JP2016134309A - Light source unit and lighting fixture - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a light source and a lighting fixture superior in assembly workability.SOLUTION: A light source 10 comprises a board 2 on which LEDs 1 are mounted, a fitting member 3 to which the board 2 is fitted, and a supporting member 4 provided in the fitting member 3. The supporting member 4 comprises a first restriction part 4a, a second restriction part 4b, a third restriction part 4c, and a fourth restriction part 4d. The first restriction part 4a restricts the movement of the board 2 in a short length direction of the board 2, the second restriction part 4b restricts the movement of the board 2 in a first direction in a long length direction of the board 2, the third restriction part 4c restricts the movement of the board 2 in a thickness direction of the board 2, and the fourth restriction part 4d restricts the movement of the board 2 in a second direction by making contact with an end edge 2ad of the board 2 slid in the first direction.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a light source unit and a lighting fixture, and more particularly, to a light source unit using an LED as a light source and a lighting fixture including the same.

  In recent years, light source units using LEDs as light sources have begun to be used. As this type of light source unit, a structure including a substrate on which an LED is mounted and an attachment member to which the substrate is attached is known (for example, Patent Document 1).

  In the light source unit of Patent Document 1, the substrate is formed in a long rectangular plate shape. The attachment member has an attachment surface to which the substrate is attached, and a caulking portion that presses and fixes the substrate to the attachment surface side. The caulking portion is formed by cutting and raising a part of the attachment member. The caulking portions are provided on both sides in the width direction of the substrate. The caulking portion is provided along the long side of the substrate. The substrate is fixed to the mounting member by bending the caulking portion.

JP 2014-116299 A

  By the way, in the light source unit, the structure with more excellent assembly workability is calculated | required, and the structure of the above-mentioned light source unit is not enough, and the further improvement is calculated | required.

  An object of the present invention is to provide a light source unit and a lighting fixture that are more excellent in assembling workability.

  The light source unit of the present invention includes a plurality of LEDs, a substrate, an attachment member, and a support member. The plurality of LEDs are mounted on the substrate. The attachment member has an attachment surface to which the substrate is attached. The support member is provided on the attachment member. The substrate has a long and plate-like outer shape. The plurality of LEDs are mounted on the substrate along the longitudinal direction. The support member includes a first restricting portion, a second restricting portion, a third restricting portion, and a fourth restricting portion. The support member supports the substrate slid along the mounting surface to a predetermined position on the mounting surface. The first restricting portion restricts the movement of the substrate in the short direction of the substrate with respect to the predetermined position. The second restricting portion restricts the movement of the substrate in the first direction in the longitudinal direction of the substrate with respect to the predetermined position. The third restricting portion restricts the movement of the substrate in the thickness direction of the substrate with respect to the predetermined position. The fourth restricting portion comes into contact with an edge on the second direction side opposite to the first direction in the longitudinal direction of the substrate slid to the predetermined position in the first direction. The fourth restricting portion restricts movement of the substrate in the second direction with respect to the predetermined position by contacting with an edge of the substrate.

  The lighting fixture of the present invention includes the light source unit described above and a fixture main body to which the light source unit is attached.

  The light source unit of the present invention can have a structure with better assembly workability.

  The lighting fixture of this invention can be set as the structure provided with the light source unit more excellent in assembly workability | operativity.

FIG. 1 is a partially broken perspective view for explaining a main part of the light source unit according to the first embodiment. FIG. 2 is a plan view illustrating a main part of the light source unit according to the first embodiment. FIG. 3 is a cross-sectional view illustrating a main part of the light source unit according to the first embodiment. 4A, 4B, and 4C are perspective explanatory views illustrating the assembly process of the light source unit of Embodiment 1, respectively. FIG. 5 is an exploded perspective view illustrating a lighting fixture including the light source unit of the first embodiment. FIG. 6 is a cross-sectional view illustrating a lighting fixture including the light source unit of the first embodiment. FIG. 7 is a perspective view showing a lighting fixture including the light source unit of the first embodiment. 8A and 8B are perspective views for explaining the assembly process of the light source unit according to the second embodiment. FIG. 9 is an explanatory perspective view illustrating an assembly process of the light source unit according to the third embodiment.

(Embodiment 1)
Below, the light source unit 10 of this embodiment is demonstrated with reference to FIG. 1 thru | or FIG. 5 to 7, the lighting fixture 30 including the light source unit 10 will be described. In the figure, the same reference numerals are assigned to the same members, and duplicate descriptions are omitted. The size and positional relationship of the members shown in each drawing may be exaggerated for clarity of explanation. In the following description, each element constituting the present embodiment may be configured such that a plurality of elements are constituted by one member and the plurality of elements are shared by one member, and the function of one member is plural. You may implement | achieve by sharing with a member.

  As shown in FIGS. 1 to 3, the light source unit 10 of the present embodiment includes a plurality of LEDs 1, a substrate 2, an attachment member 3, and a support member 4. A plurality of LEDs 1 are mounted on the substrate 2. The attachment member 3 has an attachment surface 3aa to which the substrate 2 is attached. The support member 4 is provided on the attachment member 3. The substrate 2 has a long and plate-like outer shape. A plurality of LEDs 1 are mounted on the substrate 2 along the longitudinal direction. The support member 4 includes a first restriction part 4a, a second restriction part 4b, a third restriction part 4c, and a fourth restriction part 4d. The support member 4 supports the substrate 2 slid along the attachment surface 3aa to a predetermined position of the attachment surface 3aa. The 1st control part 4a controls the movement of the board | substrate 2 to the transversal direction of the board | substrate 2 with respect to the said predetermined position. The second restricting portion 4b restricts the movement of the substrate 2 in the first direction in the longitudinal direction of the substrate 2 with respect to the predetermined position. In FIG. 1, the arrow 10aa illustrates the first direction. The 3rd control part 4c controls the movement of the board | substrate 2 to the thickness direction of the board | substrate 2 with respect to the said predetermined position. The fourth restricting portion 4d comes into contact with the edge 2ad on the second direction side opposite to the first direction in the longitudinal direction of the substrate 2 slid to the predetermined position in the first direction. In FIG. 1, the second direction is illustrated by an arrow 10ab. The fourth restricting portion 4d abuts on the edge 2ad of the substrate 2 to restrict the movement of the substrate 2 in the second direction with respect to the predetermined position.

  In the light source unit 10 of this embodiment, the edge 2ad of the substrate 2 that has been slid in the first direction to the predetermined position is in contact with the fourth restricting portion 4d. It becomes possible to do.

  As shown in FIG. 5, the light source unit 10 of the present embodiment includes a cover member 5, a cover end 6, and a power supply unit 8 in addition to the LED 1, the substrate 2, the attachment member 3, and the support member 4. . In the light source unit 10, two substrates 2 are attached to the attachment member 3. The two substrates 2 are arranged on the attachment member 3 in a straight line along the longitudinal direction. The cover member 5 is attached to the attachment member 3 so as to cover the substrate 2. The light source unit 10 is configured such that external power is supplied to the power supply unit 8. The power supply unit 8 is configured to supply predetermined power to the LED 1.

  The LED 1 includes an LED chip 1a, a package 1b, and a sealing portion 1c. The package 1b has a recess. The package 1b accommodates the LED chip 1a in a recess. The sealing part 1c covers the LED chip 1a in the recess of the package 1b. For example, a blue LED chip can be used as the LED chip 1a. The package 1b can be formed using a ceramic material or a resin material. Two electrodes are provided on the rectangular bottom surface of the package 1b. One electrode of the package 1b is electrically connected to the positive electrode of the LED chip 1a housed in the recess. The other electrode of the package 1b is electrically connected to the negative electrode of the LED chip 1a housed in the recess. As the electrode, for example, a plated copper material can be used. The copper material can be plated with, for example, silver or nickel. The sealing part 1c is formed of a translucent sealing material. As the sealing material of the sealing portion 1c, for example, silicone resin, epoxy resin, glass, or the like can be used. The sealing part 1c may contain a yellow phosphor. The yellow phosphor is excited by blue light emitted from the blue LED chip and emits yellow light.

  LED1 can comprise white LED with a blue LED chip and a yellow fluorescent substance. The white LED can emit white light by mixing the blue light emitted from the blue LED chip and the yellow light emitted from the yellow phosphor. For example, a phosphor in which a yellow phosphor and a red phosphor are mixed may be used as the phosphor of the LED 1. The LED 1 can be configured to emit light of a desired color by appropriately combining the LED chip 1a and the phosphor. LED1 can change the kind of fluorescent substance, for example, can comprise white LED which discharge | releases the light of the light source color classification of daylight color, daylight white, white, warm white, and a bulb color in JISZ9112. The LED 1 may be configured by combining an ultraviolet LED chip and a red phosphor, a green phosphor, and a blue phosphor. The LED 1 is not limited to using a blue LED chip or an ultraviolet LED chip, and a blue-green LED chip, a green LED chip, a yellow-green LED chip, a yellow LED chip, an orange LED chip, a red LED chip, or the like may be appropriately used. it can. The LED 1 may include a lens so that light having a predetermined light distribution can be emitted. LED1 may be comprised only by LED chip 1a. The LED 1 can be electrically connected to the wiring provided on the substrate 2 by a joint made of solder.

  The substrate 2 includes a predetermined shape of wiring on the surface 2aa. The wiring can electrically connect the plurality of LEDs 1 as appropriate. The plurality of LEDs 1 are arranged in a straight line along the longitudinal direction of the substrate 2 at the central portion in the short direction of the substrate 2. The board | substrate 2 is not restricted only to the structure which arrange | positions several LED1 to 1 line in a line form. The board | substrate 2 is good also as a structure which has arrange | positioned one group of several LED1 arrange | positioned at 1 row in a line form in 2 or more rows along the transversal direction of the board | substrate 2. FIG. The light source unit 10 can further improve the light output by arranging one row of the plurality of LEDs 1 arranged in a line in a plurality of rows along the short direction of the substrate 2. When the substrate 2 includes a plurality of LEDs 1 that emit light of different colors, among the plurality of LEDs 1 that emit light of different colors, the substrate 2 can be individually turned on for each group of the plurality of LEDs 1 that emit light of the same color. You may make it electrically connect to. The board | substrate 2 may arrange | position LED1 in zigzag form, when arrange | positioning 1 group of several LED1 arrange | positioned in 1 line in a line form in 2 lines in parallel.

  The substrate 2 includes a plurality of fitting portions 2ca. The fitting part 2ca is configured to be able to fit with the support member 4. The plurality of fitting portions 2 ca are provided along the longitudinal direction of the substrate 2. The fitting portions 2ca are provided at both ends of the substrate 2 in the short direction. The fitting portion 2 ca is provided so as to be cut out along the thickness direction of the substrate 2. The fitting part 2ca is not limited to the structure of the groove provided along the longitudinal direction of the substrate 2. The fitting portion 2ca may be configured with a hole penetrating in the thickness direction of the substrate 2. The hole can be formed in a rectangular shape in plan view. When the support member 4 to be fitted is conductive, the fitting portion 2ca is wired from the support member 4 in the short direction of the substrate 2 as compared to the case where a hole penetrating in the thickness direction of the substrate 2 is provided in the substrate 2. The insulation distance can be increased.

  As shown in FIG. 2, the substrate 2 can be configured to include an external terminal portion 2 c. The external terminal portion 2 c is provided at one end portion in the longitudinal direction of the substrate 2. The external terminal portion 2c is surface-mounted on the surface 2aa of the substrate 2. The external terminal portion 2c is bonded to the wiring of the substrate 2 by a bonding portion made of solder. The external terminal portion 2c is electrically connected to the wiring of the substrate 2 and configured to supply power to the plurality of LEDs 1. The external terminal portion 2c is configured to be able to supply power to the LED 1 from the outside.

  In the light source unit 10 of the present embodiment, the substrate 2 includes an external terminal portion 2c that supplies power to the LED 1 from the outside. The external terminal portion 2c is preferably provided at the end 2ae on the opposite side of the edge 2ad of the substrate 2 in the longitudinal direction.

  In the light source unit 10, the structure of the 4th control part 4d can be simplified by providing the external terminal part 2c in the edge part 2ae on the opposite side to the edge 2ad of the board | substrate 2. FIG.

  The external terminal portion 2 c is provided only on one of the two substrates 2. Below, the board | substrate 2 which is not provided with the external terminal part 2c is called the 1st board | substrate 2a, and the board | substrate 2 with which the external terminal part 2c was provided is called the 2nd board | substrate 2b. The first substrate 2a includes a first connector portion 2d that is electrically connected to the external terminal portion 2c of the adjacent second substrate 2b. The first substrate 2 a includes a second connector portion 2 e that is electrically connected to the power supply unit 8. The second connector portion 2e is electrically connected to the power supply wire 8f. The electric wire 8f uses a lead wire. The 2nd connector part 2e can be electrically connected with the power supply unit 8 using the electric wire 8f. The 2nd connector part 2e is comprised so that the plug connector provided in the front-end | tip of the electric wire for electric power feeding may be inserted and connected. The first board 2a can feed power to the adjacent second board 2b using the first connector portion 2d. The second substrate 2b is electrically connected to the first substrate 2a. As the external terminal portion 2c, a connector connected to the first connector portion 2d of the adjacent substrate 2 can be used. The external terminal portion 2c is configured to receive power from the power supply unit 8 via the first connector portion 2d of the adjacent substrate 2. The light source unit 10 may be configured using only the second substrate 2b, or may be configured using the second substrate 2b and the plurality of first substrates 2a. The light source unit 10 may be configured to include a plurality of first substrates 2a and a plurality of second substrates 2b.

  As the substrate 2, for example, a printed circuit board can be used. The substrate 2 is not limited to a printed board, and for example, a ceramic substrate, a metal base printed wiring board, or the like may be used. As the wiring material, for example, copper or copper alloy can be used. The substrate 2 can cover the surface 2aa with a white resist layer or the like other than the mounting portion of the LED 1, the external terminal portion 2c, the first connector portion 2d, and the second connector portion 2e. The substrate 2 is a white resist layer, and a reflective layer can be formed. The reflective layer can suppress the light emitted from the LED 1 from being absorbed by the substrate 2.

  The attachment member 3 has a long outer shape. The attachment member 3 has a bottom wall portion 3a and a pair of side wall portions 3b. As shown in FIG. 3, the attachment member 3 is formed in a C shape by a bottom wall portion 3 a and a pair of side wall portions 3 b in a cross-sectional view. The bottom wall 3a is formed in a long rectangular shape in plan view. The side wall 3b is provided so as to extend in a direction orthogonal to the bottom wall 3a from both ends of the bottom wall 3a in the short direction. A protruding portion 3d that protrudes outward is provided at the tip of the side wall portion 3b. The mounting member 3 is provided with a protruding portion 3d over the entire length in the longitudinal direction. The protrusion 3d is formed in a curl shape. A recess 3ca is provided at the center of the bottom wall 3a along the longitudinal direction. The recess 3ca includes a bottom portion 3cb and a pair of side portions 3cc. The bottom 3cb is formed in a long rectangular shape in plan view. The side portion 3cc is provided so as to rise from the bottom portion 3cb along the longitudinal direction of the bottom portion 3cb.

  The attachment member 3 is configured so that the two substrates 2 can be arranged at predetermined positions on the bottom 3cb. The pair of side portions 3cc are provided such that the distance from each other increases as the distance from the bottom portion 3cb increases. The surface of the side portion 3 cc constitutes a reflection surface that reflects light from the LED 1. The recess 3ca can effectively use light from the LED 1 by providing a function of reflecting light. The mounting member 3 has a back surface 2ab opposite to the front surface 2aa of the substrate 2 disposed on the mounting surface 3aa. A through hole 3af penetrating in the thickness direction is provided at one end of the bottom wall portion 3a in the longitudinal direction. An electric wire 8f that electrically connects the power supply unit 8 and the substrate 2 shown in FIG. 5 can be passed through the through hole 3af.

  The attachment member 3 is made of a metal material. The attachment member 3 can be formed by bending a sheet metal. The attachment member 3 can be formed using a steel plate, for example. The material of the attachment member 3 is not limited to a steel plate, and may be formed of a metal material such as aluminum, copper, or stainless steel. The light source unit 10 can use the mounting member 3 as a heat radiating plate by bringing the back surface 2ab of the substrate 2 into contact with the mounting surface 3aa of the mounting member 3 formed of a metal material. When the light source unit 10 is made of a steel plate having a higher thermal conductivity than that of the resin, the light source unit 10 can efficiently dissipate the heat generated in the LED 1 to the outside through the mounting member 3. .

  The attachment member 3 has a first stopper 4 r as a part of the support member 4. The first stopper 4r can regulate the movement of the substrate 2. The first stopper 4r has a protrusion 4aa and an extension 4ab. The protrusion 4aa protrudes from the bottom 3cb of the attachment member 3. The protrusion 4aa is formed so that the length along the longitudinal direction of the substrate 2 is shorter than the length of the fitting portion 2ca along the longitudinal direction of the substrate 2. The extending portion 4ab is formed so as to extend from the tip end of the protruding portion 4aa along the longitudinal direction of the substrate 2. The first stopper 4r is formed in an L-shaped outer shape with the protrusion 4aa and the extension 4ab. The first stopper 4r can be formed by punching a metal plate constituting the attachment member 3 and then bending the L-shaped portion so as to rise. In the upper part of the paper surface of FIG. 2, the first stopper 4r before bending is illustrated by a two-dot chain line. The first stopper 4r is formed so that the cut and raised portion can fit into the fitting portion 2ca of the substrate 2. The first stopper 4r can be formed by cutting and raising the bottom 3cb. Each of the plurality of first stoppers 4r is provided such that the extending portion 4ab protrudes from the protruding portion 4aa in the same direction. The support member 4 can restrict the movement of the substrate 2 using the first stopper 4r inserted through the fitting portion 2ca. The protrusion 4aa is configured to be able to be inserted into the fitting portion 2ca. The protrusion 4aa is provided at a position corresponding to the fitting portion 2ca. The light source unit 10 is configured to ensure an electrical insulation distance between the metal protrusion 4aa and the wiring of the substrate 2 in a state where the substrate 2 is attached to the attachment member 3. In the light source unit 10, when the first stopper 4 r has conductivity, the insulation distance between the first stopper 4 r and the wiring in the short direction of the substrate 2 compared to the case where the substrate is caulked and fixed as in Patent Document 1. It becomes easy to ensure. The light source unit 10 can increase the degree of freedom in routing the wiring on the surface of the substrate 2 by securing the insulation distance between the first stopper 4r and the wiring.

  The support member 4 has a plurality of first stoppers 4r. The first stopper 4r is provided so as to sandwich both sides of the substrate 2 in the short direction of the substrate 2. The pair of first stoppers 4r are preferably disposed to face each other in the short direction of the substrate 2. The first stopper 4r is provided so as to sandwich both sides of the substrate 2 in the short direction of the substrate 2, thereby functioning as a first restricting portion 4a that restricts the movement of the substrate 2 in the short direction of the substrate 2. The plurality of first stoppers 4r are preferably provided along the longitudinal direction of the mounting member 3 so that the long substrate 2 can be supported.

  The support member 4 can regulate the movement of the substrate 2 in the thickness direction of the substrate 2 by sandwiching the substrate 2 between the extending portion 4ab and the bottom portion 3cb. The first stopper 4r functions as a third restricting portion 4c that restricts the movement of the substrate 2 in the thickness direction of the substrate 2 by sandwiching the substrate 2 between the extending portion 4ab and the bottom portion 3cb. The first stopper 4r may constitute a second restricting portion 4b that restricts the movement of the substrate 2 in the first direction in the longitudinal direction of the substrate 2 by abutment between the protrusion 4aa and the inner wall of the fitting portion 2ca. it can.

  The first stopper 4r also serves as a part of the first restricting portion 4a, the second restricting portion 4b, and the third restricting portion 4c. The first stopper 4r may constitute only the first restricting portion 4a that restricts the movement of the substrate 2 in the short direction of the substrate 2. The first stopper 4r may constitute only the third restricting portion 4c that restricts the movement of the substrate 2 in the thickness direction of the substrate 2.

  In other words, it is preferable that any two or more of the first restricting portion 4a, the second restricting portion 4b, and the third restricting portion 4c are shared by one member.

  The light source unit 10 may have a relatively simple structure in which any two or more of the first restricting portion 4a, the second restricting portion 4b, and the third restricting portion 4c are combined with one member. it can.

The support member 4 forms a second stopper 4 s by using a part of the attachment member 3. The second stopper 4s has a T-shaped outer shape in plan view. The light source unit 10 regulates the movement of the substrate 2 in the longitudinal direction of the substrate 2 by the first stopper 4r and the second stopper 4s. The second stopper 4s can constitute a second restricting portion 4b that restricts the movement of the substrate 2 in the second direction. A C-shaped opening 4sb is formed in the bottom 3cb of the mounting member 3.
The opening 4sb can be formed by punching a metal plate constituting the attachment member 3. The second stopper 4s is formed of a T-shaped portion whose fixed end is fixed to the bottom 3cb in the opening 4sb. The second stopper 4s is configured such that the free end opposite to the fixed end can be bent in the thickness direction of the bottom 3cb. The second stopper 4s is provided such that a claw portion 4sa where both ends of a T-shaped horizontal bar are bent rises from the bottom portion 3cb in the thickness direction of the bottom portion 3cb. The second stopper 4s preferably has elasticity that can displace the substrate 2 in the thickness direction. The second stopper 4s is pushed and bent by the substrate 2 while the substrate 2 is slid in the first direction with respect to the mounting member 3. The second stopper 4s is restored to the original position when the substrate 2 is disposed at a predetermined position. The second stopper 4s is released from bending and protrudes from the mounting surface 3aa. The claw part 4sa restricts the second stopper 4s from sliding in the second direction in which the substrate 2 moves away from the predetermined position.

  In other words, the fourth restricting portion 4 d has elasticity that can be displaced along the thickness direction of the substrate 2. While the substrate 2 is slid in the first direction with respect to the attachment member 3, the fourth restricting portion 4 d is pushed by the substrate 2 and bends. It is preferable that the 4th control part 4d restore | restores by arrange | positioning the board | substrate 2 in the said predetermined position, and protrudes from attachment surface 3aa.

  In the light source unit 10, the fourth restricting portion 4 d has elasticity that can be displaced along the thickness direction of the substrate 2, thereby further simplifying the assembly process. The fourth restricting portion 4d is not limited to the case where the substrate 2 is disposed at a predetermined position and is completely restored, and it is sufficient that the movement of the substrate 2 in the second direction can be restricted.

  The support member 4 can be formed by punching or bending the mounting member 3. The support member 4 may be configured integrally with the attachment member 3 or may be formed separately. When the support member 4 is configured separately from the mounting member 3, the support member 4 can be formed of a material having electrical insulation. The support member 4 uses the second stopper 4s as the fourth restricting portion 4d. However, the second stopper 4s may be added to the fourth restricting portion 4d and used as the second restricting portion 4b.

  The cover member 5 is configured in a long shape. The cover member 5 is configured to cover the substrate 2 on which the LED 1 is mounted. The cover member 5 emits the light from the LED 1 from the light emitting surface 5aa. The cover member 5 can protect the LED 1 and the substrate 2. As shown in FIGS. 5 and 6, the cover member 5 includes a semi-cylindrical light emitting portion 5 a and a pair of protruding wall portions 5 b. The protruding wall portion 5b is provided along the longitudinal direction of the light emitting portion 5a. The pair of protruding wall portions 5b are formed so as to protrude in parallel with each other from both end portions of the light emitting portion 5a. Protruding portions 5d that protrude toward each other are provided at the tips of the pair of protruding wall portions 5b. The protrusion 5d is configured to be hooked on the protrusion 3d of the attachment member 3. The protruding wall portion 5b includes an inner protruding portion 5e between the protruding portion 5d protruding from the protruding wall portion 5b and the light emitting portion 5a. The pair of inner protrusions 5e protrudes inward so as to face the opposite protrusion walls 5b. Extending portions 5g are provided at both end portions in the longitudinal direction of the light emitting portion 5a. The extending part 5g extends to the outside of the protruding wall part 5b so as to be continuous with the light emitting part 5a. The extending part 5g is provided so as to overlap the opening edge of the recess 31aa of the instrument body 31 in a state where the light source unit 10 is attached to the instrument body 31.

  The cover member 5 is configured such that the side wall 3b can be held between the protrusion 5d and the inner protrusion 5e. The cover member 5 includes a light emitting portion 5a, a protruding wall portion 5b, a protruding portion 5d, an extending portion 5g, and an inner protruding portion 5e. The cover member 5 has translucency. The cover member 5 is preferably configured to efficiently transmit the light emitted from the LED 1. The cover member 5 can be formed of a translucent material such as acrylic resin, polycarbonate resin, or glass. The cover member 5 can be formed by, for example, injection molding. The cover member 5 may contain a diffusing material in the translucent material. The cover member 5 may have a configuration in which the light emitting portion 5a has a lens function.

  The cover end 6 closes the openings at both ends of the cover member 5. The cover end 6 is formed in a semicircular outer shape. The cover end 6 is attached to the longitudinal ends of the attachment member 3 and the cover member 5. The cover end 6 can be formed using, for example, a resin material such as an acrylic resin or a polycarbonate resin.

  The power supply unit 8 includes a power supply circuit unit 8a and a case 8b. The power supply circuit unit 8a includes an electronic component 8c and a power supply substrate 8d. The power supply substrate 8d has a rectangular flat plate-like outer shape. For example, a printed wiring board can be used as the power supply substrate 8d. A plurality of types of electronic components 8c are mounted on the power supply substrate 8d. The electronic component 8c is used to configure various circuits constituting the power supply circuit unit 8a. Examples of the various circuits include a filter circuit, a booster circuit, a step-down circuit, a main control circuit, a control power supply circuit, a dimming control circuit, and a turn-off control circuit. The power supply circuit unit 8a may be configured to include, for example, an input connector, a rectifier, and an output connector in addition to various circuits. Examples of the electronic component 8c include a transformer, a diode, a capacitor, a switching element, and a microcomputer. The input connector is electrically connected to an external power source. As the external power source, for example, a commercial AC power source can be used. The power supply unit 8 is supplied with AC power. The case 8b has a rectangular box-like outer shape in which an opening is formed on one surface. The case 8b is configured to accommodate the power supply circuit unit 8a. The case 8 b is arranged so that the opening is closed by the bottom wall 3 a of the mounting member 3. The case 8b can be formed by bending a metal plate material. Case 8b is attached to attachment member 3 using a screw etc., for example.

  The insulating material 9 can be disposed between the attachment member 3 and the substrate 2. The insulating material 9 has a rectangular sheet-like outer shape. The insulating material 9 can enhance electrical insulation between the substrate 2 and the mounting member 3. In the light source unit 10, the substrate 2 and the attachment member 3 may be disposed via the insulating material 9, or the substrate 2 and the attachment member 3 may be disposed in direct contact with each other. The light source unit 10 can be configured to include a plurality of insulating materials 9. One of the plurality of insulating materials 9 is provided between the end portion 2ae of the substrate 2 on which the external terminal portion 2c is mounted and the bottom wall portion 3a. The insulating material 9 can be attached to the bottom 3cb of the recess 3ca of the attachment member 3 so as to straddle the adjacent substrates 2 in plan view. The insulating material 9 can enhance the electrical insulation between the external terminal portion 2 c and the bottom wall portion 3 a in a state where the adjacent substrates 2 are attached to the attachment member 3. One of the plurality of insulating materials 9 is provided between the vicinity of the second connector portion 2e of the substrate 2 and the bottom wall portion 3a. The insulating material 9 can be attached so as to straddle a predetermined position of the substrate 2 attached to the bottom 3cb of the recess 3ca of the attachment member 3 and the surface of the bottom wall 3a in plan view. The insulating material 9 is provided on the attachment member 3 so as to cover a part of the through hole 3af. The insulating material 9 can enhance electrical insulation between the second connector portion 2e to which the electric wire 8f is connected and the bottom wall portion 3a. The insulating material 9 can enhance electrical insulation between the mounting member 3 and the substrate 2.

  The thickness of the insulating material 9 can be designed so that the total thickness of the insulating material 9 and the substrate 2 can press the substrate 2 toward the bottom 3cb by the extended portion 4ab protruding from the mounting member 3. The insulating material 9 can be an electrically insulating tape. The insulating material 9 can also smoothly slide the substrate 2 with respect to the mounting member 3. As the insulating material 9, for example, polyethylene terephthalate resin or the like can be used. The material of the insulating material 9 is not limited to polyethylene terephthalate resin, and for example, silicone resin or acrylic resin may be used. The insulating material 9 is an insulating film and preferably has elasticity. The insulating material 9 can also enhance the adhesion between the substrate 2 and the mounting member 3 by having an elastic force. By arranging the substrate 2 and the mounting member 3 through the insulating material 9, even if the back surface 2ab of the substrate 2 and the mounting surface 3aa of the mounting member 3 are uneven, it is possible to conduct heat efficiently. . The insulating material 9 may have adhesiveness and function as an adhesive sheet. The insulating material 9 can be made of an elastomer material that is excellent in electrical insulation and thermal conductivity and has elasticity. For example, the insulating material 9 may be configured to contain metal particles or ceramic particles in a resin.

  Below, the assembly process of the light source unit 10 is demonstrated.

  In the assembly process of the light source unit 10, the LED 1 and the external terminal portion 2 c are prepared by being mounted on the substrate 2 in advance. The substrate 2 can be mounted by reflowing the LED 1 and the external terminal portion 2c on the wiring of the surface 2aa of the substrate 2 via cream solder. In the assembly process, the mounting member 3 is prepared in advance in a state in which the metal piece to be the first stopper 4r protrudes in a plate shape from the bottom 3cb of the recess 3ca. The attachment member 3 is provided with a second stopper 4s at one end in the longitudinal direction. An insulating material 9 may be attached to the attachment member 3 in advance.

  In the assembly process, as shown in FIG. 4A, the fitting portion 2 ca of the substrate 2 and the first stopper 4 r of the mounting member 3 are made to correspond to each other and moved so that the substrate 2 approaches the recess 3 ca of the mounting member 3. In FIG. 4A, the moving direction of the board | substrate 2 is shown with the white arrow. In the assembly process, when the substrate 2 is attached to the attachment member 3, the substrate 2 is placed on the bottom 3cb of the recess 3ca in a state where the positions of the fitting portion 2ca provided on the substrate 2 and the first stopper 4r provided on the attachment member 3 are aligned. Put 2 on top. The board | substrate 2 is mounted on the attachment member 3, and the 1st stopper 4r is inserted in fitting part 2ca. As shown in FIG. 4B, the substrate 2 is sandwiched between the pair of first stoppers 4r on both sides in the short direction, and the movement of the substrate 2 in the short direction of the substrate 2 is restricted. When the substrate 2 is placed on the attachment member 3, the back surface 2ab of the substrate 2 comes into contact with the claw portion 4sa and presses the T-shaped second stopper 4s. The second stopper 4 s is fixed at the end of the opening 4 sb and is bent in the thickness direction of the substrate 2. In the assembly process, the claw portion 4sa is pressed against the substrate 2 while the substrate 2 is placed on the bottom 3cb, and the second stopper 4s is bent. In FIG. 4B, the direction in which the second stopper 4s bends is indicated by an arrow surrounded by an alternate long and short dash line.

  Next, in the assembly process, the substrate 2 is slid with respect to the mounting member 3 so as to approach the protrusion 4aa from the direction in which the extension 4ab protrudes. In other words, the substrate 2 is moved in the first direction. In the assembly process, as shown in FIG. 4C, the substrate 2 sandwiched between the pair of first stoppers 4r is slid to a predetermined position along the longitudinal direction of the mounting member 3. In FIG. 4C, the sliding direction of the board | substrate 2 is shown with the arrow enclosed with the broken line.

  In the assembly process, the inner edge of the fitting portion 2ca and the protrusion 4aa come into contact with each other by being arranged at a predetermined position by sliding the substrate 2. The substrate 2 is restricted from moving in the first direction by the contact between the fitting portion 2ca and the inner wall of the protrusion 4aa. In the assembling process, the substrate 2 is slid to a predetermined position of the mounting member 3, so that it is sandwiched between the extended portion 4 ab and the bottom portion 3 cb of the first stopper 4 r. In the assembly process, the movement of the substrate 2 in the thickness direction of the substrate 2 sandwiched between the extending portion 4ab and the bottom portion 3cb is restricted. In the assembly process, the second stopper 4 s is restored from being bent by being placed at a predetermined position by sliding the substrate 2. In FIG. 4C, the direction in which the bending of the second stopper 4s is restored is indicated by an arrow surrounded by a two-dot chain line. In the assembly process, when the bending of the second stopper 4s is restored by being arranged at a predetermined position by sliding the substrate 2, the edge 2ad in the longitudinal direction of the substrate 2 is suppressed by the claw portion 4sa.

  In the light source unit 10, when the substrate 2 is disposed at a predetermined position, the movement of the substrate 2 in the first direction of the substrate 2 is restricted by the fitting portion 2 ca and the protrusion 4 aa coming into contact with each other. In the light source unit 10, when the substrate 2 is disposed at a predetermined position, the movement of the substrate 2 in the second direction is restricted by the protrusion 4aa and the claw portion 4sa. The light source unit 10 is not limited to the configuration in which the protrusion 4aa and the claw portion 4sa restrict the movement of the substrate 2 in the longitudinal direction. When the light source unit 10 includes the two substrates 2, the movement of the two adjacent substrates 2 in the second direction can be suppressed by including at least one fourth restricting portion 4 d. In the light source unit 10, the substrate 2 is attached to the attachment member 3 by the first restriction portion 4 a, the second restriction portion 4 b, and the third restriction portion 4 c by arranging the substrate 2 at a predetermined position of the attachment member 3. .

  In the assembly process of the light source unit 10, when the first board 2a and the second board 2b are placed on the attachment member 3, respectively, the first connector portion 2d of the first board 2a and the second board 2 are moved before the board 2 is moved. The external terminal portion 2c of the substrate 2b can be connected. In the assembly process, the first substrate 2a may be slid and placed at a predetermined position, and then the second substrate 2b may be slid. In the assembling process, the second substrate 2b is slid on the first substrate 2a at a predetermined position to place the second substrate 2b at the predetermined position, and the first connector portion 2d of the first substrate 2a and the second substrate It is also possible to electrically connect the external terminal portion 2c of 2b.

  Next, in the assembly process of the light source unit 10, the power supply unit 8 is attached to the surface opposite to the bottom wall portion 3a of the attachment member 3 on which the substrate 2 is mounted. In the assembly process, the electric wire 8 f led out from the power supply unit 8 is inserted into the through hole 3 af provided in the mounting member 3. In the assembly process, the electric wire 8f inserted through the through hole 3af and the external terminal portion 2c of the substrate 2 are electrically connected.

  Next, in the assembly process, the cover member 5 is attached to the attachment member 3 so as to cover the substrate 2. In the assembly process, the protruding portion 5 d of the cover member 5 is fitted to the protruding portion 3 d of the mounting member 3. The cover member 5 is assembled to the attachment member 3 by the pair of protrusions 5d being hooked separately from the corresponding protrusions 3d. In the assembly process, the cover member 5 and the attachment member 3 can be integrally fixed by screwing the protruding wall portion 5b of the cover member 5 and the side wall portion 3b of the attachment member 3 appropriately. In the assembly process, the light source unit 10 can be assembled by attaching the cover end 6 to the longitudinal ends of the cover member 5 and the attachment member 3.

  Below, the lighting fixture 30 provided with the light source unit 10 is demonstrated easily, referring FIG. 5 thru | or FIG.

  The lighting fixture 30 includes the above-described light source unit 10 and a fixture main body 31 to which the light source unit 10 is attached.

  The lighting fixture 30 has a ceiling-mounted structure. The appliance main body 31 is attached to the ceiling material 51 using the suspension bolts 52. The instrument body 31 has a long outer shape. The instrument body 31 is formed in a flat box shape. The instrument body 31 has a recess 31aa at the center. The recess 31aa has an outer shape in which one surface of the instrument body 31 is recessed in a rectangular shape. The recess 31aa is provided over the entire length of the instrument body 31. The recess 31aa is configured to accommodate the light source unit 10. An insertion hole 31ca is provided in the bottom surface portion 31a of the instrument body 31a. The insertion hole 31ca is inserted through a power supply line for power supply that is electrically connected to an external power supply. The bottom surface portion 31 a is provided with a plurality of insertion holes 31 ca along the longitudinal direction of the instrument body 31.

  In the insertion hole 31ca, not only a power supply power line but also a signal line may be inserted. The lighting fixture 30 may control the light source unit 10 by an external control signal transmitted from the signal line. A bolt insertion hole 31cb through which the suspension bolt 52 is passed is provided in the bottom surface portion 31a. Four bolt insertion holes 31 cb are provided along the longitudinal direction of the instrument body 31. The bolt insertion hole 31cb is configured so that the suspension bolt 52 can be inserted therethrough. A nut 53 is fastened to the suspension bolt 52 inserted through the bolt insertion hole 31cb.

  The instrument body 31 is fixed to the ceiling member 51 by tightening a nut 53 to the suspension bolt 52. The instrument main body 31 has inclined portions 31b extending from the opening edge of the recess 31aa on both sides of the recess 31aa in the short direction. The inclined portion 31b is inclined so that the thickness of the instrument main body 31 becomes thinner as the distance from the recessed portion 31aa increases. The instrument body 31 can be formed by bending a sheet metal. The instrument body 31 includes an end cap 31e. The end caps 31e are provided at both ends of the instrument body 31 in the longitudinal direction. The end cap 31e has a trapezoidal shape when viewed from the front.

  As a material of the instrument body 31, a steel plate can be adopted. The material of the instrument body 31 is not limited to a steel plate, and for example, aluminum, stainless steel, copper alloy, or the like may be employed. The lighting fixture 30 makes it possible to efficiently dissipate the heat generated by the LED 1 of the light source unit 10 to the outside through the fixture main body 31 by making the fixture main body 31 made of metal, compared to the case of resin. .

  The luminaire 30 is not limited to a ceiling-mounted structure. As long as the light source unit 10 can be attached to the attachment member 3, the lighting fixture 30 can be appropriately used for lighting devices having other structures. In the lighting fixture 30, the fixture main body 31 is configured so that the light source unit 10 can be attached and detached freely.

  Next, the construction procedure of the lighting fixture 30 will be briefly described.

  In the construction procedure, first, a power line led out from the ceiling material 51 is passed through an insertion hole 31 ca provided in the instrument main body 31. In the construction procedure, as shown in FIG. 6, after the suspension bolt 52 exposed to the indoor side through the ceiling material 51 is passed through the bolt insertion hole 31 cb, the nut 53 is screwed into the suspension bolt 52, and the instrument body 31 is attached to the ceiling material 51. Secure to. In the construction procedure, the power supply line is connected to the power supply unit 8, and the light source unit 10 is attached to the instrument main body 31 by, for example, fitting structures provided on the instrument main body 31 and the attachment member 3, respectively. In the construction procedure, the power source unit 8 is housed in the recess 31aa, and the light source unit 10 is attached to the instrument body 31.

(Embodiment 2)
The light source unit 10 of this embodiment shown in FIGS. 8A and 8B has the same configuration as that of Embodiment 1 except that the structure of the second stopper 4s of Embodiment 1 is changed. Constituent elements similar to those of the first embodiment are denoted by the same reference numerals, and description thereof is omitted as appropriate.

  In the light source unit 10 of the present embodiment, as shown in FIG. 8B, the fourth restricting portion 4d is protruded from the attachment surface 3aa with a part of the attachment member 3 raised.

  In the light source unit 10 of the present embodiment, a part of the mounting member 3 is raised, and the fourth restriction portion 4d that protrudes from the mounting surface 3aa is provided, so that the same as the light source unit 10 of the first embodiment. In addition, it is possible to obtain a structure with better assembly workability.

  More specifically, the light source unit 10 of the present embodiment includes a third stopper 4t that functions as the fourth restricting portion 4d. The third stopper 4t is provided on one side in the longitudinal direction for starting the sliding of the substrate 2 along the longitudinal direction of the mounting member 3. The third stopper 4t is formed by raising a part 4tc of the mounting member 3 after the substrate 2 is slid in the longitudinal direction with respect to the mounting member 3 and arranged at a predetermined position. The third stopper 4 t can regulate the movement of the substrate 2 in the second direction of the substrate 2 by contacting the edge 2 ad of the substrate 2.

  The light source unit 10 of the present embodiment can have a structure with better assembly workability by raising the part 4tc of the third stopper 4t after placing the substrate 2 on the mounting member 3.

  In the light source unit 10 of the present embodiment, a protruding piece 4ta that regulates the edge 2ad of the substrate 2 is cut and raised from the bottom 3cb of the mounting member 3. The third stopper 4t provided with the projecting piece 4ta has a V-shaped outer shape in a side view. The protruding piece 4ta can be formed by bending a + -shaped part 4tc of the opening 4tb provided at the end of the bottom 3cb.

  The light source unit 10 of the present embodiment is not limited to the configuration including the third stopper 4t as the fourth restricting portion 4d, and may be used as the second restricting portion 4b. As long as the light source unit 10 of the present embodiment includes the third stopper 4t, the configuration of the first embodiment can be used as appropriate.

  As with the light source unit 10 of the first embodiment, the light source unit 10 of the present embodiment can constitute the lighting fixture 30 by being attached to the fixture body 31.

(Embodiment 3)
The light source unit 10 of this embodiment shown in FIG. 9 is provided with a fourth stopper 4u configured as a separate member from the mounting member 3 as the fourth restricting portion 4d instead of the second stopper 4s of the first embodiment. The configuration is the same as that of the first embodiment. Constituent elements similar to those of the first embodiment are denoted by the same reference numerals, and description thereof is omitted as appropriate.

  In the light source unit 10 of this embodiment, as shown in FIG. 9, the 4th control part 4d is attached to the attachment member 3, and protrudes from the attachment surface 3aa.

  In the light source unit 10 of the present embodiment, the fourth restricting portion 4d that is attached to the attachment member 3 and protrudes from the attachment surface 3aa is provided, so that the assembly workability is further improved as in the light source unit 10 of the first embodiment. It is possible to obtain an excellent structure.

  More specifically, the light source unit 10 of this embodiment includes a fourth stopper 4u as the second restricting portion 4b. The fourth stopper 4 u is provided on one side in the longitudinal direction for starting the sliding of the substrate 2 along the longitudinal direction of the mounting member 3. The fourth stopper 4u is attached to the attachment member 3 so as to come into contact with the edge 2ad of the substrate 2 after the substrate 2 is slid in the longitudinal direction with respect to the attachment member 3 and arranged at a predetermined position. The light source unit 10 includes a fixing hole 4ud so that the fourth stopper 4u can be inserted and fixed to the bottom 3cb of the substrate 2. The fourth stopper 4u can restrict the substrate 2 from sliding in a direction away from the predetermined position.

  The light source unit 10 can have a structure with better assembly workability by mounting the fourth stopper 4 u to the mounting member 3 after placing the substrate 2 on the mounting member 3.

  The fourth stopper 4u includes a front end portion 4ua, a connecting portion 4ub, and a contact portion 4uc. The fourth stopper 4u is formed integrally with a front end portion 4ua, a connecting portion 4ub, and a contact portion 4uc. The fourth stopper 4u is preferably formed of an elastic material so that it can be attached to the fixing hole 4ud. The distal end 4ua has an outer shape with a tapered tip. The distal end portion 4ua can have a trapezoidal shape in a cross-sectional view. The connecting portion 4ub connects the tip portion 4ua and the contact portion 4uc. The connecting portion 4ub has a smaller diameter than the tip portion 4ua and is configured to be inserted into the fixing hole 4ud. The connecting portion 4ub has a cylindrical outer shape. The contact portion 4uc contacts the edge 2ad of the substrate 2. The contact portion 4uc has a cylindrical outer shape having an outer diameter larger than that of the connecting portion 4ub.

  In the light source unit 10, after the substrate 2 is slid to a predetermined position of the mounting member 3, the fourth stopper 4 u is inserted into the fixing hole 4 ud to restrict the movement of the substrate 2 in the second direction of the substrate 2. it can. The fourth restricting portion 4d is not limited to the configuration of the fourth stopper 4u provided with the tip portion 4ua, the connecting portion 4ub, and the abutting portion 4uc. As long as the 4th control part 4d is attached to the attachment member 3 and protrudes from the attachment surface 3aa, it can also utilize removal tools, such as a resin rivet, a screw, a volt | bolt, and a nut.

  The light source unit 10 of the present embodiment is not limited to the configuration including the fourth stopper 4u as the fourth restricting portion 4d, and may be used as the second restricting portion 4b. As long as the light source unit 10 of the present embodiment includes the fourth stopper 4u, the configurations of the first and second embodiments can be used as appropriate.

  The light source unit 10 of the present embodiment can be configured as the lighting fixture 30 by being attached to the fixture main body 31 in the same manner as the light source unit 10 of the first and second embodiments.

1 LED
2 Substrate 2ad Edge 2ae End 2c External terminal portion 3 Mounting member 3aa Mounting surface 4 Support member 4a First restricting portion 4b Second restricting portion 4c Third restricting portion 4d Fourth restricting portion 8f Electric wire 10 Light source unit 30 Lighting fixture 31 Instrument body

Claims (7)

A plurality of LEDs, a substrate on which the plurality of LEDs are mounted, an attachment member having an attachment surface to which the substrate is attached, and a support member provided on the attachment member,
The substrate is long and plate-shaped, and the plurality of LEDs are mounted along the longitudinal direction,
The support member includes a first restricting portion, a second restricting portion, a third restricting portion, and a fourth restricting portion, and the substrate slid along the attachment surface to a predetermined position of the attachment surface. Support,
The first restricting portion restricts movement of the substrate in a short direction of the substrate with respect to the predetermined position;
The second restricting portion restricts the movement of the substrate in the first direction in the longitudinal direction of the substrate with respect to the predetermined position;
The third restricting portion restricts the movement of the substrate in the thickness direction of the substrate with respect to the predetermined position;
The fourth restricting portion is in contact with an edge on a second direction side opposite to the first direction in the longitudinal direction of the substrate that is slid to the predetermined position in the first direction. And restricting movement of the substrate in the second direction.   2. The light source unit according to claim 1, wherein any two or more of the first restricting portion, the second restricting portion, and the third restricting portion are shared by a single member. . The fourth restricting portion has elasticity that can be displaced along a thickness direction of the substrate,
While the substrate is slid in the first direction with respect to the mounting member, the substrate is pushed and bent, and the substrate is restored by being placed at the predetermined position. The light source unit according to claim 1 or 2.   3. The light source unit according to claim 1, wherein a part of the attachment member is raised and the fourth restriction portion protrudes from the attachment surface. 4.   The light source unit according to claim 1, wherein the fourth restriction portion is attached to the attachment member and protrudes from the attachment surface. The substrate includes an external terminal portion that supplies power to the LED from the outside,
The light source unit according to claim 1, wherein the external terminal portion is provided at an end portion of the substrate opposite to the end edge in the longitudinal direction.   A lighting fixture comprising: the light source unit according to any one of claims 1 to 6; and a fixture main body to which the light source unit is attached.

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