JP2017130424A - Illuminating device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an illuminating device having a relatively simple structure and higher reliability.SOLUTION: An illuminating device 30 comprises: an LED 1; a long mounting board 2 in which the LED 1 is mounted on a first surface 2aa; a cylindrical housing 32 into which the mounting board 2 is inserted; and a pressing part 4. The housing 32 comprises: a light emitting part 32a that emits light from the LED 1 to the outside; and supporting parts 32f that support the first surface 2aa at end edge parts in a short length direction of the mounting board 2. The pressing part 4 is arranged between a second surface 2ab of the mounting board 2 and an inner wall surface 32aa of the housing 32. The pressing part 4 presses the mounting board 2 toward the supporting parts 32f with an elastic force.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a lighting device.

  2. Description of the Related Art In recent years, lighting devices including a mounting substrate on which LEDs (light emitting diodes) are mounted have been used.

  This type of lighting device includes a light emitting element, a long substrate on which the light emitting element is mounted on the surface side, a mounting member for attaching the substrate, and a pair of support rails that are formed in a substantially cylindrical shape and project inward. The structure provided with the main body which supports an attachment member is known (for example, patent document 1).

  In Patent Document 1, since the board slid and inserted into the board insertion groove of the mounting member is caulked and fixed by the front side support portion, a fixing member such as a mounting screw is not required and the number of parts is reduced. The assembly work efficiency can be improved.

JP 2013-152901 A

  By the way, the lighting device is required to have a relatively simple configuration and a more reliable configuration, and the above-described configuration of Patent Document 1 is not sufficient, and further improvement is required.

  An object of the present invention is to provide a more reliable lighting device with a relatively simple configuration.

  The lighting device of the present invention includes an LED, a mounting substrate, a housing, and a pressing member. The mounting board has the LED mounted on the first surface. The mounting board has a long outer shape. The casing has a cylindrical outer shape. The housing is configured such that the mounting board is inserted therein. The housing includes a light emitting part and a support part. The light emitting unit emits light from the LED to the outside. The support portion is configured to support the first surface at an end edge portion in the short direction of the mounting substrate. The pressing member is disposed between a second surface opposite to the first surface of the mounting substrate and an inner wall surface of the housing facing the second surface. The pressing member presses the mounting substrate toward the support portion with an elastic force.

  The lighting device of the present invention can be made more reliable with a relatively simple configuration.

FIG. 1 is a cross-sectional view showing an illumination apparatus according to Embodiment 1 of the present invention. FIG. 2 shows the same illumination device, FIG. 2A is a partially broken front view, and FIG. 2B is an enlarged cross-sectional view of the main part of FIG. 2A. FIG. 3 is a partially cutaway rear view showing the main part of the illumination device. FIG. 4 is a partially cutaway side view showing the main part of the illumination device same as above. FIG. 5 is a perspective view showing a main part of the illumination device same as above. FIG. 6 is a partially broken perspective view showing a main part of the illumination device same as above. FIG. 7 is a front view for explaining a refrigerated showcase according to Embodiment 2 of the present invention. FIG. 8: shows the illuminating device used for a refrigerator showcase same as the above, FIG. 8A is a side view which abbreviate | omitted the state attached to the attachment member, FIG. 8B is a part of another state attached to the attachment member. It is a side view omitted.

(Embodiment 1)
Below, the illuminating device 30 of this embodiment is demonstrated based on FIG. 1 thru | or FIG. 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 illustrated in FIGS. 1 and 2, the lighting device 30 of the present embodiment includes an LED 1, a mounting substrate 2, a housing 32, and a pressing member 4. The mounting substrate 2 has the LED 1 mounted on the first surface 2aa. The mounting substrate 2 has a long outer shape. The housing 32 has a cylindrical outer shape. The housing 32 is configured such that the mounting substrate 2 is inserted therein. The housing 32 has a light emitting part 32a and a support part 32f. The light emitting unit 32a emits the light from the LED 1 to the outside. The support portion 32f is configured to support the first surface 2aa at the edge portion in the short direction of the mounting substrate 2. The pressing member 4 is disposed between the second surface 2ab opposite to the first surface 2aa on the mounting substrate 2 and the inner wall surface 32aa of the housing 32 facing the second surface 2ab. The pressing member 4 presses the mounting substrate 2 toward the support portion 32f with an elastic force.

  The lighting device 30 according to the present embodiment has a relatively simple configuration including the pressing member 4 that presses the mounting substrate 2 toward the support portion 32f with an elastic force, and can further increase the reliability.

  Below, each structure of the illuminating device 30 of this embodiment is demonstrated in detail.

  As shown in FIG. 2, the lighting device 30 of the present embodiment includes a power cable 3, an electronic component 5, a terminal portion 6, and a connector 7 in addition to the LED 1, the mounting substrate 2, the pressing member 4, and the housing 32. And an end cap 33.

  As shown in FIG. 2B, the LED 1 includes an LED chip 1a, a package 1b, and a sealing portion 1c. The package 1b includes a recess that accommodates the LED chip 1a. The sealing portion 1c is filled in the recess so as to cover the LED chip 1a. The sealing part 1c can use a translucent sealing material. As the translucent sealing material, for example, silicone resin, epoxy resin, glass, or the like can be used. The sealing portion 1c contains a phosphor that emits fluorescence when excited by light emitted from the LED chip 1a.

  The LED 1 can emit white light by, for example, a color mixture of blue light emitted from the LED chip 1a and yellow light emitted from the phosphor. The LED 1 may be configured to emit not only white light but also, for example, light bulb color light by changing the type of the LED chip 1a and the phosphor.

  The mounting board 2 has a rectangular flat plate-like outer shape. In the mounting substrate 2, wirings having a predetermined shape are formed on the first surface 2aa and the second surface 2ab. In the mounting substrate 2, the wiring on the first surface 2 aa side and the wiring on the second surface 2 ab side are electrically connected by a through wiring penetrating in the thickness direction. The mounting substrate 2 is formed with a resist film so as to cover the wiring except for the mounting surface of the LED 1, the electronic component 5, the terminal portion 6 and the connector 7. The mounting substrate 2 has a plurality of LEDs 1 mounted on the first surface 2aa along the longitudinal direction at the center in the short direction. On the mounting substrate 2, the LEDs 1 are arranged so as to be arranged at equal intervals. For example, 21 LEDs 1 can be mounted on the mounting substrate 2.

  The mounting substrate 2 has the LED 1 mounted on a part of the wiring formed on the first surface 2aa by solder. The mounting substrate 2 has a plurality of LEDs 1 electrically connected in series by wiring. The mounting substrate 2 is not limited to the configuration in which the plurality of LEDs 1 are electrically connected in series, but may be configured to be electrically connected in parallel or may be configured to be connected in series-parallel.

  In the illuminating device 30 of this embodiment, as shown in FIG. 2, the two mounting substrates 2 are used. Hereinafter, of the two mounting boards 2, one mounting board 2 may be referred to as a first mounting board 21, and the other mounting board 2 may be referred to as a second mounting board 22.

  As for the 1st mounting board | substrate 21, the terminal part 6 is mounted in each of the both ends of the transversal direction in the 1st surface 2aa at the one end side of a longitudinal direction. The first mounting substrate 21 has the connectors 7 mounted on both ends of the first surface 2aa in the short direction on the other end side in the longitudinal direction. For example, a male connector 7a is used as the connector 7 of the first mounting board 21.

  The second mounting board 22 has the connectors 7 mounted on the first surface 2aa at both ends in the short direction on one end side in the longitudinal direction. The connector 7 of the second mounting board 22 uses a female connector 7b so that it can be connected to the male connector 7a of the first mounting board 21. When the connector 7 of the first mounting board 21 is the female connector 7b, the male connector 7a may be used as the connector 7 of the second mounting board 22. It is preferable that the second mounting board 22 has the connectors 7 mounted on both ends in the short direction on the other end side in the longitudinal direction on the first surface 2aa. The second mounting board 22 includes the connectors 7 on both sides on the one end side and the other end side in the longitudinal direction, so that the plurality of second mounting boards 22 can be electrically connected.

  The first mounting substrate 21 includes a through hole 2ac penetrating in the thickness direction at the center in the short direction on the other end side in the longitudinal direction. The second mounting substrate 22 includes a through hole 2ac penetrating in the thickness direction at a central portion in the short direction on one end side in the longitudinal direction. The first mounting substrate 21 and the second mounting substrate 22 may include a through-hole 2ac that penetrates in the thickness direction at the center portion in the short direction on one end side and the other end side in the longitudinal direction.

  The mounting substrate 2 has a plurality of types of electronic components 5 mounted on a part of wiring by solder. The mounting substrate 2 electrically connects a plurality of LEDs 1 and a plurality of types of electronic components 5 via wiring. The mounting substrate 2 has the terminal portion 6 mounted on a part of the wiring by solder. The mounting substrate 2 electrically connects the plurality of LEDs 1 and the terminal portion 6 via wiring. The mounting substrate 2 has a connector 7 mounted on a part of wiring by solder. The mounting substrate 2 electrically connects the plurality of LEDs 1 and the connector 7 via wiring. For example, a glass epoxy resin substrate can be used as the mounting substrate 2. The mounting substrate 2 is not limited to a glass epoxy resin substrate, and for example, a ceramic substrate, a metal base printed wiring board, or the like may be used.

  As shown in FIG. 2A, the power cable 3 includes two electric wires 3a, a protective tube 3b, and a plug connector 3c. The electric wire 3a is a covered electric wire in which a core wire is covered with a coating. The electric wire 3a includes a first electric wire 3s and a second electric wire 3t. The first electric wire 3 s is electrically connected to the anode of the LED 1. The second electric wire 3t is electrically connected to the cathode of the LED1. The protection tube 3b is provided so as to cover and protect the first electric wire 3s and the second electric wire 3t. The protective tube 3b is a cylindrical heat shrinkable tube. One end of the plug connector 3 c is provided at the tip end opposite to one end of the electric wire 3 a connected to the terminal portion 6. The plug connector 3c is configured so that it can be inserted into and removed from a receptacle connector provided at the tip of an output cable in a DC power supply device provided outside the lighting device 30. The DC power supply device may have a switching power supply circuit, for example, and may be configured to convert an AC voltage supplied from the power system into a DC voltage and output the DC voltage.

  As shown in FIGS. 1 to 6, the pressing member 4 includes a base portion 4a, a protruding portion 4b, a guide portion 4c, and an elastic portion 4d. The base portion 4a has a rectangular flat plate-like outer shape. The base portion 4 a is formed so that the short direction is shorter than the short direction of the mounting substrate 2. The base portion 4 a is formed so that the longitudinal direction is shorter than the longitudinal direction of the mounting substrate 2. The base portion 4a includes a pair of cutout portions 4e along the longitudinal direction. As shown in FIG. 5, the pair of notches 4e is provided on both sides of the base 4a in the short direction.

  The protruding portion 4b is provided so as to protrude from the first main surface 4aa of the base portion 4a. The protrusion 4b has a cylindrical outer shape. The protruding portion 4b is provided at the central portion in the short direction of the base portion 4a. The protrusions 4b are provided on both ends in the longitudinal direction of the base 4a. The protrusion 4b is formed in an outer shape slightly smaller than the through hole 2ac of the mounting substrate 2. In the pressing member 4, of the pair of protrusions 4 b, one protrusion 4 b is inserted into the through hole 2 ac provided in the first mounting substrate 21, and the other protrusion 4 b penetrates the adjacent second mounting substrate 22. It is configured so that it can be inserted into the hole 2ac. The pressing member 4 can connect the adjacent mounting substrates 2 using a pair of protrusions 4b.

  The guide portion 4c is provided so as to protrude from the second main surface 4ab opposite to the first main surface 4aa of the base portion 4a. The guide portion 4c is provided along the longitudinal direction of the base portion 4a at each of both ends in the short side direction of the base portion 4a. The guide portion 4c includes a first guide 4ca, a second guide 4cb, and a third guide 4cc. The first guide 4ca is provided at one end portion along the longitudinal direction of the base portion 4a. The first guide 4ca is provided on both sides of the base portion 4a in the short direction. The first guide 4ca has a prismatic outer shape along the longitudinal direction of the base portion 4a. The 1st guide 4ca has the 1st inclined surface 4c1 so that the thickness along the thickness direction of the base part 4a may become thin as it approaches the end of the longitudinal direction of the base part 4a. The 2nd guide 4cb is provided in the center part along the longitudinal direction of base part 4a. The second guide 4cb is provided on both sides of the base portion 4a in the short direction. The second guide 4cb has a prismatic outer shape whose length along the longitudinal direction of the base portion 4a is longer than that of the first guide 4ca. The 3rd guide 4cc is provided in the other end part along the longitudinal direction of base part 4a. The 3rd guide 4cc is provided in the both sides of the transversal direction of base part 4a. The third guide 4cc has a prismatic outer shape whose length along the longitudinal direction of the base portion 4a is shorter than that of the second guide 4cb. The 3rd guide 4cc has the 2nd inclined surface 4c2 so that the thickness along the thickness direction of the base part 4a becomes thin as it approaches the other end of the longitudinal direction of the base part 4a. The first guide 4ca, the second guide 4cb, and the third guide 4cc are arranged in a straight line along the longitudinal direction of the base portion 4a.

  The pressing member 4 has the guide portion 4c having the first inclined surface 4c1 and the second inclined surface 4c2, so that the pressing member 4 is slid into the housing 32 together with the mounting substrate 2 to be inserted and removed. Can be easily performed.

  The elastic portion 4d is provided so as to protrude outward from the second main surface 4ab of the base portion 4a. As shown in FIG. 6, the elastic portion 4d has an L-shaped outer shape in a side view perpendicular to the longitudinal direction of the base portion 4a and the thickness direction of the base portion 4a. The pressing member 4 has a plurality of elastic portions 4d. The pressing member 4 is preferably provided with four or more elastic portions 4d. In the illuminating device 30 of the present embodiment, the mounting substrate 2 can be stably pressed by providing four or more elastic portions 4d. Among the plurality of elastic portions 4d, one elastic portion 4d is integrally formed to be connected to one end of the second guide 4cb in the longitudinal direction of the base portion 4a. Among the plurality of elastic portions 4d, one elastic portion 4d is integrally formed so as to be connected to one end of the third guide 4cc in the longitudinal direction of the base portion 4a.

  The elastic portion 4d is configured to be able to bend along the thickness direction of the base portion 4a. The elastic portion 4d is provided with an elastic contact portion 4da at the tip. The elastic contact portion 4da has a semi-cylindrical outer shape provided along the short direction of the base portion 4a. Since the elastic contact portion 4da has a semi-cylindrical outer shape, it is easier to slide the mounting substrate 2 and the pressing member 4 together into the housing 32 for insertion and removal. it can. The elastic portion 4d is configured such that the elastic contact portion 4da protrudes outward from the guide portion 4c in the thickness direction of the base portion 4a. The elastic portion 4d is formed so that the elastic contact portion 4da can come into contact with the inner wall surface 32aa of the housing 32 in a state where the mounting substrate 2 is supported by the support portion 32f of the housing 32. The elastic portion 4d is configured to be elastically deformable in a state where the mounting substrate 2 is supported by the support portion 32f of the housing 32 and the elastic contact portion 4da is in contact with the inner wall surface 32aa of the housing 32. In FIG. 4, the elastic part 4d in the bent state is illustrated by a one-dot chain line. The elastic portion 4d is configured to be accommodated in the cutout portion 4e of the base portion 4a when bent in the thickness direction of the base portion 4a.

  In the pressing member 4, a base portion 4a, a guide portion 4c, an elastic portion 4d, and a protruding portion 4b are integrally formed. The pressing member 4 can be made of, for example, a resin material such as polycarbonate resin. When the pressing member 4 is formed of a resin material, it can be formed by injection molding. The pressing member 4 is not limited to being formed of a resin material, and may be formed of a metal material. The pressing member 4 is not limited to a configuration in which the base portion 4a, the guide portion 4c, the elastic portion 4d, and the protruding portion 4b are integrally formed. For example, the pressing member 4 can have the base portion 4a, the guide portion 4c, and the protruding portion 4b formed of a resin material, and the elastic portion 4d formed of a metal material.

  The pressing member 4 is not limited to the case where only one lighting member 30 is provided, and a plurality of pressing members 4 may be appropriately provided along the longitudinal direction of the long mounting substrate 2. The pressing member 4 may be provided at an end portion of the long mounting substrate 2 or may be provided at a central portion in the longitudinal direction of the mounting substrate 2. The pressing member 4 may be arranged at an appropriate position along the longitudinal direction of the mounting substrate 2. Since the pressing member 4 is formed shorter than the longitudinal direction of the long mounting substrate 2, the insertion resistance to the housing 32 can be reduced and can be easily slid.

  The plural types of electronic components 5 constitute a constant current circuit that is electrically connected to each other and supplies a constant current to the LED 1. Examples of the electronic component 5 include a resistor and a transistor. For example, one constant current circuit is provided for each series circuit of seven LEDs 1. The constant current circuit is formed on the first surface 2aa of the mounting substrate 2. In the lighting device 30, for example, when 21 LEDs 1 are mounted on the mounting substrate 2, three constant current circuits are formed. All three constant current circuits are formed with a common circuit configuration. The three constant current circuits are electrically connected in parallel to the pair of connectors 7. Each of the three constant current circuits is configured to make the current flowing through the LED 1 constant when a predetermined DC voltage is applied.

  The terminal portion 6 is configured to constitute a part of an electric circuit that supplies power to the LED 1 by wiring. The terminal portion 6 is configured to be electrically connected to one end of the electric wire 3a. The terminal portion 6 is configured to be electrically connected to the core wire of the electric wire 3a. The terminal part 6 is comprised by the quick connection terminal which can connect the electric wire 3a, without using a tool. The terminal portion 6 is not limited to the quick connection terminal, and may be configured by a connector. The mounting substrate 2 does not necessarily need to be provided with the terminal portion 6 and may have a configuration in which one end of the electric wire 3a is directly electrically connected to a part of the wiring on the mounting substrate 2 by solder or the like.

  The connector 7 may be provided at both ends in the longitudinal direction of the mounting board 2 or may be provided only at one end in the longitudinal direction of the mounting board 2. In the mounting substrate 2, for example, one connector 7 in the longitudinal direction can be a male connector 7a and the other connector 7 in the longitudinal direction can be a female connector 7b. When one male connector 7a of the adjacent mounting board 2 and the other female connector 7b of the adjacent mounting board 2 are connected, the lighting device 30 can feed power from one mounting board 2 to the other mounting board. it can. In other words, the mounting substrate 2 can be used for feed wiring to the adjacent mounting substrate 2 by using the connectors 7 provided at both ends in the longitudinal direction. The illuminating device 30 is configured such that the LED 1 mounted on three or more mounting substrates 2 can be lit by connecting the mounting substrate 2 provided with the connectors 7 at both ends in the longitudinal direction in the longitudinal direction of the mounting substrate 2. can do.

  The housing 32 has a cylindrical outer shape. The housing 32 is configured so that the mounting substrate 2 can be slid and inserted therein. As shown in FIG. 2, the housing 32 is provided with end caps 33 at both ends in the longitudinal direction. In the illuminating device 30 of the present embodiment, the housing 32 includes a bottom wall 32b and a pair of side walls 32c, as shown in FIG. 1, in addition to the light emitting part 32a and the support part 32f.

  The light emission part 32a has translucency with respect to the light emitted from the LED 1 so that the light emitted from the LED 1 can be emitted to the outside. The light emitting part 32a has a semi-cylindrical outer shape. A plurality of irregularities 32d are formed on the inner peripheral surface of the light emitting portion 32a. In the illuminating device 30, when the light radiated | emitted from LED1 permeate | transmits the light-projection part 32a, it is spread | diffused by the some unevenness | corrugation 32d.

  The pair of side walls 32c are formed integrally with the light emitting portion 32a so as to extend from both ends of the light emitting portion 32a. As shown in FIG. 1, the side wall 32 c includes a V-shaped hook portion 32 e that protrudes outward as viewed from the longitudinal direction of the housing 32. A support portion 32f that supports the mounting substrate 2 is formed on the side wall 32c. The support portion 32f has a flat outer shape. The support portion 32f is formed in a long shape along the side wall 32c. The support portion 32f is provided so as to protrude from the center portion on the inner surface of the side wall 32c toward the bottom wall 32b opposite to the light emitting portion 32a when viewed from the longitudinal direction of the housing 32. The mounting substrate 2 is supported by the support portion 32f such that the LED 1 is opposed to the light emitting portion 32a and both edge portions in the lateral direction are placed on the support portion 32f.

  The bottom wall 32b has a long rectangular plate-like outer shape. The bottom wall 32b is formed so as to be connected to the side wall 32c at both ends in the lateral direction. The bottom wall 32 b is formed with a recess 32 g in the center as seen from the longitudinal direction of the housing 32. The recess 32g is formed over the entire length of the bottom wall 32b along the longitudinal direction of the bottom wall 32b. At both ends of the recess 32g, a first protrusion 32h that protrudes outward is formed along the thickness direction of the bottom wall 32b. The first protrusion 32h has a rectangular plate-like outer shape. The first protrusion 32h is formed over the entire length of the bottom wall 32b along the longitudinal direction of the bottom wall 32b.

  The bottom wall 32b includes a second protrusion 32j that protrudes toward the light emitting portion 32a along the thickness direction of the bottom wall 32b. The second protrusion 32j has a rectangular plate-like outer shape. The second protrusion 32j is formed over the entire length along the longitudinal direction of the bottom wall 32b. The second protrusion 32j is provided outside the recess 32g in the short direction of the bottom wall 32b. The pair of second protrusions 32j are provided to face each other so as to sandwich the recess 32g. The casing 32 is improved in mechanical strength by the pair of first protrusions 32h and the pair of second protrusions 32j. The casing 32 has a recess 32cc formed in a region surrounded by the second protrusion 32j, the bottom wall 32b, and the recess 32g in a cross-sectional view orthogonal to the longitudinal direction. The recess 32 cc is provided along the longitudinal direction of the housing 32. The recess 32cc is provided so as to accommodate the guide portion 4c and the elastic portion 4d of the pressing member 4. The recess 32cc guides the slide of the pressing member 4 when the mounting substrate 2 is inserted into the housing 32 by accommodating the guide portion 4c and the elastic portion 4d. The recess 32cc functions as a restricting portion 32k that restricts the movement of the elastic portion 4d in the direction orthogonal to the longitudinal direction of the housing 32 by accommodating the guide portion 4c and the elastic portion 4d. The inner bottom surface of the recess 32cc constitutes a part of the inner wall surface 32aa of the housing 32 that contacts the elastic contact portion 4da.

  In the housing 32, a light emitting part 32a, a bottom wall 32b, a side wall 32c, and a support part 32f are integrally formed. The housing 32 is made of a resin material having translucency. The housing 32 can be formed using, for example, a resin material such as polycarbonate resin or acrylic resin. The housing 32 can be formed by, for example, extrusion molding. The housing 32 may be formed by two-color molding. The housing 32 may be formed by including a light diffusing material in a translucent resin material. The housing 32 is not limited to the configuration in which the light emitting portion 32a, the bottom wall 32b, the side wall 32c, and the support portion 32f are integrally formed, and may be a configuration formed separately. In the case 32, for example, the light emitting part 32a can be made of a light-transmitting material and the parts other than the light emitting part 32a can be made of an aluminum material so that at least light from the LED 1 can be emitted to the outside.

  As shown in FIG. 2, the end cap 33 is provided at the end of the casing 32 in the longitudinal direction. The end cap 33 is formed in a bottomed cylindrical outer shape. The end cap 33 is formed in an outer shape slightly larger than the outer shape of the end portion of the housing 32 so that the end cap 33 can be attached to the end portion of the housing 32. When the end cap 33 is attached to the housing 32, the end cap 33 is in close contact with the outer surface of the housing 32.

  As shown in FIG. 2, the lighting device 30 is provided with a pair of holes through which the electric wire 3 a of the power cable 3 is inserted in one of the two end caps 33. The end cap 33 is made of a flexible material. Examples of the material of the end cap 33 include silicone resin and urethane resin.

  Below, the assembly process of the illuminating device 30 is demonstrated easily.

  In the assembly process, a mounting substrate 2 in which the LED 1, the electronic component 5, the terminal portion 6, and the connector 7 are mounted on the first surface 2aa is prepared in advance. In the assembly process, the core wire on one end side of the electric wire 3 a inserted through the hole of the end cap 33 is electrically connected to the terminal portion 6.

  In the assembly process, the male connector 7 a of the first mounting board 21 out of the pair of mounting boards 2 is mechanically and electrically connected to the female connector 7 b of the second mounting board 22. In the assembly process, the connector 7 of the pair of mounting boards 2 is connected and elongated, and the pressing member 4 is attached so as to straddle the pair of mounting boards 2. In the assembly process, one protrusion 4 b of the pressing member 4 is inserted into the through hole 2 ac of the first mounting substrate 21. In the assembly process, the other protrusion 4 b of the pressing member 4 is inserted into the through hole 2 ac of the second mounting substrate 22. The pressing member 4 is disposed such that the protruding portion 4b is inserted into the through hole 2ac of the mounting substrate 2 and the first main surface 4aa is in contact with the second surface 2ab of the mounting substrate 2.

  Next, in the assembly process, the housing 32 is mounted from the end of the housing 32 so that the mounting substrate 2 is placed on the pair of support portions 32f in a state where the pressing member 4 is attached so as to straddle the pair of mounting substrates 2. The mounting board 2 is inserted into the inside. In the assembly process, the pressing member 4 is inserted into the housing 32 by being slid together with the mounting substrate 2 so that the guide portion 4 c is accommodated in the recess 32 cc of the housing 32. In the assembly process, the end cap 33 is attached to both ends of the casing 32 in the longitudinal direction, so that the mounting substrate 2 can be fixed integrally with the casing 32.

  The lighting device 30 is assembled by housing the mounting substrate 2 in the housing 32 and attaching end caps 33 to both ends of the housing 32. The illuminating device 30 can light the LED 1 by supplying DC power from the DC power supply device via the power cable 3.

  Hereinafter, it will be described that the lighting device 30 of the present embodiment can be made more reliable with a relatively simple configuration including the pressing member 4.

  In the illuminating device of Patent Document 1, assembling workability can be improved by fixing the substrate and the mounting member by caulking instead of fixing them with screws. However, in the illumination device of Patent Document 1, it is necessary to fix the substrate and the mounting member by caulking, which is not sufficient for improving the assembly workability. Further, in the lighting device of Patent Document 1, the substrate may be bent during caulking and fixing. In the lighting device of Patent Document 1, when the substrate is bent, the reliability of electrical connection between the light emitting diode and the substrate may be reduced.

  By the way, as a lighting device of a comparative example compared with this embodiment, in order to improve assembly workability, a configuration in which a mounting board is directly inserted into a housing and supported by a support provided in the housing is also considered. It is done.

  However, in the lighting device of the comparative example, when the mounting board is inserted into the housing, if the gap between the housing and the mounting board becomes large due to variations in the dimensions of the mounting board or the housing dimensions, Since the relative position of the housing and the mounting board is not determined inside, there is a possibility that the mounting board may be rattled. In addition, in the lighting device of the comparative example, when the mounting board is inserted into the housing, if the clearance between the mounting board and the support portion is too small due to variations in the dimensions of the mounting board or the housing dimensions, It tends to be difficult to insert the substrate into the housing. In the lighting device of the comparative example, when it is difficult to insert the mounting board into the housing, the mounting board may be bent when the mounting board is inserted into the housing.

  In particular, in the lighting device of the comparative example, when a long mounting board is slid into the cylindrical housing and inserted, if a large force is required for the insertion, the assembly workability tends to decrease. is there.

  When a large mounting board requires sliding to insert a long mounting board into a cylindrical housing, a large force is required to insert the lighting apparatus. It tends to be easy.

  In the lighting device of the comparative example, when the mounting substrate is bent, mechanical stress is applied to the solder joint that electrically connects the mounting substrate and the LED, the electronic component, the terminal portion, or the connector. There is a risk of causing poor electrical contact or disconnection between the circuit board and the mounting board.

  In the illumination device 30 of the present embodiment, even if there are variations in the dimensions of the mounting substrate 2 and the size of the housing 32, the mounting substrate 2 is moved inside the housing 32 by the pressing member 4 that is pressed by elastic force. It is possible to suppress rattling. In the illumination device 30 of the present embodiment, the mounting substrate 2 can be restrained from being bent with a relatively simple configuration including the pressing member 4 that presses the mounting substrate 2 against the support portion 32f with an elastic force. The decrease can be suppressed.

  That is, in the illumination device 30 of the present embodiment, the pressing member 4 is held on the mounting substrate 2. The pressing member 4 has an elastic part 4d. The elastic portion 4d imparts an elastic force to the inner wall surface 32aa. The housing 32 has a restricting portion 32k. The restricting portion 32 k guides the slide of the pressing member 4 along the longitudinal direction of the housing 32. The restricting portion 32k preferably restricts the movement of the elastic portion 4d in the direction orthogonal to the longitudinal direction of the housing 32 and the thickness direction of the mounting substrate 2.

  In the illumination device 30 of the present embodiment, the pressing member 4 has the elastic portion 4d, the housing 32 guides the slide of the pressing member 4, and has the restriction portion 32k that restricts the movement of the elastic portion 4d. With a simple configuration, the relative positioning of the mounting substrate 2 and the housing 32 can be performed.

  In the lighting device 30 of the present embodiment, the pressing member 4 has a pair of elastic portions 4d provided along the longitudinal direction of the housing 32 orthogonal to the longitudinal direction of the housing 32 and the thickness direction of the mounting substrate 2. It is preferable to provide on both sides in the width direction.

  In the illumination device 30 of the present embodiment, the pressing member 4 includes a pair of elastic portions 4d provided along the longitudinal direction of the housing 32 on both sides in the width direction, thereby supporting the mounting substrate 2 as a support portion. It is possible to press more uniformly and stably toward 32f.

  In the illuminating device 30 of the present embodiment, the elastic portion 4 d is provided so as to extend along the longitudinal direction of the housing 32. The elastic portion 4 d is preferably a spring structure configured to bend along the thickness direction of the mounting substrate 2.

  The lighting device 30 of the present embodiment is provided so that the elastic portion 4d extends along the longitudinal direction of the housing 32, and is configured to bend along the thickness direction of the mounting substrate 2, so that the interior of the housing 32 Insertion of the mounting board 2 into the can be facilitated.

  In the illuminating device 30 of this embodiment, it is preferable that at least one pair of the mounting substrates 2 is provided, and the pressing member 4 connects the pair of mounting substrates 2.

  In the illumination device 30 of the present embodiment, the pressing member 4 can more easily insert and remove the pair of mounting boards 2 into the housing 32 by connecting the pair of mounting boards 2. As a result, assembly workability can be improved.

(Embodiment 2)
The refrigerated showcase 40 of the present embodiment shown in FIG. 7 is configured to include the illumination device 30 of the first embodiment shown in FIG. Note that in the lighting device 30 of the present embodiment, the same components as those of the first embodiment are denoted by the same reference numerals, and description thereof will be omitted as appropriate.

  The refrigerated showcase 40 of this embodiment is installed in a store such as a supermarket or a convenience store, and is configured to refrigerate while displaying products. The refrigerated showcase 40 has a display chamber 40aa opened forward. In the display room 40aa, a plurality of display shelves 41 for displaying products are provided at intervals in the vertical direction. The illuminating device 30 is installed so as to illuminate the products displayed on the display shelves 41 from the front and upper sides of the upper display shelves 41. The illuminating device 30 is attached to the front lower surface side of the display shelf 41 of each stage using an attachment member 36 shown in FIG.

  As shown in FIGS. 8A and 8B, the refrigerated showcase 40 of the present embodiment has the lighting device 30 installed at a predetermined location using an attachment member 36. The attachment member 36 is configured to be fixed to the display shelf 41 by a fixing screw 37. The attachment member 36 includes a fixed plate 36a, a first spring piece 36b, and a second spring piece 36c. The fixed plate 36a is formed in a rectangular flat plate shape. A screw insertion hole through which the fixing screw 37 is inserted passes through the center of the fixing plate 36a. The first spring piece 36b is formed in a Z shape when viewed from the longitudinal direction. The first spring piece 36b is connected to one end of the fixed plate 36a. The first spring piece 36b has a first hooking recess 36d. The first hook recess 36d is provided so as to be recessed with respect to the second spring piece 36c. The second spring piece 36c is connected to the other end opposite to the one end of the fixed plate 36a. The second spring piece 36c has a second hooking recess 36e and a third hooking recess 36f. The second hook recess 36e and the third hook recess 36f are provided so as to be recessed with respect to the first spring piece 36b, respectively.

  As shown in FIG. 8A, the lighting device 30 has the hook portion 32e of one side wall 32c hooked to the first hook recess 36d of the first spring piece 36b. The lighting device 30 is installed so that the hook 32e of the other side wall 32c is hooked on the second hook recess 36e of the second spring piece 36c and attached to the mounting member 36. As shown in FIG. 8A, the housing 32 can avoid interference with the head portion 37a of the fixing screw 37 by the recess 32g provided in the bottom wall 32b.

  The lighting device 30 can be installed as shown in FIG. 8B as well as the case where the lighting device 30 is fixed and installed on the mounting member 36 as shown in FIG. 8A. In the illuminating device 30 shown in FIG. 8B, the hook portion 32e of one side wall 32c is hooked on the first hook recess 36d of the first spring piece 36b. The lighting device 30 is installed such that the hook 32e of the other side wall 32c is hooked on the third hook recess 36f of the second spring piece 36c and attached to the mounting member 36.

  The refrigerated showcase 40 of the present embodiment includes the pressing member 4 even when an external force is applied to the lighting device 30 during installation, thereby suppressing the bending of the mounting substrate 2 inside the housing 32 and more reliable. Can be increased.

  The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the technical idea of the present invention.

1 LED
2 mounting substrate 2aa first surface 2ab second surface 4 pressing member 4d elastic part 30 lighting device 32 housing 32a light emitting part 32aa inner wall surface 32f support part 32k regulating part

Claims (5)

An LED, a long mounting substrate on which the LED is mounted on the first surface, a casing that is cylindrical and into which the mounting substrate is inserted, and a pressing member;
The housing includes a light emitting portion that emits light from the LED to the outside, and a support portion that supports the first surface at an end edge portion in a short direction of the mounting substrate.
The pressing member is disposed between a second surface of the mounting substrate opposite to the first surface and an inner wall surface of the housing facing the second surface, and the mounting substrate faces the support portion. And an illuminating device that is pressed by an elastic force. The pressing member is held on the mounting substrate,
An elastic portion for applying an elastic force to the inner wall surface;
The housing guides the slide of the pressing member along the longitudinal direction of the housing, and moves the elastic portion in a direction orthogonal to the longitudinal direction of the housing and the thickness direction of the mounting substrate. The lighting device according to claim 1, further comprising a restricting portion for restricting.   The pressing member includes a pair of elastic portions provided along the longitudinal direction of the casing on both sides in the width direction orthogonal to the longitudinal direction of the casing and the thickness direction of the mounting substrate. The lighting device according to claim 2.   The said elastic part is provided so that it may extend along the longitudinal direction of the said housing | casing, It is a spring structure comprised so that it might bend along the thickness direction of the said mounting substrate, The Claim 2 or Claim characterized by the above-mentioned. 3. The lighting device according to 3.   5. The lighting device according to claim 1, wherein at least a pair of the mounting boards are provided, and the pressing member connects the pair of mounting boards.

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