the inner wall of the enclosure forms a stop for the seal 45 to ensure the correct positioning of the seal 45. Thus, the seal may be positioned between the step 13 and the flange 41 of the heat sink 40.

In another embodiment, for a vehicle lamp, such as a position lamp, where low power consumption is required, the heat sink may be replaced by a cover, and the opening of the vehicle lamp housing is sealed by the cover. In this case, a surface of the support plate of the light-emitting member may abut against a surface of the cover that faces the interior of the lamp housing, so that the support plate is fixedly held between the cover and the support portion of the light guide member. Other components can be referred to the above description.

In the case of a plurality of light-guiding elements, the light sources assigned to the light-guiding elements can also emit different colors from one another, as a result of which different functions are achieved. The light-guiding elements may also be provided with other connecting structures at the location of their longitudinal extension in order to establish a fixed connection of the light-guiding elements to each other and to other components.

The light source may be a light emitting diode, such as a white light emitting diode, a yellow light emitting diode, a red light emitting diode, or other colored light emitting diodes.

The vehicle lamp mentioned may be a headlight or a taillight of a vehicle, for example for daytime running lights, fog lights, brake lights, position lights, turn signals, etc.

With the above-mentioned structure of the vehicle lamp, by positioning the light guide member, particularly the end of the light guide member facing the light source, directly in the housing, for example via a positioning table provided on the housing, without other components, such as an auxiliary positioning sleeve, precise positioning and simple assembly can be achieved with a simple structure with few parts, thereby reducing costs.

The present invention is not limited to the above configuration, and various other modifications may be adopted. While the invention has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the present invention should be limited only by the attached claims.

Claims (16)

1. A vehicle lamp (1) comprising a lamp housing (10), a light guide member (20) and a light emitting member (30), said light emitting member (30) comprising at least one light source (33) and at least one support plate (31) supporting said light source (33), said light guide member (20) receiving and guiding light from said light source (33), characterized in that said light guide member (20) is directly held in said lamp housing (10).

2. Automotive light (1) according to claim 1, characterized in that the light-guiding member (20) comprises a light-guiding body (21) and a retaining plate (22) at the end of the light-guiding body (21) facing the light source, the retaining plate (22) being in abutment with the automotive light housing (10).

3. Automotive light (1) according to claim 2, characterized in that the light guide body (21) comprises at least one light guide unit (21a), the light entrance face (21aa) of the light guide unit (21a) is provided with at least one light source, and at least one cutout (21ab) is provided at the connecting portion of the light guide unit (21a) and the holding plate (22).

4. Vehicle lamp (1) according to claim 2, characterized in that a support for the support plate (31) is provided on the retaining plate (22), in the form of a boss (25) and/or a rib (24).

5. Vehicle lamp (1) according to claim 4, characterized in that a stud (23) is provided on the retaining plate (22), the support plate (31) having a corresponding through hole (32), the stud (23) being inserted in the through hole (32).

6. Automotive light (1) according to claim 5, characterized in that the housing (10) has an opening (11) in which a positioning table for a retaining plate (22) of the light-guiding member (20) is provided, the retaining plate (22) being placed on the table top of the positioning table.

7. Vehicle lamp (1) according to claim 6, characterized in that a first positioning table (15) and a second positioning table (16) are provided which are opposite each other, at least one of them being resilient, and that the surfaces of the first positioning table (15) and the second positioning table (16) facing each other adjacent to the table top form a tapering mouth which tapers in the direction of the table top.

8. Automotive light (1) according to claim 7, characterized in that said first positioning table (15) is constituted by a U-shaped frame (15b) and a tongue (15c) provided at the bottom of said U-shaped frame (15b), on said tongue (15c) a first table top (15a) being formed.

9. Automotive light (1) according to claim 8, characterized in that the second positioning table (16) is a resilient V-shaped structure having a second table top (16a) in one plane with the first table top (15 a).

10. Vehicle lamp (1) according to claim 6, characterized in that the vehicle lamp (1) further has a heat sink (40) arranged at the opening (11) and that the support plate (31) is mountable on the heat sink (40).

11. Vehicle light (1) according to claim 10, characterized in that the heat sink (40) has a recess (44) for the stud (23).

12. Automotive light (1) according to claim 10, characterized in that heat transfer means are provided between the heat sink (40) and the support plate (31).

13. Automotive light (1) according to claim 10, characterized in that said heat sink (40) closes said opening (11).

14. Vehicle light (1) according to claim 13, characterized in that a seal (45) is arranged between the opening (11) and the heat sink (40) and in that a step (13) for the limiting of the seal is arranged in the opening.

15. Automotive light (1) according to any one of claims 1 to 14, characterized in that the light source is a light emitting diode.

16. Automotive light (1) according to any one of claims 1 to 14, characterized in that the automotive light (1) is a headlight or a taillight.

Images