JP7325023B2 - LED lighting device and LED lighting equipment - Google Patents

Description

TECHNICAL FIELD The present invention relates to an LED lighting device and an LED lighting fixture including the LED lighting device.

LED lighting fixtures using LEDs (Light Emitting Diodes) are known. Conventionally, as an LED lighting fixture installed on a ceiling, there is known a lighting fixture that includes a long LED lighting device called a light bar and a long fixture body having a concave portion to which the LED lighting device is detachably attached. (Patent Document 1).

This type of LED lighting device includes a long substrate, a plurality of LEDs mounted on the substrate, a long diffusion cover covering the plurality of LEDs, and a support member that supports the substrate and to which the diffusion cover is attached. and a pair of end caps attached to both longitudinal ends of the diffusion cover. A pair of end caps are substantially plate-shaped members, and are connected to the diffusion cover so as to cover both ends of the diffusion cover.

JP-A-2010-73670

In the configuration of a conventional LED lighting device, there is a problem that the LED lighting device cannot be easily attached to the device main body when the LED lighting device is installed on the ceiling or the like. Moreover, when the LED lighting device is detachably attached to the device body, it is not easy to attach and detach the LED lighting device to the device body. In other words, it is difficult to attach the LED lighting device to the lighting fixture or to remove the LED lighting device from the fixture body.

The present invention has been made in view of such problems, and an object of the present invention is to provide an LED lighting device and an LED lighting fixture that can be easily attached to and detached from the fixture body.

In order to achieve the above object, one aspect of the LED lighting device according to the present invention includes a long substrate, a plurality of LEDs arranged on one surface of the substrate along the longitudinal direction of the substrate, An elongated light-transmitting cover disposed facing the one surface of the substrate so as to cover the plurality of LEDs, and an end cap provided at one end in a longitudinal direction of the light-transmitting cover. and, the end cap has a plate-like main portion and a connection portion that is directly or indirectly connected to the light-transmitting cover, and the main portion is a surface in the thickness direction of the main portion and an inner portion in which both the outer surface and the inner surface are located inside other portions of the main portion.

Further, one aspect of an LED lighting fixture according to the present invention includes the LED lighting device described above and a fixture body that holds the LED lighting device.

It is possible to easily attach and detach the LED lighting device to and from the fixture body.

FIG. 1 is a perspective view of an LED lighting fixture according to an embodiment. FIG. 2 is an exploded perspective view of the LED lighting fixture according to the embodiment. FIG. 3 is a side view when the LED lighting fixture according to the embodiment is viewed from the longitudinal direction. FIG. 4 is a cross-sectional view of the LED lighting fixture according to the embodiment. FIG. 5 is a perspective view of the LED lighting device according to the embodiment when viewed from the diffusion cover side. FIG. 6 is a perspective view when the LED lighting device according to the embodiment is viewed from the back side. FIG. 7 is a cross-sectional perspective view of the LED lighting device according to the embodiment. FIG. 8 is a plan view of the LED lighting fixture according to the embodiment. FIG. 9 is a side view of the LED lighting fixture according to the embodiment. FIG. 10 is a cross-sectional view of an LED lighting fixture according to an embodiment. FIG. 11 is an enlarged cross-sectional view of a longitudinal end portion of the LED lighting fixture according to the embodiment. FIG. 12 is a diagram showing the configuration of an end cap used in the LED lighting fixture according to the embodiment. FIG. 13 is a cross-sectional view showing a state in which the LED lighting fixture according to the embodiment installed on the ceiling is lit. FIG. 14 is a diagram showing how the LED lighting device is removed from the fixture body in the LED lighting fixture according to the embodiment. 15A and 15B are diagrams showing a configuration of an end cap according to Modification 1. FIG. FIG. 16 is a diagram showing the configuration of an end cap according to Modification 2. FIG. FIG. 17 is a diagram showing the configuration of an LED lighting fixture according to Modification 2. As shown in FIG. 18A and 18B are diagrams showing the configuration of an end cap according to Modification 3. FIG. FIG. 19 is a diagram showing the configuration of an LED lighting fixture according to Modification 3. As shown in FIG. FIG. 20 is a diagram showing the configuration of an LED lighting fixture according to Modification 4. As shown in FIG. FIG. 21 is a diagram showing the configuration of an LED lighting fixture according to modification 5. As shown in FIG. FIG. 22 is a diagram showing another configuration of the LED lighting fixture according to Modification 5. As shown in FIG.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings. It should be noted that each of the embodiments described below is a specific example of the present invention. Therefore, numerical values, components, arrangement positions and connection forms of components, steps and the order of steps, etc. shown in the following embodiments are examples and are not intended to limit the present invention. Therefore, among the constituent elements in the following embodiments, constituent elements that are not described in independent claims representing the highest level concept of the present invention will be described as optional constituent elements.

Each figure is a schematic diagram and is not necessarily strictly illustrated. Moreover, in each figure, the same code|symbol is attached|subjected to the substantially same structure, and the overlapping description is abbreviate|omitted or simplified. In each figure, the X-axis, Y-axis, and Z-axis represent the three axes of a three-dimensional orthogonal coordinate system. direction parallel to the XY plane) is the horizontal direction. The X-axis and the Y-axis are orthogonal to each other and both orthogonal to the Z-axis. In this specification, the terms “upper” and “lower” do not necessarily indicate upward (vertically upward) and downward (vertically downward) directions in absolute spatial recognition.

(Embodiment)
First, the configuration of an LED lighting fixture 1 according to an embodiment will be described with reference to FIGS. 1 to 4. FIG. FIG. 1 is a perspective view of an LED lighting fixture 1 according to an embodiment. FIG. 2 is an exploded perspective view of the LED lighting fixture 1. FIG. FIG. 3 is a side view of the LED lighting fixture 1 when viewed from the longitudinal direction. FIG. 4 is a cross-sectional view of the same LED lighting fixture 1. As shown in FIG. FIG. 4 shows a cross section of the LED lighting fixture 1 taken along a plane parallel to the short direction.

As shown in FIGS. 1 to 4, the LED lighting fixture 1 according to the present embodiment includes a fixture body 2 and an LED lighting device 3 attached to the fixture body 2. As shown in FIGS.

The fixture body 2 holds the LED lighting device 3 . The fixture body 2 is installed at a predetermined location in the building. The LED lighting fixture 1 in the present embodiment is a ceiling-mounted lighting fixture. Therefore, the device main body 2 is attached to the indoor ceiling using bolts or the like.

In this embodiment, the instrument main body 2 is made of sheet metal, and is formed into a box shape that is long and flat in the Y-axis direction by bending a metal plate. As shown in FIG. 2, the instrument main body 2 is provided with a concave portion 2a having a rectangular opening surface. The concave portion 2 a is provided in an elongated shape along the longitudinal direction of the instrument body 2 . The recessed portion 2 a is a storage portion for storing the LED lighting device 3 and is provided over substantially the entire length of the fixture body 2 . As shown in FIGS. 2 to 4, on both sides of the recess 2a in the width direction of the instrument body 2, there are inclined surfaces extending from the opening edge of the recess 2a and inclined upward (ceiling side) toward the outside. 2b are provided respectively.

The LED lighting device 3 is a light source unit using LEDs as a light source. The LED lighting device 3 is detachably attached to the concave portion 2a of the fixture body 2. As shown in FIG. For example, the LED lighting device 3 can be attached to the recess 2a of the fixture body 2, or the LED lighting device 3 attached to the recess 2a of the fixture body 2 can be removed from the recess 2a. The LED lighting device 3 and the device main body 2 can be fixed by locking a mounting bracket such as a plate spring provided on the LED lighting device 3 to the device main body 2 .

As shown in FIG. 4 , the LED lighting device 3 emits light by power supplied from a power supply device 4 housed in the fixture body 2 . The power supply device 4 supplies power to the LED lighting device 3, and is arranged on the back side of the LED lighting device 3, for example. Specifically, the power supply device 4 is arranged in the concave portion 2 a of the instrument main body 2 . In this embodiment, the power supply device 4 is attached to the LED lighting device 3 and integrated with the LED lighting device 3 . Note that the power supply device 4 may be arranged in the fixture main body 2 separately from the LED lighting device 3 instead of being integrated with the LED lighting device 3 .

The power supply device 4 is configured by a power supply circuit that generates power for causing the LED lighting device 3 to emit light. For example, the power supply device 4 has a printed circuit board on which a plurality of electronic components are mounted, and a circuit case that houses the printed circuit board. The power supply device 4 rectifies, smoothes, steps down, etc. AC power from an external power source such as a commercial power source, converts it into DC power of a predetermined level, and supplies the DC power to the LED lighting device 3 .

Next, the detailed structure of the LED illumination device 3 will be described using FIGS. 5 to 7 while referring to FIGS. 1 to 4. FIG. FIG. 5 is a perspective view of the LED lighting device 3 according to the embodiment when viewed from the diffusion cover 30 side, and FIG. 6 is a perspective view of the LED lighting device 3 when viewed from the back side. FIG. 7 is a cross-sectional perspective view of the same LED lighting device 3. As shown in FIG.

As shown in FIGS. 2, 5 and 6, the LED lighting device 3 is an elongated line light source called a light bar. The LED lighting device 3 emits light of a predetermined color such as white light.

As shown in FIGS. 4 and 7, the LED lighting device 3 supports a substrate 10, a plurality of LEDs 20 arranged on the substrate 10, an elongated diffusion cover 30 covering the plurality of LEDs 20, and the substrate 10. A support member 40 and an end cap 50 are provided.

The substrate 10 is a mounting substrate for mounting the LEDs 20 thereon. In this embodiment, the substrate 10 is formed in a substantially rectangular shape elongated in the longitudinal direction (Y-axis direction) of the support member 40 . The thickness of the substrate 10 is, for example, 1.0 mm. The substrate 10 may have a length substantially equal to the total length of the support member 40 in the longitudinal direction, or a plurality of substrates 10 may be arranged along the longitudinal direction of the support member 40 .

The substrate 10 has a first surface 10a, which is one surface, and a second surface 10b, which is the other surface facing the first surface 10a. The first surface 10a of the substrate 10 is the front surface on which the LEDs 20 are mounted. On the other hand, the second surface 10 b of the substrate 10 is the back surface facing the support member 40 . In this embodiment, the second surface 10b of the substrate 10 and the supporting member 40 are in contact with each other.

The board 10 is, for example, a printed wiring board (printed board) on which metal wiring is formed in a predetermined pattern. In addition, a resist made of an insulating resin material may be formed on the surface of the substrate 10 so as to cover the wiring in order to protect the wiring and ensure a dielectric strength voltage. The substrate 10 may be a single-sided wiring board in which wiring is formed only on the first surface 10a on which the LEDs 20 are mounted, or a double-sided wiring substrate in which wiring is formed on each of the first surface 10a and the second surface 10b. may be

The base material constituting the substrate 10 includes a resin substrate made of an insulating resin material, a ceramic substrate made of a sintered body of a ceramic material such as alumina, and a metal substrate made of a metal material such as aluminum or copper. A metal base substrate or the like obtained by applying is used.

In the case where the substrate 10 is made of a resin substrate, the resin substrate may be, for example, a glass epoxy substrate (CEM-3, FR-4, etc.) made of glass fiber and epoxy resin, craft paper or the like, and phenol resin. A paper phenol base material (FR-1, FR-2), a paper epoxy base material (FR-3) composed of paper and epoxy resin, or a polyimide substrate made of polyimide or the like can be used. Further, the substrate 10 may be a rigid substrate or a film-like flexible substrate.

As shown in FIG. 7, a plurality of LEDs 20 are mounted on the first surface 10a of the substrate 10. As shown in FIG. In this embodiment, the plurality of LEDs 20 are mounted linearly in a row along the longitudinal direction (Y-axis direction) of the substrate 10 at predetermined intervals. Specifically, the plurality of LEDs 20 are mounted over substantially the entire length of the diffusion cover 30 and the support member 40 in the longitudinal direction. Therefore, the leading and trailing LEDs 20 among the plurality of LEDs 20 are positioned near the end cap 50 . In addition, along the longitudinal direction of the board|substrate 10, several LED20 may be mounted not in one row but in multiple rows.

LED20 is an example of a light emitting element. In the present embodiment, each of the plurality of LEDs 20 is an individually packaged SMD structure LED element (LED light source). In this case, each LED 20 includes a white container (package) made of resin or ceramic, an LED chip (bare chip) arranged in the container, and a sealing member that seals the LED chip. In this embodiment, the LED 20 is a white LED element that emits white light. In this case, for example, a blue LED chip that emits blue light when energized is used as the LED chip, and a silicone resin containing a yellow phosphor such as YAG (fluorescent body containing resin) is used.

A plurality of LEDs 20 are covered with a diffusion cover 30 . The diffusion cover 30 is an example of a translucent cover that transmits light emitted from the LEDs 20 . In the present embodiment, the diffusion cover 30 is not only translucent but also diffusive. Therefore, the light from the LEDs 20 incident on the diffusion cover 30 is diffused (scattered) by the diffusion cover 30 and passes through the diffusion cover 30 .

As shown in FIGS. 4 and 7, the diffusion cover 30 is arranged to face the first surface 10a of the substrate 10 so as to cover the plurality of LEDs 20. As shown in FIG. The diffusion cover 30 covers the entire substrate 10 . In this embodiment, as shown in FIGS. 5 and 6, the diffusion cover 30 covers the entire support member 40 on which the substrate 10 is arranged. Therefore, like the substrate 10, the diffusion cover 30 is elongated in the Y-axis direction.

Diffusion cover 30 is attached to support member 40 . A cylinder is formed by the diffusion cover 30 and the support member 40, and the substrate 10 and the plurality of LEDs 20 mounted on the substrate 10 are housed in this cylinder.

The diffusion cover 30 includes a gutter-shaped main body portion 31 elongated in the Y-axis direction, and a pair of extending portions 32 provided at both ends of the main body portion 31 in the short direction (X-axis direction). have The body portion 31 has, for example, a flattened semi-cylindrical shape. Therefore, the body portion 31 has an elongated rectangular opening end surface extending in the Y-axis direction. Moreover, the cross-sectional shape of the main body portion 31 when cut along the X-axis direction is a curved shape curved in an arc shape. A concave portion is formed in the inner surface of each of the pair of extension portions 32 , and the diffusion cover 30 is fixed to the support member 40 by attaching the pair of mounting portions 42 of the support member 40 to the concave portion.

The diffusion cover 30 is made of a translucent resin material such as acrylic or polycarbonate or a translucent material such as a glass material. In this embodiment, the diffusion cover 30 is made of a translucent resin material. In this case, the diffusion cover 30 can be a milky white cover member in which a light diffusion material is dispersed. Such a diffusion cover 30 can be produced by resin-molding a translucent resin material mixed with a light diffusion material into a predetermined shape. Light reflective fine particles such as silica particles can be used as the light diffusing material.

The diffusion cover 30 is formed by forming a milky-white light diffusion film containing a light diffusion material or the like on the surface (inner surface or outer surface) of the transparent cover, instead of dispersing the light diffusion material inside. good too. Moreover, the diffusion cover 30 may be configured to have light diffusibility by performing diffusion processing instead of using a light diffusion material. For example, the diffusion cover 30 may be subjected to a surface treatment such as embossing to form minute irregularities on the surface of the transparent cover, or may be printed with a dot pattern on the surface of the transparent cover so as to have light diffusion properties. may be configured. The diffusion cover 30 may further contain a light diffusing material in order to enhance the light diffusibility even when diffusion processing is performed.

The support member 40 is an elongated base member that supports the substrate 10 . The substrate 10 is placed on the support member 40 . By placing the substrate 10 on the support member 40 and fixing the substrate 10 to the support member 40 , the substrate 10 is supported by the support member 40 . In this embodiment, the support member 40 supports not only the substrate 10 but also the diffusion cover 30 . Diffusion cover 30 is fixed to support member 40 .

As an example, the support member 40 is a sheet metal frame. The support member 40 is formed into a predetermined shape by subjecting a sheet metal (metal plate) made of, for example, SPCC (Steel Plate Cold Commercial) to roll forming, press working, or the like. In the present embodiment, the support member 40 is formed to have a substantially M-shaped cross section when cut along the X-axis direction. Further, the support member 40 is elongated in the Y-axis direction similarly to the substrate 10 and the instrument body 2 . The thickness of the metal plate forming the support member 40 is, for example, 0.2 mm to 2 mm, and is 0.5 mm in this embodiment.

As shown in FIGS. 4 and 7 , the support member 40 has a body portion 41 on which the substrate 10 is placed, and a pair of attachment portions 42 for attaching the support member 40 to the diffusion cover 30 . The body portion 41 and the pair of mounting portions 42 extend in the Y-axis direction.

A pair of stepped portions 41a are formed in the width direction (X-axis direction) of the body portion 41 along the longitudinal direction. A recess 41b is formed in the body portion 41 by the pair of stepped portions 41a. A pair of the stepped portion 41a and the recessed portion 41b are formed over the entire length of the main body portion 41 in the longitudinal direction. The substrate 10 is placed in the recess 41b. The body portion 41 is formed with a claw portion formed by cutting and raising a part of the support member 40 made of sheet metal. It is fixed to the main body portion 41 by being engaged with the portion. The body portion 41 is provided with a through hole through which an electric wire for electrically connecting the wiring of the substrate 10 and the power supply device 4 is inserted.

The pair of mounting portions 42 constitute side portions of the support member 40 . Each of the pair of mounting portions 42 extends in the Z-axis direction from both ends of the body portion 41 in the lateral direction (X-axis direction). The extending portion 32 of the diffusion cover 30 is attached to each of the pair of attachment portions 42 . Thereby, the diffusion cover 30 is fixed to the support member 40 . For example, the diffusion cover 30 can be fitted and fixed to the support member 40 by snap-in engaging the extension portion 32 of the diffusion cover 30 with the attachment portion 42 of the support member 40 .

A long cylindrical body is configured by fixing the diffusion cover 30 and the support member 40 . End caps 50 are attached to both ends in the longitudinal direction of the cylindrical body composed of the diffusion cover 30 and the support member 40 .

Here, the detailed configuration of the end cap 50 will be described with reference to FIGS. 8 to 12 while referring to FIGS. 1 to 7. FIG. FIG. 8 is a plan view of the LED lighting fixture 1 according to the embodiment. FIG. 9 is a side view of the LED lighting fixture 1. FIG. FIG. 10 is a cross-sectional view of the same LED lighting fixture 1. As shown in FIG. FIG. 10 shows a cross section taken along a plane parallel to the longitudinal direction of the LED lighting fixture 1 . FIG. 11 is an enlarged cross-sectional view of the longitudinal end of the LED lighting fixture 1. FIG. FIG. 12 is a diagram showing the configuration of an end cap 50 used in the same LED lighting fixture 1. As shown in FIG. 12, (a) is a perspective view of the end cap 50 when viewed from the outer side surface 51a side, and (b) is a perspective view of the end cap 50 when viewed from the inner side surface 51b side. (c) is a side view of the end cap 50 as seen from the support member 40 side end face, and (d) is a cross-sectional perspective view of the end cap 50 cut in half.

As shown in FIGS. 5 and 6, end caps 50 are provided at both ends of the LED lighting device 3 in the longitudinal direction. Specifically, the end caps 50 are provided at both ends of the diffusion cover 30 in the longitudinal direction. That is, the end cap 50 is a cover end provided at the end of the diffusion cover 30 .

As shown in FIGS. 8 to 11, the end cap 50 provided at one end in the longitudinal direction of the diffusion cover 30 is a first end cap 50a. Specifically, the first end cap 50 a is directly or indirectly connected to one longitudinal end of the diffusion cover 30 .

The end cap 50 provided on the other end side in the longitudinal direction of the diffusion cover 30 is a second end cap 50b. Specifically, the second end cap 50 b is directly or indirectly connected to the other longitudinal end of the diffusion cover 30 .

In this embodiment, the first end cap 50a and the second end cap 50b are the same part. That is, the shape of the second end cap 50b is the same as the shape of the first end cap 50a. This can reduce costs.

The first end cap 50a and the second end cap 50b are arranged in opposite directions in the longitudinal direction (Y-axis direction) of the LED lighting device 3. As shown in FIG. Specifically, the first end cap 50a and the second end cap 50b, which are the same parts, are arranged so as to have a line-symmetrical positional relationship in the longitudinal direction of the LED lighting device 3. As shown in FIG.

The end cap 50 is a component for preventing dust, insects, and the like from entering the cylindrical body composed of the diffusion cover 30 and the support member 40 . The end cap 50 is provided so as to seal the end of the cylindrical body composed of the diffusion cover 30 and the support member 40 . In other words, the end cap 50 is attached to the cylinder so as to cover the opening at the end of the cylinder composed of the diffusion cover 30 and the support member 40, and closes the opening end of the cylinder. there is It should be noted that the end cap 50 does not completely close the open end of the cylindrical body composed of the diffusion cover 30 and the support member 40, and there is a slight gap between the end cap 50 and the support member 40. may

As shown in FIGS. 10 to 12, the end cap 50 has a plate-like main portion 51 and a connection portion 52 that is directly or indirectly connected to the diffusion cover 30 .

The main portion 51 constitutes the body portion of the end cap 50 and mainly functions to cover the open end portion of the cylindrical body composed of the diffusion cover 30 and the support member 40 .

In the present embodiment, all or part of the plate-like main portion 51 has translucency. Thus, the light from LED20 can be permeate|transmitted because the main part 51 has translucency. That is, the light emitted by the LED 20 is transmitted through the main portion 51 and emitted to the outside of the end cap 50 .

Specifically, the end cap 50 is entirely translucent. Therefore, the entire main portion 51 and the entire connecting portion 52 have translucency. Since the entire main portion 51 is translucent in this way, the light emitted from the LED 20 is emitted from the entire main portion 51 to the outside of the main portion 51 .

The translucent end cap 50 may be transparent or diffusive. By using the end cap 50 having translucency and diffusion properties, the light from the LED 20 incident on the end cap 50 is diffused (scattered) by the end cap 50 and transmitted through the end cap 50 .

The end cap 50 is made of a translucent resin material such as acrylic or polycarbonate or a translucent material such as a glass material. In this embodiment, the end cap 50 is made of translucent resin material. In this case, the end cap 50 can be a diffusing member in which a light diffusing material is dispersed. Such an end cap 50 can be produced by resin-molding a translucent resin material mixed with a light diffusing material into a predetermined shape. Light reflective fine particles such as silica particles can be used as the light diffusing material.

As the end cap 50 having translucency and diffusing properties, instead of dispersing the light diffusing material inside, a milky white light diffusing material containing a light diffusing material etc. is provided on the surface (inner surface or outer surface) of the transparent end cap. It may be configured by forming a membrane. Alternatively, the end cap 50 may be configured to have light diffusibility by performing diffusion processing instead of using a light diffusing material. For example, the end caps 50 may be subjected to a surface treatment such as embossing to form fine irregularities on the surface of the transparent end caps, or may be printed with a dot pattern on the surface of the transparent end caps to provide light diffusibility. may be configured to have The end cap 50 may further contain a light diffusing material in order to enhance the light diffusibility even when the end cap 50 is subjected to diffusion processing.

The end cap 50 may be made of the same material as the diffusion cover 30 or may be made of a material different from that of the diffusion cover 30 .

Also, the main portion 51 does not have to be translucent. In this case, the entire end cap 50 does not have to be translucent. For example, the non-light-transmitting end cap 50 is exemplified by one having light-blocking properties (light-absorbing properties) or light-reflecting properties. In this case, the end cap 50 is made of, for example, a white, black, or colored resin material. Also, the end cap 50 may have a translucent portion and a non-translucent portion.

The front view shape of the main portion 51 is, for example, a flattened fish cake shape as a whole. Therefore, as shown in FIG. 11 , one side of the main portion 51 in the Z-axis direction has a curved shape curved in an arc along the shape of the diffusion cover 30 .

The plate-like main portion 51 has a constant thickness. As an example, the thickness of the main portion 51 is 1 mm to 10 mm, but is not limited to this. Although the thickness of the main portion 51 is constant over the entire region of the main portion 51, the thickness is not limited to this.

As shown in FIG. 10 , the main portion 51 has an outer side surface 51 a and an inner side surface 51 b as surfaces in the thickness direction of the main portion 51 . In the end cap 50, the inner surface 51b is an end surface on the LED 20 side, and the outer surface 51a is an end surface on the side opposite to the LED 20 side. The outer surface 51a and the inner surface 51b are flat surfaces.

As described above, in the present embodiment, the entire main portion 51 is translucent, so the light emitted from the LED 20 and incident on the main portion 51 is transmitted through the main portion 51 as a whole. Therefore, the inner side surface 51b of the main portion 51 serves as a light incident surface on which the light of the LED 20 is incident, and the outer side surface 51a of the main portion 51 serves as a light emitting surface through which the light of the LED 20 is emitted to the outside. That is, the light from the LED 20 passes through the main portion 51, so that the outer surface 51a of the main portion 51 becomes a pseudo light emitting surface.

Further, as shown in FIG. 10 , the main portion 51 has a portion (inner portion) in which both the outer side surface 51 a and the inner side surface 51 b are located inside the other portions of the main portion 51 . That is, in the main portion 51, the outer surface 51a of the inner portion is located inside the outer surface 51a of the other portion that is different from the inner portion, and the inner surface 51b of the inner portion is located inside the other portion. is located inside the outer side surface 51a of the .

In the present embodiment, the main portion 51 has an inner portion, in which both the outer side surface 51a and the inner side surface 51b are located inside one end of the diffusion cover 30 (on the LED 20 side). In other words, the main portion 51 has a portion where both the outer side surface 51 a and the inner side surface 51 b are recessed from one end of the diffusion cover 30 toward the LED 20 . Furthermore, in the present embodiment, both the outer side surface 51 a and the inner side surface 51 b of the inner portion of the main portion 51 are located inside the end surface of the end cap 50 . In FIG. 10, the dashed line indicates one end of the diffusion cover 30 (the end on the side where the first end cap 50a is attached).

In addition, since the first end cap 50a and the second end cap 50b are arranged in a reversed relationship, both the first end cap 50a and the second end cap 50b have the outer surface 51a of the main portion 51. and the inner side surface 51 b has a portion located inside the end portion of the diffusion cover 30 .

As shown in FIGS. 10 to 12, the outer side surface 51a of the main portion 51 has at least a portion of an envelope curved in a cross section parallel to the longitudinal direction (Y-axis direction) of the diffusion cover 30. As shown in FIGS. Similarly, the inner side surface 51b of the main portion 51 has at least a portion of an envelope curved in a cross section parallel to the longitudinal direction of the diffusion cover 30 . In the present embodiment, each of the outer side surface 51a and the inner side surface 51b of the main portion 51 is concavely curved as a whole so as to be concaved inward. As an example, the outer side surface 51a of the main portion 51 has a parabolic shape.

In the present embodiment, the main portion 51 is generally inclined such that the upper portion is receded more inward than the lower portion in the height direction, which is the Z-axis direction, and the width is the X-axis direction. In terms of direction, it has a curved shape as a whole so that the central portion recedes more inward than the peripheral portion.

As shown in (d) of FIG. 12, the main portion 51 is curved along the height direction (Z-axis direction). In addition, the edge of the upper end portion in the Z-axis direction of the main portion 51 is curved along the width direction (X-axis direction). That is, the outer side surface 51a and the inner side surface 51b of the main portion 51 are curved in both the Z-axis direction and the X-axis direction, and the outer side surface 51a and the inner side surface 51b are curved surfaces. The curvature radius of the outer surface 51a of the main portion 51 is, for example, 100 mm to 500 mm, but is not limited thereto.

Further, as shown in FIGS. 10 and 12, the main portion 51 has an inner portion in which the upper portion is recessed more inward than the lower portion. The edge of the portion is receded most from the end face of the diffusion cover 30 in the longitudinal direction. At the edge of the upper central portion of the main portion 51, the amount of retreat (the amount of depression) from the end face in the longitudinal direction of the diffusion cover 30 is, for example, 1 mm to 10 mm. In this embodiment, this retreat amount is 3 mm.

The connecting portion 52 is formed to stand on the inner side surface 51 b of the main portion 51 . The connection portion 52 is formed in a curved portion of the outer peripheral portion of the main portion 51 . In other words, the connecting portion 52 is formed at a portion of the diffusion cover 30 corresponding to the body portion 31 .

In this embodiment, the connecting portion 52 is directly connected to the diffusion cover 30 . Specifically, the connecting portion 52 is fitted with the body portion 31 of the diffusion cover 30 and is in contact with the body portion 31 of the diffusion cover 30 . Note that the connecting portion 52 and the diffusion cover 30 may be indirectly connected. For example, the connection portion 52 and the diffusion cover 30 may be indirectly connected by arranging a ring-shaped packing so as to surround the connection portion 52 . Moreover, when packing is used, it may be inserted between the outer peripheral edge of the inner side surface 51 b of the main portion 51 and the end surface of the main body portion 31 of the diffusion cover 30 .

The connecting portion of the end cap 50 may be part of the plate-shaped main portion 51 . In other words, the connecting portion with the diffusion cover 30 on the inner side surface 51b of the main portion 51 may be the connecting portion. In this case, the end cap 50 may not have the upright connection portion 52 as in the present embodiment, or may have it separately.

The end cap 50 configured in this manner is provided so as not to create a gap with the diffusion cover 30 . Specifically, the end cap 50 is fitted into the open end of the diffusion cover 30 so that the connecting portion 52 contacts the inner surface of the diffusion cover 30 . As a result, the outer peripheral edge of the main portion 51 of the end cap 50 and the outer peripheral surface of the diffusion cover 30 form a continuous surface. Note that the end cap 50 and the diffusion cover 30 may be fixed with an adhesive.

Next, the effects of the LED lighting fixture 1 and the LED lighting device 3 according to this embodiment will be described with reference to FIGS. 13 and 14. FIG. FIG. 13 is a cross-sectional view showing a state in which the LED lighting fixture 1 according to the embodiment installed on the ceiling 100 is lit. FIG. 14 is a diagram showing how the LED lighting device 3 is removed from the fixture body 2 in the LED lighting fixture 1 according to the embodiment.

As shown in FIG. 13 , in the LED lighting fixture 1 according to the present embodiment, the main portion 51 of the end cap 50 is translucent, so the light emitted from the LED 20 passes through the end cap 50 . Specifically, the light emitted from the LED 20 and incident on the inner side surface 51b of the main portion 51 of the end cap 50 is transmitted through the main portion 51 and emitted from the outer side surface 51a of the main portion 51 to the outside of the end cap 50. .

At this time, in the LED lighting device 3 according to the present embodiment, both the outer side surface 51a and the inner side surface 51b of the main portion 51 of the end cap 50 have portions positioned inside one end of the diffusion cover 30. there is Thereby, the light distribution of the light emitted from the LED 20 and transmitted through the end cap 50 is controlled. Therefore, it is possible to create a desired lighting atmosphere around the ends in the longitudinal direction of the LED lighting device 3 (diffusion cover 30). For example, by applying the light from the LEDs 20 not only to the diffusion cover 30 but also to the end cap 50, the diffused light to the ceiling surface can be increased, so that the sense of brightness can be improved.

In this case, in the present embodiment, at least a part of the envelope of the outer side surface 51a and the inner side surface 51b of the main portion 51 in the cross section parallel to the longitudinal direction of the diffusion cover 30 is curved. Specifically, the outer side surface 51a and the inner side surface 51b of the main portion 51 are curved surfaces that are concavely curved as a whole so as to be concaved inward. Thereby, the light distribution of the light transmitted through the end cap 50 is controlled according to the curved shape of the outer side surface 51a and the inner side surface 51b. For example, by changing the radius of curvature of the outer surface 51a and the inner surface 51b of the main portion 51, the light distribution of the light transmitted through the end cap 50 can be controlled. For example, by controlling the light distribution so as to increase the diffused light to the ceiling surface, it is possible to further improve the sense of brightness.

Furthermore, the light emitted from the LED 20 is transmitted through the end cap 50, so that when a plurality of the LED lighting fixtures 1 or the LED lighting devices 3 are arranged side by side in the longitudinal direction, the connecting portion of the two adjacent LED lighting devices 3 can be eliminated. As a result, when a plurality of LED lighting fixtures 1 or LED lighting devices 3 are arranged side by side in the longitudinal direction, it is possible to reduce the brightness difference (illumination unevenness) and color unevenness in the plurality of arranged LED lighting devices 3. .

Further, in the LED lighting fixture 1 according to the present embodiment, the LED lighting device 3 is detachable from the fixture main body 2 . Therefore, when the LED lighting device 3 is held by the fixture body 2 as shown in FIG. 14(a), the LED lighting device 3 is moved from the fixture body 2 along the Z axis as shown in FIG. 14(b). It can be removed by separating in the direction. In this case, the user removes the LED lighting device 3 from the fixture main body 2 by pressing both ends of the LED lighting device 3 in the longitudinal direction (that is, the end caps 50) and pinching the LED lighting device 3 with both hands.

At this time, in the LED lighting device 3 according to the present embodiment, the main portion 51 of the end cap 50 has a portion (inner part). Specifically, the main portion 51 has, as its inner portion, an outer side surface 51 a and an inner side surface 51 b that are located inside one end of the diffusion cover 30 and the end surface of the end cap 50 .

With this configuration, a part (inner portion) of the main portion 51 of the end cap 50 is located inside the other portions, so that the main portion 51 of the end cap 50 can easily catch fingers. As a result, the holding force for holding the end cap 50 with a finger is improved. Therefore, the LED lighting device 3 can be easily removed from the fixture body 2 .

In the present embodiment, the outer surface 51a of the main portion 51 is a curved surface that is concavely curved as a whole so as to be concaved inward. As a result, the user presses the end cap 50 with a finger along the outer surface 51 a (curved surface) of the main portion 51 , so that part of the finger enters inside the end surface of the diffusion cover 30 in the longitudinal direction. It will be. Therefore, the holding force for holding the end cap 50 with fingers can be effectively improved, so that the LED lighting device 3 can be removed more easily.

In addition, it is preferable that the entire outer surface 51 a of the main portion 51 is located inside the end portion of the diffusion cover 30 . As a result, the finger-catching portion of the end cap 50 becomes larger, so that the LED lighting device 3 can be removed more easily.

If the edge of the upper central portion of the main portion 51 is recessed from the longitudinal end face of the diffusion cover 30 by at least 1 mm, the end cap 50 can be easily moved by fingers compared to the conventional end cap which is a vertical flat plate. The holding power to hold can be improved.

Moreover, by using the end cap 50 having such a configuration, it is possible not only to easily remove the LED lighting device 3 from the fixture body 2 but also to easily attach the LED lighting device 3 to the fixture body 2 .

As described above, in the LED lighting fixture 1 according to the present embodiment, both the outer surface 51a and the inner surface 51b of the main portion 51 of the end cap 50 have portions located inside one end of the diffusion cover 30. Therefore, not only can the light distribution of the light emitted from the end cap 50 to the outside be controlled, but also the LED illumination device 3 can be easily attached and detached.

As described above, the LED lighting fixture 1 and the LED lighting device 3 according to the present embodiment include the elongated substrate 10, the plurality of LEDs 20 arranged along the longitudinal direction of the substrate 10, and the plurality of LEDs 20 and an end cap 50 provided at one end in the longitudinal direction of the diffusion cover 30. The end cap 50 has a plate-like main portion 51. However, the main portion 51 has a portion (inner portion) in which both the outer side surfaces 51a and the inner side surfaces 51b are located inside other portions of the main portion 51 . In the present embodiment, the main portion 51 has, as its inner portion, an outer side surface 51 a and an inner side surface 51 b located inside one end of the diffusion cover 30 or the end surface of the end cap 50 .

With this configuration, it is possible to easily attach and detach the LED lighting device 3 to and from the fixture body 2 .

Moreover, in the LED lighting device 3 according to the present embodiment, all or part of the main portion 51 is translucent.

With this configuration, light from the LED 20 is transmitted through the main portion 51 of the end cap 50 and emitted to the outside. As a result, it is possible to create a desired lighting atmosphere around the ends of the LED lighting device 3 in the longitudinal direction, and to easily attach/detach the LED lighting device 3 to/from the fixture main body 2 .

In particular, in the LED lighting device 3 according to the present embodiment, the outer side surface 51a and the inner side surface 51b of the main portion 51 of the end cap 50 are such that at least a part of the envelope in the cross section parallel to the longitudinal direction of the diffusion cover 30 is curved. ing. Specifically, the outer side surface 51a and the inner side surface 51b of the main portion 51 are curved surfaces that are concavely curved as a whole so as to be concaved inward.

Accordingly, by controlling the light distribution so as to increase the diffused light to the ceiling surface or the like, it is possible to improve the sense of brightness. Further, since the outer surface 51a of the main portion 51 of the end cap 50 is a concave curved surface, the design of the LED lighting device 3 can be improved.

(Modification 1)
Next, modification 1 will be described with reference to FIG. 15 . FIG. 15 is a diagram showing the configuration of an end cap 50A according to Modification 1. As shown in FIG.

In the end cap 50 of the above-described embodiment, the outer side surface 51a of the main portion 51 has a parabolic shape, and the outer side surface 51a of the main portion 51 extends in the height direction (Z-axis direction) and width direction (X-axis direction). was also curved.

On the other hand, in the end cap 50A of this modified example, as shown in FIG. 15, the outer surface 51a of the main portion 51 has a conical cross section, and the outer surface 51a of the main portion 51 extends in the height direction (Z axial direction) and is curved in the width direction (X-axis direction).

In the end cap 50</b>A of this modified example, both the outer side surface 51 a and the inner side surface 51 b of the main portion 51 have portions located inside the end portions of the diffusion cover 30 similarly to the above-described embodiment. Therefore, the same effects as those of the above embodiment are obtained.

(Modification 2)
Next, modification 2 will be described with reference to FIGS. 16 and 17. FIG. FIG. 16 is a diagram showing the configuration of an end cap 50B according to Modification 2. As shown in FIG. FIG. 17 is a diagram showing the configuration of an LED lighting fixture 1B according to Modification 2. As shown in FIG.

The LED lighting fixture 1B and the LED lighting device 3B according to the present modification are the LED lighting fixture 1 and the LED lighting device 3 according to the above-described embodiment, in which the end cap 50 is changed to an end cap 50B having a shape shown in FIG. It is configured as

The end cap 50B shown in FIG. 16 has a shape in which the main portion 51 is curved as a whole, and the outer surface 51a of the main portion 51 is recessed inwardly, similarly to the end cap 50 in the above-described embodiment. It is curved concavely as

Further, in the end cap 50 of the above-described embodiment, the outer side surface 51a and the inner side surface 51b of the main portion 51 are flat surfaces. 51b is a stepped surface formed stepwise. Thus, in the end cap 50B of this modified example, the main portion 51 is formed to have a plurality of steps.

Also in the end cap 50B shown in FIG. 16, as shown in FIG. 17, both the outer side surface 51a and the inner side surface 51b of the main portion 51 have portions located inside the end portions of the diffusion cover 30. It's becoming Therefore, the LED lighting fixture 1B and the LED lighting device 3B shown in FIG. 17 have the same effect as the above embodiment.

Furthermore, in the end cap 50B in this modified example, the outer surface 51a of the main portion 51 is a stepped surface, so that the atmosphere of the light around the ends in the longitudinal direction of the LED lighting device 3B can be characterized. At the same time, the end cap 50B is more likely to catch fingers, so that the attachment and detachment of the LED lighting device 3B can be performed more easily.

(Modification 3)
Next, modification 3 will be described with reference to FIGS. 18 and 19. FIG. FIG. 18 is a diagram showing the configuration of an end cap 50C according to Modification 3. As shown in FIG. FIG. 19 is a diagram showing the configuration of an LED lighting fixture 1C according to Modification 3. As shown in FIG.

In the LED lighting fixture 1C and the LED lighting device 3C according to the present modification, the end cap 50 is changed to an end cap 50C having a shape shown in FIG. It is configured as

The end cap 50C shown in FIG. 18 has a curved portion of the main portion 51 like the end cap 50 in the above embodiment, but unlike the end cap 50 in the above embodiment, the main portion 50C 51 has an outwardly curved portion.

Specifically, in the end cap 50 of the above-described embodiment, the outer side surfaces 51a and 51b of the main portion 51 are curved in a convex shape as a whole. , the outer side surface 51a and the inner side surface 51b of the main portion 51 are curved in a convex shape as a whole so as to be convex outward. As an example, the main portion 51 of the end cap 50C has a parabolic shape.

Furthermore, the end cap 50C in this modification has a flange portion 53 around the outer side surface 51a of the main portion 51, and the portion of the main portion 51 near the connection portion 52 is located inside the other portions. It has a shape that In addition, it is preferable that the entire outer surface 51 a of the main portion 51 is located inside the end portion of the diffusion cover 30 . That is, it is preferable that the outer surface 51 a of the main portion 51 does not protrude from the end surface of the diffusion cover 30 . In this modification, the entire outer side surface 51 a of the main portion 51 is located inside the tip of the flange portion 53 .

Also in the end cap 50C shown in FIG. 18, as shown in FIG. 19, both the outer side surface 51a and the inner side surface 51b of the main portion 51 have portions located inside the end portions of the diffusion cover 30. It's becoming Therefore, the LED lighting fixture 1C and the LED lighting device 3C shown in FIG. 19 have the same effect as the above embodiment.

Furthermore, in the end cap 50C in this modified example, the outer side surface 51a and the inner side surface 51b of the main portion 51 are curved in a convex shape as a whole so as to protrude outward. As a result, in the LED lighting device 3C according to the present modification, the light emitted from the LED 20 and transmitted through the end cap 50C can be distributed differently from the LED lighting device 3 according to the above-described embodiment.

Moreover, since the end cap 50C in this modified example has the flange portion 53 around the outer side surface 51a of the main portion 51, compared to the first embodiment, the end cap 50C is more likely to catch fingers. . Thereby, attachment/detachment of the LED lighting device 3C can be performed more easily.

(Modification 4)
Next, modification 4 will be described with reference to FIG. 20 . FIG. 20 is a diagram showing the configuration of an LED lighting fixture 1D according to Modification 4. As shown in FIG.

As shown in FIG. 10, in the LED lighting fixture 1 and the LED lighting device 3 in the above embodiment, only a portion of the main portion 51 of the end cap 50 is located inside the end portion of the diffusion cover 30. As shown in FIG. 20 , in the LED lighting fixture 1D and the LED lighting device LED3D according to this modified example, the entire main portion 51 of the end cap 50D is located inside the end portion of the diffusion cover 30 . Also in this modification, the entire main portion 51 is curved, and the outer surface 51a of the main portion 51 is a curved surface.

Other than that, the LED lighting fixture 1D and the LED lighting device 3D in this modification are the same as the LED lighting fixture 1 and the LED lighting device 3 in the above embodiment.

Therefore, the LED lighting fixture 1D and the LED lighting device 3D according to this modification also have the same effect as the LED lighting fixture 1 and the LED lighting device 3 in the above embodiment.

(Modification 5)
Next, modified example 5 will be described with reference to FIG. 21 . FIG. 21 is a diagram showing the configuration of an LED lighting fixture 1E according to Modification 5. As shown in FIG.

As shown in FIG. 10 , in the LED lighting fixture 1 and the LED lighting device 3 according to the above embodiment, the main portion 51 of the end cap 50 has an outer side surface 51 a and an inner side surface 51 b that are located inside the end portion of the diffusion cover 30 . However, in the LED lighting fixture 1D and the LED lighting device LED3D in this modified example, the main portion 51 of the end cap 50E has an outer surface 51a and an inner surface 51b that are both the ends of the diffusion cover 30. It does not have a part located inside.

In the LED lighting fixture 1D and the LED lighting device LED3D in this modified example, similarly to the LED lighting fixture 1 and the LED lighting device 3 in the above embodiment, the main portion 51E of the end cap 50E has an outer surface 51a and an inner surface 51b. Both have a portion located inside the end face of the end cap 50E.

That is, in the LED lighting fixture 1D and the LED lighting device LED3D according to this modification, the outer side surfaces 51a and the inner side surfaces 51a and the inner side surfaces 51b are positioned inside the main portion 51 with respect to the other portions of the main portion 51. Both of the side surfaces 51b have a portion located inside the end surface of the end cap 50E. Also in this modification, the entire main portion 51 is curved, and the outer surface 51a of the main portion 51 is a curved surface.

Other than that, the LED lighting fixture 1E and the LED lighting device 3E in this modified example are the same as the LED lighting fixture 1 and the LED lighting device 3 in the above embodiment.

Therefore, the LED lighting fixture 1E and the LED lighting device 3E according to this modification also have the same effect as the LED lighting fixture 1 and the LED lighting device 3 in the above embodiment.

Note that, like the LED lighting fixture 1F and the LED lighting device 3F shown in FIG. 22, the degree of curvature of the main portion 51 of the end cap 50F may be looser than the degree of curvature of the main portion 51 of the end cap 50E. . That is, the curvature of the main portion 51 of the end cap 50F shown in FIG. 22 is smaller than the curvature of the main portion 51 of the end cap 50E shown in FIG. The amount of retreat may be slight.

(Other modifications)
As described above, the LED lighting fixture and the LED lighting device according to the present invention have been described based on the embodiments and modifications, but the present invention is not limited to these embodiments and modifications.

For example, in the embodiment described above, the main portion 51 of the end cap 50 may have a prism on at least one of the outer surface 51a and the inner surface 51b to deflect the light of the LED 20 . As a result, the light emitted from the LED 20 and transmitted through the end cap 50 can be easily controlled to have a desired light distribution.

Moreover, in the above-described embodiment, the first end cap 50a and the second end cap 50b are arranged in opposite directions, but the present invention is not limited to this. That is, the first end cap 50a and the second end cap 50b may be arranged in the same direction.

Moreover, in the above-described embodiment, the first end cap 50a and the second end cap 50b have the same shape, but the present invention is not limited to this. For example, by appropriately combining the end caps of the above-described embodiment and modified examples 1 to 3, end caps having different shapes may be used for the first end cap 50a and the second end cap 50b.

In the above embodiment, an SMD type LED element in which an LED chip is mounted in a package is used as the LED 20, and the light emitting module composed of the substrate 10 and the LED 20 is an SMD type LED module. Not exclusively. For example, the light-emitting module composed of the substrate 10 and the LEDs 20 may be a COB (Chip On Board) type LED module. In this case, the LED chips (bare chips) themselves are used as the LEDs 20, a plurality of the LEDs 20 (LED chips) are arranged in a straight line on the substrate 10, and the plurality of LEDs 20 are collectively or They may be individually sealed.

Moreover, although the diffusion cover 30 having diffusibility and translucency is used in the above embodiment, the present invention is not limited to this. For example, instead of the diffusion cover 30, a translucent cover having only translucency among diffusion and translucency may be used. In this case, a transparent cover having a high transmittance so that the other side can be seen through may be used as the translucent cover.

In addition, forms obtained by applying various modifications that a person skilled in the art can come up with to the above-described embodiments, and realized by arbitrarily combining the constituent elements and functions of the embodiments without departing from the scope of the present invention. Also included in the present invention.

REFERENCE SIGNS LIST 1, 1B, 1C, 1D, 1E, 1F LED lighting fixture 2 fixture body 3, 3B, 3C, 3D, 3E, 3F LED lighting device 10 substrate 20 LED
30 diffusion cover 40 support member 50, 50A, 50B, 50C, 50D, 50E, 50F end cap 50a first end cap 50b second end cap 51 main portion 51a outer surface 51b inner surface 52 connecting portion

Claims (20)

an elongated substrate;
a plurality of LEDs arranged on one surface of the substrate along the longitudinal direction of the substrate;
a long translucent cover disposed facing the one surface of the substrate so as to cover the plurality of LEDs;
an end cap provided on one end side in the longitudinal direction of the translucent cover,
The end cap has a plate-like main portion and a connecting portion that is directly or indirectly connected to the translucent cover,
The main portion has an outer side surface and an inner side surface as surfaces in the thickness direction of the main portion, and both the outer side surface and the inner side surface are positioned inside other portions of the main portion. has
The translucent cover has a main body covering the plurality of LEDs,
In a third direction orthogonal to both a first direction, which is the longitudinal direction of the substrate, and a second direction, which is the lateral direction of the substrate, the main portion is arranged such that the LED-side portion is positioned closer to the body-side portion than the main portion-side portion. is inclined as a whole so that
The outer surface has a parabolic shape that curves in both the second direction and the third direction,
LED lighting device. The main portion has, as the inner portion, a portion in which both the outer surface and the inner surface are located inside one end of the light-transmitting cover or the end surface of the end cap.
The LED lighting device according to claim 1. At least part of an envelope of the outer surface in a cross section parallel to the longitudinal direction of the light-transmitting cover is curved.
The LED lighting device according to claim 1 or 2. The outer surface is concavely curved as a whole so as to be concave inward.
The LED lighting device according to claim 2 or 3. The outer surface is curved in a convex shape as a whole so as to be convex outward,
The LED lighting device according to claim 3. an elongated substrate;
a plurality of LEDs arranged on one surface of the substrate along the longitudinal direction of the substrate;
a long translucent cover disposed facing the one surface of the substrate so as to cover the plurality of LEDs;
an end cap provided on one end side in the longitudinal direction of the translucent cover,
The end cap has a plate-like main portion and a connecting portion that is directly or indirectly connected to the translucent cover,
The main portion has an outer side surface and an inner side surface as surfaces in the thickness direction of the main portion, and both the outer side surface and the inner side surface are positioned inside other portions of the main portion. has
At least a part of an envelope curve of the outer surface in a cross section parallel to the longitudinal direction of the light-transmitting cover is curved,
When the longitudinal direction of the substrate is defined as a first direction, the lateral direction of the substrate is defined as a second direction, and a direction orthogonal to both the first direction and the second direction is defined as a third direction,
The outer surface has a parabolic shape that curves in both the second direction and the third direction, and is curved in a convex shape as a whole so as to be convex outward.
LED lighting device. All of the outer surfaces are located inside one end of the translucent cover,
The LED lighting device according to claim 5 or 6. At least a part of an envelope of the inner surface in a cross section parallel to the longitudinal direction of the light-transmitting cover is curved.
The LED lighting device according to any one of claims 1-7. The inner surface is concavely curved as a whole so as to be concave inward,
The LED lighting device according to claim 8. The inner surface is curved in a convex shape as a whole so as to be convex outward,
The LED lighting device according to claim 8. an elongated substrate;
a plurality of LEDs arranged on one surface of the substrate along the longitudinal direction of the substrate;
a long translucent cover disposed facing the one surface of the substrate so as to cover the plurality of LEDs;
an end cap provided on one end side in the longitudinal direction of the translucent cover,
The end cap has a plate-like main portion and a connecting portion that is directly or indirectly connected to the translucent cover,
The main portion has an outer side surface and an inner side surface as surfaces in the thickness direction of the main portion, and both the outer side surface and the inner side surface are positioned inside other portions of the main portion. has
At least a part of an envelope of the inner surface in a cross section parallel to the longitudinal direction of the light-transmitting cover is curved,
When the longitudinal direction of the substrate is defined as a first direction, the lateral direction of the substrate is defined as a second direction, and a direction orthogonal to both the first direction and the second direction is defined as a third direction,
The inner surface has a parabolic shape that curves in both the second direction and the third direction, and is curved in a convex shape as a whole so as to be convex outward.
LED lighting device. The main part has a shape in which a part near the connecting part is located inside other parts,
The LED lighting device according to any one of claims 1, 5 to 7, 10 and 11. All or part of the main portion has translucency,
The LED lighting device according to any one of claims 1-12. The translucent cover is a diffusion cover,
The LED lighting device according to any one of claims 1-13. the main portion has a prism on at least one of the outer surface and the inner surface for deflecting the light of the LED;
The LED lighting device according to any one of claims 1-14. the end cap provided at one end in the longitudinal direction of the translucent cover is a first end cap;
further comprising a second end cap provided at the other end in the longitudinal direction of the translucent cover,
The shape of the second end cap is the same as the shape of the first end cap,
The LED lighting device according to any one of claims 1-15. The first end cap and the second end cap are arranged in an opposite relationship in the longitudinal direction of the LED lighting device,
17. The LED lighting device according to claim 16. Further comprising an elongated support member that supports the substrate and the translucent cover,
The LED lighting device according to any one of claims 1-17. The LED lighting device according to any one of claims 1 to 18,
a fixture body that holds the LED lighting device,
LED lighting equipment. The LED lighting device is detachably attached to the fixture body,
20. The LED lighting fixture according to claim 19.

Images