JP7103849B2 - Intermediate assembly used for vehicle lamps, vehicle lamps, and vehicle lamp assembly methods - Google Patents

Description

The present invention relates to an intermediate assembly used for a vehicle lamp, a vehicle lamp, and a method for assembling a vehicle lamp, and in particular, a plurality of components can be efficiently attached to a housing (work efficiency is good). The present invention relates to an intermediate assembly used for a vehicle lamp, a vehicle lamp, and a vehicle lamp assembly method.

Conventionally, a first lamp and a first housing configured by arranging a light source for a reflecting surface and a turn lamp in a first lamp chamber partitioned by a tubular first housing (inner side surface) and a first lens. A light source for a reflecting surface or a tail lamp is arranged in a second lamp chamber partitioned by a (outer surface), a tubular second housing (inner surface) arranged surrounding the first housing, and a second lens. A vehicle lamp equipped with a second lamp composed of the above is proposed (see, for example, Patent Document 1 (FIG. 2, FIG. 3, etc.)).

Japanese Unexamined Patent Publication No. 11-32147

However, in the vehicle lighting equipment described in Patent Document 1, since a plurality of components (for example, components of each lamp, extensions, outer lenses, etc.) are not unitized into one, a plurality of components are used. It has to be attached to the housing individually, and there is a problem that it is difficult to efficiently attach a plurality of components to the housing (work efficiency is not good).

The present invention has been made in view of the above circumstances, and an intermediate assembly used for a vehicle lamp, a vehicle lamp, which can efficiently attach a plurality of components to a housing (work efficiency is good). It is an object of the present invention to provide a method for assembling a lamp for a vehicle.

In order to achieve the above object, one aspect of the present invention is an intermediate assembly used for a vehicle lamp, comprising a lamp unit, an extension, and a first fixing means for fixing the extension to the lamp unit. It is characterized by being three-dimensional.

According to this aspect, an intermediate assembly used for vehicle lighting equipment is provided, in which a plurality of components (for example, components of a lamp unit, extensions) can be efficiently attached to a housing (work efficiency is good). be able to.

This is because one intermediate assembly unitized by fixing the lamp unit and the extension is constructed, so that only by fixing the one intermediate assembly to the housing, a plurality of components can be simultaneously housed. This is because it can be attached to.

Another aspect of the present invention includes an intermediate assembly including a lamp unit, an extension, and a first fixing means for fixing the extension to the lamp unit, a housing, an outer lens, and the intermediate assembly. A vehicle comprising a second fixing means for fixing to the housing, wherein the lamp unit is a lamp assembly in which at least a bracket and a first lamp unit and a second lamp unit fixed to the bracket are combined. In the method of assembling the lamp, the first step of combining the first lamp unit and the second lamp unit with the bracket on the back side of the bracket, and the intermediate assembly by fixing the extension to the bracket. After performing the first step and the second step in order, the third step of fixing the intermediate assembly to the housing and the outer lens are welded or adhered to the housing. The first lamp unit has a cup-shaped reflector having a closed surface on the back surface, an opening on the front surface, and a reflecting surface on the inner surface for reflecting light from a light source. The opening is provided with a first light emitting region, the second lamp unit is provided with a second light emitting region separated by the bracket, and the bracket is made of a material having a light-shielding property, and the first lamp is provided. The first lamp unit is located between the unit and the second lamp unit and optically shut off, and between the back surface of the reflector of the first lamp unit and the inner surface of the housing. And a fixing portion for fixing the second lamp unit, the extension has an opening corresponding to the first light emitting region and the second light emitting region, and is configured in a frame shape surrounding the opening. In the second step, the first light emitting region and the second light emitting region are exposed from the opening of the extension at a position that can be seen when the intermediate assembly is observed from the back surface. The first fixing means includes a step of fixing the bracket and the extension, and the third step includes a screw receiving portion provided on the back surface side of the reflector by a screw inserted into a through hole provided in the housing. It is a method of assembling a vehicle lamp, which comprises a step of fixing.

According to this aspect, a plurality of components (eg, lamp unit components, extensions, outer lenses) can be efficiently attached to the housing (work efficiency is good), and an intermediate assembly used for vehicle lighting equipment. Can be provided.

This is because one intermediate assembly unitized by fixing the lamp unit, the extension, and the outer lens is constructed, and therefore, only by fixing the one intermediate assembly to the housing, a plurality of components This is because (the lamp unit, the extension, and the outer lens) can be attached to the housing at the same time.

In the above invention, a preferred embodiment is a tubular support in which the bracket opens toward the front and the fixing portion is provided on the back side, and in the first step, the first lamp unit has the cylinder. A step of being supported by the tubular support in a state of being arranged inside a space surrounded by the inner peripheral surface of the shape support and fixing the front side so as to irradiate light from the first light source. The second lamp unit is supported by the tubular support in a state of being arranged along the outer peripheral surface of the tubular support, and is in a state of irradiating the front side with light from the second light source. It is characterized by including a step of fixing .

Further, in the above invention, a preferred embodiment is characterized in that the first step further includes a step of fixing the third lamp unit to the bracket outside the second lamp unit .

Further, another aspect of the present invention is an intermediate assembly including a lamp unit, an extension, and a first fixing means for fixing the extension to the lamp unit, a housing, an outer lens, and the intermediate. A vehicle lamp with a second fixing means for fixing the assembly to the housing , wherein the lamp unit is at least a bracket and a first lamp unit and a second lamp unit fixed to the bracket. The first lamp unit has a cup-shaped reflector having a closed back side, an opening on the front side, and a reflecting surface on the inner surface for reflecting light from a light source. The opening is provided with a first light emitting region, the second lamp unit is provided with a second light emitting region separated by the bracket, and the bracket is made of a light-shielding material and is made of the first light emitting material. The first lamp is located between the lamp unit and the second lamp unit and optically shut off, and between the back surface of the reflector of the first lamp unit and the inner surface of the housing. The extension includes a unit and a fixing portion for fixing the second lamp unit, and the extension has an opening corresponding to the first light emitting region and the second light emitting region, and is configured in a frame shape surrounding the opening. The first fixing means has a structure of fixing the intermediate assembly to the bracket at a position that can be seen when observed from the back surface, and the first light emitting region and the second light emitting region are the said. The second fixing means is fixed so as to be exposed from the opening of the extension, and is fixed by a screw receiving portion provided on the back side of the reflector and a screw inserted into a through hole provided in the housing. It is a vehicle lamp that is characterized by this.

In the above invention, a preferred embodiment is a tubular support in which the bracket opens toward the front and the fixing portion is provided on the back side, and the first lamp unit is the inner circumference of the tubular support. The second lamp unit is supported by the cylindrical support in a state of being arranged inside the space surrounded by the surface, and fixed so as to irradiate the light from the first light source on the front side. It is characterized in that it is supported by the tubular support in a state of being arranged along the outer peripheral surface of the tubular support, and is fixed so as to irradiate the light from the second light source on the front side. And.

In the above invention, a preferred embodiment is characterized in that the intermediate assembly further includes a third lamp unit located outside the second lamp unit and fixed to the bracket .

It is a perspective view of the vehicle lamp 10 seen from the back side. (A) is a front view of the vehicle lighting fixture 10, and (b) is a rear view of the vehicle lighting fixture 10. (A) is a cross-sectional view taken along the line AA of FIG. 2 (b), and (b) is a cross-sectional view taken along the line BB of FIG. 2 (b). It is a partially enlarged view of FIG. 3A. It is an exploded perspective view of the vehicle lamp 10 seen from the back side. It is a partial top view of the vehicle lamp 10. This is an example of the light source module 60. It is a figure for demonstrating the relationship between a vehicle lamp 10 and a housing 52. It is a perspective view of the vehicle lamp 10A. It is an exploded perspective view of the vehicle lamp 10A. It is an exploded perspective view of the intermediate assembly 70. It is a front view of the 2nd lamp assembly 71. It is an exploded perspective view of the 2nd lamp assembly 71. It is an exploded perspective view of the 3rd lamp unit 73. It is a rear view of the 2nd lamp assembly 71. FIG. 15 is a cross-sectional view taken along the line CC of the second lamp assembly 71 shown in FIG. It is an exploded perspective view of the extension 72. It is a rear view of the intermediate assembly 70. (A) is a cross-sectional view taken along the line DD of the intermediate assembly 70 shown in FIG. 18, and (b) is a cross-sectional view taken along the line EE of the intermediate assembly 70 shown in FIG. It is a rear view of the housing 80. (A) is a cross-sectional view taken along the line FF of the housing 80 shown in FIG. 20, (b) is a cross-sectional view taken along the line GG of the housing 80 shown in FIG. 9 is a sectional view taken along the line JJ of the vehicle lamp 10A shown in FIG. It is a flowchart (process chart) which shows an example of the assembling method of the vehicle lamp 10A. It is a flowchart (process chart) which shows another example of the assembly method of the vehicle lamp 10A.

[First Embodiment]
Hereinafter, the vehicle lamp 10 according to the first embodiment of the present invention will be described with reference to the accompanying drawings. Corresponding components in each figure are designated by the same reference numerals, and duplicate description is omitted.

FIG. 1 is a perspective view of the vehicle lamp 10 as seen from the rear side.

The vehicle lamp 10 shown in FIG. 1 is a sign lamp (or signal lamp) that functions as a tail lamp and a turn lamp, and is mounted on the left side and the right side of the rear end portion of the vehicle (not shown).

FIG. 2A is a front view of the vehicle lighting fixture 10, and FIG. 2B is a rear view of the vehicle lighting fixture 10.

3A is a sectional view taken along the line AA of FIG. 2B, and FIG. 3B is a sectional view taken along the line BB of FIG. 2B. FIG. 4 is a partially enlarged view of FIG. 3 (a). FIG. 5 is an exploded perspective view of the vehicle lamp 10 as viewed from the rear side.

As shown in FIGS. 1 to 5, the vehicle lamp 10 of the present embodiment includes a tubular bracket 20, a first lamp unit 30, a second lamp unit 40, and the like. As shown in FIG. 3, the vehicle lighting fixture 10 is arranged in the lighting chamber 54 composed of the outer lens 50 and the housing 52, and is fixed to the housing 52.

The tubular bracket 20 is a cylindrical bracket (cylindrical support) including a front opening 20a and a back opening 20b on the opposite side thereof. The tubular bracket 20 corresponds to the tubular support of the present invention.

The tubular bracket 20 is configured to be narrowed in a conical shape from the front opening 20a toward the back opening 20b (see FIG. 3).

The tubular bracket 20 is provided with a wall portion 22 (cross-sectional mounting portion) that covers a part of the back side opening 20b. The wall portion 22 is provided so as to cross substantially the center of the back side opening 20b.

A through hole 22a for fixing the housing and a through hole 22b for temporary assembly are formed in the wall portion 22. The housing fixing screw receiving portion 32d, which is a part of the first lamp unit 30 (turn reflector 32), is inserted into the housing fixing through hole 22a. The temporary assembly screw receiving portion 32e, which is a part of the first lamp unit 30 (turn reflector 32), is inserted into the temporary assembly through hole 22b. The through hole 22a for fixing the housing corresponds to the first through hole of the present invention.

On the inner peripheral surface of the tubular bracket 20, an engaging portion 20c (for example, a recess. FIG. 3 (for example, a recess. FIG. b)) is provided. A plurality of engaging portions 20c are provided in the circumferential direction of the tubular bracket 20.

Ribs 24a and 24b extending in the axial direction AX of the tubular bracket 20 are provided on the outer peripheral surface of the tubular bracket 20. Further, aluminum vapor deposition is applied to the outer peripheral surface of the tubular bracket 20. The outer peripheral surface on which the aluminum vapor deposition is applied is visually recognized through the sleeve lens 42.

A notch S1 is provided on the back side of the tubular bracket 20 in order to arrange the light source module 60 (and the light source module holding portion 46d).

The tubular bracket 20 has a light-shielding property. The first lamp unit 30 (light source for the turn lamp) and the second lamp unit 40 (light source 62 for the tail lamp) can be optically blocked by the cylindrical bracket 20 having a light-shielding property. As a result, it is possible to prevent each lamp unit from irradiating a mixture of light from the light source for the turn lamp (orange light) and light from the light source 62 for the tail lamp (red light). That is, it is possible to prevent the original function of each lamp unit from being impaired.

The tubular bracket 20 having the above configuration is formed by, for example, injection molding a synthetic resin having a light-shielding property using a mold.

The first lamp unit 30 is, for example, a turn lamp unit. The first lamp unit 30 is supported (fixed) to the tubular bracket 20 in a state of being arranged in a space surrounded by the inner peripheral surface of the tubular bracket 20 (see FIG. 3). As shown in FIG. 2A, the first lamp unit 30 includes a circular light emitting region A1 when viewed from the front. The turn lamp lens 34 constitutes the light emitting region A1.

As shown in FIG. 5, the first lamp unit 30 includes a turn reflector 32, a turn lamp lens 34, and an extension 36.

The turn reflector 32 is a cup-shaped reflector with the back side closed and the front side open.

The turn reflector 32 is configured to be narrowed in a conical shape from the front side opening 32a toward the back side 32b (see FIG. 3).

A reflective surface 32c is formed on the inner surface of the turn reflector 32 by applying aluminum vapor deposition (see FIG. 3). The reflecting surface 32c reflects the light from the light source for the turn lamp (not shown) toward the turn lamp lens 34 arranged so as to cover the front side opening 32a.

On the back side 32b of the turn reflector 32, screw receiving portions 32d (two places) for fixing the housing and screw receiving parts 32e (one place) for temporary assembly are provided. Further, on the back surface side 32b of the turn reflector 32, a through hole 32f into which a light source for a turn lamp to be mounted in the light source mounting hole 52b (see FIG. 8) formed in the housing 52 is inserted is formed. The light source for the turn lamp is, for example, a bulb light source such as an incandescent light bulb that emits orange light.

The turn reflector 32 having the above configuration is arranged in a space surrounded by the inner peripheral surface of the tubular bracket 20 (see FIG. 3).

Specifically, in the turn reflector 32, the housing fixing screw receiving portion 32d and the temporary assembly screw receiving portion 32e of the turn reflector 32 are the housing fixing through hole 22a and the temporary assembly through hole of the cylindrical bracket 20, respectively. In the state of being inserted into 22b, it is arranged in a space surrounded by the inner peripheral surface of the tubular bracket 20.

At that time, since the outer peripheral surface of the turn reflector 32 has a shape substantially similar to the inner peripheral surface of the tubular bracket 20, it is possible to prevent an unnecessary gap from being formed between the turn reflector 32 and the tubular bracket 20. Further, since the rib 32g provided on the turn reflector 32 comes into contact with the cylindrical bracket 20 (see FIG. 3A), the gap between the turn reflector 32 and the cylindrical bracket 20 becomes smaller.

The turn reflector 32 having the above configuration is formed by, for example, injection molding a synthetic resin such as acrylic or polycarbonate using a mold.

The turn lamp lens 34 includes a lens portion 34a having a circular outer shape and a lens frame portion 34b that holds the lens portion 34a in a state of surrounding the lens portion 34a. The turn lamp lens 34 corresponds to the lens of the present invention.

The lens frame portion 34b is provided with an engaging portion 34c (for example, an opening) with which the claw portion 36c provided on the extension 36 engages in order to fix the turn lamp lens 34 to the extension 36. A plurality of engaging portions 34c are provided in the circumferential direction of the lens frame portion 34b.

The turn lamp lens 34 having the above configuration is fixed to the extension 36 by engaging the plurality of engaging portions 34c provided in the lens frame portion 34b with the plurality of claw portions 36c provided in the extension 36. The extension 36 covers the peripheral edge of the turn lamp lens 34 so that the peripheral edge of the turn lamp lens 34 is not visible (see FIG. 3).

The turn lamp lens 34 having the above configuration is formed by injection molding a transparent resin such as acrylic or polycarbonate using a mold, for example. The turn lamp lens 34 may be omitted.

The extension 36 is formed in a cylindrical shape including a front opening 36a and a back opening 36b on the opposite side.

The extension 36 is provided with a claw portion 36c that engages with the engaging portion 34c provided on the turn lamp lens 34. A plurality of claw portions 36c are provided in the circumferential direction of the extension 36.

Further, the extension 36 has an engaging portion 20c (for example, a recess, see FIG. 3B) provided on the inner peripheral surface of the tubular bracket 20 in order to fix the extension 36 to the tubular bracket 20. An engaging claw portion 36d is provided. A plurality of claw portions 36d are provided in the circumferential direction of the extension 36.

The extension 36 (and the turn lamp lens 34 fixed to the extension 36) having the above configuration is arranged in a space surrounded by the inner peripheral surface of the tubular bracket 20 (see FIG. 3).

Specifically, the extension 36 (and the turn lamp lens 34 fixed to the extension 36) has a plurality of engagements of the plurality of claws 36d provided on the extension 36 on the inner peripheral surface of the tubular bracket 20. By engaging with the portion 20c, it is arranged in the space surrounded by the inner peripheral surface of the tubular bracket 20. As a result, the turn lamp lens 34 is arranged so as to cover the front side opening 32a of the turn reflector 32.

The extension 36 having the above configuration is formed by, for example, injection molding a synthetic resin such as acrylic or polycarbonate using a mold.

In the first lamp unit 30 having the above configuration, the light from the light source for the turn lamp is reflected by the turn reflector 32 (reflection surface 32c), passes through the turn lamp lens 34, and is irradiated to the front side.

The second lamp unit 40 is, for example, a tail lamp unit. The second lamp unit 40 is supported (fixed) to the cylindrical bracket 20 in a state of being arranged along the outer peripheral surface of the tubular bracket 20 (see FIG. 3). As shown in FIG. 2A, the second lamp unit 40 includes an arc-shaped light emitting region A2 when viewed from the front. The front side opening end surface 42a of the sleeve lens 42 constitutes the light emitting region A2.

As shown in FIG. 5, the second lamp unit 40 includes a sleeve lens 42, a light guide body 44, and a sub bracket 46.

The sleeve lens 42 includes the front side opening end surface 42a and the back side opening end surface 42b on the opposite side, and the light from the light guide body 44 (light emitting surface 44d) that receives light from the back side opening end surface 42b is the front side opening end surface. It is a cylindrical lens body that emits light from 42a. The back side opening end surface 42b corresponds to the light entering surface of the present invention, the front side opening end surface 42a corresponds to the light emitting surface of the present invention, and the sleeve lens 42 corresponds to the tubular lens body of the present invention. The diameter R of the front opening end surface 42a of the sleeve lens 42 (see FIG. 2A) is, for example, about φ130 mm.

The sleeve lens 42 is configured to be narrowed in a conical shape from the front side opening end surface 42a toward the back side opening end surface 42b (see FIG. 3).

However, the sleeve lens 42 is not a perfect cylinder, but has a notch S2 formed between the front opening end surface 42a and the back opening end surface 42b and at a position corresponding to the notch S1 of the tubular bracket 20. include. As a result, the front side opening end surface 42a and the back side opening end surface 42b become arc-shaped surfaces including the notch portion S2.

The rear side opening end surface 42b is a curved surface in which one end portion 42b1 and the other end portion 42b2 are arranged at different positions with respect to the axial axis AX direction of the cylindrical bracket 20. Specifically, one end 42b1 of the back opening end surface 42b is arranged on the back side, and the other end 42b2 is arranged on the front side.

The sleeve lens 42 is provided with a wall portion 42c that covers a part of the back side opening end surface 42b.

A through hole 42c1 for fixing the housing and a through hole 42c2 for temporary assembly are formed in the wall portion 42c. The housing fixing screw receiving portion 32d, which is a part of the first lamp unit 30 (turn reflector 32), is inserted into the housing fixing through hole 42c1. The temporary assembly screw receiving portion 32e, which is a part of the first lamp unit 30 (turn reflector 32), is inserted into the temporary assembly through hole 42c2. The through hole 42c1 for fixing the housing corresponds to the second through hole of the present invention.

The sleeve lens 42 having the above configuration is arranged along the outer peripheral surface of the tubular bracket 20.

Specifically, in the sleeve lens 42, the housing fixing screw receiving portion 32d and the temporary assembly screw receiving portion 32e of the turn reflector 32 are the housing fixing through hole 42c1 and the temporary assembly through hole 42c2 of the sleeve lens 42, respectively. The inner peripheral surface of the sleeve lens 42 and the outer peripheral surface of the tubular bracket 20 are arranged so as to face each other.

At that time, since the inner peripheral surface of the sleeve lens 42 has a shape substantially similar to the outer peripheral surface of the tubular bracket 20, it is possible to prevent an unnecessary gap from being formed between the sleeve lens 42 and the tubular bracket 20. Further, since the rib 42f provided on the sleeve lens 42 abuts on the tubular bracket 20 (see FIG. 3A), the gap between the sleeve lens 42 and the tubular bracket 20 is further reduced.

In the sleeve lens 42 having the above configuration, the light from the light guide body 44 (light emitting surface 44d) enters from the rear side opening end surface 42b and is uniform (or substantially the entire area) from the entire area (or substantially the entire area) of the front side opening end surface 42a. It emits light uniformly) and irradiates the front side.

The sleeve lens 42 having the above configuration is formed by, for example, injection molding a transparent resin such as acrylic or polycarbonate using a mold.

The light guide body 44 is an arc-shaped light guide body including a base end portion 44a, a tip end portion 44b, and a curved portion 44c provided between the base end portion 44a and the tip end portion 44b.

The light guide body 44 (curved portion 44c) is kinked so that the base end portion 44a and the tip end portion 44b are arranged at different positions with respect to the axial axis AX direction of the cylindrical bracket 20 (see FIG. 6). Specifically, the base end portion 44a is arranged on the back surface side, and the tip end portion 44b is arranged on the front surface side.

On the front side of the curved portion 44c of the light guide body 44, a light emitting surface 44d from which light from the light source module 60 guided through the curved portion 44c is emitted is provided.

On the back side of the curved portion 44c of the light guide body 44, the light from the light source module 60 guided in the curved portion 44c is uniformly (or substantially uniform) emitted from the entire area (or substantially the entire area) of the light emitting surface 44d. Therefore, a diffusion surface 44e that diffuses the light from the light source module 60 that is guided in the curved portion 44c is provided.

The light guide body 44 has a notch S3 formed between the base end portion 44a and the tip end portion 44b and at a position corresponding to the notch portion S1 (and the notch portion S2 of the sleeve lens 42) of the tubular bracket 20. include. As a result, the light emitting surface 44d and the diffusion surface 44e become arcuate surfaces including the notch S3.

Similar to the back side opening end surface 42b of the sleeve lens 42, the light emitting surface 44d and the diffusing surface 44e are arranged at different positions on the base end portion 44a side and the tip end portion 44b side with respect to the axis AX direction of the tubular bracket 20. It is a curved surface curved by.

A through hole 44f into which a positioning pin 42e provided in the sleeve lens 42 is inserted is formed in the curved portion 44c of the light guide body 44.

The light guide body 44 is configured to have a narrower width (width of the light emitting surface 44d) as it is closer to the tip portion 44b.

The light guide body 44 having the above configuration is arranged along the outer peripheral surface of the tubular bracket 20.

Specifically, in the light guide body 44, the positioning pin 42e of the sleeve lens 42 is inserted into the through hole 44f formed in the light guide body 44, and the light emitting surface 44d of the light guide body 44 and the sleeve lens 42 It is arranged along the outer peripheral surface of the tubular bracket 20 in a state where it faces (or is in close contact with) the rear opening end surface 42b.

In the light guide body 44 having the above configuration, the light from the light source module 60 (light source 62 for the tail lamp) enters from the base end portion 44a, is guided through the curved portion 44c, and is reflected by the diffusion surface 44e. As a result, light is emitted uniformly (or substantially uniformly) from the entire area (or substantially the entire area) of the light emitting surface 44d, and light enters from the back side opening end surface 42b of the sleeve lens 42 with which the light emitting surface 44d faces.

The light guide body 44 having the above configuration is formed by, for example, injection molding a transparent resin such as acrylic or polycarbonate using a mold.

The sub bracket 46 is an arc-shaped member including a base end portion 46a, a tip end portion 46b, a curved portion 46c provided between the base end portion 46a and the tip end portion 46b, and a light source module holding portion 46d. be.

Similar to the light guide body 44, the sub bracket 46 (curved portion 46c) is kinked so that the base end portion 46a and the tip end portion 46b are arranged at different positions with respect to the axial axis AX direction of the cylindrical bracket 20. Specifically, the base end portion 46a is arranged on the back surface side, and the tip end portion 46b is arranged on the front surface side.

On the front side of the curved portion 46c of the sub bracket 46, a surface 46g (see FIG. 3) with which the diffusion surface 44e of the light guide body 44 faces (or is in close contact with) is provided. The surface 46g of the light guide body 44 facing (or in close contact with) the diffusion surface 44e is made of aluminum in order to reflect the light leaking from the diffusion surface 44e of the light guide 44 and allow the light to enter the light guide 44 again. Deposition is applied.

The base end portion 46a of the sub bracket 46 is connected to the back surface side of the light source module holding portion 46d, and the tip end portion 46b is connected to the front side of the light source module holding portion 46d.

The light source module holding portion 46d includes a light source module mounting surface 46d1. The light source module mounting surface 46d1 is a plane substantially parallel to the plane including the axis AX of the cylindrical bracket 20.

The sub bracket 46 is provided with a wall portion 46e that connects the base end portion 46a side of the curved portion 46c and the substantially center of the curved portion 46c.

A through hole 46e1 for fixing the housing and a through hole 46e2 for temporary assembly are formed in the wall portion 46e. The housing fixing screw receiving portion 32d, which is a part of the first lamp unit 30 (turn reflector 32), is inserted into the housing fixing through hole 46e1. The through hole 46e1 for fixing the housing corresponds to the second through hole of the present invention.

As shown in FIG. 7, the light source module 60 includes a light source 62 for a tail lamp and a substrate 64 on which a light source 62 for a tail lamp is mounted. The light source 62 for the tail lamp is, for example, a semiconductor light emitting element such as an LED that emits red light. The light source 62 for the tail lamp corresponds to the second light source of the present invention. The substrate 64 is formed with a through hole 64a into which a pin 46d2 provided in the light source module holding portion 46d (light source module mounting surface 46d1) is inserted (for example, fitted).

As shown in FIG. 6, in the light source module 60, a pin 46d2 provided in the light source module holding portion 46d (light source module mounting surface 46d1) is inserted (for example, fitted) into a through hole 64a formed in the substrate 64. In this state, it is fixed to the light source module holding portion 46d (light source module mounting surface 46d1).

In the sub-bracket 46 having the above configuration, the housing fixing screw receiving portion 32d of the turn reflector 32 is inserted into the housing fixing through hole 46e1 of the sub-bracket 46 (see FIG. 4), and further, as shown in FIG. The light source module 60 (and the light source module holding portion 46d) is arranged in a space where the notch S1 of the tubular bracket 20, the notch S2 of the sleeve lens 42, and the notch S3 of the light guide 44 overlap. The light source 62 for the tail lamp and the base end portion 44a of the light guide body 44 are arranged so as to face each other.

Then, the fixing screw (not shown) inserted into the temporary assembly through hole 46e2 of the sub bracket 46 is inserted into the temporary assembly through hole 22b of the tubular bracket 20 and the temporary assembly through hole 42c2 of the sleeve lens 42. It is screwed into the temporary assembly screw receiving portion 32e which is a part of the first lamp unit 30 (turn reflector 32).

As a result, the sub-bracket 46 has a first lamp unit 30 and a second lamp unit 40 (to be exact, a cylindrical bracket 20, a sleeve lens 42, and a light guide body 44) between the sub-bracket 46 and the turn reflector 32. ) Is sandwiched (see FIG. 3). As a result, the first lamp unit 30 is supported (fixed) to the cylindrical bracket 20 in a state of being arranged in the space surrounded by the inner peripheral surface of the tubular bracket 20. Further, the second lamp unit 40 is supported (fixed) to the cylindrical bracket 20 in a state of being arranged along the outer peripheral surface of the tubular bracket 20. The turn reflector 32 is supported (fixed) to the cylindrical bracket 20 in a state where at least a part of the outer peripheral surface thereof is in contact with (for example, surface contact) the inner peripheral surface of the cylindrical bracket 20. Further, the sleeve lens 42 is supported (fixed) to the cylindrical bracket 20 in a state where at least a part of the inner peripheral surface thereof is in contact with (for example, surface contact) the outer peripheral surface of the tubular bracket 20.

At that time, since the rib 46f provided on the sub bracket 46 comes into contact with the sleeve lens 42 (see FIG. 3A), the gap between the sub bracket 46 and the sleeve lens 42 becomes smaller.

The sub-bracket 46 having the above configuration is formed by, for example, injection molding a synthetic resin such as acrylic or polycarbonate using a mold.

In the second lamp unit 40 having the above configuration, the light from the light source module 60 (light source 62 for the tail lamp) enters from the base end portion 44a of the light guide body 44 and enters the curved portion 44c of the light guide body 44. By being guided and reflected by the diffusion surface 44e of the light guide body 44, light is emitted uniformly (or substantially uniformly) from the entire area (or substantially the entire area) of the light emitting surface 44d of the light guide body 44, and the light source 44 Light enters from the back side opening end surface 42b of the sleeve lens 42 with which the light emitting surface 44d faces, and emits light uniformly (or substantially uniformly) from the entire area (or substantially the entire area) of the front side opening end surface 42a of the sleeve lens 42 to the front side. Be irradiated.

In the vehicle lamp 10 having the above configuration, as shown in FIGS. 4 and 8, the fixing screw N inserted into the through hole 52a formed in the housing 52 is inserted into the housing fixing through hole 22a of the cylindrical bracket 20 and the sleeve. It is screwed into the housing fixing screw receiving portion 32d which is a part of the first lamp unit 30 (turn reflector 32) inserted into the housing fixing through hole 42c1 of the lens 42 and the housing fixing through hole 46e1 of the sub bracket 46. As a result, it is fixed to the housing 52. The through hole 52a formed in the housing 52 corresponds to the third through hole of the present invention.

At that time, the ribs 52c (two places; see FIG. 3A) provided in the housing 52 come into contact with the sub bracket 46, so that the vehicle lamp 10 is fixed to the housing 52 in a more stable posture.

[Second Embodiment]
Next, the vehicle lamp 10A according to the second embodiment of the present invention will be described with reference to the accompanying drawings. Corresponding components in each figure are designated by the same reference numerals, and duplicate description is omitted.

FIG. 9 is a perspective view of the vehicle lamp 10A.

The vehicle lamp 10A shown in FIG. 9 is a sign lamp (or signal lamp) that functions as a tail lamp, a turn lamp, and a stop lamp, and is mounted on the left side and the right side of the rear end portion of the vehicle (not shown). .. Since the vehicle lighting fixtures 10A mounted on both the left and right sides have a symmetrical configuration, the vehicle lighting fixtures 10A mounted on the left side of the rear end portion of the vehicle will be described below as a representative. FIG. 9 shows a vehicle lamp 10A mounted on the left side of the rear end of the vehicle (left side when facing the rear of the vehicle).

FIG. 10 is an exploded perspective view of the vehicle lamp 10A.

As shown in FIG. 10, the vehicle lamp 10A of the present embodiment includes an intermediate assembly 70 (also referred to as a semi-assembly 70), a housing 80, an outer lens 90, and the like.

FIG. 11 is an exploded perspective view of the intermediate assembly 70.

As shown in FIG. 11, the intermediate assembly 70 includes a second lamp assembly 71, an extension 72, and the like.

FIG. 12 is a front view of the second lamp assembly 71, and FIG. 13 is an exploded perspective view of the second lamp assembly 71.

As shown in FIGS. 12 and 13, the second lamp assembly 71 is a first lamp assembly (vehicle lamp 10 including a first lamp unit 30 and a second lamp unit 40; hereinafter, a first lamp assembly. 10), a third lamp unit 73, and the like.

Since the configuration of the first lamp assembly 10 (vehicle lamp 10) and the like have been described in the first embodiment, the description thereof will be omitted.

The third lamp unit 73 is, for example, a stop lamp. As shown in FIG. 12, the third lamp unit 73 includes a light emitting region A3 arranged along the light emitting region A2 in the outer lower half of the arc-shaped light emitting region A2 when viewed from the front. The lens portion 76a of the inner lens 76 constitutes the light emitting region A3.

FIG. 14 is an exploded perspective view of the third lamp unit 73.

As shown in FIG. 14, the third lamp unit 73 includes a bracket 74, an LED substrate 75, an inner lens 76, and a control substrate 77.

The bracket 74 includes a front surface 74a to which the LED substrate 75 is mounted and an upper surface 74b to which the control board 77 is mounted. A screw hole 74a1 into which the connecting screw N1 is inserted is formed in the front surface 74a.

The bracket 74 having the above configuration is formed by, for example, injection molding a synthetic resin such as acrylic or polycarbonate using a mold.

A plurality of light sources 75a for stop lamps are mounted on the LED substrate 75. The light source 75a for the stop lamp is, for example, a semiconductor light emitting element such as an LED that emits red light. Further, the LED substrate 75 is formed with a screw hole 75b into which the connecting screw N1 is inserted.

The inner lens 76 includes a lens portion 76a through which light from a light source 75a for a stop lamp is transmitted, and a leg portion 76b extending rearward from the side portion of the lens portion 76a.

The lens portion 76a is provided with an engaging portion 76a1 (for example, an opening) with which the claw portion 74c provided on the bracket 74 engages in order to fix the inner lens 76 to the bracket 74. The engaging portions 76a1 are provided above and below the lens portion 76a, for example. In FIG. 14, only the engaging portion 76a1 provided on the lens portion 76a is shown.

The inner lens 76 having the above configuration is fixed to the bracket 74 by engaging the claw portion 74c provided on the bracket 74 with the engaging portion 76a1 provided on the lens portion 76a. As the fixing means for fixing the inner lens 76 to the bracket 74, a known fixing means such as a screw or an adhesive may be used instead of the claw portion 74c and the engaging portion 76a1.

The inner lens 76 having the above configuration is formed by, for example, injection molding a transparent resin such as acrylic or polycarbonate using a mold.

FIG. 15 is a rear view of the second lamp assembly 71, and FIG. 16 is a sectional view taken along the line CC of the second lamp assembly 71 shown in FIG.

As shown in FIG. 16, the third lamp unit 73 having the above configuration has a connecting screw N1 inserted into a screw hole 74a1 formed in the bracket 74 of the third lamp unit 73 and a screw hole 75b formed in the LED substrate 75. Is screwed into the sub-bracket 46 of the first lamp assembly 10, so that the LED substrate 75 is sandwiched between the bracket 74 and the sub-bracket 46, and the LED 75a and the inner lens 76 mounted on the LED substrate 75 It is fixed to the first lamp assembly 10 (sub bracket 46) with the lens portion 76a facing each other.

At that time, although not shown, the third lamp unit 73 is a first lamp set in a state where a part of the sub bracket 46 of the first lamp assembly 10 and a part of the bracket 74 of the third lamp unit 73 are fitted. It is fixed to the solid 10 (sub bracket 46). As the fixing means for fixing the third lamp unit 73 to the first lamp assembly 10 (sub bracket 46), a known fixing means such as an adhesive may be used instead of the connecting screw N1.

As described above, the first lamp assembly 10 including the first lamp unit 30 and the second lamp unit 40 and the third lamp unit 73 are connected via brackets (sub bracket 46, bracket 74). The second lamp assembly 71 is configured in which the first lamp assembly 10 and the third lamp unit 73 are firmly connected (high structural strength). The second lamp assembly 71 corresponds to the lamp unit of the present invention.

As described above, since the second lamp assembly 71 having high structural strength can be constructed, there are the following advantages as compared with the above-mentioned prior art.

First, the extension 72 (and the outer lens 90) can be fixed to the second lamp assembly 71 as described later. Secondly, when constructing the second lamp assembly 71 having high structural strength, a housing is not required as in the prior art. Third, as will be described later, the intermediate assembly 70 (second lamp assembly 71 to which the extension 72 is fixed) is attached to the housing 80, and a small number of screws (for example, see fixing screws N4 to N6 shown in FIGS. 20 and 21). ), It is possible to secure a structural strength equal to or higher than that of the above-mentioned conventional technique.

The extension 72 is fixed to the second lamp assembly 71 having the above configuration. Hereinafter, the second lamp assembly 71 to which the extension 72 is fixed is referred to as an intermediate assembly 70.

FIG. 11 shows the extension 72. FIG. 17 is an exploded perspective view of the extension 72.

As shown in FIG. 17, the extension 72 includes an extension body 72a and an inner lens 72b.

The extension body 72a is formed in a frame shape. Specifically, the extension body 72a includes an area B1 where the first lamp assembly 10 (light emitting areas A1 and A2) is exposed, an area B2 where the third lamp unit 73 (light emitting area A3) is exposed, and an inner lens 72b. It is configured in a frame shape surrounding the exposed region B3 (surface 72b1).

Although not shown, the extension body 72a is provided with a claw portion that engages with an engaging portion (for example, an opening) provided in the inner lens 72b in order to fix the inner lens 72b to the extension body 72a.

The extension body 72a having the above configuration is formed by, for example, injection molding a synthetic resin such as acrylic or polycarbonate using a mold.

The inner lens 72b includes a front surface 72b1 decorated with a lens cut or the like, and a back surface on the opposite side thereof.

Although not shown, the inner lens 72b is provided with an engaging portion (for example, an opening) with which the claw portion provided on the extension main body 72a engages.

Although not shown, the inner lens 72b having the above configuration is formed by engaging a claw portion provided on the extension body 72a with an engaging portion provided on the inner lens 72b to cut a lens or the like as shown in FIG. The decorated surface 72b1 is fixed to the extension body 72a in a state of being exposed from the region B3. As the fixing means for fixing the inner lens 72b to the extension body 72a, a known fixing means such as a screw or an adhesive may be used instead of the claw portion and the engaging portion.

As a result, as shown in FIG. 11, an opening 72c in which the first lamp assembly 10 (light emitting regions A1 and A2) is exposed and an opening 72d in which the third lamp unit 73 (light emitting region A3) is exposed are formed.

The inner lens 72b having the above configuration is formed by, for example, injection molding a transparent resin such as acrylic or polycarbonate using a mold.

18 is a rear view of the intermediate assembly 70, FIG. 19A is a sectional view taken along the line DD of the intermediate assembly 70 shown in FIG. 18, and FIG. 19B is an EE of the intermediate assembly 70 shown in FIG. It is a cross-sectional view.

In the extension 72 having the above configuration, as shown in FIG. 10, the first lamp assembly 10 (light emitting areas A1 and A2) is exposed from the opening 72c, and the third lamp unit 73 (light emitting area A3) is exposed from the opening 72d. It is fixed to the second lamp assembly 71 (for example, the cylindrical bracket 20) in an exposed state.

Specifically, as shown in FIG. 19, the extension 72 is a screw N2 inserted into screw holes 25, 26 (see FIG. 15) formed in the second lamp assembly 71 (for example, the cylindrical bracket 20). , N3 is screwed into the extension 72 and fixed to the second lamp assembly 71 (for example, the cylindrical bracket 20) (see FIG. 10). As the fixing means (first fixing means of the present invention) for fixing the extension 72 to the second lamp assembly 71, the claw portion 74c and the claw portion similar to the engaging portion 76a1 and the same claw portion as the engaging portion 76a1 are used instead of the screws N2 and N3. Known fixing means such as an engaging portion and an adhesive may be used.

As a result, as shown in FIG. 10, a second lamp assembly 71 to which the extension 72 is fixed, that is, an intermediate assembly 70 is constructed. The extension 72 covers the portion of the second lamp assembly 71 other than the light emitting regions A1, A2, and A3 so that the portion other than the light emitting regions A1, A2, and A3 of the second lamp assembly 71 is not visible.

20 is a rear view of the housing 80, FIG. 21A is a sectional view taken along the line FF of the housing 80 shown in FIG. 20, FIG. 21B is a sectional view taken along the line GG of the housing 80 shown in FIG. c) is a cross-sectional view taken along the line HH of the housing 80 shown in FIG.

As shown in FIG. 21, the intermediate assembly 70 having the above configuration is fixed to the housing 80 by screwing the fixing screws N4 to N6 inserted into the through holes formed in the housing 80 into the intermediate assembly 70. Will be done.

Specifically, in the intermediate assembly 70, the fixing screws N4 to N6 inserted into the through holes formed in the housing 80 are used in the intermediate assembly 70 (screw receiving portions 32d1 to 32d2 provided in the turn reflector 32) and the like. It is fixed to the housing 80 by being screwed into. The fixing means (second fixing means, fourth fixing means of the present invention) for fixing the intermediate assembly 70 to the housing 80 is the same as the claw portion 74c and the engaging portion 76a1 instead of the fixing screws N4 to N6. Known fixing means such as a claw portion, an engaging portion, and an adhesive may be used.

The outer lens 90 is welded to the housing 80 to which the intermediate assembly 70 is fixed.

FIG. 10 shows the outer lens 90.

As shown in FIG. 10, the outer lens 90 includes a first lens portion 90a having a circular outer shape, a second lens portion 90b provided so as to surround the first lens portion 90a, and the entire outer peripheral portion of the back surface thereof. Includes the provided leg 90c (see FIG. 22). FIG. 22 is a JJ cross-sectional view of the vehicle lamp 10A shown in FIG. The leg 90c is formed by, for example, molding two colors of the same resin material (indicated by reference numerals 90c1 and 90c2 in FIG. 21) having different colors.

As shown in FIG. 22, in the outer lens 90, the leg 90c and the front opening end 80a of the housing 80 are welded (for example, hot plate welded) over the entire circumference and the lamp chamber is located between the outer lens 90 and the housing 80. It constitutes 81. Reference numeral L in FIG. 22 represents a welded portion.

As a result, although not shown, the first lens portion 90a of the outer lens 90 and the first lamp assembly 10 (light emitting regions A1 and A2) face each other, and the second lens portion 90b and the third lamp of the outer lens 90 face each other. The unit 73 (light emitting region A3) is in a state of facing each other.

In the vehicle lamp 10A having the above configuration, when the light source 75a for the stop lamp is turned on, the light from the light source 75a for the stop lamp is emitted from the lens portion 76a of the inner lens 76 and the outer lens 90 (second lens portion 90b). ) Is transmitted to the front side. As a result, the stop lamp is realized.

When the light source for the turn lamp (not shown) is turned on, the light from the light source for the turn lamp is reflected by the turn reflector 32 (reflection surface 32c), and the turn lamp lens 34 and the outer lens 90 (third). 1 The front side is irradiated through the lens portion 90a). As a result, a turn lamp is realized.

Further, when the light source 62 for the tail lamp is turned on, the light from the light source 62 for the tail lamp enters from the base end portion 44a of the light guide body 44, is guided in the curved portion 44c of the light guide body 44, and is guided. By being reflected by the diffused surface 44e of the light body 44, light is emitted uniformly (or substantially uniformly) from the entire area (or substantially the entire area) of the light emitting surface 44d of the light guide body 44, and the light emitting surfaces 44d of the light guide body 44 face each other. Light enters from the back side opening end surface 42b of the sleeve lens 42, and emits light uniformly (or substantially uniformly) from the entire area (or substantially the entire area) of the front side opening end surface 42a of the sleeve lens 42, and further, the outer lens 90 (first lens). It passes through the portion 90a) and is irradiated to the front side. As a result, a tail lamp is realized.

Next, an example of an assembly method of the vehicle lamp 10A will be described.

FIG. 23 is a flowchart (process diagram) showing an example of an assembly method of the vehicle lamp 10A.

As shown in FIG. 23, the vehicle lamp 10A is assembled through the following steps.

(1) A step of assembling each lamp unit (for example, the first lamp unit 30, the second lamp unit 40, and the third lamp unit 73) (step S1). (2) A step of combining each lamp unit (step S2). (3) A step of fixing the extension 72 to the combined lamp unit (second lamp assembly 71) (step S3). (4) A step of fixing the second lamp assembly 71 (intermediate assembly 70) to which the extension 72 is fixed to the housing 80 (step S4). (5) A step of welding the outer lens 90 to the housing 80 to which the intermediate assembly 70 is fixed (step S5).

[Step of assembling each lamp unit (step S1)]
In this step (step S1), the first lamp assembly 10 (vehicle lamp 10 including the first lamp unit 30 and the second lamp unit 40) is configured by assembling each member shown in FIG. 5 (step S1). See FIGS. 3 and 13).

Further, by assembling each member shown in FIG. 14, the third lamp unit 73 is configured (see FIG. 13).

[Step of combining each lamp unit (step S2)]
In this step (step S2), the second lamp assembly 71 is configured by fixing the third lamp unit 73 to the first lamp assembly 10 configured in step S1 (see FIG. 11).

Specifically, as shown in FIG. 16, the third lamp unit 73 uses the screw holes 74a1 formed in the bracket 74 and the connecting screws N1 inserted in the screw holes 75b formed in the LED substrate 75 as sub-brackets. By screwing it into 46, the LED substrate 75 is sandwiched between the bracket 74 and the sub-bracket 46, and the LED 75a mounted on the LED substrate 75 and the lens portion 76a of the inner lens 76 face each other. It is fixed to the lamp assembly 10 (sub bracket 46).

[Step of fixing the extension 72 to the combined lamp unit (second lamp assembly 71) (step S3)]
In this step (step S3), the extension 72 (see FIG. 11) is fixed to the second lamp assembly 71 configured in step S2, so that the second lamp to which the extension 72 is fixed is fixed as shown in FIG. The assembly 71, that is, the intermediate assembly 70 is constructed.

Specifically, as shown in FIG. 19, the extension 72 is a screw N2 inserted into screw holes 25, 26 (see FIG. 15) and the like formed in the second lamp assembly 71 (for example, the cylindrical bracket 20). , N3 is screwed into the extension 72, so that the first lamp assembly 10 (light emitting areas A1 and A2) is exposed from the opening 72c and the third lamp unit 73 (light emitting area) is exposed as shown in FIG. A3) is fixed to the second lamp assembly 71 (for example, the cylindrical bracket 20) in a state of being exposed from the opening 72d.

[Step of fixing the second lamp assembly 71 (intermediate assembly 70) to which the extension 72 is fixed to the housing 80 (step S4)]
In this step (step S4), the intermediate assembly 70 configured in step S3 is fixed to the housing 80 (see FIG. 10).

Specifically, as shown in FIG. 21, the intermediate assembly 70 has fixing screws N4 to N6 inserted into the through holes formed in the housing 80, and the intermediate assembly 70 (screws provided in the turn reflector 32). It is fixed to the housing 80 by being screwed into the receiving portions 32d1 to 32d2) and the like.

At that time, since the intermediate assembly 70 is unitized as one by fixing the second lamp assembly 71 and the extension 72, the intermediate assembly 70 unitized into the one is united in the housing 80. By simply fixing, a plurality of components (for example, a component of the second lamp assembly 71, an extension 72) can be attached to the housing 80 at the same time.

[Step of welding the outer lens 90 to the housing 80 to which the intermediate assembly 70 is fixed (step S5)]
In this step (step S5), the outer lens 90 (see FIG. 10) is welded to the housing 80 to which the intermediate assembly 70 is fixed in step S4.

Specifically, as shown in FIG. 22, in the outer lens 90, the leg 90c and the front opening end 80a of the housing 80 are welded (for example, hot plate welded) over the entire circumference to the housing 80. A light room 81 is formed between the two.

As described above, the vehicle lamp 10A is assembled.

Next, another example of the method of assembling the vehicle lamp 10A will be described.

FIG. 24 is a flowchart (process diagram) showing another example of the method of assembling the vehicle lamp 10A.

As shown in FIG. 24, the vehicle lamp 10A is assembled through the following steps.

(1) A step of assembling each lamp unit (for example, the first lamp unit 30, the second lamp unit 40, and the third lamp unit 73) (step S1). (2) A step of combining each lamp unit (step S2). (3) A step of fixing the extension 72 and the outer lens 90 to the combined lamp unit (second lamp assembly 71) (step S3A). (4) A step of fixing the second lamp assembly 71 (intermediate assembly 70A) to which the extension 72 and the outer lens 90 are fixed to the housing 80 (step S4A). (5) A step of welding the outer lens 90 to the housing 80 to which the intermediate assembly 70A is fixed (step S5).

Hereinafter, steps S3A and S4A which are different from the assembly method shown in FIG. 23 will be mainly described, and description of steps S1 to S2 and S5 which are not different from the assembly method shown in FIG. 23 will be omitted.

[Step of fixing the extension 72 and the outer lens 90 to the combined lamp unit (second lamp assembly 71) (step S3A)]
In this step (step S3), the extension 72 (see FIG. 11) and the outer lens 90 (see FIG. 10) are fixed to the second lamp assembly 71 configured in step S2, so that the extension 72 and the outer lens 90 are formed. A fixed second lamp assembly 71, i.e., an intermediate assembly 70A (not shown) is configured.

Specifically, as shown in FIG. 19, the extension 72 is a screw N2 inserted into screw holes 25, 26 (see FIG. 15) and the like formed in the second lamp assembly 71 (for example, the cylindrical bracket 20). , N3 is screwed into the extension 72, so that the first lamp assembly 10 (light emitting areas A1 and A2) is exposed from the opening 72c and the third lamp unit 73 (light emitting area) is exposed as shown in FIG. A3) is fixed to the second lamp assembly 71 (for example, the cylindrical bracket 20) in a state of being exposed from the opening 72d.

Further, although not shown, the outer lens 90 has the first lens portion 90a of the outer lens 90 and the light emitting regions A1 and A2 facing each other, and the second lens portion 90b of the outer lens 90 and the light emitting region A3 facing each other. In the state, it is fixed to at least one of the second lamp assembly 71 and the extension 72.

Although not shown, the fixing means (third fixing means of the present invention) for fixing the outer lens 90 to at least one of the second lamp assembly 71 and the extension 72 is the same as the claw portion 74c and the engaging portion 76a1. Known fixing means such as a claw portion and an engaging portion, a screw, and an adhesive can be used.

[Step of fixing the second lamp assembly 71 (intermediate assembly 70A) to which the extension 72 and the outer lens 90 are fixed to the housing 80 (step S4A)]
In this step (step S4A), the intermediate assembly 70A configured in step S3A is fixed to the housing 80 (see FIG. 10).

Specifically, as shown in FIG. 21, the intermediate assembly 70A has fixing screws N4 to N6 inserted into the through holes formed in the housing 80, and the intermediate assembly 70A (screws provided in the turn reflector 32). It is fixed to the housing 80 by being screwed into the receiving portions 32d1 to 32d2) and the like.

At that time, since the intermediate assembly 70A is unitized by fixing the second lamp assembly 71, the extension 72, and the outer lens 90, the intermediate assembly 70A unitized into the second lamp assembly 70A. A plurality of components (for example, the components of the second lamp assembly 71, the extension 72, and the outer lens 90) can be attached to the housing 80 at the same time by simply fixing the to the housing 80.

As described above, the vehicle lamp 10A is assembled.

As described above, according to the present embodiment, a plurality of components (for example, a component of the second lamp assembly 71, an extension 72) can be efficiently attached to the housing 80 (work efficiency is good). , An intermediate assembly 70 used for vehicle lamps can be provided.

This is because one intermediate assembly 70 unitized by fixing the second lamp assembly 71 and the extension 72 is formed, so that only one intermediate assembly 70 is fixed to the housing 80. This is because a plurality of components (for example, a component of the second lamp assembly 71, an extension 72) can be attached to the housing 80 at the same time.

Further, according to the present embodiment, a plurality of components (for example, the components of the second lamp assembly 71, the extension 72, and the outer lens 90) can be efficiently attached to the housing 80 (work efficiency is good). , An intermediate assembly 70A used for vehicle lamps can be provided.

This is because one intermediate assembly 70A unitized by fixing the second lamp assembly 71, the extension 72, and the outer lens 90 is formed, so that the one intermediate assembly 70A is used as the housing 80. This is because a plurality of components (components of the second lamp assembly 71, extension 72, outer lens 90) can be attached to the housing 80 at the same time simply by fixing them.

Further, according to the present embodiment, the first lamp assembly 10 including the first lamp unit 30 and the second lamp unit 40 and the third lamp unit 73 are connected via brackets (sub bracket 46, bracket 74). The second lamp assembly 71 in which the first lamp assembly 10 and the third lamp unit 73 are firmly connected (high structural strength) can be configured.

Further, according to the present embodiment, since the second lamp assembly 71 having high structural strength can be configured, there are the following advantages as compared with the above-mentioned prior art.

First, the extension 72 (and the outer lens 90) can be fixed to the second lamp assembly 71. Secondly, when constructing the second lamp assembly 71 having high structural strength, a housing is not required as in the prior art. Third, the intermediate assembly 70 (second lamp assembly 71 to which the extension 72 is fixed) is fixed to the housing 80 with a small number of screws (see, for example, the fixing screws N4 to N6 shown in FIGS. 20 and 21). However, it is possible to secure a structural strength equal to or higher than that of the above-mentioned conventional technique.

Next, a modified example will be described.

In the above embodiment, an example in which the second lamp assembly 71 is used as the lamp unit to which the extension 72 is fixed has been described, but the present invention is not limited to this. For example, as the lamp unit to which the extension 72 is fixed, only one lamp unit (for example, the third lamp unit 73) may be used, or a lamp assembly (for example, the first lamp) in which at least two lamp units are combined may be used. Only the assembly 10) may be used.

Further, in the above embodiment, an example in which a cylindrical bracket is used as the cylindrical bracket 20 has been described, but the present invention is not limited to this. For example, as the tubular bracket 20, an elliptical tubular bracket may be used, a polygonal tubular bracket may be used, or another tubular bracket may be used.

Further, in the above embodiment, an example in which the first lamp unit 30 is a turn lamp unit, the second lamp unit 40 is a tail lamp unit, and the third lamp unit 73 is a stop lamp unit has been described, but the present invention is not limited to this. For example, the first lamp unit 30 may be a tail lamp unit, a stop lamp unit, or a turn signal lamp unit other than the turn lamp unit. Further, the second lamp unit 40 may be, for example, a turn lamp unit, a stop lamp unit, or a turn signal lamp unit other than the tail lamp unit. Further, the third lamp unit 73 may be, for example, a turn lamp unit, a tail lamp unit, or a turn signal lamp unit other than the stop lamp unit.

Further, the first lamp unit 30, the second lamp unit 40, and the third lamp unit 73 may be any of a headlamp unit, a DRL lamp unit, a position lamp unit, and a turn signal lamp unit, respectively.

Further, in the above embodiment, an example in which a reflector type lamp unit provided with a turn reflector 32 is used as the first lamp unit 30 has been described, but the present invention is not limited to this. For example, as the first lamp unit 30, a projector type lamp unit may be used, a direct projection type (also referred to as a direct irradiation type) lamp unit may be used, or another lamp unit may be used.

Further, in the above embodiment, an example in which the lamp unit provided with the sleeve lens 42 and the light guide body 44 is used as the second lamp unit 40 has been described, but the present invention is not limited to this. For example, as the second lamp unit 40, another lamp unit having a light emitting region similar to that of the light emitting region A2 may be used.

Further, in the above embodiment, an example in which a lamp unit provided with an inner lens 76 is used as the third lamp unit 73 has been described, but the present invention is not limited to this. For example, as the third lamp unit 73, another lamp unit having a light emitting region similar to that of the light emitting region A3 may be used.

Further, in the above embodiment, an example in which a bulb light source is used as a light source for a turn lamp has been described, but the present invention is not limited to this, and a semiconductor light emitting element such as an LED may be used.

Further, in the above embodiment, an example in which a semiconductor light emitting element such as an LED is used as the light source 62 for the tail lamp and the light source 75a for the stop lamp has been described, but the present invention is not limited to this, and for example, a valve light source other than the semiconductor light emitting element may be used. You may use it.

Each numerical value shown in each of the above embodiments is an example, and it goes without saying that an appropriate numerical value different from this can be used.

Each of the above embodiments is merely an example in every respect. The present invention is not limitedly interpreted by the description of each of the above embodiments. The present invention can be practiced in various other forms without departing from its spirit or key features.

10 ... Vehicle lighting equipment (first lamp assembly), 10A ... Vehicle lighting equipment, 20 ... Cylindrical bracket, 20a ... Front side opening, 20b ... Rear side opening, 20c ... Engagement part, 22 ... Wall part, 22a ... Housing fixing through hole, 22b ... Temporary assembly through hole, 24a, 24b ... Rib, 30 ... First lamp unit, 32 ... Turn reflector, 32a ... Front side opening, 32b ... Back side, 32c ... Reflective surface, 32d ... Housing fixing screw receiving part, 32e ... Temporarily assembled screw receiving part, 32f ... Through hole, 32g ... Rib, 34 ... Turn lamp lens, 34a ... Lens part, 34b ... Lens frame part, 34c ... Engaging part, 36 ... Extension, 36a ... front side opening, 36b ... back side opening, 36c ... claw part, 36d ... claw part, 40 ... second lamp unit, 42 ... sleeve lens, 42a ... front side opening end face, 42b ... back side opening end face, 42b1 ... One end, 42b2 ... The other end, 42c ... Wall, 42c1 ... Housing fixing through hole, 42c2 ... Temporary assembly through hole, 42e ... Positioning pin, 42f ... Rib, 44 ... Light source, 44a ... Group End, 44b ... Tip, 44c ... Curve, 44d ... Light source, 44e ... Diffuse, 44f ... Through hole, 46 ... Sub bracket, 46a ... Base end, 46b ... Tip, 46c ... Curve, 46d ... Light source module holding part, 46d1 ... Light source module mounting surface, 46d2 ... Pin, 46e ... Wall part, 46e1 ... Housing fixing through hole, 46e2 ... Temporary assembly through hole, 46f ... Rib, 50 ... Outer lens, 52 ... Housing , 52a ... Through hole, 52b ... Light source mounting hole, 52c ... Rib, 54 ... Light room, 60 ... Light source module, 62 ... Light source, 64 ... Board, 64a ... Through hole, 70, 70A ... Intermediate assembly (semi-assembly) , 71 ... 2nd lamp assembly, 72 ... extension, 72a ... extension body, 72b ... inner lens, 72b1 ... surface, 73 ... 3rd lamp unit, 74 ... bracket, 74a ... front, 74b ... top surface, 74c ... claw , 75 ... LED board, 75a ... LED light source, 76 ... inner lens, 76a ... lens part, 76a1 ... engaging part, 76b ... leg part, 77 ... control board, 80 ... housing, 80a ... front side opening end part, 81 ... Light room, 90 ... Outer lens, 90a ... 1st lens unit, 90b ... 2nd lens unit, 90c ... Leg, A1, A2, A3 ... Light source area, AX ... Axis line, N ... Fixing screw, S1 to S3 ... Notch

Claims (6)

An intermediate assembly comprising a lamp unit, an extension, and a first fixing means for fixing the extension to the lamp unit .
With the housing
Outer lens and
A second fixing means for fixing the intermediate assembly to the housing is provided.
The lamp unit is a method for assembling a vehicle lamp which is a lamp assembly in which at least a bracket and a first lamp unit and a second lamp unit fixed to the bracket are combined.
On the back side of the bracket, the first step of combining the first lamp unit and the second lamp unit with the bracket, and
The second step of fixing the extension to the bracket to form an intermediate assembly, and
After performing the first step and the second step in order,
Next, a third step of fixing the intermediate assembly to the housing and a fourth step of welding or adhering the outer lens to the housing.
Including
The first lamp unit has a cup-shaped reflector having a closed back side, an opening on the front side, and a reflecting surface on the inner surface for reflecting light from a light source, and the opening is provided with a first light emitting region. ,
The second lamp unit includes a second light emitting region separated by the bracket.
The bracket is made of a material having a light-shielding property, and has a portion located between the first lamp unit and the second lamp unit to optically block the lamp.
It is located between the back surface of the reflector of the first lamp unit and the inner surface of the housing, and includes a fixing portion for fixing the first lamp unit and the second lamp unit.
The extension has an opening corresponding to the first light emitting region and the second light emitting region, and is configured in a frame shape surrounding the opening.
In the second step, the first light emitting region and the second light emitting region are exposed from the opening of the extension at a position visible when the intermediate assembly is observed from the back surface. 1. The step of fixing the bracket and the extension by the fixing means is included.
The third step includes a step of fixing the reflector to a screw receiving portion provided on the back side of the reflector by a screw inserted into a through hole provided in the housing.
A method of assembling a vehicle lamp, which is characterized in that. The bracket is a tubular support that opens toward the front and has the fixing portion on the back side.
The first step is
The first lamp unit is supported by the cylindrical support in a state of being arranged inside the space surrounded by the inner peripheral surface of the tubular support, and irradiates the front side with light from the first light source. The process of fixing it so that it is in a state,
The second lamp unit is supported by the cylindrical support in a state of being arranged along the outer peripheral surface of the tubular support, and is fixed so as to irradiate the front side with light from the second light source. The method for assembling a vehicle lamp according to claim 1, wherein the step of assembling the lamp fixture is included. The first step is
The method for assembling a vehicle lamp according to claim 2, further comprising a step of fixing the third lamp unit to the bracket outside the second lamp unit. An intermediate assembly comprising a lamp unit, an extension, and a first fixing means for fixing the extension to the lamp unit.
With the housing
Outer lens and
A vehicle lamp provided with a second fixing means for fixing the intermediate assembly to the housing .
The lamp unit is a lamp assembly in which at least a bracket and a first lamp unit and a second lamp unit fixed to the bracket are combined.
The first lamp unit has a cup-shaped reflector having a closed back side, an opening on the front side, and a reflecting surface on the inner surface for reflecting light from a light source, and the opening is provided with a first light emitting region. ,
The second lamp unit includes a second light emitting region separated by the bracket.
The bracket is made of a material having a light-shielding property, and has a portion located between the first lamp unit and the second lamp unit to optically block the lamp.
It is located between the back surface of the reflector of the first lamp unit and the inner surface of the housing, and includes a fixing portion for fixing the first lamp unit and the second lamp unit.
The extension has an opening corresponding to the first light emitting region and the second light emitting region, and is configured in a frame shape surrounding the opening.
The first fixing means has a structure of fixing the intermediate assembly to the bracket at a position that can be seen when observed from the back surface, and the first light emitting region and the second light emitting region are openings of the extension. Fixed in a state exposed from
The second fixing means has a structure of fixing by a screw receiving portion provided on the back surface side of the reflector and a screw inserted into a through hole provided in the housing.
A lighting fixture for vehicles that is characterized by this. The bracket is a tubular support that opens toward the front and has the fixing portion on the back side.
The first lamp unit is supported by the cylindrical support in a state of being arranged inside the space surrounded by the inner peripheral surface of the tubular support, and irradiates the front side with light from the first light source. Fixed to be in a state,
The second lamp unit is supported by the cylindrical support in a state of being arranged along the outer peripheral surface of the tubular support, and is fixed so as to irradiate the front side with light from the second light source. The vehicle lighting fixture according to claim 4, wherein the lamp is provided. The intermediate assembly is
The vehicle lamp according to claim 5, further comprising a third lamp unit located outside the second lamp unit and fixed to the bracket.

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