JP2023060459A - Led lamp device and console box structure provided with led lamp device - Google Patents

Abstract

To provide a console box structure which is free from an adverse effect of a force applied when a connector is inserted into a metal terminal that is soldered to a substrate and extends to a connection area, in an LED lamp where a connection area for inserting and detach a connector and a substrate storage area provided with an LED light source are integrated with each other, and has a thin LED lamp device preventing ultraviolet light emitted from the LED light source from being shielded by a cover.SOLUTION: A bent part 11a is provided on a metal terminal 5 so as to abut on a partition wall 22 partitioning a connection area and a substrate storage area. A cover 6 is provided with a recess 33 and an emission part 34, and is arranged so that emitted light from an LED light source 2 of the emission part 34 is not shielded by a cover. A thin LED lamp device 1 having high reliability can be obtained therefrom. The LED lamp device 1 is thin, and accordingly a console box can be obtained which can be installed in a console lid 53 and irradiates an irradiated object of a container part 51 with ultraviolet light.SELECTED DRAWING: Figure 2

Description

The present invention relates to a lamp device capable of lighting ultraviolet LEDs by connecting a connector, and particularly to a compact LED lamp device that can be attached to a console box or the like installed in a vehicle interior of an automobile, and a console box structure equipped with the LED lamp device. Regarding.

In recent years, LED lamps that take advantage of the features of power saving and long life have become widespread. The present applicant has developed the LED lamp of Patent Document 1, which can be connected by a connector, for use in vehicle interior lighting.

The LED lamp of Patent Document 1 is designed to prevent breakage or peeling of the soldered base end that connects the terminal to the board even if excessive stress is accidentally applied to the terminal when the connector is connected. ing. Specifically, the base end portion of the terminal is soldered to the board on which the LED is mounted, and the through hole penetrates the housing. A tip portion of the terminal extending from the substrate and penetrating the through hole is offset from a base portion in a direction orthogonal to the substrate surface. Also, a soldering land to the substrate at the base end of the terminal extends along the longitudinal direction of the base end.

In the technique described in Patent Document 1, by offsetting the tip of the terminal, the stress applied to the soldered portion connecting the terminal and the substrate is reduced. At the same time, the soldering area is increased. However, since the position of the through-hole provided in the housing is set as the extension position of the substrate, and the offset is made only by the amount corresponding to the through-hole, the stress applied to the soldered portion between the substrate and the terminal is sufficiently reduced. I had to increase the soldering area.

Therefore, when the soldering position between the board and the terminal is displaced, the tip of the terminal tends to be displaced with the through hole as a fulcrum. The misalignment of the offset terminal may increase the stress applied to the soldered portion, causing problems such as breakage or peeling of the soldered base end. In addition, since the terminals are fixed to the board only by soldering, there is a disadvantage that positional deviation is likely to occur due to the effects of variations in both the soldering position and the amount of offset between the board and the terminals, resulting in a decrease in yield.

Also, an LED that emits visible light is assumed as the LED mounted on the substrate. The cover lens is provided so as to cover the board accommodating portion of the housing from the outside so as to face the emission surface of the LED. Light emitted from the LED is emitted outside through the cover lens. Since a transparent resin lens is used for the cover lens, when a UV-LED that emits ultraviolet light is used as the LED, there is a drawback that the transparent resin lens deteriorates.

Further, in a console box in which a container portion for storing articles and a console lid serving as a lid portion for closing the container portion are rotatable, a structure in which a lamp case is provided in the console lid is known (see Patent Document 2). However, the interior of the vehicle is illuminated with the console lid opened, and it is not assumed that the contents of the container section will be irradiated with ultraviolet rays. Therefore, when a lamp case capable of lighting the ultraviolet LED is provided, the ultraviolet ray is irradiated toward the inside of the vehicle. It is not preferable to irradiate the human body with ultraviolet rays.

JP 2013-95292 A JP-A-2002-96686

The present invention has been made in consideration of such circumstances, and it can be installed in a thin space such as the lid of a console box. It is an object of the present invention to provide a compact LED lamp device excellent in durability without using a resin cover lens.

In addition, according to another aspect of the present invention, it is possible to arrange the terminal in a thin space such as the lid of a console box. To provide a small-sized LED lamp device which is less likely to become unstable and excellent in durability.

In addition, according to another aspect of the present invention, it is possible to arrange the terminal in a thin space, and the connection between the terminal and the substrate is less likely to become unstable due to the stress due to insertion and removal of the connector during mounting. To provide a console box structure that does not use a resin cover lens that deteriorates with ultraviolet rays, is equipped with a compact LED lamp that is excellent in durability, and irradiates ultraviolet rays toward the inside of the container part of the console box. and

In order to achieve the above object, one aspect of the present invention provides the following LED lamp devices [1] to [4] and a console box structure including the LED lamp device.

[1] A case integrally formed with a substrate on which an ultraviolet LED is mounted, a connection area having a substrate accommodation area for accommodating the substrate, and a connector insertion opening into which an external connector can be inserted and removed, and one end of the case. A metal connection terminal having a portion side connected to the substrate and the other end projecting into the connection area and having a plurality of bent portions, covers the upper surface of the ultraviolet LED and the substrate and engages with the case. An LED lamp device comprising a cover,
A plurality of electronic components are mounted around the ultraviolet LED on the upper surface of the substrate,
The cover includes a conical recess in which the distance between the upper surface of the substrate gradually decreases toward the ultraviolet LED, and a position corresponding to the ultraviolet LED located in the recess and provided from the upper surface of the ultraviolet LED. with a large opening,
In the ultraviolet LED, the height from the upper surface of the substrate to the upper surface of the ultraviolet LED is higher than the height from the upper surface of the substrate to the upper surface of the electronic component adjacent to the ultraviolet LED, and the upper surface of the ultraviolet LED is reaches the recess from the bottom surface of the opening,
The inclined surface of the concave portion is inclined so as to be outside the range of the emission angle of the ultraviolet LED,
The substrate accommodation area has a bottom surface facing the lower surface of the substrate, a side wall surrounding the substrate, and a partition separating the substrate accommodation area and the connection area, and has a box shape opening upward. is,
The partition wall is formed with a terminal communication portion that communicates the connection terminal between the substrate housing area and the connection area,
The connection terminal is rod-shaped and has a first bent portion and a second bent portion formed by bending, and one end positioned within the board accommodation area and the other end positioned within the connection area. and
The first bent portion is formed at a position closest to the partition wall in the substrate accommodation area, and at a position where a bent portion hits the partition wall when the connection terminal is pulled toward the connection area,
the second bent portion is formed on the one end side and is bent from a direction parallel to the substrate toward the substrate;
The LED lamp device, wherein the one end side is inserted into a through hole provided in the substrate and connected by soldering.
[2] In the substrate and the connection terminal, an imaginary extension line obtained by extending the direction in which the connection terminal extends in the connection area toward the substrate accommodation area is positioned in the substrate or on the upper surface side of the substrate. one end of the connection terminal is inserted through the through hole from the lower surface of the substrate and is connected to the substrate by protruding to the upper surface side,
The LED lamp device according to [1], wherein the first bent portion is positioned between the substrate and the partition wall.
[3] The bottom surface is formed with a terminal accommodating recess that opens toward the substrate and fixes the connection terminal,
The terminal housing recess includes a pair of first vertical walls that sandwich the connection terminal from both sides, and a pair of second vertical walls that extend in an orthogonal direction from a side end of one of the pair of first vertical walls. The LED lamp device according to [1] or [2].
[4] The LED lamp device according to any one of [1] to [3], wherein the substrate is provided with a visible LED electrically connected in series with the ultraviolet LED.
[5] A console box having a container portion for storing articles and a console lid that is openable and closable and serves as a lid portion for closing the container portion,
The console lid is formed with a lamp accommodating portion that accommodates the LED lamp device according to any one of [1] to [4],
The LED lamp device is fixed to the lamp accommodating portion such that the conical recess faces the container portion when the console lid closes the container portion,
The console box includes a sensor element for detecting an open/closed state of the console lid, and a control circuit for turning off the lighting of the ultraviolet LED when the sensor element detects the open state of the console lid. A console box characterized by:

According to the present invention, since the connection terminal is provided with the bent portion and the case is provided with the partition wall, the connection terminal can be securely fixed, and the stress due to insertion and removal of the connector causes stress on the joint between the terminal and the substrate. can be prevented from being transmitted. A thin LED lamp device can be obtained. In addition, even when UV-LEDs are used, it is possible to provide a compact LED lamp device with excellent durability that does not use a cover lens made of resin that deteriorates with ultraviolet rays.
In addition, since an LED lamp device that emits ultraviolet rays that can be placed in a thin space is used, it is possible to provide a console box structure that emits ultraviolet rays toward the inside of the container portion of the console box.

FIG. 1 is a schematic perspective view showing the interior of a vehicle for explaining an installation example of a console box structure for a vehicle. FIG. 2 is a cross-sectional view of a console box structure for a vehicle. FIG. 3 is a perspective view of an LED lamp device. FIG. 4 is a cross-sectional view of an LED lamp device. FIG. 5 is a perspective view showing a board installed inside the LED lamp device. FIG. 6 is a perspective view showing a connection terminal in a modified example of the first embodiment. FIG. 7 is a partial perspective view showing the main part of the bottom of the case of the LED lamp device housing the connection terminals of FIG.

BEST MODE FOR CARRYING OUT THE INVENTION Preferred embodiments of the present invention will now be described based on an example of a console box with reference to the accompanying drawings.

[First embodiment]
First, the configuration of a vehicle console box provided with an LED lamp device will be described with reference to FIGS. 1 and 2. FIG. Power is supplied to the LED lamp device through a switch and a control circuit (not shown) provided on the vehicle.

As shown in FIG. 1, a center console CC generally extending in the longitudinal direction of the vehicle is provided between a driver's seat S1 and a passenger's seat S2 inside a vehicle such as an automobile. The center console CC has a console box 50 for storing articles therein. In FIG. 1, symbol H indicates a handle provided in front of the driver's seat S1.

FIG. 2 is a sectional view along the front-rear direction of the console box 50. As shown in FIG. The console box 50 is composed of a container portion 51 for storing articles therein, and a console lid 53 which is rotatably mounted around a hinge 52 and serves as a lid for closing the container portion 51 . In this embodiment, a hinge 51 is provided on the rear side in the vehicle front-rear direction, and the console lid 53 is formed so that it can be opened and closed by holding the front side of the console lid 53 and turning it. FIG. 2 shows a state in which the console lid 53 is slightly opened, that is, a state in which the console lid 53 has been released from the locked state with the container portion 51 on the front side and turned slightly upward. In the description of the console box 50, the terms "front", "rear", "upper", and "lower" refer to the container section as "lower" and the console lid 53 as "upper", as shown in FIG. 1 is shown in orthogonal coordinates with reference to the configuration in which the accommodation portion 54 is recessed downward, and the front-rear direction of the vehicle in FIG.

The container portion 51 is generally formed with a cubic storage portion 54 , and articles can be stored in the storage portion 54 . In this embodiment, by irradiating ultraviolet rays from the LED lamp device to the article accommodated in the accommodation section 54, it also functions as an ultraviolet irradiation treatment chamber for performing ultraviolet irradiation treatment.

The console lid 53 is attached to the container part 51 so as to cover the housing part 54, and has a claw part (not shown) at the end opposite to the side where the hinge 52 is provided. The claw portion is formed so that the upper surface of the container portion 51 and the lower surface of the console lid 53 come into contact with each other by being engaged with the claw receiving portion provided in the container portion. larger than the size of the upper opening of the A lamp device mounting portion 55 is formed on the lower surface of the console lid 53 so as to accommodate the LED lamp device 1 . The lamp device mounting portion 55 is formed as a recess formed from the bottom surface of the console lid 53 toward the top surface.

In the LED lamp device 1, when the console lid 53 closes the container portion 51, the conical concave portion 31 formed in the cover 6 faces the container portion 51 and faces downward so as to illuminate the inside of the housing portion 54. is fixed to the lamp device mounting portion 55.

Next, the LED lamp device 1 will be described with reference to FIGS. 3 to 5. FIG.

3 is a perspective view of the LED lamp device 1, FIG. 4 is a sectional view, and FIG. 5 is a perspective view of the substrate 3 on which electronic components such as an LED light source are mounted.

In the following description, the terms “front”, “rear”, “left”, “right”, “top”, and “bottom” of the LED lamp device 1 refer to the position of the LED light source 2 mounted on the board unless otherwise specified. , and the direction of light emitted from the LED light source 2 is defined as "up". Therefore, "up" corresponds to the optical axis direction in which the light from the LED light source 2 is emitted. "Bottom" corresponds to the side opposite to the emitting direction of the LED light source 2, that is, the direction toward the substrate 3 side, the front-rear direction corresponds to the inserting/removing direction of the connector attached to the lamp device, the "front" corresponds to the inserting direction of the connector, and the "rear". This corresponds to the pull-out direction when removing the connector. Note that the terms “upper” and “lower” in the description of the console box 50 do not match the descriptions of “upper” and “lower” in the description of the LED lamp device 1 . When the LED lamp device 1 is mounted inside the console lid 53 of the console box 50 as shown in FIG. 2, the downward direction in FIG.

The LED lamp device 1 includes a case 4 forming a connection area (socket portion) 4b into which a connector 40 is inserted and a board accommodation area 4a in which an LED light source 2 is installed, and a cover 6 fixed to the case 4. 6 covers the substrate 3 on which the LED light source 2 mounted in the case 4 is mounted. A plurality of connection terminals 5 (two terminals in this embodiment) are arranged in the connector insertion opening 4c of the connection area 4b.

The LED light source 2 has a surface-mounted UV-LED (ultraviolet LED) mounted on the upper surface 3a of the substrate 3 for emitting ultraviolet rays. It is mounted so that the central axis (optical axis) of the irradiation direction of the light from the LED light source 2 is perpendicular to the upper surface 3 a of the substrate 3 . Directive light is emitted from the LED light source 2 . The LED light source 2 is not limited to surface-mounted UV-LEDs, and various forms such as bullet-shaped LED modules can be used.

In the present embodiment, an LED element that emits UV-LED (ultraviolet LED) and a visible LED element that emits blue light, which is a kind of visible light, are provided in one package as the LED light source 2 to form a single surface-mounted package. It uses an LED light source consisting of a mold package. The UV-LED (ultraviolet LED) element and the visible LED element are connected in series via a limiting resistor in the package, and the UV-LED (ultraviolet LED) and the visible LED are lit at the same time, and one of them fails and disconnects. Both LEDs are formed to be extinguished when the Thereby, it is possible to visually confirm that the UV-LED is lit by the light emission of the visible LED.

As the UV-LED, a deep ultraviolet LED element having a peak emission wavelength in the UV-C region is used. By using light in the UV-C region, the power to sterilize the surfaces of articles placed in the housing portion 54 of the console box 50 can be made stronger than when ultraviolet light in the UV-A or UV-B region is used. Because you can. Alternatively, an LED package in which only ultraviolet LED elements are provided as the LED light source 2 may be used. An LED package is an electronic component in a form that is easy to handle and includes an LED element, a package electrode that connects the LED element and the wiring of the substrate 3, a translucent protective member that protects the LED element, and a holding member that holds them. say.

The substrate 3 is a printed wiring board on which wiring for controlling lighting of the LED light source 2 is formed, and a glass epoxy copper-clad laminate is used. A bonding pattern (not shown) for electrical connection with the LED light source 2 is formed on the substrate upper surface 3a, and is connected and fixed to electrodes of the LED light source 2 by soldering. At least two terminal connection holes 3c are formed in the substrate 3 as shown in FIG. The terminal connection hole 3c penetrates between the substrate top surface 3a and the substrate bottom surface 3b. One end 5a of the connection terminal 5 is inserted into the terminal connection hole 3c (through hole) from the side of the bottom surface 3b of the substrate and soldered to the substrate 3, thereby electrically connecting to wiring (not shown) and to the substrate 3. Fixed. A flexible printed circuit board, a metal substrate, or the like may be used as the substrate 3 . Reference numeral 3d denotes a locking groove provided on the side surface of the substrate, which is provided for locking the case 4 at a predetermined position.

On the upper surface 3a of the substrate 3, as shown in FIG. 5, in addition to the LED light source 2, a plurality of electronic components 7 necessary for driving the LED lamp device are also mounted. As for the electronic parts provided around the LED light source 2, electronic parts lower in height than the LED light source 2 are arranged. The height of the LED light source means the height from the surface of the substrate upper surface 3a to the upper surface of the LED light source. Similarly, the height of an electronic component means the height from the surface of the substrate upper surface 3a to the upper surface of each electronic component. Further, in the present embodiment, as shown in FIG. 4, the height of the adjacent electronic components around the LED light source 2 is reduced in the region corresponding to the concave portion 33 provided in the cover 6 described later when viewed from above. As for the electronic parts located away from the LED light source 2 , the electronic parts 7 are laid out assuming that the electronic parts 7 may be higher than the adjacent electronic parts around the LED light source 2 . This is because the thickness can be reduced while interfering with the inclined surface 33a of the concave portion 33 of the cover 6. As shown in FIG.

Since the LED element consumes little power and has a long life, it is a light source suitable for continuous lighting for a long period of time. When bright irradiation light is required, the current supplied to the LED element is increased. As the current flowing through the LED increases, the amount of heat generated by the LED increases. In addition, continuous lighting for a long time also generates a large amount of heat. When the amount of heat generated is large, it is preferable to use a metal substrate provided with an insulating layer and a wiring layer as the substrate. This is because the heat generated by the LED element can be efficiently dissipated through the metal substrate by using the metal substrate. Also, by using an iron alloy, a copper alloy, or an aluminum alloy, it can be provided at a low cost.

Electronic parts adjacent to the LED light source 2 include an IC 7a for temperature control. By providing the IC 7a near the LED light source 2, the temperature of the LED light source 2 can be detected and controlled more accurately. For example, when the amount of heat generated by the LED light source 2 increases and the temperature rises above a predetermined temperature, the IC 7a reduces the amount of power supplied to the LED light source 2 or stops the power supply to the LED light source 2. Control is performed to reduce heat generation of the LED light source 2 .

The connection terminal 5 has a metallic bar shape. Specifically, it is a terminal using a wire rod made of tin-plated brass, which is subjected to a plurality of bending processes. The material is not limited to brass, and phosphor bronze may be used. By using a bent wire material, there is no waste of material because there are no cutting scraps or punching scraps like press terminals and cut pin terminals. becomes unnecessary, so the cost can be reduced. If the cross-sectional shape of the terminal is rectangular, particularly square, it becomes easy to maintain the straight shape and the bent shape of the bar, thereby improving the yield.

As shown in FIGS. 4 and 5, the connection terminal 5 has a substrate connection portion 10 located within the substrate accommodation area 4a of the case 4 and a contact portion 12 protruding inside the connection area 4b of the case 4. FIG. The end portion 5a on the side of the substrate connection portion 10 is electrically and mechanically fixed by soldering while being inserted through the terminal connection hole 3c of the substrate 3 from the substrate lower surface 3b. The end portion 5b on the contact portion 12 side protrudes into the connector insertion opening 4c so as to be connected to a terminal of a connector (not shown) inserted into the connector insertion opening 4c. Both ends 5a and 5b of the connection terminal 5 are formed in a pointed shape to facilitate connection with the terminal connection hole 3c of the substrate or the connector.

Further, the substrate connecting portion 10 is provided with a first bent portion 13 and a second bent portion 15 which are formed by bending. The first bent portion 13 is formed at a position closest to the partition wall 22 in the board accommodation area 4a. The first bent portion 13 is positioned and shaped so as to collide with the partition wall 22 when the connection terminal 5 is pulled toward the contact portion side end portion 5a, in other words, toward the connection area. The connection terminal 5 is pulled when the socket (not shown) is pulled toward the contact portion side end portion 5a (rear side in FIG. 4), which is the direction in which the socket is removed from the attached/detached state. At that time, the deformation can be suppressed by colliding with the first bent portion. Further, it is possible to prevent unnecessary stress from being applied to the connecting portion between the connection terminal 5 and the substrate 5 . Thereby, the reliability of the connection between the connection terminal 5 and the substrate 5 can be improved.

In the region of the connection terminal 5 located within the connection area 4b, the board 3 and the connection terminal 5 form an imaginary extension line L extending in the direction (front-rear direction) extending in the connection area 4b toward the board accommodation area. However, as shown in FIG. 4, two bent portions are provided so as to overlap with the in-plane direction of the substrate 5 . The first bent portion 13 bends downward from the imaginary extra-time L. As shown in FIG. Furthermore, after being bent downward, it is bent so as to form a parallel extending portion 14 extending in parallel along the lower surface 3b of the substrate.

The second bent portion 15 is formed at a position opposite to the partition wall 22 in the board accommodation area 4a. The second bent portion 15 is bent upward from a parallel extending portion 14 extending in parallel along the bottom surface 3b of the substrate so that the substrate-side end portion 5a of the connection terminal 5 extends from the bottom surface of the substrate 3 into the terminal connection hole 3c. It is inserted and protrudes upward. A portion of the terminal connection hole 3c and at least a portion of the parallel extending portion 14 are electrically and mechanically connected by soldering, and the connection terminal 5 is fixed to the substrate 3. FIG.

In order to make it easier for the first bent portion 13 to interfere with the partition wall 22 , it may be greatly bent so that the imaginary extension line L is located on the upper surface side of the substrate 5 . 4 and 5, the parallel extending portion 14 of the connection terminal 5 extends along the substrate bottom surface 3b and is inserted through the terminal connection hole 3c from the substrate bottom surface 3b side. The parallel extending portion 14 may be extended along the substrate top surface 3a and inserted through the terminal connection hole 3c from the substrate top surface 3a side. In that case, the bending direction of the first bending portion 13 may be reversed upside down so that the virtual extension line L overlaps with the surface of the substrate 5 or is positioned on the lower surface side.

As shown in FIGS. 3 and 4, the case 4 comprises a substrate housing area 4a provided on the front side and a connection area 4b provided on the rear side. The connection area 4b is a joint portion for inserting and removing a connector (not shown) to electrically connect with the connection terminal 5, and corresponds to a socket portion. The connection is made by inserting the connector into the connection area 4b from the rear side toward the front side. For this purpose, a connector insertion opening 4c having a shape corresponding to the shape of the connector is formed on the rear side. In this embodiment, it is formed to have a substantially square tubular shape. The case 4 is integrally formed by injection molding using opaque polybutylene terephthalate resin (PBT), and may be formed from a resin material such as polypropylene resin (PP), nylon, PPS, or PC. .

The substrate accommodation area 4a has an upper side and a front side surrounded by a bottom surface 20, side walls 21 extending upward from the left and right ends of the bottom surface 20, and partition walls 22 separating the substrate accommodation area 4a and the connection area 4b. It forms an open concave shape. Fitting claws 23 for fitting with the engaging portions 30 of the cover 6 are formed on the outer surfaces of the pair of side walls 21 so as to protrude from the outer surfaces. A slide groove is formed on the inside of the pair of side walls 21 to accommodate and fix the substrate 3 by sliding it from the front side. When the board 3 is slid from the front side to the rear side along the slide groove and comes into contact with the partition wall 22, a locking projection that engages with the locking groove 3d formed on the side surface of the board 3 is formed in the slide groove. is formed in

The partition wall 22 is a plate surface that extends upward from the bottom surface 20, as shown in FIG. A terminal communication portion 25 for passing the connection terminal 5 is formed in the central portion of the partition wall. The terminal communicating portion 25 is composed of two holes corresponding to the sizes of the respective connection terminals 5 so that the connection terminals 5 pass between the board accommodation area 4a and the connection area 4b. The terminal communicating portion 25 may be formed by a notch portion obtained by cutting out a part of the upper end edge of the partition wall 22 instead of being formed by a hole. Further, when the board 3 is slid from the front side of the board accommodation area 4a and fixed while the connection terminals 5 are attached to the board 3, the connection terminals 5 move the terminal communicating portions 25 from the board accommodation area 4a to the connection area 4b. Insert sideways. Thereby, a socket structure is formed in the connection area 4b by fixing the substrate 3 without providing a separate connector.

As shown in FIGS. 3 and 4, the cover 6 covers the side wall 21 of the case 4 and covers the engaging portion 30 provided with openings for fitting with the fitting claws 23, and the front end portion of the case 4. It is composed of a front wall portion 31 that partitions the substrate housing area 4a and a cover upper surface 32 that covers the substrate upper surface 3a, and is attached to the case 4 to form the substrate housing area 4a. The cover 6 is also integrally formed by injection molding using opaque polypropylene resin (PP), and may be formed from a resin material such as polybutylene terephthalate resin (PBT), nylon, PPS, or PC. . Alternatively, it may be integrally formed by injection molding using translucent resin such as acrylic resin or polycarbonate resin that can transmit visible light.

The cover upper surface 32 is provided with an emitting portion 32 positioned directly above the LED light source 2 and a recessed portion 33 provided around the emitting portion 32 . The concave portion 33 has a conical inclined surface centered on the position of the LED light source 2, and as shown in FIG. It has an inclined surface 33a that becomes smaller. In the concave portion 33, an emission portion 34 is formed in the central portion which is closest to the substrate upper surface 3a. The emission part 34 is formed of an opening larger than the upper surface of the LED light source 2 and corresponds to an opening. In this embodiment, the LED light source 2 is substantially square in top view, and the emitting part 34 is circular with a diameter 1.1 to 1.2 times the length of the diagonal line on the top surface of the LED light source 2. there is

The top surface of the LED light source 2 protrudes into the recess 33 when the cover 6 is attached to the case 4 . When a convex lens element or the like for adjusting the directivity is provided on the upper surface of the LED light source 2, at least the uppermost part of the lens element protrudes into the concave portion 33. More specifically, as shown in FIG. In addition, it protrudes upward from the bottom of the opening that serves as the emitting portion 34 . With these arrangements, the emission surface of the LED light source 2 protrudes into the concave portion 33 , so that the ultraviolet rays emitted from the LED light source 2 can be prevented from being blocked by the cover 32 .

The concave portion is inclined so as to be outside the range of the emission angle of the LED light source 2 . Specifically, in the light distribution characteristics of the LED light source 2, the inclined surface 33a of the concave portion 33 is arranged to indicate an angle at which the light intensity is 1/10 of the light intensity on the optical axis when the optical axis is 0 degrees. It is formed at an angle wider than the light angle. As a result, it is possible to substantially prevent the cover 6 from being exposed to ultraviolet rays emitted from the LED light source 2 and deteriorating. The emission angle of the LED light source 2 refers to the angle at which light has a luminous intensity that is 1/10 of the luminous intensity on the optical axis.

In addition, the layout of the circuit components and the size and angle of the inclined surface are adjusted so that the concave portion 33 and the electronic component 7 arranged on the substrate 3 do not interfere with each other in accordance with the inclined surface 33a. Reference numerals 7a to 7d in FIG. 5 denote representative examples of electronic components, which are a temperature control IC, constant current IC, power supply IC, timer element and inductor, respectively. The inductor 7e is taller than other electronic components. It is equal to or higher than the LED light source 2 . Therefore, it is preferable to arrange it outside the area corresponding to the recess 33 . Furthermore, the height of the temperature control IC 7a is set to be lower than the height from the substrate upper surface 3a to the bottom of the opening that becomes the emission part 34, so that the LED lamp device 1 is thin without interfering with the cover 6.

Next, the console box 50 provided with the LED lamp device 1 will be described again with reference to FIG.

The LED lamp device 1 is attached to the lamp device attachment portion 55 formed on the lower surface of the console lid 53 . A connector (not shown) is prepared in the lamp device mounting portion 55, and is installed in a state in which the connector is inserted from the connector insertion opening 4c. At this time, the light emitted from the LED light source 2 is arranged so as to face the accommodating portion of the container portion 51 when the console lid 53 is closed. When the lighting switch of the LED light source 2 is turned on with the console lid 53 closed, ultraviolet light emitted from the UV-LED element of the LED light source 2 and blue light emitted from the visible LED element irradiate the interior of the housing.

At this time, if a portable terminal such as a smart phone or a tablet terminal, or an object to be irradiated such as a mask or a ballpoint pen is placed inside the housing portion 54 , irradiation processing is performed by the irradiation light from the LED light source 2 . If a deep ultraviolet LED that emits ultraviolet light in the UV-C wavelength region is used as the UV-LED element, it is possible to sterilize the surface of the object to be irradiated. In addition, since the LED lamp device 1 is formed thin and the ultraviolet rays irradiated from the LED light source 2 are emitted without being dimmed by the cover 6, the ultraviolet irradiation function can be obtained without enlarging the console box. can be done.

Further, the console box 50 is provided with a sensor element 56 for detecting the open/closed state of the console lid 53 . The sensor element 56 may be of either mechanical or optical type, and its installation location is not limited to the open end of the container portion 51 shown in FIG. A control circuit is provided to turn off the lighting of the LED light source 2 when the sensor element 56 detects the open state of the console lid 53 . As a result, the LED light source 2 is turned off when the console lid 53 is open, and can be turned on only when the console lid 53 is closed. Even if 53 is left open, it is possible to prevent ultraviolet rays from leaking into the passenger compartment. In addition, since the UV-LED element and the visible LED element are connected in series in the LED light source 2, the lighting state of the invisible UV-LED element can be confirmed by the lighting of the visible LED element. Even in such a case, it is possible to visually confirm that the ultraviolet rays are radiating toward the vehicle interior, so that by turning off the main switch (not shown) of the LED lamp device 1, the vehicle interior can be irradiated with the ultraviolet rays. can be stopped early.

[Modification]
Next, a modified example of the LED lamp device 1 used in the first embodiment will be described. 6 is a partial perspective view showing the connection terminal 40, and FIG. 7 is a partial perspective view showing the bottom portion of the case 4 to which the connection terminal 40 is fixed. Since other points are the same as those of the first embodiment, the same reference numerals are given and description thereof is omitted here.

As shown in FIGS. 6 and 7, the connecting terminal 40 includes a board connecting portion 43 extending in a first direction D1 perpendicular to the in-plane direction of the board 3 and a connecting portion 43 parallel to the in-plane direction of the board 3 and extending in the first direction D1. and a contact portion 42 extending in a second direction D2 orthogonal to . The end portion 45a on the side of the substrate connection portion 43 is electrically and mechanically fixed by soldering while being inserted through the terminal connection hole 3c of the substrate 3 from the substrate lower surface 3b. The end portion 45b on the contact portion 42 side protrudes into the connector insertion opening 4c in order to function as a male terminal connected to a terminal of a connector (not shown) inserted into the connector insertion opening 4c. Both ends 45a and 45b of the connection terminal 40 are formed in a pointed shape to facilitate connection with the terminal connection hole 3c of the substrate or the connector. In addition, between the board connecting portion 43 and the contact portion 42, there is provided a fixed portion 41 having at least two bent portions. The fixed portion 41 is positioned and fixed in a terminal accommodating recess 24 provided in the case 4, which will be described later.

The terminal accommodating recess 24 functions to prevent the stress caused by attaching and detaching the LED lamp device 1 and the connector from being transmitted through the connecting terminal 40 to the joint portion between the connecting terminal 40 and the substrate 3 . It also has a function of holding a part of the connection terminal 40 . Specifically, as shown in FIG. 7, the terminal accommodating recess 24 extends in the orthogonal direction from a pair of first vertical walls 24a that sandwich the connection terminal from both left and right sides, and from the side end of one of the first vertical walls 24a. and a pair of second standing walls 24b. As a result, the fixed portion 11 of the connection terminal 40 is clamped and positioned from both sides in the front-rear direction and both sides in the left-right direction, and is fixed at the same time. Therefore, the fixed portion 11 is held and fixed in the terminal accommodating recess 24, so that the fixed portion 11 is firmly fixed with its movement restricted.

Although the embodiment of the present invention and its modification have been described above, the above embodiment is merely an example in all respects. The present invention is not limitedly interpreted by these descriptions. Various other additions, omissions, substitutions and other modifications are possible without departing from the spirit of the present invention. For example, the console box 1 is not limited to a console box mounted on a vehicle. The console lid that serves as a lid is not limited to one that opens and closes by rotating. As long as it has a box with a storage part and a lid-shaped shielding member that is thinner than the box and covers the storage part, it is not limited to the one provided in the vehicle interior, and a lid that opens and closes by a method other than rotating may be used. . Moreover, although the LED light source 2 in which the UV-LED element and the visible LED element are provided in the same package is used, an LED light source in which only the UV-LED element is provided may be used. If a visible LED is mounted on the top surface 3a of the substrate separately from the LED light source 2, the light from the visible LED is emitted to the gap between the cover 6 and the top surface 3a of the substrate. By allowing visible light to leak through the gap between the LED light source 2 and the LED light source 2, irradiation of ultraviolet rays and emission of visible light from the LED light source 2 can be obtained at the same time, as in the first embodiment.

It can also be applied to a storage device using a thin lid, including a console box installed in an automobile. Moreover, the LED lamp device can be applied to various processing devices that irradiate ultraviolet rays.

1 LED lamp device 2 LED light source (UV-LED)
3... Substrate 3c... Terminal connection hole (through hole)
4 Case 4a Substrate accommodation area 4b Connection area (socket portion)
4c... Connector insertion openings 5, 40... Connection terminals (contacts)
6... Cover 7... Electronic component 11a... First bent portion 11b... Second bent portion 12... Contact portion 24... Terminal accommodating concave portion 32... Cover upper surface 33... Concave portion 33a... Inclined surface 34... Emitting portion (opening portion)
REFERENCE SIGNS LIST 50: Console box 51: Container portion 53: Console lid 54: Accommodating portion 55: Lamp device mounting portion

Claims (5)

A case integrally formed with a substrate on which an ultraviolet LED is mounted, a connection area having a substrate accommodation area for accommodating the substrate, and a connector insertion opening into which an external connector can be inserted and removed; A metal connection terminal connected to a substrate and having a plurality of bent portions protruding into the connection area and having a plurality of bent portions, a cover that covers the upper surface of the ultraviolet LED and the substrate and engages with the case, An LED lamp device comprising:
A plurality of electronic components are mounted around the ultraviolet LED on the upper surface of the substrate,
The cover includes a conical recess in which the distance between the upper surface of the substrate gradually decreases toward the ultraviolet LED, and a position corresponding to the ultraviolet LED located in the recess and provided from the upper surface of the ultraviolet LED. with a large opening,
In the ultraviolet LED, the height from the upper surface of the substrate to the upper surface of the ultraviolet LED is higher than the height from the upper surface of the substrate to the upper surface of the electronic component adjacent to the ultraviolet LED, and the upper surface of the ultraviolet LED is reaches the recess from the bottom surface of the opening,
The inclined surface of the concave portion is inclined so as to be outside the range of the emission angle of the ultraviolet LED,
The substrate accommodation area has a bottom surface facing the lower surface of the substrate, a side wall surrounding the substrate, and a partition separating the substrate accommodation area and the connection area, and has a box shape opening upward. is,
The partition wall is formed with a terminal communication portion that communicates the connection terminal between the substrate housing area and the connection area,
The connection terminal is rod-shaped and has a first bent portion and a second bent portion formed by bending, and one end positioned within the board accommodation area and the other end positioned within the connection area. and
The first bent portion is formed at a position closest to the partition wall in the substrate accommodation area, and at a position where a bent portion hits the partition wall when the connection terminal is pulled toward the connection area,
the second bent portion is formed on the one end side and is bent from a direction parallel to the substrate toward the substrate;
The LED lamp device, wherein the one end side is inserted into a through hole provided in the substrate and connected by soldering. The board and the connection terminal are arranged such that a virtual extension line extending the direction in which the connection terminal extends in the connection area toward the board accommodation area is positioned in the board or on the upper surface side of the board. one end of the connection terminal is inserted through the through hole from the bottom surface of the substrate and is connected to the substrate so as to protrude toward the top surface;
2. The LED lamp device according to claim 1, wherein the first bent portion is positioned between the substrate and the partition wall. The bottom surface is formed with a terminal accommodating recess that opens toward the substrate and fixes the connection terminal,
The terminal housing recess includes a pair of first vertical walls that sandwich the connection terminal from both sides, and a pair of second vertical walls that extend in an orthogonal direction from a side end of one of the pair of first vertical walls. The LED lamp device according to claim 1 or 2, characterized in that. 4. The LED lamp device according to claim 1, wherein the substrate is provided with a visible LED electrically connected in series with the ultraviolet LED. A console box having a container portion for storing articles and a console lid that is openable and closable and serves as a lid portion for closing the container portion,
The console lid is formed with a lamp device mounting portion for accommodating the LED lamp device according to any one of claims 1 to 4,
The LED lamp device is fixed to the lamp accommodating portion such that the conical recess faces the container portion when the console lid closes the container portion,
The console box is provided with a sensor element for detecting an open/closed state of the console lid,
The console box includes a sensor element for detecting an open/closed state of the console lid, and a control circuit for turning off the ultraviolet LED when the sensor element detects the open state of the console lid. console box.

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