JP5343542B2 - Lighting device and lighting fixture provided with the lighting device - Google Patents

Description

  The present invention relates to the structure of a lighting device and a lighting fixture for lighting a light source.

  A lighting device turns on a light source by converting commercial power into electric power required for the light source by an electrical component such as a semiconductor. For example, for a lighting device with a structure that covers a circuit board with a case, as a heat dissipation method for an exothermic element, the surface of the element is brought into direct contact with the inner surface of the case, or a heat sink or heat dissipation fin is attached to the element and screwed. It is common to radiate heat to the case through a heat radiating pad. Thus, when considering the heat dissipation structure of the heat generating element, simplification of assembly work and an efficient heat dissipation method are required (for example, see Patent Document 1 and Patent Document 2).

Japanese Utility Model Laid-Open No. 06-60192 (paragraph “0008”, see FIG. 1) JP 04-62712 A (see page 4, upper left column, lines 5-8, see FIG. 2)

  However, when the electronic component that generates heat during operation is thin when the electronic component that generates heat during operation is thin, if the electronic component that generates heat during operation is thin, the outer surface of the electronic component that generates heat during operation is in direct contact with the inner surface of the case. Due to the approach to the inner surface of the case, there has been a problem that the insulation distance between the case and the charging part cannot be maintained.

  In addition, since the dimensions between the inner surface of the case and the board mounting position are defined in advance, if there are multiple electronic components that generate heat during operation with different external dimensions, the outer surface of the electronic component is in direct contact with the inner surface of the case. It was not possible to adopt a structure arranged between the substrate and the case inner surface.

  In addition, when there are multiple electronic components that generate heat during operation, the external dimensions of the electronic components are different, and heat dissipation pads are attached, multiple heat dissipation pads with different thicknesses must be provided to match the external dimensions of each electronic component. I had to.

The lighting device according to the present invention has a case body having a bottom surface of the case body having a rectangular shape, and a circuit board accommodated in the case body.
The case body includes: the case body bottom surface of the case protrusion provided, and the case main body side that rises substantially vertically from the widthwise direction of the end portion of the case body bottom surface, corresponding to the case protrusion of the case body side two top supporting pieces positioned to possess,
The circuit board is accommodated in the case body, is mounted at a position corresponding to the previous SL case protrusion has a surface mount component that generates heat during operation,
The two upper surface support pieces are provided so as to face each other, press a surface different from the surface on which the surface mounting component is mounted, and press the surface mounting component directly or indirectly to the case convex portion .

  According to the present invention, it is possible to increase the amount of thermal coupling between the chip-shaped electronic component that generates heat and the case body, and to maintain the insulation distance between the electronic component mounted on the circuit board and the case body.

Embodiment 1 FIG.
FIG. 1 is a perspective view of a lighting device showing the present embodiment, FIG. 2 is an exploded perspective view of the lighting device shown in FIG. 1, and FIG. 3 is a top view of the case body.

  The lighting device 100 includes a case body 200, a case cover 300, a circuit board 400 attached to the case body 200, an insulation sheet 500 disposed between the case body 200 and the circuit board 400, and the circuit board 400. A heat dissipating pad 600 disposed between the sheet 500 and the sheet 500 is provided.

  The case body 200 is made of metal and has a rectangular case body bottom surface 210 and a case body side surface 220a formed by bending both ends in the longitudinal direction of the case body bottom surface 210 so as to form a substantially U-shaped cross section. 220b.

  The case main body bottom surface 210 is bent inward of the case main body 200 in the vicinity of both ends in the longitudinal direction and the case convex portion 211 projecting inward of the case main body 200 near the inner end portion in the longitudinal direction and the end portion in the lateral direction. Check that the cut and raised pieces 212 that hold the end of the insulating sheet 500 and the round holes are opened on the case convex portion 211 and around the case convex portion 211 to confirm the mounting state of the insulating sheet 500 and the heat radiating pad 600 It has a hole 213.

  The case body side surface 220a protrudes inward of the case body 200 in the vicinity of both ends in the longitudinal direction to support the bottom surface support piece 221 that supports the bottom surface side of the circuit board 400, and in the vicinity of the case convex portion 211 of the case body bottom surface 210. A bendable upper surface support piece 222 that holds the upper surface side of the substrate 400 is provided.

  The upper surface support piece 222 includes a tapered portion 222a that comes into contact with the circuit board 400 when bent, and a pressing portion 222b that comes into contact with the circuit board 400 after being bent.

  The case main body side surface 220 b has a bottom surface support piece 221 that protrudes to the inside of the case main body 200 in the vicinity of both ends in the longitudinal direction and supports the bottom surface side of the circuit board 400.

  The case cover 300 is made of metal, has a rectangular cover upper surface 301, a cover inclined portion 302 formed by bending both ends in the longitudinal direction of the cover upper surface 301 so as to form a substantially trapezoidal cross section, and a cover inclined portion. A cover side surface 303 formed by bending 302 and a cover end portion 304 formed by bending a longitudinal end portion of the cover upper surface 301 are provided.

  The circuit board 400 includes a printed circuit board 401 and electronic components 402 mounted on the upper surface side and the lower surface side of the printed circuit board 401.

  The electronic component 402 includes a lead component having a lead portion l such as a coil L, a terminal block TM, and a capacitor C, and a chip-shaped surface mount component (chip element) such as a transistor Q.

  The insulating sheet 500 includes a rectangular sheet bottom surface 510, sheet side surfaces 520a and 520b formed by bending both ends in the longitudinal direction of the sheet bottom surface 510 so as to form a substantially U-shaped cross section, and the sheet side surface 520a. A notch portion 521 is provided at a position corresponding to the case convex portion 211.

  Next, a state where the circuit board is incorporated in the case body will be described.

  4 is a perspective view showing a state in which an insulating sheet is incorporated in the case body, FIG. 5 is a perspective view showing a state in which a circuit board is fixed to the case body, and FIG. 6 is a case body shown in FIG. 7 is a cross-sectional view taken along the line AA of the case body shown in FIG. 6, and FIG. 8 is a cross-sectional view taken along the line BB of the case body shown in FIG.

  First, the insulating sheet 500 is inserted into the case main body 200 so that the longitudinal end portion of the insulating sheet 500 contacts the cut and raised piece 212 of the case main body bottom surface 210.

  Next, after the insulating sheet 500 is inserted into the case body 200, the heat dissipation pad 600 is attached above the case protrusion 211, and the circuit board 400 is inserted into the case body 200.

  At this time, the transistor Q disposed on the lower surface side of the circuit board 400 (on the case body bottom surface 210 side of the case body 200) is disposed on the case protrusion 211.

  Note that the height of the case convex portion 211 is set in advance according to the height of the transistor Q disposed on the case convex portion 211.

  Next, the upper surface support piece 222 is bent inside the case body 200. When the tapered portion 222a of the upper surface support piece 222 to be bent comes into contact with the upper surface side of the circuit board 400, and the upper surface support piece 222 is further bent, a force pressing the circuit board 400 against the bottom surface 210 of the case body is exerted by the taper portion 222a. work. Thereafter, the pressing portion 222 b of the upper surface support piece 222 comes into contact with the upper surface side of the circuit board 400, and the upper surface support piece 222 fixes the circuit board 400 to the case body 200.

  Accordingly, since a force acts in a direction in which the circuit board 400 is pressed against the case body 200, the transistor Q is pressed against the case protrusion 211 via the insulating sheet 500 and the heat dissipation pad 600, and the transistor Q and the case protrusion 211 is thermally connected.

  Next, the case cover 300 is attached to the upper part of the case body 200.

  Here, after the circuit board 400 is attached to the case body 200 or the case cover 300 is attached to the upper part of the case body 200, the mounting state of the heat dissipation pad 600 is confirmed without removing the circuit board 400 from the case body 200. It can be confirmed from the hole 213.

  Thus, even if the height of the transistor Q is different, the transistor Q and the case convex portion 211 can be brought into contact with each other with a substantially constant force.

  Further, the heat dissipating pad 600 has a single thickness, and the transistor Q and the case convex portion 211 can be brought into contact with each other with a substantially constant force.

  Further, since the upper surface support piece 222 presses the circuit board 400 against the bottom surface 210 of the case body and presses the transistor Q against the case convex portion 211, the contact force between the surface of the transistor Q and the case convex portion 211 is increased. Is easily transferred to the case convex portion 211 (case body 200).

  Further, since the case convex portion 211 is provided on the case main body bottom surface 210, the lead component is arranged on the printed circuit board 401 so that the lead portion 1 of the lead component protruding from the printed circuit board 401 is located at a position other than the case convex portion. Then, the insulation distance between the lead part 1 and the case main body bottom surface 210 can be increased.

  In the present embodiment, the case main body 200 is made of metal, but the material is not limited to metal as long as the material has high thermal conductivity.

  In the present embodiment, the case cover 300 is made of metal, but may be a plastic resin or the like.

  In addition, although the insulating sheet 500 of the present embodiment has been described with respect to the case where the sheet bottom surface 510 and the sheet side surfaces 520a and 520b are provided, if the insulating distance between the circuit board 400 and the case body 200 can be maintained, the sheet side surfaces 520a and 520b It does not have to be. In addition, when the distance between the circuit board 400 and the case cover 300 is short, the circuit board 400 is extended by extending the sheet side surfaces 520a and 520b of the insulating sheet 500 so that the insulation distance between the case cover 300 and the circuit board 400 is maintained. The insulating sheet 500 may be covered, or another insulating sheet 500 may be provided inside the case cover 300.

  In this embodiment, the confirmation hole 213 has a round shape, but may have a square shape or a triangular shape.

  Further, if a color different from that of the case main body 200 is selected as the color of the heat radiating pad 600, the color distinguishability from the case main body 200 is enhanced, and after the assembly operator assembles the lighting device 100, the outer side of the case main body 200 (the confirmation hole). 213), and the workability is improved.

  In the present embodiment, the case where the confirmation hole 213 is provided so that it can be confirmed whether or not the heat radiation pad 600 is mounted after the lighting device 100 is assembled is described. However, the heat is radiated through the confirmation hole 213 after the lighting device 100 is assembled. When it is not necessary to check the mounting state of the pad 600, for example, the mounting state of the circuit board 400 and the case body 200 may be checked by other methods, or the transistor Q and the case protrusion 211 may be connected without using the heat dissipation pad 600. The confirmation hole 213 does not need to be provided in the case of direct contact. Further, a heat radiating resin such as urethane resin may be filled without using the heat radiating pad 600.

  In the present embodiment, the case where the heat dissipating pad 600 is used has been described. However, the heat dissipating sheet may be attached to the entire surface of the case main body bottom surface 210 or the case convex portion 211 and the case convex portion 211.

  In the present embodiment, the case where the sheet bottom surface 510 is a flat surface has been described. However, the sheet protrusion 211 may be provided so as to correspond to the case protrusion 211 of the case body 200. In this case, even when the insulating sheet 500 is made of a thick material or a hard material that is difficult to deform, the case bottom surface 210 and the sheet are formed by providing the case convex portion 211 on the sheet bottom surface 510. The bottom surface 510 is easily brought into close contact with each other, and the spatial distance (clearance) between the lower surface side of the circuit board 400 and the case main body bottom surface 210 and the sheet bottom surface 510 can be increased.

  In the present embodiment, among electronic components arranged on the lower surface side of the circuit board 400, as an example of an electronic component that generates a large amount of heat, a surface-mounted component (electronic component) that is brought into contact with the case convex portion 211 is a transistor Q. Although a case has been described, it is obvious that a surface mount component such as an integrated circuit, a diode bridge, or a diode may be used.

  The lighting fixture 1000 converts the input commercial power supply AC to supply power to the discharge lamp LA, mechanically holds the discharge lamp LA, and electrically connects the discharge lamp LA and the lighting device 100 to each other. A lamp socket 1100 connected to the light source, a reflection plate 1200 that reflects light emitted from the discharge lamp LA, a lighting device 100 and a reflection plate 1200, and a fixture body 1300 that is fixed to a ceiling or the like, and the reflection plate 1200. A locking tool 1400 for fixing to the main body 1300 is provided.

  The lighting device 100 is attached to the instrument body 1300 such that the case body bottom surface 210 of the case body 200 is in surface contact with the instrument body 1300.

  Since the case main body bottom surface 210 of the case main body 200 is attached so as to be in contact with the instrument main body 1300, the heat of the generated electronic components is transferred to the case main body 210, and the heat transferred to the case main body 210 is also transferred to the instrument main body 1300. To do.

  Therefore, since the heat of the generated electronic component is transferred to the case main body 210 and the instrument main body 1300 having a large heat capacity and diffused, the temperature of the electronic component can be efficiently suppressed low.

  The reflector 1200 is formed in a substantially V shape, and includes a lamp socket insertion part 1201 into which the lamp socket 1100 is inserted, a locking tool mounting part 1202 to which the locking tool 1400 is mounted, and a power line at the longitudinal end. A reflector power supply line insertion hole 1203 to be inserted and a reflector knockout portion 1204 for closing the reflector power supply line insertion hole 1203 are provided.

  The instrument main body 1300 includes a plurality of main body power line insertion holes 1301 into which power lines drawn from the ceiling or the like are inserted, and a main body knockout that blocks some of the main body power line insertion holes 1301. , A lamp socket mounting base 1303 to which the lamp socket 1100 is mounted, and a power terminal block 1304 that is electrically connected to the lighting device 100 and to which a power line is mounted.

  The reflector knockout portion 1204 and the main body knockout portion 1302 are knocked out at the time of manufacture so that they can be appropriately removed from the reflector power source wire insertion hole 1203 and the main body power supply line insertion hole 1301 by the installer.

  This is because the power supply insertion hole (reflector power supply line insertion hole 1203 or main body power supply line insertion hole 1301) for inserting the power supply line needs to be changed according to the installation location where the lighting fixture 1000 (equipment main body 1300) is installed. There may be.

  Therefore, a reflector plate power line insertion hole 1203 provided in the reflector 1200 and a part of the main body power line insertion hole 1301 provided in the instrument body 1300 are provided with a reflector knockout portion 1204 and a body knockout portion 1302 at the time of manufacture. Although it is closed, depending on the construction location, the installer can remove the reflector knockout portion 1204 or the main body knockout portion 1302 to open the reflector power supply insertion hole 1203 or the main body power supply line insertion hole 1301. .

  The reflector 1200 and the instrument body 1300 are often made of metal, and the reflector knockout portion 1204 and the body knockout portion 1302 are also often made of metal. If the reflector knockout portion 1204 or the main body knockout portion 1302 enters between the circuit board 400 and the case main body 200, the circuit portion of the circuit board 400 may be short-circuited and broken.

  However, since the lighting device 100 has the cut-and-raised piece 212, when the installer removes the reflector knockout portion 1204 or the main body knockout portion 1302, the removed reflector knockout portion 1204 or the main body knockout portion 1302 is cut off. It does not enter between the case body 200 and the circuit board 400 by hitting the raised piece 212.

  Accordingly, since the reflector knockout portion 1204 or the main body knockout portion 1302 does not enter between the case main body 200 and the circuit board 400 due to the cut and raised pieces 212, the circuit board 400 is reflected on the reflector knockout portion 1204 or the main body knockout portion 1302. Therefore, the safety of the lighting device 100 is improved.

  The height of the cut-and-raised piece 212 may be at least high enough to prevent the reflector knockout portion 1204 or the main body knockout portion 1302 from entering between the circuit board 400 and the case main body bottom surface 210. If the distance from the bottom surface 210 of the case body is substantially the same or slightly shorter, wiring to the terminal block TM provided on the upper surface side of the circuit board 400 is facilitated.

  Further, a plurality of cut and raised pieces 212 may be provided on the end side in the longitudinal direction of the case main body 200 so that the reflector knockout portion 1204 or the main body knockout portion 1302 does not enter between the circuit board 400 and the case main body bottom surface 210. .

  In the present embodiment, the case where the discharge lamp LA is used as the light source has been described. However, a halogen lamp, an LED, or the like may be used.

  If the light source used by the user of the lighting fixture 1000 does not need to be replaced depending on the type of the light source to be used, the lighting device 100 and the light source are directly electrically connected by an electric wire or the like without using the lamp socket 1100. It may be.

Embodiment 2. FIG.
In the present embodiment, the arrangement of the case protrusions of the case main body shown in the first embodiment is different.

  In the present embodiment, the same components as those shown in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

  FIG. 11 is an exploded perspective view of the lighting device showing the present embodiment.

  The lighting device 100a includes a case body 200a, a case cover 300, a circuit board 400a attached to the case body 200a, an insulating sheet 500a disposed between the case body 200a and the circuit board 400a, and the circuit board 400a. A heat dissipating pad 600 is provided between the sheet 500a.

  The case main body 200a has a case convex portion 211a that protrudes inward of the case main body 200a at a substantially central portion in the short direction of the case main body bottom surface 210a of the case main body 200a.

  The case body side surface 220c has an upper surface support piece 222c at a position corresponding to the case convex portion 211a.

  The upper surface support piece 222c has a bent portion on the case main body bottom surface 210a side.

  The circuit board 400 a includes a printed circuit board 401 and electronic components 402 mounted on the upper surface side and the lower surface side of the printed circuit board 401.

  The electronic component 402 includes a lead component having a lead portion l such as a coil L, a terminal block TM, and a capacitor C, and a chip-shaped surface mount component (chip element) such as a transistor Q. The transistor Q is attached to a substantially central portion in the short side direction of the circuit board 400a (printed circuit board 401) and on the lower surface side.

  The insulating sheet 500a has a sheet bottom surface 510 and a sheet side surface 520b formed by bending both ends in the short direction of the sheet bottom surface 510 in a substantially vertical direction.

  Next, an operation for attaching the circuit board 400a to the case body 200a will be described.

  12 is a top view of the case body showing the present embodiment, FIG. 13 is a perspective view showing a state in which the circuit board is incorporated in the case body, and FIG. 14 is a view of the case body shown in FIG. 15 is a top view, FIG. 15 is an AA cross-sectional view of the case main body shown in FIG. 14, and FIG. 16 is a BB cross-sectional view of the case main body shown in FIG.

  First, the insulating sheet 500a is inserted into the case body 200a, and the circuit board 400a is inserted.

  The upper surface support piece 222c is bent in the inner direction of the case body 200a so as to sandwich the circuit board 400a from the width direction.

  When the upper surface support piece 222c is bent, the upper surface support piece 222c pushes and bends the sheet side surface 520b toward the inside of the case body 500a and pushes the upper surface side of the circuit board 400a toward the case body bottom surface 210a.

  In this manner, the upper surface support piece 222c pushes from both side surfaces of the circuit board 400a to the case body bottom surface 210a side with substantially equal force, so that the circuit board 400a and the case body bottom surface 210a become substantially parallel.

  Therefore, the transistor Q arranged in the vicinity of the center of the circuit board 400a in the short direction is pushed to the case convex portion 211a via the heat radiation pad 600 and the insulating sheet 500a in a state substantially horizontal to the case convex portion 211a. Hit.

  Therefore, the contact area where the transistor Q and the case convex portion 211a come into contact with each other increases, and the amount of thermal coupling also increases.

  Next, a modification of the present embodiment will be described.

  17 is a top view showing a state in which an insulating sheet and a circuit board are incorporated in another case body, FIG. 18 is a cross-sectional view of the case body taken along line AA in FIG. 17, and FIG. It is BB sectional drawing of the case main body shown.

  The case main body 200b has an upper surface support piece 222 whose bent portion is substantially perpendicular to the case main body bottom surface 210b. The insulating sheet 500b is notched on the sheet side surface 520a so that the upper surface support piece 222 is bent. Part 521.

  Other configurations are the same as those of the first embodiment or the present embodiment, and thus the same reference numerals are given and the description thereof is omitted.

  In the case of this modification, after inserting the insulating sheet 500b, the heat radiating pad 600, and the circuit board 400a into the case body 200b, if the upper surface support piece 222 is bent inward of the case body 200b, the circuit is formed by the tapered portion 222a of the upper surface support piece 222. The circuit board 400a is gradually pushed down from both side surfaces of the board 400a, and the circuit board 400a is pushed down from both ends of the circuit board 400a toward the case main body bottom face 210b by the pressing portions 222b with almost equal force.

  Therefore, the transistor Q disposed in the vicinity of the center of the circuit board 400a in the short direction is pushed to the case convex portion 211a via the heat radiation pad 600 and the insulating sheet 500b in a substantially horizontal state with respect to the case convex portion 211a. Hit.

  Therefore, the contact area where the transistor Q and the case convex portion 211a come into contact with each other increases, and the amount of thermal coupling also increases.

  Further, in the present embodiment, as in the first embodiment, among electronic components arranged on the lower surface side of the circuit board 400, as an example of an electronic component having a large amount of heat generation, a surface mount component that is brought into contact with the case convex portion 211a. Although the case where the (electronic component) is the transistor Q has been described, it is obvious that the electronic component may be a surface mount component such as an integrated circuit, a diode bridge, or a diode.

  Further, when the case convex portion 211a is disposed at a substantially central portion in the short direction of the case main body bottom surface 210b, the upper surface support piece 222c or the upper surface support piece 222 holds the upper side of both sides in the short direction of the circuit board 400a. Thus, the same effect as in the first embodiment can be obtained.

Embodiment 3 FIG.
This embodiment is different in the structure for fixing the circuit board shown in the first embodiment to the case body.

  In the present embodiment, the same components as those shown in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

  FIG. 20 is an exploded perspective view of the lighting device showing the present embodiment.

  The lighting device 100b includes a case body 200c, a case cover 300, a circuit board 400 attached to the case body 200c, an insulation sheet 500 disposed between the case body 200c and the circuit board 400, and the circuit board 400. A heat dissipating pad 600 disposed between the sheet 500 and a clip 700 (fixing piece) for fixing the circuit board 400 to the case main body 200c is provided.

  The case body 200c is made of metal and has a rectangular case body bottom surface 210 and a case body side surface 220b formed by bending both ends of the case body bottom surface 210 in the longitudinal direction so as to form a substantially U-shaped cross section. 220d.

  The case main body bottom surface 210 is bent toward the inner side of the case main body 200c in the vicinity of both ends in the longitudinal direction and the case convex portion 211 projecting inward of the case main body 200c near the end portion in the short side direction and the inner portion in the longitudinal direction. Check that the cut and raised pieces 212 that hold the end of the insulating sheet 500 and the round holes are opened on the case convex portion 211 and around the case convex portion 211 to confirm the mounting state of the insulating sheet 500 and the heat radiating pad 600 It has a hole 213.

  The case body side surface 220d protrudes to the inside of the case body 200c in the vicinity of both ends in the longitudinal direction, and is located at a position corresponding to the bottom surface support piece 221 that supports the bottom surface side of the circuit board 400 and the case convex portion 211 of the case body bottom surface 210. It has a fixed piece insertion hole 223 that is opened in a substantially rectangular shape and into which the clip 700 is inserted.

  The clip 700 (fixed piece) is formed by bending the side shape into a substantially U-shape, one side formed by bending is the circuit board pressing piece 710, and the other side is on the back side of the case convex portion 211. The case convex part contact piece 720 which contacts is provided.

  Next, an operation for attaching the circuit board 400 to the case main body 200c will be described.

  21 is a perspective view showing a state in which the circuit board is incorporated in the case main body showing the present embodiment, FIG. 22 is a top view of the case main body shown in FIG. 21, and FIG. FIG. 24 is a cross-sectional view of the case main body shown in FIG.

  First, the insulating sheet 500 is inserted into the case main body 200c and attached so as to cover the case convex portion 211.

  Next, the heat dissipation pad 600 is attached above the case convex portion 211 of the case main body 200c in which the insulating sheet 500 is inserted.

  The circuit board is inserted into the case body 200c and attached so that the transistor Q of the circuit board 400 is in contact with the heat dissipation pad 600.

  Next, the clip 700 is inserted into the fixed piece insertion portion 223, and the circuit board pressing piece 710 of the clip 700 comes into contact with the back surface side (the upper surface side of the circuit board 400) with respect to the mounting surface of the transistor Q, thereby The part contact piece 720 contacts the back side of the case convex portion 211.

  Thus, since the clip 700 is inserted into the fixed piece insertion portion 223 and the circuit board 400 is fixed to the case main body 200c, the transistor Q and the case convex portion 211 are in contact with each other by the spring force of the clip 700.

  Therefore, the contact force between the transistor Q and the case convex portion 211 has elasticity due to the spring property of the clip 700, and the contact force can be adjusted by adjusting the spring force of the clip 700.

  Also in the present embodiment, the same effect as in the first embodiment can be obtained.

  Next, the state which attached this lighting device to the lighting fixture is demonstrated.

  FIG. 25 is a perspective view of a lighting fixture showing the lighting fixture of the present embodiment.

  The lighting device 100b is attached to the instrument main body 1300 so that the case main body bottom surface 210 of the case main body 200c contacts the instrument main body 1300.

  Further, since the clip 700 is inserted into the fixed piece insertion portion 223 and the circuit board 400 is fixed to the case main body 200c, the case convex portion contact piece 720 of the clip 700 protrudes from the case main body bottom surface 210 of the case main body 200c. There is nothing.

  Therefore, since the clip 700 does not protrude from the back surface side of the case body bottom surface 210, unevenness on the back surface side of the case body bottom surface 210 can be reduced, and the lighting device 100b is attached to the appliance body 1300 and the like in a stable state with little backlash. be able to.

  Thus, since the case main body bottom surface 210 is attached so as to be in contact with the instrument main body 1300, the heat of the transistor Q is transferred to the case main body bottom face 210, and the heat transferred to the case main body bottom face 210 is also transferred to the instrument main body 1300. To do.

  Therefore, the heat generated by the transistor Q is transferred to the case main body 200c and the instrument main body 1300 having a large heat capacity and diffused, so that the temperature of the transistor Q can be efficiently suppressed low.

  Further, since the clip 700 fits on the back side of the case convex portion 211, the back side of the case body bottom surface 210 does not protrude. Therefore, an area where the instrument main body 1300 and the case main body bottom surface 210 come into contact with each other increases, and the heat of the case main body 200c is easily transferred to the instrument main body 1300.

FIG. 3 is a perspective view of the lighting device shown in the first embodiment. 1 is an exploded perspective view of a lighting device showing a first embodiment. FIG. 3 is a top view of the case body showing the first embodiment. It is a perspective view which shows the state which integrated the insulating sheet in the case main body shown in Embodiment 1. FIG. FIG. 3 is a perspective view showing a state in which a circuit board is incorporated in the case main body shown in the first embodiment. FIG. 3 is a top view of the case main body shown in the first embodiment. 3 is a cross-sectional view of the case main body taken along the line AA shown in Embodiment 1. FIG. 3 is a cross-sectional view of the case main body shown in the first embodiment, taken along line BB. FIG. 3 is a perspective view of the lighting fixture shown in Embodiment 1. FIG. 2 is an exploded perspective view of the lighting fixture shown in Embodiment 1. FIG. 6 is an exploded perspective view of a lighting device shown in Embodiment 2. FIG. FIG. 10 is a top view of the case main body shown in the second embodiment. 6 is a perspective view showing a state in which a circuit board is incorporated in a case main body shown in Embodiment 2. FIG. FIG. 10 is a top view of the case main body shown in the second embodiment. It is AA sectional drawing of the case main body shown in Embodiment 2. FIG. 6 is a cross-sectional view of the case body taken along the line B-B shown in Embodiment 2. FIG. FIG. 10 is a top view showing a modification of the case main body shown in the second embodiment. It is AA sectional drawing which shows the modification of the case main body shown in Embodiment 2. FIG. 10 is a cross-sectional view taken along the line BB showing a modification of the case main body shown in the second embodiment. 6 is an exploded perspective view of the lighting device shown in Embodiment 3. FIG. FIG. 6 is a perspective view showing a state in which a circuit board is incorporated in a case main body shown in a third embodiment. FIG. 10 is a top view showing a case main body shown in a third embodiment. FIG. 10 is a cross-sectional view of the case body taken along the line AA in the third embodiment. FIG. 10 is a cross-sectional view of the case main body taken along the line BB in Embodiment 3. 6 is an exploded perspective view of a lighting fixture shown in Embodiment 3. FIG.

Explanation of symbols

  100, 100a, 100b Lighting device, 200, 200a, 200b, 200c Case body, 210, 210a, 210b Case body bottom surface, 211, 211a Case convex part, 212 Cut-up piece, 213 Confirmation hole, 220a, 220b, 220c, 220d Case body side, 221 Bottom support piece, 222, 222c Upper surface support piece, 222a Taper part, 222b Holding part, 223 Fixed piece insertion hole, 300 Case cover, 301 Cover upper surface, 302 Cover inclined part, 303 Cover side, 304 Cover end Part, 400, 400a circuit board, 401 printed circuit board, 402 electronic component, 500, 500a, 500b insulating sheet, 510 sheet bottom surface, 520a, 520b sheet side surface, 521 notch, 600 heat dissipation pad, 700 clip, 7 DESCRIPTION OF SYMBOLS 10 Circuit board holding piece, 720 Case convex part contact piece, 1000 Lighting fixture, 1100 Lamp socket, 1200 Reflector, 1201 Lamp socket insertion part, 1202 Locking fixture attachment part, 1203 Reflector power line insertion hole, 1204 Reflector knockout Parts, 1300 appliance main body, 1301 main body power line insertion hole, 1302 main body knockout part, 1303 lamp socket mounting base, 1400 locking tool, C capacitor, L coil, TM terminal block, l lead part, Q transistor, LA discharge lamp.

Claims (10)

In the lighting device for lighting the lamp, the lighting device has a case body having a bottom surface of the case body having a rectangular shape, and a circuit board accommodated in the case body,
The case body includes: the case body bottom surface of the case protrusion provided, and the case main body side that rises substantially vertically from the widthwise direction of the end portion of the case body bottom surface, corresponding to the case protrusion of the case body side two top supporting pieces positioned to possess,
The circuit board is accommodated in the case body, is mounted at a position corresponding to the previous SL case protrusion has a surface mount component that generates heat during operation,
The two upper surface support pieces are provided so as to face each other, press a surface different from a surface on which the surface mounting component is mounted, and press the surface mounting component directly or indirectly to the case convex portion. A lighting device characterized by. The top support piece, at least folding process, the lighting device according to claim 1, characterized in that it comprises a ruthenate supermarkets portion to contact with the circuit board. Lighting device according to the case protrusion, to claim 1 or claim 2, characterized in that disposed on the side surface side of the case body. In the lighting device for lighting the lamp, the lighting device has a case body having a bottom surface of the case body having a rectangular shape, and a circuit board accommodated in the case body,
The case body includes: the case body bottom case convex portion provided in the two cases body sides rising substantially vertically from the widthwise opposite ends of the case body bottom surface, so as to sandwich the front SL case protrusion respectively the have a top support member provided in the case main body side of,
The circuit board, when housed in the case body, is mounted at a position corresponding to the case protrusion has a surface mount component that generates heat during operation,
The upper surface support piece is bent from the side surface of the case body, presses a surface different from the surface on which the surface mount component is mounted, and presses the surface mount component directly or indirectly to the case convex portion. Characteristic lighting device. In the lighting device that lights the lamp,
The lighting device is
A fixing piece having a substantially U-shaped side surface;
A case main body bottom surface having a case convex portion, a case main body side surface that rises substantially vertically from the case main body bottom surface, and a fixed piece insertion portion into which the fixed piece is inserted at a position corresponding to the case convex portion on the case main body side surface. The case body,
A surface mount component housed in the case body and generating heat during operation is mounted at a position corresponding to the case convex portion, and the fixed piece is inserted into the fixed piece insertion portion to mount the surface mount component. A circuit board in which a surface different from the surface is pressed, and the case convex portion and the surface mounting component are in direct or indirect contact with each other,
The case protruding portion is formed in the casing side surface side, with press the back surface side of a surface where the fixing piece is in contact with the surface mount component of the case protrusion, Rukoto to house the fixing piece on the back side A lighting device characterized by. The lighting device according to any one of claims 1 to 5 , further comprising a buffer material disposed between the circuit board and the bottom surface of the case main body. The lighting device according to claim 6 , further comprising a confirmation hole provided on the case convex portion or in the vicinity of the case convex portion. A cut and raised piece cut and raised from the bottom surface of the case body on the end side in the longitudinal direction of the case body,
An insulating sheet disposed between the case body and the circuit board in contact with the cut and raised piece;
The lighting device according to any one of claims 1 to 7 , further comprising: The lighting device according to claim 8 , wherein a plurality of the cut and raised pieces are provided on each end in the longitudinal direction of the case main body. The lighting device according to any one of claims 1 to 9 ,
An instrument body to which the lighting device is attached;
A lighting apparatus comprising:

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