JP2007257910A - Lamp body for vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To firmly support a light source part 7 on a spacer part 6 without any misalignment when a lens part 3 and a base part 4 incorporating the light source part 7 are integrated while being butted against each other to form a side turn lamp 1. <P>SOLUTION: The light source part 7 comprises a front-side connecting terminal plate 13 projecting outward from a substrate 8 and having an intersecting plate surface that intersects the integrating direction of the light source part 7, and further comprises inside connecting terminal plates 11e, 11f and a rear outside connecting terminal plate 11g having parallel plate surfaces that are parallel to the integrating direction of the light source part 7, wherein the terminal plates 13, 11e, 11f and 11g are in surface contact with a butting surface 16f and a guide plate 17b, so that a supporting force generated upon contact of those terminal plates with the spacer part 6 side is added to a force of a locking claw 16c to regulate the disconnecting direction of the light source part 7. This allows the light source part 7 to be firmly supported and thereby prevents misalignment. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention belongs to the technical field of a vehicle casing such as a side turn lamp provided on a door mirror of a vehicle.

Recently, there is a vehicle in which a side turn lamp is attached to a door mirror of a vehicle. In such a vehicle, a lens unit and a base unit in which a light source unit is incorporated are integrated and configured. In this case, the light source unit is attached to the base unit side in a state where the substrate on which the light source is incorporated faces the lens unit (for example, Patent Document 1). However, in this case, since the substrate faces the lens portion, it is necessary to ensure the design so that the substrate is not visually recognized through the lens portion. Consideration was made to make the partial substrate invisible.
Recently, however, the lamp is required to be further skeletonized. For this reason, a spacer portion is provided between the lens portion and the base portion, and a light source substrate is attached to the back surface of the spacer portion. Has been proposed in which the substrate is hidden so as to penetrate through (for example, Patent Document 2).
JP 2002-79787 A JP 2004-276768 A

  However, in the case where the spacer portion is provided, when the substrate is incorporated into the spacer portion, it is necessary to incorporate the light source protruding from the substrate in a state aligned with the through hole formed in the spacer portion. The support strength of the board tends to be weak because it has been supported by a plurality of locking claws protruding from the back of the part in a floating state (the spacer part and the board are separated by the amount corresponding to the light source). After the substrate is supported by the spacer part, if an abnormal external force is applied to the board when wiring work or assembling the spacer part to the base part, the substrate will be displaced and the light source and the through hole will not match. There is a concern that the light source is inclined and the irradiation direction is shifted or the irradiation is impaired, and there is a problem to be solved by the invention.

The present invention was created with the object of solving these problems in view of the above circumstances, and the invention according to claim 1 is a spacer part in which the light source part is incorporated from the back side toward the outside. Are arranged between a lens part and a base part integrated in a butted state, and the light source part includes a board and a terminal projecting outward from the board. A spacer and a light source protruding from the terminal plate. The spacer portion includes a through-hole portion that is incorporated in a state in which the light source penetrates outward, and the light source portion that is incorporated through the spacer. A vehicle having a light source part built-in part having a locking claw for locking and restricting the return of the light source part, and a support part for contacting the terminal plate and supporting the light source part. It is a body for use.
In the invention of claim 2, the terminal plate has a parallel plate surface parallel to the assembly direction of the light source unit and an intersecting plate surface intersecting with the assembly direction of the light source unit. 2. The vehicle housing according to claim 1, wherein the vehicle casing is in contact with each of the intersecting plate surfaces.
According to a third aspect of the present invention, the terminal plate projects from one substrate in the front-rear direction with a front and rear terminal plate provided with a front light source and a rear light source, respectively. The vehicle casing according to claim 2, wherein a parallel plate surface is formed on the rear terminal plate.
The invention according to claim 4 is the vehicle casing according to any one of claims 1 to 3, wherein the vehicle casing is a side turn lamp provided on a door mirror of the vehicle.

According to the first aspect of the present invention, the light source unit provided with the substrate is incorporated into the spacer unit from the back side so that the substrate can be hidden by the spacer unit. The support received by the terminal board projecting from the board abutting on the spacer part side is added to the retaining support by the pawls, and the light source part is subjected to a heavy load and has a heavy load during wiring. Even if it works, it is possible to avoid the positional deviation of the light source.
According to the invention of claim 2, the support by the parallel plate surface and the intersecting plate surface of the terminal plate is received, so that the incorporation of the light source unit can be further stabilized.
According to the third aspect of the present invention, the load received by the light source unit is distributed to the front and rear terminal plates, so that the incorporation of the light source unit can be further stabilized.
By setting it as invention of Claim 4, the side turn lamp provided in the door mirror of a vehicle can be manufactured reliably.

  Next, embodiments of the present invention will be described with reference to the drawings. In the figure, reference numeral 1 denotes a side turn lamp provided on the door mirror 2, and the side turn lamp 1 is in a state in which the outer lens portion 3 formed of a translucent resin material and the lens portion 3 are fixed. An inner base housing (base portion, base material) 4 fixedly supported by the door mirror 2 and the base housing 4 are assembled in a state of being positioned between the base housing 4 and the lens portion 3, and the reflecting surface 5 is formed on the outer surface. The inner housing (inner part, inner material) 6 that is formed and serves as a reflector (reflecting member) of the side turn lamp 1 and a light source part 7 attached to the inner housing 6 are configured. Since the side turn lamp 1 is attached in a state extending from the front surface of the door mirror 2 to the outer side surface in the left-right direction, the front surface portion 1a and the outer surface portion 1b are formed in a series of arcuate portions (curved portions) 1c. The lens portion 3, the base housing 4 and the inner housing 6 are also in a shape corresponding to this. Hereinafter, the configuration including these shapes will be described in detail. It should be noted that the front-rear, left-right, up-down directions of the present embodiment are described based on the front-rear, left-right, up-down directions of the vehicle, and the present invention is not necessarily limited to this.

  The lens part 3 is formed so that the front face part 3a and the outer face part 3b are formed in a series by an arcuate part (curved part) 3c. The arcuate part 3c has a gap between the light source part 7 and the lens part 3. The lens portion side light source accommodating portion 3d for existing and accommodating is formed in a bulging shape toward the outside of the mirror (front of the vehicle), and a flange portion 3e for fixing to the base housing 4 is formed at the peripheral portion. Has been.

  On the other hand, the base housing 4 is formed in a series by the arc-shaped portion 4c in a state where the front surface portion 4a and the outer surface portion 4b are also gently arc-shaped, but the light source extends from the arc-shaped portion 4c to the outer surface portion 4b side portion. In order to accommodate the portion 7, the base housing side light source accommodating portion 4h having a triangular box shape by the upper and lower surface portions 4d, 4e having a substantially right triangle shape, the rectangular inner side surface portion 4f, and the rectangular rear side surface portion 4g is included in the mirror. Bulges toward the rear (rear of the vehicle). The front end portion of the inner side surface portion 4f is slightly stepped and recessed toward the front surface portion 4a, and a power source terminal 9 (described later) provided on the light source unit 7 (described later) is inserted and penetrated inward in the vehicle lateral direction. A through hole 4 i is formed, and a power supply insertion portion (connector portion) 4 j for inserting a power socket (not shown) is formed in the through portion of the base housing 4. Further, the front surface portion 4a is formed with a concave groove 4k that is recessed on the front surface side. The concave groove 4k is formed as a long long groove facing the direction of inserting the power supply terminal 7a into the through hole 4i.

  The base housing 4 is provided with upper and lower mounting pieces 4l and 4m projecting upward and downward from the upper and lower edges of the front surface portion 4a for fixing the side turn lamp 1 to the door mirror 2, respectively. The upper and lower ends (tips) of the base pieces 4l-1 and 4m-1 projecting outward in the vertical direction in a state where the mounting pieces 4l and 4m are built up on the rear surface of the front surface part 4a are rearward (the lens part 3 is provided). Steps 4l-2 and 4m-2 are formed by bending in a step shape (in the direction opposite to the side), and further from the rear ends (tips) of the stepped portions 4l-2 and 4m-2 to the tip part 41- 3, 4m-3 is bent outward in the vertical direction, whereby the vertical mounting pieces 4l, 4m are formed in a state of being stepped back toward the rear side (the opposite side to the lens portion 3). , The mounting bolts (not shown) Mounting hole 4n of the scan) are formed. Further, on the rear surface of the mounting piece bases 4l-1, 4m-1 and the lower surface of the stepped parts 4l-2, 4m-2 (both surfaces opposite to the lens unit 3) from the rear surface of the front surface part 4a to the rear upper and lower sides. The projecting rib 4o is extended and integrated, thereby reinforcing the upper and lower mounting pieces 4l and 4m. Note that a flange portion 4p is formed on the front surface of the base portions 4l-1 and 4m-1 in a state of being separated from the upper and lower edges of the front surface portion 4a, and is described later between the flange portion 4p and the upper and lower edges of the front surface portion 4a. A filling groove 4q for filling a resin material 18 for fixing the lens unit 3 and the base housing 4 is formed.

  On the other hand, the light source part 7 is incorporated in the base housing side light source collecting part 4h in a state of being incorporated in the inner housing 6 as will be described later. However, the light source part 7 has a substantially square plate shape. 8 is disposed such that its inner side surface 8a faces the outer surface of the inner side surface portion 4f on the outer side in the left-right direction. The power supply terminal 9 is formed to protrude inward in the left-right direction at the front end portion of the light source portion inner side surface 8a, but the substrate 8 slides the rear end edge 8b against the front side surface of the base housing rear side surface portion 4g. When it is moved inward in the left-right direction in this state, the power supply terminal 9 is guided through the through hole 4i.

  On the other hand, on the outer surface 8b of the substrate 8, two pairs of the upper and lower base terminal plates 10, 10a and 11, 11a, which are arranged in a single plane vertically with the plate surfaces facing forward and backward, are displaced forward and backward. In the state, it protrudes outward in the left-right direction. Of the front base terminal plates 10 and 10a, the lower terminal plate 10a has a lower edge bent toward the rear, A locking portion 10d with the inner housing 6 described later is formed in a notch groove shape at the front end edge of the rear bent plate 10b. The front base terminal plates 10 and 10a have a pair of upper and lower front light sources (in this embodiment, light emitting diodes are used with a gap between them. Since the front light source irradiates forward, a side turn lamp is used. Is not a legally required light source). One terminal 12a is connected so that 12 emits light forward. The other terminal 12b located on the outer side in the left-right direction of each front light source 12 is connected to a front connection terminal plate 13 that is arranged flush with the front base terminal plates 10 and 10a. The light source 12 is assembled and electrically connected. The front base terminal plates 10 and 10a and the front connection terminal plate 13 constitute a front terminal plate having an intersecting plate surface intersecting with the mounting direction of the light source unit 7 as will be described later, and the front base terminal. The plates 10 and 10a, the front light source 12 and the front connection terminal plate 13 become rigid bodies by the connection (connection), and the front upper base terminal plate 10 and the rear bent plate 10b are caulked to the substrate 8 by soldering. By attaching and fixing, the inner edge of the left and right direction of each of the plates 10 and 10b comes into contact with the substrate 8 so that the three-dimensionally strong assembly can be made. It has become.

  Of the rear base terminal plates 11 and 11a, the upper end of the upper terminal plate 11 is bent forward to form a front bent plate 11b. The left and right outer end portions of the rear base terminal plates 11 and 11a are directed to the left and right outer ends of the front connection terminal plate 13 with the bent portions 11c and 11d bent toward the front side. As will be described later, base-side connection terminal plates 11e and 11f having lateral surfaces parallel to the direction in which the light source unit 7 is assembled are formed, and a gap is formed in the base-side connection terminal plates 11e and 11f. A pair of upper and lower rear light sources (in this embodiment, light emitting diodes are used. This rear light source is a legally required light source as a side turn lamp for irradiating the outer side in the left-right direction and obliquely rearward). One terminal 14a is connected so that 14 emits light outward in the left-right direction. The other terminal 14b located in front of each rear light source 14 is connected to the rear and outer connection terminal plates 11g arranged flush with the inner connection terminal plates 11e and 11f. The rear light source 14 is assembled and electrically connected. The rear base terminal plates 11 and 11a, the base side connection terminal plates 11e and 11f, the rear light source 14 and the rear outer connection terminal plate 11g become rigid due to the connection (connection), and the rear terminal plate 11 , 11a and the front bent plate 11b are fixed to each other by caulking and soldering to the substrate 8, and thereby, the left and right inner ends of the respective plates 11, 11a, and 11b The edge comes into contact with the substrate 8 so that a solid three-dimensional assembly is achieved.

  And in this thing, the board | substrate 8, the front side terminal board 10, 10a, the rear side bending board 10b, the back side bending board 10b, the front side connection terminal board 13, the rear side terminal boards 11, 11a, the front side bending board 11b, the inner side Electric or electronic elements 15 necessary for controlling the light emission of the light sources 12 and 14 are formed in the space surrounded by the front, rear, left and right upper and lower six sides by the connection terminal plates 11e and 11f and the rear outer connection terminal plate 11g. 8 is connected in a state of being connected.

  Further, the front surface portion 6a and the outer surface surface portion 6b of the inner housing 6 are formed in a series by the arc-shaped portion 6c, and an assembling portion for assembling the light source portion 7 forward to the arc-shaped portion 6c. X is formed. The assembling portion X has an inner and outer penetrating window shape in which the front assembling portion 16 for assembling the front light source 12 and the rear assembling portion 17 for assembling the rear light source 14 are partitioned by the vertical rail 6e. Is formed. The front assembling portion 16 is formed in the arc-shaped portion 6c on the front surface portion 6a side, and is formed into a vertical partition by a partition 16a that fits into a gap A formed between the upper and lower front light sources 12, and the front light source Twelve quadrangular bases 12c are configured to enter each of them. Further, when the light source unit 7 is inserted and assembled in the front assembly portion 16 to a predetermined set position (see FIGS. 8 and 13), the front connection terminal plate 13 is disposed on the rear side with the front light source 12 penetrating forward. 16f is formed in the vertical beam portion 6e, and the rear bent plate is inserted into the lower portion of the front assembling portion 16 up to the set position. A locking claw 16c is formed so as to protrude from the locking portion 10d formed at 10b in a state where the locking portion 10d is overforced to restrict return.

  On the other hand, the rear assembling portion 17 for assembling the rear light source 14 is formed in the arc-shaped portion 6c on the outer surface portion 6b side, and the rear assembling portion 17 incorporates the lateral rear light source 14 through. The inner connection terminal plates 11e, 11f, which are formed in the upper and lower sides by the partition 17a fitted into the gap B formed between the upper and lower rear light sources 14, and are flush with each other. A guide surface plate 17b that guides the insertion / incorporation of the light source unit 7 by sliding the inner side surface in the left-right direction of the rear outer connection terminal plate 11g is formed. When the rear light source 14 is assembled to the set position, the inner connection terminal plates 11e and 11f and the rear outer connection terminal plate 11g are in sliding contact with the guide face plate 17b so as to be positioned on the rear side. ing.

  Further, on the inner surface of the front surface portion 6a of the inner housing 6, a ridge 6d that fits into the groove 4k formed in the base housing 4 is formed, and the inner housing 6 is placed in a state where the ridge 6d fits into the groove 4k. When the base housing 4 is slid and moved, the lower end edge 8b of the substrate comes into sliding contact with the front side surface of the rear side surface portion 4g of the base housing and moves in the left-right direction so that the power supply terminal 9 passes through the through hole. It is comprised so that it may become the built-in attitude | position penetrated to 4i. Then, the side turn lamp 1 is formed by applying the lens portion 3 to the surface of the inner housing 6 incorporated in the base housing 4 in this way and fixing the peripheral edge portions that are in contact with each other with the resin material 18. It has become.

Incidentally, the inner housing 6 is formed using a mating mold, and then formed on the surface while being held by one mold to form the reflective surface 5 (for example, Japanese Patent No. 3670733, No. 3688289). That is, as shown in FIG. 12, after the first mold 20 and the second mold 21 are matched and the inner housing 6 is injection-molded, both the molds 20 and 21 are replaced by the inner housing 6 with the first mold. The mold is opened while being held by the mold 20, and then the film forming apparatus 22 provided on the second mold 21 side by relative movement of both the molds 20 and 21 (movement of at least one mold) The inner housing 6 on which the reflective surface 5 is formed is manufactured by a series of film forming and molding processes so that the inner housing 6 is matched with the mold so that the reflective surface 5 is formed on the surface of the inner housing 6. be able to. In this case, when the mold is opened, the inner housing 6 is held by the first mold 20 so as not to inadvertently move (float, shift, drop off, etc.) with respect to the first mold 20. It is performed by biting into the first mold 20 of the strip 6d. Incidentally, such biting between the injection-molded product and the mold is not limited to forming a protrusion on the injection-molded product, but can be achieved even if a recess is formed on the injection-molded product side.
In addition, the resin material 18 can be injected to fix the base housing 4 and the lens unit 3 together. In this case, the base housing 4 and the lens unit 3 are primarily injected in the same mold to form a mold. Then, the inner housing 6 formed with the film formation and incorporating the light source unit 7 is inserted into the base housing 4, and the base housing 4 and the lens unit 3 are brought into contact with each other based on relative movement of the mold. The resin material 18 can be continuously manufactured by an injection molding method accompanied by a mold movement including an insert process in which the resin material 18 is secondarily injected and integrated into the butt portion.

As described above, the inner housing 6 is assembled into the base housing 4 in a state where the light source portion 7 is assembled (see FIG. 9). In this case, the inner housing 6 is inserted into the ridge 6d into the groove 4k. When the power supply terminal 9 is slid in the protruding direction in a state of being fitted to the base plate 8, the rear end edge 8 d of the substrate 8 is slidably contacted with the rear side surface portion 4 g of the base housing side light source housing portion 4 h and guided. When the sliding movement is further performed in the state, the power supply terminal 9 is inserted and set through the through hole 4i formed in the inner side surface portion 4f of the base housing side light source accommodating portion 4h. In this set state, the inner end 6e (front end 6a inner end) of the inner housing 6 abuts against (or closes to) the inner end 4s of the recess 4r formed in the base housing 4 in the left-right direction. However, a part of the outer end 6f (outer end of the rear surface portion 6b) of the inner housing 6 protrudes (exposes) from the recessed hole 4r, and the protruding portion is a tapered surface 6g.
When the inner housing 6 is assembled in the base housing 4 and the lens portion 3 is further abutted against the base housing 4, the inner housing tapered surface 6 g protruding from the concave hole 4 r is the lens portion 3. In this state, the inner housing arcuate part 6c is held by the lens part arcuate part 3c, and the inner housing 6 has the structure described above. Positioning with respect to the lens unit 3 and the base housing 4 can be performed.

  In the embodiment of the present invention configured as described above, the light source unit 7 is integrated with the spacer unit 6 assembled from the inner surface side (back surface side) toward the outer side in a state of abutting each other. The side turn lamp 1 is configured to be arranged between the base portion 4, but the light source portion 7 has a front terminal plate protruding outward from the substrate 8 in the direction in which the light source portion 7 is assembled. And the crossover plate surface (in this embodiment, the front base terminal plates 10 and 10 and the front connection terminal plate 13 have crossing plate surfaces), while the rear terminal plate is a light source unit 7 parallel plate surfaces parallel to the assembling direction (in this embodiment, the inner connecting terminal plates 11e and 11f and the rear outer connecting terminal plate 11g have parallel plate surfaces). When the light source unit 7 is assembled in the spacer unit 6, the front connection terminal plate 13 having the cross plate surface is located in the rear side, and abuts on the abutting surface 16f in a surface contact state, and the parallel plate surface is formed. The inner connecting terminal plates 11e and 11f and the rear outer connecting terminal plate 11g are in contact with the guide plate 17b in surface contact. As a result, as shown in FIG. 13, when a load in the front-rear direction is applied to the light source unit 7 in the assembled state of the light source unit 7, the spacer unit 6 side is subjected to a force that regulates the direction in which the locking claw 16 c is pulled out. As a result, a support force generated by contact with the light source is added, and a strong support action is received. As a result, the light source unit 7 can be effectively prevented from being displaced.

Moreover, the supporting force received when the terminal plate abuts on the spacer portion side is such that the plane direction of the parallel plate surface parallel to the mounting direction of the light source unit and the crossing plate surface intersecting the mounting direction of the light source unit are different. As a result, a stronger support function can be exhibited and the positional deviation of the light source unit 7 can be reduced.
In addition, the terminal plate that receives the support from the spacer portion 6 protrudes from the single substrate 8 at a distance from the front and rear, and includes a parallel plate surface on which the front light source and the rear light source are respectively provided, The intersecting plate surfaces have terminal plates for attaching the front and rear light sources 12 and 14, respectively, and support the load by distributing the load, thereby further supporting the light source unit 7 more stably. It will be possible.

(A) is a perspective view of a vehicle, (B) is a front view of a door mirror. (A), (B), and (C) are a plan view, a front view, and a side view of a side turn lamp. It is an exploded front view of a side turn lamp. (A), (B), (C), and (D) are a rear view, a plan view, a front view, and a side view of the lens unit. (A), (B), (C), and (D) are a front view, a perspective view, a plan view, and a rear view of the base portion. (A), (B), (C), and (D) are a plan view, a front view, one side view, and another side view of the light source section. (A), (B), (C), and (D) are a front view, a plan view, a rear view, and a bottom view of the support portion. (A) (B) is sectional drawing which shows the state before incorporating a light source part in a support part, and sectional drawing which shows the state which incorporated the light source part in the support part. (A) (B) is sectional drawing which shows the state before incorporating the support part in which the light source part was incorporated in the base part, and sectional drawing which shows the state in which the support part in which the light source part was incorporated was incorporated in the base part. (A) and (B) are a longitudinal end view and a lateral end view showing an assembled state of the lens portion, the support portion, and the base portion. (A), (B), (C), and (D) are a front view, a rear view, a cross-sectional view, and an end view of the lower mounting piece portion of the side turn lamp. It is a schematic process drawing which shows the molding film-forming process of a spacer part. It is a partial expanded sectional view which shows the state which incorporated the light source part in the spacer part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Side turn lamp 3 Lens part 4 Base part 6 Support part 7 Light source part 8 Board | substrate 10 Terminal board 11 Terminal board 12 Front side light source 14 Rear side light source 15 Components

Claims (4)

  In the vehicle casing configured by arranging a spacer portion in which the light source portion is incorporated from the back surface side toward the outer side between the lens portion and the base portion that are integrated in a face-to-face state, the light source portion is And a substrate, a terminal plate projecting outward from the substrate, and a light source projecting from the terminal plate, and the spacer portion has a light source penetrating outward. A through-hole part to be incorporated; a locking claw that locks the light source part that is built-in and regulates the return of the light source part; and a support part that contacts the terminal plate and supports the light source part. A vehicle housing characterized in that a light source assembly portion is formed.   The terminal board has a parallel plate surface parallel to the mounting direction of the light source unit and an intersecting plate surface intersecting the light source unit mounting direction, and the support unit is applied to each of the parallel plate surface and the intersecting plate surface. The vehicle housing according to claim 1, wherein the vehicle housing is a contact object.   The terminal board protrudes from one substrate in the front-rear direction, and is a front-rear terminal board provided with a front light source and a rear light source, respectively, and a cross board surface is formed on the front terminal board. 3. The vehicle housing according to claim 2, wherein a parallel plate surface is formed on the plate.   The vehicle housing according to any one of claims 1 to 3, wherein the vehicle housing is a side turn lamp provided on a door mirror of the vehicle.

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