Abstract: A light emitting device made in accordance with principles of the disclosed subject matter can provide countermeasures against static electricity and can be configured in a relatively small size. The lighting emitting device can include both a first conductor pattern and a second conductor pattern on an insulating board. In one example, a first LED chip having a high electrostatic breakdown voltage is electrically connected to the first conductor pattern and a second LED chip having a low electrostatic breakdown voltage is electrically connected to the second conductor pattern. The LED chips can be encapsulated with an encapsulating resin on the insulating board. At least part of the first conductor pattern is exposed at a farther position than a furthest portion of the second conductor pattern from a mounting surface so as to act as a lightning rod.

Abstract: A lamp can include a low-beam filament arranged in a horizontal reference plane containing an optical axis of a glass bulb, and facing in a direction orthogonal to the optical axis. A high-beam filament can be arranged in a plane normal to the horizontal reference plane and in parallel with the low-beam filament. A pair of inner leads for supporting the low-beam filament can be located in the horizontal reference plane. A pair of inner leads for supporting the high-beam filament can be located in a plane defined in parallel with the optical axis and normal to the horizontal reference plane.

Abstract: A pharmaceutical/medical rubber compound contains the following components: (A) a composition obtainable by crosslinking (a) 100 parts by weight of an isobutylene polymer having terminal alkenyl groups with (d) a hydrosilyl-containing compound in the presence of (b) from 5 to 100 parts by weight of a polyolefin and (c) from 5 to 100 parts by weight of polybutene during melt kneading, and (B) an ultra-high molecular weight polyethylene powder. Compared with conventional thermoplastic elastomers, the pharmaceutical/medical rubber compound and its molded article are free from deformations and have sufficient permanent set resistance even under high temperature conditions, have excellent mechanical properties, low water absorption property, low reactivity and superb gas barrier properties, and can withstand high-temperature sterilization.

Abstract: A vehicle headlight can include an LED optical unit with a high cooling efficiency. The LED optical unit can include a projector lens, a lens holder including a frame that has a tapered portion, and an LED light source mounted on a base member. The base member can be located in the tapered portion of the frame to define an air flow space between the frame and the base member. The projector lens can be attached to the lens holder so as to face the light source. Cool air can flow from the air flow space towards the light source, and heat generated from the light source can flow toward the upward air flow space. The LED light source can be efficiently radiated even when it is located close to the projector lens. Thus, the vehicle headlight can be used for various vehicles including a small size car.

Abstract: A vehicle structure can include a coating that provides a three-dimensional tactile pattern to the vehicle structure. In addition, a method for forming a vehicle structure can include applying a film that provides a three-dimensional tactile pattern to the vehicle structure. The vehicle structure can be a trim piece of a vehicle to which the film provides decorative and tactile features. A thin metal layer can be applied on top of a substrate by a metallizing technique, such as physical vapor deposition, followed by applying a radiation curable formulation and exposing it to radiation source, such as UV light. The radiation curable formulation can be a UV ink that is spaced at separate and distinct locations on the film and extends from the metallic layer to such an extent that it is discernable by human touch.

Abstract: A vehicular lighting fixture can include a shade wherein an end edge of an upper surface of the shade is positioned at or in a vicinity of a focus of a projection lens. A first reflection surface can be provided to condense light from a light source in a vicinity of the end edge and to form a basic light distribution pattern by the projection lens. A second reflection surface which can comprise one planar reflection surface and can reflect light from the first reflection surface to form a first additional light distribution pattern. A third reflection surface can be provided on a higher surface of a step section of the upper surface, and can reflect light from the first reflection surface to form a second additional light distribution pattern. A fourth reflection surface can connect the second and third reflection surface, and can reflect the light from the first reflection surface in a direction not incident on the projection lens.

Abstract: Whereas incandescent light bulbs and other similar light sources known in the related art emit light in all directions, LED lamps can emit light in a single direction, and this is manifested in the problem of being unable to achieve light distribution characteristics satisfied by conventional headlamp designs. In accordance with an embodiment of the presently disclosed subject matter, an LED lamp for a light source of a headlamp can include an LED chip in the vicinity of the focus of a projection means and a shielding member covering a portion of the LED chip in a formation allowing a light distribution characteristic suitable for a vehicle front-illumination light to be obtained when light from the LED chip is magnified and projected in an illumination direction by a projection lens or the like constituting the projection means. Accordingly, accurate light distribution characteristics can be obtained in a simple manner by projecting in the illumination direction using the projection lens.

Abstract: A light, and particularly a vehicle light, can prevent a reflected image of a resin injection trace (reflected in an adjacent connecting surface surrounding a reflecting surface) from being observed through a projecting surface, thereby preventing deterioration of appearance of the light. The light can include a light source and a lens body having a resin injection trace by injection molding. The lens body can include, as its surface, optical surfaces including an incident surface, a reflecting surface, and a projecting surface that are configured to form a predetermined light distribution pattern. Connecting surfaces that shape and define a structure of the lens body can connect the optical surfaces, and can be configured so as not to engage in the formation of the light distribution pattern. The incident surface can be a lens surface that can receive light from the light source to allow the light to enter the lens body.

Abstract: A semiconductor light emitting apparatus for emitting a desired colored light by coating the top surface thereof with a wavelength conversion member prevents the color unevenness from occurring due to the unevenness of the coating thickness of the wavelength conversion member. The semiconductor light emitting apparatus can include a semiconductor layer having a light emitting layer with a light emitting surface having at least one corner area, a supporting substrate configured to support the semiconductor layer, and a wavelength conversion material layer formed on top of the semiconductor layer, the wavelength conversion layer having a thickness thinner from a center portion of the semiconductor layer to an outer peripheral portion. The at least one corner area can include a non-emitting portion where light cannot be projected. The non-emitting portion can be a light shielding portion, a non-light emission portion or a current confined portion.

Abstract: The disclosed subject matter includes a fluorescent lamp and particularly a cold cathode fluorescent lamp that can be employed as a light source for a LCD backlight unit for a television, a computer, a display, and the like. The fluorescent lamp can include a couple of electrode units located opposite to each other at each end of a tube, a couple of welding beads sealing both the tube and the couple of electrode units, and a filler gas located in the tube. Each of the electrode units can include an emitter electrode that is configured with a crystalline silicon semiconductor material having an electrical conductivity or configured with other semiconductor materials, and can include a concave portion formed thereon. The electrode units can prevent blackening on an inner surface of the tube by avoiding the occurrence of spattering. Thus, the fluorescent lamp using the electrode units can enjoy a long life, high reliability, easy manufacture, and the like.

Abstract: A vehicle lamp including a projector headlight using an LED light source for a low beam can include a shade, an LED light source, an ellipsoidal reflector and a projector lens. Both a focus of the projector lens and a top edge of the shade can be located near a second focus of the reflector. The LED light source can be located near a first focus located below the second focus of the reflector. Therefore, light emitted from the LED light source can be effectively gathered near the focus of the projector lens via the reflector and can be projected via the projector lens with high light use-efficiency. The projector lens can include light dispersing portions or structures on an upside and downside thereof for reducing chromatic aberration. Thus, the lamp can project a favorable light distribution that can conform to light distribution standards for vehicle headlights and the like.

Abstract: The present invention aims at detecting torque with a high degree of precision, by suppressing influences such as disturbance and rotation dependency.

Abstract: A vehicle spring guide assembly is shown for mounting a coil spring to a suspension component of a vehicle. The assembly can include a vehicle mounting member and a spring guide member. The vehicle mounting member includes a bumper portion and a mounting interface portion. The mounting interface portion can be configured to engage the bumper portion and fixedly mount the bumper portion to a suspension component of a vehicle. The spring guide member can include an annular portion configured to engage with one end of a coil spring and a flexible frustoconical portion configured to extend within the inside diameter of the coil spring. The flexible frustoconical portion can be detachably engaged with the mounting interface portion of the vehicle mounting member, and can be configured to guide and isolate the coil spring during assembly.

Abstract: A vehicle lamp can include a light source unit including a light guide plate with a light emission surface, and a point or line light source opposed to one end face of the light guide plate. The light guide plate can be made of a transparent plate-like material. A convex projection lens can be configured to focus light emitted from the light source unit and project the light forward in a direction of light illumination. The light guide plate can have a prism array on a rear surface thereof extending with a serrated cross section from the one end face to the opposite end face of the light guide plate, and in a direction parallel with the end face. The prism array can include a plurality of prism surfaces, with each prism surface being obliquely formed so that when light enters the light guide plate from the light source side and impinges thereon, a substantial amount of the light can be totally reflected into small angles of incidence to the emission surface.

Abstract: A nipple protector is provided, which is able to protect a nipple of a user reliably, by protecting the nipple area so as to maintain a non-contact state with the nipple area and thereby avoiding the causing of pain or unpleasant irritation to the nipple area, as well as avoiding the leaving of marks while reducing irritation when abutted against the breast. A nipple protector having a hard outer member or shell and an inner member made of a material which is more flexible and deformable than the outer member, with an internal space being formed inside the nipple protector, wherein the internal space is formed by a cylindrical portion which extends from the outer member and/or the inner member, and the inner member has an abutting section which surrounds with no gap the nipple area of a wearer completely, and the abutting section is a deformable abutting section which deforms elastically and is capable of making contact, with no gap, with the perimeter of the nipple area.

Abstract: A fluorescent lamp can be configured to prevent a decrease in luminescent efficiency when located in a high temperature room. The fluorescent lamp can include a couple of stems each including an emitter electrode located opposite to each other at each end of a tube, a filler gas located in the tube, a damping material and a coolest portion connected to the tube via the stem and the damping material. The coolest portion can be configured with a first material that has a higher thermal conductivity than the conductivity of both the tube and the stems. The damping material can be configured with both the first material and a second material that has a lower conductivity than the conductivity of the first material. A content ratio of first material vs. second material can change along a length of the damping material. Thus, the coolest portion can maintain a favorable temperature and the fluorescent lamp can maintain a favorable luminescent efficiency even when in a sealed casing.

Abstract: A lighting fixture for use with a vehicle can switch a plurality of functions (for example, a fog lamp function and a cornering lamp function) without depending on a mechanical action. The lighting fixture can be mounted on a vehicle and can include a first light source, a second light source, and a first reflecting surface which can reflect light emitted by the first light source to form a first light distribution pattern when the first light source is turned on and can reflect light emitted by the second light source to form a second light distribution pattern different from the first light distribution pattern when the second light source is turned on.

Abstract: A light source unit and reader can include a line light source that is attached to a radiator and a rod lens that is attached above the line light source. The radiator with the line light source and the rod lens attached thereto, and a linear strip-shaped reflector arranged in front of the rod lens, are housed in a carriage. The carriage is supported beneath a contact glass and movable in a direction normal to a longitudinal axis of the line light source. The lens has a section in a plane normal to a longitudinal axis of the lens, in which a surface of the lens facing the light source has a curved line that expands or is convexly facing toward the light source. The opposite surface of the lens from the light source has composite curves including a plurality of continuous curves with different radii of curvature. The composite curves are located on both sides of a plane containing the optical axis of the LED and expand or are convex in an opposite direction from the light source.

Abstract: A vehicle suspension mounting structure and method can include a control arm connected to a bushing via a fastener rod and the method of connecting the same. The bushing can be attached to a portion of the vehicle frame. The fastener rod can be inserted into a cavity in the control arm such that the fastener rod extends away from the control arm and is prevented from being removed from the cavity in the control arm by a lip provided at a proximal end (relative to the control arm) of the fastener rod. The mounting structure and method can provide a safer and stronger connection between the control arm and bushing. In addition, serviceability can be improved and cost savings can be realized in some cases.

Abstract: A semiconductor light emitting device can vary color temperatures of its emission light and have a simple and small configuration. The semiconductor light emitting device can include a substrate, electrode wiring formed on the substrate, a plurality of semiconductor light emitting elements mounted on the electrode wiring, and a wavelength conversion layer surrounding the semiconductor light emitting elements. The semiconductor light emitting elements constitute a first semiconductor light emitting element group and a second semiconductor light emitting element group. The wavelength conversion layer has a thinner portion corresponding to the first group and a thicker portion corresponding to the second group and can be differentiated by a step provided on the substrate.