JP4611262B2 - Vehicle lighting - Google Patents

Description

  The present invention relates to a vehicular lamp in which an electric / electronic member is provided in a lamp lens, for example, a vehicular lamp in which the lamp lens has a snow melting (deicing / anti-fogging) structure.

  This type of vehicular lamp is conventionally known (for example, Patent Document 1). Hereinafter, a conventional vehicle lamp will be described. Conventional vehicle lamps are fixed to the front lens, the wiring board heater (conductive foil pattern printed on the base film) bonded and integrated to the front lens with an adhesive, and the wiring board heater. A connecting terminal. The wiring board heater and the connection terminal constitute a snow melting structure of a lamp lens, and constitute an electric / electronic member. In addition to the wiring board heater and the connection terminal, examples of the electric / electronic member include a film-like antenna and a film-like light emitter for illumination.

  Hereinafter, the operation of the conventional vehicle lamp will be described. When the connection terminal on the power supply side is connected to the connection terminal and power is supplied to the conductive foil pattern of the wiring board heater, the conductive foil pattern generates heat, and the heat melts snow, ice and cloudiness adhering to the front lens. Or removed. As a result, loss of light irradiated from the front lens to the outside can be prevented. In particular, in a vehicular lamp using a light source having a low temperature of light emitted from a front lens as a light source, for example, a semiconductor light source such as an LED or a discharge lamp such as an HID, as compared with a halogen bulb or an incandescent bulb. Is effective.

  However, the conventional vehicular lamp is for bonding the film of the wiring board heater to the front lens with an adhesive, so that when the film is bonded to the front lens, the film swells (swells) between the film and the front lens. And bubbles may be generated. When such blisters or bubbles are generated, there are problems such as poor appearance and reduced adhesion between the wiring board heater and the front lens.

Japanese Patent Laid-Open No. 10-109587

  The problem to be solved by the present invention is that the conventional vehicular lamp has a problem in appearance and a problem in the adhesive strength between the wiring board heater and the front lens.

The present invention (invention according to claim 1) includes a lamp housing and a lamp lens that define a lamp chamber, a light irradiation unit that is disposed in the lamp chamber and irradiates light through the lamp lens, and the lamp lens. An electric and electronic member provided, and the electric and electronic member includes a wire heater provided by transfer to the lamp lens, and a power supply unit that supplies current to the wire heater. A small hole for air venting is provided in at least one of the base film and the film of the power feeding section .

Further, according to the present invention (the invention according to claim 2 ), the width of the film of the power feeding portion is equal to or larger than the width of the base film of the wire heater, and at least a portion of the film of the power feeding portion fixed to the lamp lens is used for air bleeding A small hole is provided.

Furthermore, this invention (invention according to claim 3 ) is characterized in that a small hole for air bleeding is provided simultaneously with the punching process for cutting the base film of the wire heater.

The vehicular lamp according to the present invention (the invention according to claim 1) is configured such that when the film of the electric / electronic member is bonded to the lamp lens by a small hole for air venting provided in the film of the electric / electronic member, the electric / electronic A bulge, a bubble or the like generated between the member film and the lamp lens can be released from the small hole to the outside. As a result, the vehicular lamp according to the present invention (the invention according to claim 1) can surely prevent the occurrence of blisters or bubbles between the film of the electric / electronic member and the lamp lens. It is possible to prevent the appearance from being deteriorated due to generation of bubbles and bubbles, and to prevent the adhesive force between the film of the electric / electronic member and the lamp lens from being lowered. In particular, when the adhesive enters the small holes , the adhesive area between the adhesive and the base film and the film increases, and the adhesive force increases accordingly, and when the adhesive solidifies, the adhesive becomes the base film and Since the wedge bites into the film, the adhesive force increases accordingly, and as a result, the film of the electric and electronic member is securely bonded to the lamp lens.

Further, the vehicle lamp of the present invention (the invention according to claim 1 ) is provided with a wire heater by means of a small hole for air bleeding provided in at least one of the base film of the wire heater or the film of the power feeding section. When the base film and the film of the power feeding unit are bonded to the lamp lens, blisters and bubbles generated between the base film of the line heater and the film of the power feeding unit and the lamp lens can be released from the small holes to the outside. As a result, the vehicular lamp of the present invention (the invention according to claim 1) can reliably prevent the occurrence of blisters or bubbles between the base film of the wire heater and the film of the power feeding unit and the lamp lens. As a result, it is possible to prevent the appearance due to the occurrence of blisters or bubbles from occurring, and to prevent the adhesive force between the base film of the wire heater and the film of the power feeding portion and the lamp lens from being lowered. . In particular, when the adhesive enters the small holes , the adhesive area between the adhesive and the base film and the film increases, and the adhesive force increases accordingly, and when the adhesive solidifies, the adhesive becomes the base film and Since the film is wedged into the film, the adhesive force increases accordingly, and as a result, the base film of the wire heater and the film of the power feeding section are securely bonded to the lamp lens.

Furthermore, the vehicular lamp of the present invention (the invention according to claim 2 ) is provided with a small hole for venting air in the adhesive fixing portion of the film of the power feeding portion whose width is equal to or larger than the width of the base film of the wire heater. The power feeding unit can be securely fixed to the lamp lens.

Furthermore, the vehicular lamp according to the present invention (the invention according to claim 3 ) is provided with the punching process for cutting the base film of the wire heater at the same time as the small hole for air venting, so that the processing cost can be reduced. And a small hole can be provided reliably and easily.

  Hereinafter, two examples of embodiments of a vehicular lamp according to the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

  FIGS. 1-12 shows Example 1 of the vehicle lamp concerning this invention. Hereinafter, the configuration of the vehicular lamp according to the first embodiment will be described. The vehicular lamp according to the first embodiment is a headlamp 1L, 1R for an automobile that irradiates a predetermined light distribution pattern, for example, a light distribution pattern for passing. The headlamps 1L and 1R are respectively provided on the left and right sides of the front portion of the automobile C as shown in FIG. Hereinafter, the left headlamp 1L will be described. The right headlamp 1R is substantially opposite to the left and right headlamp 1L.

  As shown in FIGS. 2 and 4, the headlamp 1 </ b> L includes five lamp units 2, a lamp housing 3, a lamp lens 4, a line heater 5 as an electric / electronic member, and a power feeding unit 6. Is. A lamp chamber 7 is defined by the lamp housing 3 and the lamp lens 4. In the lamp chamber 7, the five lamp units 2 are arranged in two upper and lower stages (in this example, three in the upper stage and two in the lower stage).

  The lamp unit 2 constitutes a light irradiation unit that irradiates light to the outside through the lamp lens 4. The lamp unit 2 irradiates (radiates and emits) a predetermined light distribution pattern, in this example, a light distribution pattern for passing. As shown in FIG. 3, the lamp unit 2 is a projector type and has a unit structure. The lamp unit 2 includes an upper reflector 8 and a lower reflector 9, a reflecting surface 10 and a shade 11, a semiconductor light source 12, a projection lens (convex lens, condenser lens) 13, and a heat sink member 14. ing.

  As shown in FIG. 2, the lamp unit 2 is attached to the lamp housing 3 via a holder member 15. The lamp housing 3 is provided with a heat sink member 16. The heat sink member 16 on the lamp housing 3 side and the heat sink member 14 on the lamp unit 2 side are connected via the holder member 15 and the lamp housing 3.

  As the semiconductor-type light source 12, for example, a self-luminous semiconductor-type light source (LED in this embodiment 1) such as LED and EL (organic EL) is used. For this reason, although heat is generated in the semiconductor light source 12 itself, almost no heat is generated in the light from the semiconductor light source 12. As a result, snow, ice, or cloudiness tends to adhere to the lamp lens 4.

  The lamp lens 4 is a substantially transparent lens, and is a so-called outer cover (outer lens). In this example, the lamp lens 4 is molded from a synthetic resin such as PC (polycarbonate). Further, as shown in FIG. 2, the lamp lens 4 is slanted (inclined) from the rear to the front in the longitudinal section (vertical section) from the top to the bottom. Further, the lamp lens 4 has a concave cross section, and is integrated with a front part (or front part) 33 through which light emitted from the lamp unit 2 passes, and from the entire periphery from the front part 33 to the rear. And a side wall portion 34 extending to the wall. A corner portion is formed between the front portion 33 and the side wall portion 34. When the material of the lamp lens 4 is PC, the heat resistant temperature of the lamp lens 4 is about 130 ° C.

  The line heater 5 as an electric / electronic member is a transfer type line heater, and is provided on the inner surface of the front portion 33 of the lamp lens 4 by transfer. As shown in FIGS. 5, 6 and 11, the line heater 5 provided on the inner surface of the front portion 33 of the lamp lens 4 includes a base film 17, an adhesive 18, and a heater conductive material. The conductive paste 19 as a conductive member and a resist 20 are included. The line heater 5 is preferably light transmissive.

  The base film 17 is made of a transparent synthetic resin film such as PET (polyethylene terephthalate). The adhesive 18 is provided on one surface of the base film 17.

  On the other surface of the base film 17, the conductive paste 19 is formed in a line pattern. In this example, the line pattern of the conductive paste 19 includes four horizontal lines that are substantially parallel to each other, two vertical lines on the left side, and one vertical line on the right side, as shown in FIG. The line pattern is zigzag continuous from side to side. Two vertical lines from the right side of the top two horizontal lines are continuously formed as terminal portions. The conductive paste 19 is a conductive ink, and in this example, is made of a metal paste such as a silver paste, a gold paste, a copper paste, or an aluminum paste. The conductive paste 19 generates heat due to the electric resistance of the conductive paste when a current is supplied. When the electric resistance value is high, the generated heat amount is low, and when the electric resistance value is low, the generated heat amount is low. high.

  The resist 20 is provided on the other surface of the base film 17 so as to cover the conductive paste 19. The resist 20 electrically insulates the conductive paste 19 and protects it from external impacts. That is, the resist 20 is a surface protective coat of the conductive paste 19. In this example, the resist 20 is made of urethane or acrylic adhesive.

  At least one of the base film 17 and the resist 20 is colored. That is, a colored layer is provided on one side or the other side of the base film 17. Alternatively, the base film 17 itself or the resist 20 itself is colored.

  The base film 17 (including the adhesive 18 in this example) is cut into a pattern following the line pattern of the conductive paste 19. The width W of the cut base film 17 is about 0.5 mm in this example, and is substantially the same as the width of the resist 20. As shown in FIG. 11, after the base film 17 is cut, the separator 18 disposed on the resist 20 side is used to remove the adhesive 18 from the inner surface of the front portion 33 of the lamp lens 4. Then, the conductive paste 19 having a line pattern is transferred onto the inner surface of the front portion 33 of the lamp lens 4. Thereby, the line heater 5 is provided on the inner surface of the front portion 33 of the lamp lens 4 by transfer.

  As shown in FIG. 11, the separator 21 is peeled off from the resist 20 side after the conductive paste 19 having a line pattern is transferred to the inner surface of the front portion 33 of the lamp lens 4. The separator 21 can be mounted with the line heater 5 having a pattern shape following the line pattern of the conductive paste 19, and can be transferred to the inner surface of the front portion 33 of the lamp lens 4. The sheet has a size and shape as much as possible. The separator 21 uses a flexible material, in this example, a rubber-based material such as urethane so that it can follow the curved surface of the inner surface of the front portion 33 of the lamp lens 4.

  As shown in FIGS. 4, 8, and 9, the wire heater 5 is provided with the power feeding unit 6 as an electric and electronic member. The power feeding unit 6 supplies current to the wire heater 5. Similarly to the wire heater 5, the power feeding unit 6 is provided on the inner surface (the lamp chamber 7 side) of the front surface portion 33 and the side wall portion 34 of the lamp lens 4. In addition, the power feeding unit 6 is provided at a place where the influence on the design of the lamp lens 4 is small, that is, in the vicinity of a corner between the front portion 33 and the side wall portion 34 of the lamp lens 4. The power feeding unit 6 includes a film 24, a conductive paste 25 as a power feeding conductive member, and a connector 26.

  The film 24 extends from the base film 17 of the line heater 5. Similar to the base film 17, the film 24 is made of a transparent synthetic resin film such as PET (polyethylene terephthalate). The width W1 of the film 24 is about 10 mm in this example with respect to the width W (about 0.5 mm) of the base film 17. Further, the length of the film 24 is such a length as to reach the side wall portion 34 of the lamp lens 4 from the line heater 5. 4, 8, and 9, the left end portion of the film 24 is illustrated on the left side of the line heater 5. The line heater 5 is located substantially on the same line.

  As shown in FIG. 10, a small hole (pin) for air venting is provided at a position to be fixed to at least the side wall 34 of the lamp lens 4 in the film 24, that is, at the front end (right end) of the film 24. Many holes 50 are provided. The small hole 50 has such a size that it cannot be visually confirmed and has a size that allows air to pass through. One end of the film 24 is bonded and fixed to the inner surface of the side wall 34 of the lamp lens 4 with an adhesive 32 such as a double-sided tape (double-sided adhesive tape) having sufficient durability.

  The conductive paste 25 for feeding is formed in a line pattern on the other surface of the film 24 and one end thereof is electrically connected to a terminal portion of the conductive paste 19 for heater. The conductive paste 25 for power feeding is a conductive ink, similar to the conductive paste 19 for heaters. In this example, the conductive paste 25 is made of a metal paste such as a silver paste, a gold paste, a copper paste, or an aluminum paste. . The power supply conductive paste 25 is thicker (thicker and wider) than the heater conductive paste 19, and has a smaller electrical resistance than the heater conductive paste 19. At the front end of the film 24, the other end of the conductive paste 25 for power feeding is integrally provided with a wide portion 49 for electrodes or power feeding.

  A resist (not shown) may be provided on the other surface of the film 24 so as to cover the conductive paste 25 for power feeding. The resist, like the resist 20, electrically insulates the conductive paste 25 for power supply and protects it from external impacts, that is, the surface of the conductive paste 25 for power supply. It is a protective coat. Like the resist 20, the resist is made of a urethane-based or acrylic adhesive in this example.

  Further, at least one of the film 24 and the resist is colored. That is, a colored layer is provided on one side or the other side of the film 24. Alternatively, the film 24 itself or the resist itself is colored.

  The connector 26 is electrically connected to the wide portion 49 at the other end of the conductive paste 25 for power feeding and is fixed to the tip of the film 24. The connector 26 is fixed to the inner surface of the side wall 34 of the lamp lens 4 together with the film 24. For example, the surface mount type connector 26 is fixed to one end of the film 24 of the power feeding unit 6 by a conductive adhesive (not shown) and a sealing agent (not shown) and is electrically conductive. The paste 25 is electrically connected to the wide portion 49. The surface mount type connector 26 transfers the wire heater 5 to the front portion 33 of the lamp lens 4, and then attaches the other surface of the film 24 to the front surface 33 of the lamp lens 4 with the adhesive 32. It is fixed to the inner surface of the side wall 34 of the lamp lens 4 together with the film 24 by bonding and fixing to the inner surface of the side wall 34. On the other hand, the spring pressure type connector 26 is provided with a spring (not shown) on one side, and transfers the wire heater 5 to the front portion 33 of the lamp lens 4, and After one surface of the film 24 is adhered and fixed to the inner surface of the side wall 34 of the lamp lens 4 with the adhesive 32, a double-sided adhesive tape ( (Not shown) is fixed to the other surface of the film 24 and electrically connected to the wide portion 49 of the conductive paste 25. Thus, the spring pressure type connector 26 is bonded and fixed to the inner surface of the side wall 34 of the lamp lens 4 together with the film 24.

  At this time, as shown in FIG. 7, both ends of the film 24 of the power feeding unit 6 are connected to the inner surface of the front part 33 of the lamp lens 4 and the side wall part 34 via the wire heater 5 and the connector 26. Are fixed to the inner surface of each. Further, an intermediate portion of the film 24 of the power feeding unit 6 is bent along a corner portion between the front portion 33 and the side wall portion 34 of the lamp lens 4. As a result, the film 24 of the power feeding unit 6 is securely fixed in a state along the corner of the lamp lens 4 by an elastic restoring force (see a solid line arrow A in FIG. 7). As a result, the power feeding unit 6 is securely fixed to the inner surfaces of the front surface part 33 and the side wall part 34 of the lamp lens 4.

  One end of two heater-side harnesses 35 is electrically connected to the connector 26. A heater-side connector 37 is attached and electrically connected to the other end of the two heater-side harnesses 35. As shown in FIG. 7, the two heater-side harnesses 35 are provided with a waterproof structure provided in the side wall portion 34 of the lamp lens 4, in this example, via a rubber waterproof grommet 38, for example. The lamp chamber 7 is drawn out of the lamp chamber 7. Further, as shown in FIG. 12, the two heater-side harnesses 35 are provided with a waterproof structure provided in the lamp housing 3, in this example, via a rubber waterproof grommet 38, for example, the lamp chamber 7 It may be drawn out of the lamp chamber 7 from the inside.

  In FIG. 7, reference numeral “39” denotes two power supply side harnesses whose one ends are electrically connected to the power supply. A power supply side connector 40 is attached to and electrically connected to the other ends of the two power supply side harnesses 39. The heater side connector 37 is detachably coupled to the power source side connector 40. As a result, the line heater 5 is electrically connected to a power source via the power feeding unit 6.

  The power supply side connector 40 is fixed outside the lamp chamber 7 of the lamp housing 3. As a result, a part of the heater side harness 35, the heater side connector 37, the power source side connector 40, and the power source side harness 39 are located outside the lamp chamber 7 of the lamp housing 3.

  Other vehicle parts (for example, other vehicle lamps, bumpers, decorative parts, etc.) 41 are provided adjacent to the outside of the headlamp 1L of the vehicle lamp according to the first embodiment. A part of the heater-side harness 35 located outside the lamp chamber 7 of the lamp housing 3, the heater-side connector 37, the power-side connector 40, and the power-side harness 39 are the same as those of the vehicular lamp according to the first embodiment. Since it is located between the headlamp 1L and the other vehicle parts 41, it cannot be seen from the outside, and there is no problem in appearance.

  The line heater 5 is connected to a manual switch (not shown) or an automatic switch (not shown) via the power supply unit 6. The manual switch manually turns on / off the current supply to the line heater 5. The automatic switch automatically turns on / off the current supply to the line heater 5.

  The automatic switch includes a control unit such as an ECU and a detection unit such as a temperature sensor or an optical sensor. The detection unit detects the ambient environment of the vehicle C, for example, the temperature outside the vehicle C, the light emitted from the lamp lens 4, and outputs the detection signal to the control unit. The control unit determines whether or not snow, ice, or cloudiness is attached to the lamp lens 4 based on a detection signal from the detection unit, or snow, ice, or cloudy is attached to the lamp lens 4. Judge whether the temperature is about. When the controller determines that the lamp lens 4 has snow, ice, cloudy, or the like, or the temperature of the lamp lens 4 has snow, ice, cloudy, or the like, A current is supplied to the wire heater 5 through the power feeding unit 6. On the other hand, when the control unit determines that the lamp lens 4 is not covered with snow, ice, or cloudy or the temperature is not such that snow, ice, or cloudy is attached to the lamp lens 4, the power supply is performed. The current supply to the wire heater 5 is cut off via the section 6.

  One terminal portion of the wire heater 5 is provided with a temperature control unit (not shown). The temperature control unit controls the heat generation temperature of the conductive paste 19. For example, a PTC thermistor is used as the temperature control unit. This PTC thermistor has a characteristic that its resistance value increases as the temperature rises, and current does not flow when it reaches a predetermined resistance value. For example, when the material of the lamp lens 4 is PC, the heat-resistant temperature of the lamp lens 4 is about 130 ° C. Therefore, when the heat generation temperature of the conductive paste 19 reaches about 60 ° C., the current flows. A PTC thermistor having a resistance characteristic that does not flow is used as the temperature controller.

  Hereinafter, the manufacturing process of the line heater 5 (the power feeding unit 6) to be transferred to the lamp lens 4 of the headlamps 1L and 1R of the vehicle lamp according to the first embodiment, and the line heater 5 to the lamp lens 4 are performed. A transfer process for transferring will be described with reference to FIG. First, the adhesive (adhesive layer) 18 is provided on one surface of the film corresponding to the base film 17, and a release sheet 22 such as a release film or release paper is attached to the adhesive 18 so as to be peeled off. The sheet member 23 is manufactured (see FIG. 11A). The sheet member 23 has such a size that the line heater 5 having a pattern shape following the line pattern of the conductive paste 19 can be formed. Further, the adhesive 18 is not provided on the film 24 in the film, that is, on one surface (lower surface) of the film 24 extending from the base film 17.

  Next, the conductive paste 19 for the heater and the power supply are applied to the other surface (upper surface) of the base film 17 of the sheet member 23 and the other surface (upper surface) of the film 24 extending from the base film 17. For example, the conductive paste 25 is printed by a method such as screen printing or hot stamp printing to form a line pattern (see FIG. 11B).

  Subsequently, the resist (insulating layer / protective film) 20 is printed on the other surface (upper surface) of the base film 17 of the sheet member 23 by a method such as screen printing or hot stamp printing. It is provided so as to cover the paste 19 (see FIG. 11C). At this time, the resist (insulating layer / protective film) is simultaneously printed on the other surface (upper surface) of the film 24 by a method such as screen printing or hot stamp printing, so that the conductive paste for feeding is supplied. 25 may be provided to cover 25.

  Then, the base film 17 and the adhesive 18 of the sheet member 23 are cut in a pattern following the line pattern of the conductive paste 19 by, for example, punching (die cutting) processing (see FIG. 11D). ). That is, a mold cutter (not shown) is pushed into the base film 17 and the adhesive 18 from the resist 20 side, and is stopped at the boundary between the adhesive 18 and the release sheet 22, and the base film 17 and the adhesive are bonded. The agent 18 is cut. In addition, in FIG.11 (C), the cut location of the said base film 17 and the said adhesive agent 18 is shown with the continuous line CL. The cutter is separated from the sheet member 23 and, of the cut base film 17 and the adhesive 18, an excess portion other than a pattern portion following the line pattern of the conductive paste 19 is removed from the release sheet 22. Excluded from.

  At this time, the film 24 is also simultaneously cut into a predetermined width W1 and a predetermined length by the same type of cutter. In addition, a large number of small holes 50 are simultaneously provided at the tip of the film 24 by the same type of pins (not shown). That is, the cutter for cutting the base film 17, the cutter for cutting the film 24, and the pins for opening a large number of small holes 50 in the film 24 are provided in the same mold. Thereby, it becomes possible and easy to provide the large number of small holes 50 at locations away from the conductive paste 25.

  Thereby, as shown in FIG. 11 (D), the release sheet 22 of the sheet member 23 that has not been cut, the base film 17 that has been cut in a pattern that follows the line pattern of the conductive paste 19, and the The adhesive 18, the conductive paste 19 having a line pattern, and the resist 20 provided in a pattern following the line pattern of the conductive paste 19 are left. In this example, the cut width W of the base film 17 and the adhesive 18 is substantially the same as the width of the resist 20, and the width at which the resist 20 can cover the conductive paste 19, that is, the The resist 20 has a width capable of sealing and electrically insulating the conductive paste 19 and protecting it from external impacts. The cut width of the base film 17 is not limited to the cut width W.

  Then, after the base film 17 and the adhesive 18 of the sheet member 23 are cut with a pattern that follows the line pattern of the conductive paste 19, the separator 21 is disposed on the resist 20 side (FIG. 11E). )reference). As a result, the release sheet 22 of the sheet member 23 that has not been cut, the base film 17 and the adhesive 18 that have been cut in a pattern that follows the line pattern of the conductive paste 19, and the conductive pattern of the line pattern. The conductive paste 19 and the resist 20 provided in a pattern following the line pattern of the conductive paste 19 are placed on the separator 21 with the resist 20 side down. As a result, the line heater 5 (the power feeding unit 6) of the unit is manufactured. The unit includes the line heater 5 composed of the base film 17, the adhesive 18, the conductive paste 19, and the resist 20, and the release sheet 22 of the separator 21 and the sheet member 23. It will be.

  Next, the release sheet 22 of the unit manufactured as described above is peeled off (see FIG. 11F). Then, using the separator 21 disposed on the resist 20 side, the adhesive 18 is adhered to the inner surface of the lamp lens 4, and the conductive paste 19 having a line pattern is applied to the front portion 33 of the lamp lens 4. (See FIG. 11G). Then, the separator 21 is peeled off from the resist 20. As a result, as shown in FIGS. 4 to 7, the line heater 5 is transferred to the inner surface of the front portion 33 of the lamp lens 4.

  The vehicular lamp according to the first embodiment is configured as described above, and the operation thereof will be described below.

  The semiconductor light sources 12 of the five lamp units 2 are turned on. Then, the light from the semiconductor-type light sources 12 of the five lamp units 2 is reflected by the reflecting surface 10 of the upper reflector 8, and a part of the reflected light is cut off by the shade 11 of the lower reflector 9, and the remaining reflections Light passes through the projection lens 13 and the front portion 33 of the lamp lens 4 and is irradiated with a predetermined light distribution pattern having a cut-off line outside, that is, a light distribution pattern for passing. The cut-off line of the light distribution pattern for passing is formed by the edge of the shade 11. In addition, by providing the shade 11 with the reflection surface, it is possible to use the reflection light reflected from the reflection surface 10 and reflected by the reflection surface of the shade 11.

  Here, since the line heater 5 provided for transfer on the front portion 33 of the lamp lens 4 has a linear pattern, when light passes through the front portion 33 of the lamp lens 4, the loss or distribution of light is reduced. The influence of light can be minimized. Moreover, since the lamp unit 2 using the semiconductor-type light source 12 as a light source is used, the width of light emitted from the lamp unit 2 is small. For this reason, the light loss, the influence of light distribution, etc. can be further prevented by passing light having a small width between the linear patterns of the line heater 5.

  And since almost no heat is generated in the light from the semiconductor-type light source 12, snow, ice, or cloudiness tends to adhere to the lamp lens 4. In this case, a current is supplied to the line heater 5 provided by transfer on the front portion 33 of the lamp lens 4 by a manual switch or an automatic switch.

  When a current is supplied to the line heater 5, the line heater 5 generates heat due to the electric resistance of the line heater 5. The heat generated by the wire heater 5 warms the lamp lens 4 and prevents the snow, ice and cloudiness from adhering to the lamp lens 4, or the snow, ice and cloudiness adhering to the lamp lens 4 are melted. Is removed or removed. As a result, loss of light irradiated from the front portion 33 of the lamp lens 4 can be prevented.

  At this time, by melting the snow and ice at the portion corresponding to the conductive paste 19 in the front portion 33 of the lamp lens 4, the melted snow and ice slide on the surface of the front portion 33 of the lamp lens 4. Thus, due to a so-called avalanche phenomenon, the snow and ice adhering to the portion not corresponding to the conductive paste 19 in the front portion 33 of the lamp lens 4 are peeled off from the surface of the front portion 33 of the lamp lens 4 and dropped. As a result, snow, ice and cloudiness adhering to the lamp lens 4 can be reliably removed.

  When the heat generation temperature of the line heater 5 reaches a predetermined temperature during the heat generation action of the line heater 5, the current control to the line heater 5 is controlled by the temperature control action of the temperature control unit, and the heat generation temperature of the line heater 5 is reduced. It is kept near a predetermined temperature. As a result, the resin lamp lens 4 having a relatively low heat-resistant temperature can be protected from overheating.

  It is possible to prevent the snow, ice and cloudiness from adhering to the lamp lens 4, and when the snow, ice and cloudiness adhering to the lamp lens 4 are melted or removed, a manual switch and / or an automatic switch can be used. The current supply to the line heater 5 provided in the lens 4 is cut off.

  The vehicular lamp according to the first embodiment is configured and operated as described above, and the effects thereof will be described below.

  In the vehicular lamp according to the first embodiment, since the air vent small hole 50 is provided at the tip of the film 24 of the power feeding unit 6, the tip of the film 24 of the power feeding unit 6 is bonded to the side wall 34 of the lamp lens 4. When adhering with the agent 32, blisters or bubbles generated between the film 24 and the lamp lens 4 can be released from the small holes 50 to the outside. As a result, the vehicular lamp according to the first embodiment can surely prevent the occurrence of blisters or bubbles between the tip of the film 24 of the power feeding unit 6 and the side wall 34 of the lamp lens 4. Further, it is possible to prevent the appearance from being deteriorated due to the occurrence of the swelling or bubbles, and it is possible to prevent the adhesive force between the film 24 and the lamp lens 4 from being lowered. In particular, when the adhesive 32 enters the small holes 50, the adhesive area between the adhesive 32 and the film 24 is increased, and the adhesive force is increased accordingly, and when the adhesive 32 is solidified, the adhesive 32 is Since it wedges into the film 24, the adhesive force increases accordingly, and as a result, the tip of the film 24 of the power feeding section 6 is securely bonded to the lamp lens 4.

  That is, the vehicular lamp according to the first embodiment has a width W1 equal to or larger than the width W of the base film 17 of the wire heater 5, and in this example, about 20 times or more, the adhesive fixing portion at the tip of the film 24 of the power feeding unit 6. By providing the small hole 50 for venting air, the power feeding unit 6 can be securely fixed to the side wall 34 of the lamp lens 4.

  Further, in the vehicular lamp according to the first embodiment, the small holes 50 for air bleeding can be provided simultaneously with the same die as the punching process for cutting the base film 17 of the wire heater 5, so that the processing cost can be reduced. In addition, the small holes 50 can be provided reliably and easily at a low pressure.

  In the first embodiment, as shown in FIG. 10, a small hole 50 for venting air is provided in the adhesive fixing portion at the tip of the film 24 of the power feeding portion 6. However, in the case where the portion indicated by the two-dot chain line in FIG. Also in this case, a large number of air venting small holes are provided in the portion indicated by the two-dot chain line in FIG.

  13 and 14 show Example 2 of a vehicular lamp according to the present invention. In the figure, the same reference numerals as those in FIGS. 1 to 12 denote the same components. Hereinafter, the vehicular lamp according to the second embodiment will be described.

  In the vehicular lamp according to the second embodiment, the length of the film 24 of the power feeding unit 60 provided in the wire heater 5 is shorter than the film 24 of the power feeding unit 6 of the vehicular lamp according to the first embodiment. That is, in the power feeding unit 60 in the second embodiment, the width W1 of the film 24 is similar to the width W (about 0.5 mm) of the base film 17 in this example as in the first embodiment. , About 10 mm. On the other hand, the length of the film 24 is long enough to fix the connector and long enough to provide the wide portion 49 to which the connector is electrically connected. 13 and 14, the left end portion of the film 24 is illustrated to be located on the left side of the line heater 5, but actually, the left end portion of the film 24 and the line heater 5 are illustrated. Is located on substantially the same line. In the vehicular lamp according to the second embodiment, the connector is fixed near the wire heater 5.

  Since the vehicular lamp according to the second embodiment is configured as described above, it is possible to achieve substantially the same operational effects as the vehicular lamp according to the first embodiment.

  Hereinafter, examples other than the first and second embodiments will be described. In the first and second embodiments, the line heater 5 is provided on the inner surface of the front portion 33 of the lamp lens 4. However, in the present invention, the line heater 5 may be provided on the outer surface or both the inner and outer surfaces of the lamp lens 4.

  In the first and second embodiments, the line heater 5 is provided on the inner surface of the front portion 33 of the lamp lens 4. However, in the present invention, at least two heat generating portions, that is, a high temperature heat generating portion and a low temperature heat generating portion may be formed in the wire heater.

  Further, Examples 1 and 2 described above are examples used in the lamp lens 4 of the headlamps 1L and 1R of the automobile C. However, in the present invention, a vehicle lamp other than the headlamps 1L and 1R of the automobile C, for example, a signal lamp such as a stop lamp, an illumination lamp such as a curve lamp, a front combination lamp, a rear combination lamp, and a motorcycle headlamp. It may be used for a lamp lens.

  Furthermore, in the first and second embodiments, the projector type lamp unit 2 using the semiconductor light source 12 as a light source will be described as a light irradiating unit that irradiates light to the outside through the front portion 33 of the lamp lens 4. Is. However, in the present invention, as the light irradiator, a light irradiator other than the lamp unit 2 described above, for example, a light source is a discharge lamp such as a semiconductor light source or HID, a halogen bulb, or an incandescent bulb, The lamp unit may be a type or direct-light type, or in a projector-type, reflection-type or direct-light type vehicle lamp, a semiconductor-type light source, a discharge lamp such as an HID, a light source of a halogen bulb or an incandescent bulb, and A combination of the light source and the reflecting surface may be used.

  Furthermore, in the first and second embodiments, a large number of air venting small holes 50 are provided at locations where the film 24 of the power feeding units 6 and 60 is bonded and fixed to the lamp lens 4. However, in the present invention, a small hole for venting air may be provided in the base film 17 of the wire heater 5 and also in a portion other than the adhesive fixing portion of the film 24 of the power feeding unit 6.

  Furthermore, in the first and second embodiments, the electric / electronic member is composed of the wire heater 5 and the power feeding units 6 and 60. However, in the present invention, as an electric / electronic member, a so-called affixed antenna including a film antenna, a linear antenna, or the like, or a film-like illuminant, other than the electric heater composed of the wire heater 5 and the power feeding units 6 and 60. It may be. That is, as long as it has a power feeding part with a structure to be pasted, it is possible to achieve the same effect, and in this case as well, as in the first and second embodiments, it prevents the appearance from being deteriorated due to the occurrence of blisters or bubbles. At the same time, the adhesive force increases.

BRIEF DESCRIPTION OF THE DRAWINGS It is Example 1 of the vehicle lamp concerning this invention, and is explanatory drawing of the state currently used for the headlamp of a motor vehicle. Similarly, it is a vertical sectional view (longitudinal sectional view) of the headlamp. Similarly, it is a vertical sectional view (longitudinal sectional view) of a lamp unit used in a headlamp. It is a perspective view which similarly shows the lamp lens currently used for the headlamp. Similarly, it is an enlarged view of the V section in FIG. Similarly, it is the VI-VI sectional view taken on the line in FIG. Similarly, it is a horizontal sectional view (transverse sectional view) showing a wiring state between a part of the headlamps, in particular, the power supply unit and the power supply side. Similarly, it is a top view which shows a wire heater and an electric power feeding part. Similarly, it is a top view which shows a wire heater, an electric power feeding part, and a connector. Similarly, it is an enlarged plan view of a part of a line heater showing a small hole for air venting and a power feeding unit. Similarly, it is explanatory drawing which shows the manufacturing process of the line heater transferred to a lamp lens, and the transfer process of transferring a line heater to a lamp lens. Similarly, it is a horizontal sectional view (transverse sectional view) showing a modification of the wiring state of a part of the headlamp, in particular, the power supply unit and the power supply side. It is a top view of the line heater and electric power feeding part which show Example 2 of the vehicle lamp concerning this invention. Similarly, it is an enlarged plan view of a part of a line heater showing a small hole for air venting and a power feeding unit.

Explanation of symbols

C Automobile CL Cut location W Base film width W1 Film width 1L, 1R Headlamp (vehicle lamp)
DESCRIPTION OF SYMBOLS 2 Lamp unit 3 Lamp housing 4 Lamp lens 5 Wire heater 6, 60 Power supply part 7 Lamp chamber 8 Upper reflector 9 Lower reflector 10 Reflecting surface 11 Shade 12 Semiconductor type light source (LED)
13 Projection lens 14 Heat sink member 15 Holder member 16 Heat sink member 17 Base film 18 Adhesive 19 Conductive paste (conductive member for heater)
20 Resist 21 Separator 22 Release Sheet 23 Sheet Member 24 Film 25 Conductive Paste (Power Supply Conductive Member)
26 Connector 32 Adhesive 33 Front portion 34 Side wall portion 35 Heater side harness 37 Heater side connector 38 Waterproof grommet 39 Power source side harness 40 Power source side connector 41 Vehicle component 49 Wide portion 50 Small hole for venting air

Claims (3)

A lamp housing and a lamp lens that partition the lamp chamber;
A light irradiating unit disposed in the lamp chamber and irradiating light to the outside through the lamp lens;
An electric and electronic member provided on the lamp lens;
With
The electric and electronic member is composed of a line heater provided by transfer to the lamp lens, and a power supply unit that supplies current to the line heater,
The wire heater has a base film, an adhesive provided on one surface of the base film, and a conductive film for a heater that is formed in a line pattern on the other surface of the base film and generates heat when supplied with current. And a resist provided to cover the heater conductive member on the other surface of the base film, and at least the base film follows the line pattern of the heater conductive member A transfer type line heater that is cut into a pattern, and that adheres the adhesive to the lamp lens and transfers the heater conductive member of the line pattern to the lamp lens;
The power feeding unit includes a film that extends from the base film and is fixed to the lamp lens with an adhesive, is formed in a line pattern on one surface of the film, and is electrically connected to the heater conductive member. Electrically connected to the power supply conductive member, and a connector electrically connected to the power supply conductive member and fixed to the lamp lens together with the film,
At least one of the base film of the wire heater or the film of the power feeding unit is provided with a small hole for air bleeding.
A vehicular lamp characterized by the above. The width of the film of the power supply unit is equal to or greater than the width of the base film of the line heater, and a small hole for air bleeding is provided at a position fixed to at least the lamp lens in the film of the power supply unit. The vehicular lamp according to claim 1 , wherein the vehicular lamp is provided. The vehicular lamp according to claim 1 or 2 , wherein the small hole for air bleeding is provided simultaneously with a punching process for cutting the base film of the line heater.

Images