JPWO2019087422A1 - LED lighting device - Google Patents

Abstract

The LED lighting device (1) includes an LED light source (14) and a translucent cover member (11) that covers the LED light source (14). In this LED lighting device (1), the cover member (11) has a side surface portion (for example, a vertical side surface (23a and 23b) and an inclined side surface (24a and 24b)) and a curved portion (for example, a curved top portion (22)). )) And at least. The side surface portions are arranged at positions facing each other with the LED light source (14) in between, and have a flat surface. The curved portion (22) is arranged at a position facing the LED light source (14) and is continuous with each of the flat surfaces.

Description

The present disclosure relates to an LED lighting device having an LED light source.

In recent years, with the spread of light emitting diodes (LEDs), the possibility of using LEDs as a light source of a lighting device has increased. For example, a lighting device having an LED light source is used to illuminate indoor lighting, lighting for signboards of stores such as convenience stores, and lighting for products displayed in showcases in stores, instead of conventional fluorescent lamps. It can be used as such.

LEDs generally have higher directivity than fluorescent lamps. Therefore, in the lighting device using the LED light source, in order to illuminate a wider range, the light is also irradiated in the side direction of the light source to expand the irradiation range.

For example, Patent Document 1 attempts to expand the irradiation range of light in the lateral direction in a lighting device including a directional light source such as an LED. The illuminator comprises a translucent cover that covers at least the front surface of the light source and has a translucent region that emits light emitted from the light source to the outside. The translucent cover is formed in a dome shape having a non-circular cross section.

Japanese Unexamined Patent Publication No. 2013-33725

However, when the LED lighting device is placed on the top surface such as the ceiling, the illuminance directly under the lighting device is still the highest, and the illuminance in the surroundings is lower than that. There is a problem that it feels dazzling when looking up from directly under.

In the conventional lighting device described in Patent Document 1 and the like, an attempt is made to reduce the illuminance directly under the lighting device by lowering the light transmittance. However, in this method, the light transmittance of the lighting device as a whole is reduced, so that the light utilization efficiency is lowered, and as a result, the power consumption may be increased. Therefore, the LED lighting device is required to have a structure capable of diffusing light more uniformly without reducing the efficiency of light utilization.

In addition, when it is used as lighting for signboards, in order to make the signboard as thin as possible, the LED lighting device arranged behind the irradiation surface (display surface of the signboard) is made as thin as possible, and the irradiation surface is It is desirable to place the LED lighting device as close as possible. Therefore, it is desirable to use an LED lighting device capable of more uniformly irradiating the illuminated surface with the lighting for the signboard.

Therefore, in one aspect of the present invention, it is an object of the present invention to provide an LED lighting device capable of irradiating more uniform light.

The LED lighting device according to one aspect of the present invention includes an LED light source and a translucent cover member that covers the LED light source. In this LED lighting device, the cover members are arranged at positions facing each other with the LED light source in between, and are arranged at a side surface having a flat surface and a position facing the LED light source, and are arranged on the flat surface. Each has at least a continuous curved portion.

In the LED lighting device according to one aspect of the present invention, the flat surface may extend in a direction parallel to the irradiation direction of the LED light source. Alternatively, in the LED lighting device according to one aspect of the present invention, the flat surface may extend in a direction inclined with respect to the irradiation direction of the LED light source.

In the LED lighting device according to one aspect of the present invention, the LED light source is mounted on a mounting plate, and the distance between the flat surfaces arranged at opposite positions is determined from the length of the mounting plate described above. May be smaller.

In the LED lighting device according to one aspect of the present invention, the LED light source is mounted on a mounting plate, and the side surface portion further has an inclined surface between the flat surface and the above-mentioned mounting plate. You may be.

In the LED lighting device according to one aspect of the present invention, the flat surface may be located inside the 1/2 light distribution angle of the LED light source.

In the LED lighting device according to one aspect of the present invention, the light transmittance of the curved portion may be lower than the light transmittance of the side surface portion.

As described above, according to the LED lighting device according to one aspect of the present invention, it is possible to irradiate a space such as a room or a showcase to be irradiated with more uniform light.

It is a perspective view which shows the appearance of the LED lighting apparatus which concerns on one Embodiment of this invention. It is an exploded perspective view which shows each component of the LED lighting apparatus shown in FIG. It is a top view which shows the structure of the base part (where the LED light source is installed) of the LED lighting apparatus shown in FIG. It is sectional drawing which shows typically the structure of the AA surface part of the LED lighting apparatus shown in FIG. It is sectional drawing which shows the structure of the base part (where the LED light source is installed) of the LED lighting apparatus shown in FIG. It is a perspective view which shows the appearance of the cover member which comprises the LED lighting apparatus shown in FIG. It is a figure which shows the light distribution characteristic of an LED light source. It is sectional drawing for demonstrating the structure of the cover member of the LED lighting apparatus shown in FIG. It is a figure which shows the light distribution characteristic of the LED lighting apparatus shown in FIG. It is a figure which shows the light distribution characteristic of the modification of the LED lighting apparatus which concerns on 1st Embodiment. It is sectional drawing which shows typically the internal structure of the LED lighting apparatus which concerns on 2nd Embodiment. It is a figure which shows the light distribution characteristic of the LED lighting apparatus shown in FIG. It is sectional drawing which shows typically the internal structure of the LED lighting apparatus which concerns on 3rd Embodiment. It is sectional drawing which shows typically the internal structure of the LED lighting apparatus which concerns on 4th Embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are designated by the same reference numerals. Their names and functions are the same. Therefore, the detailed description of them will not be repeated.

[First Embodiment]
(Outline configuration of LED lighting device)
In the present embodiment, the LED lighting device 1 which is an example of the present invention will be described as an example. First, the schematic configuration of the LED lighting device 1 according to the present embodiment will be described with reference to FIGS. 1 to 3. FIG. 1 shows the appearance of the LED lighting device 1 according to the first embodiment. FIG. 2 shows the internal configuration of the LED lighting device 1. FIG. 3 shows the configuration of the upper surface portion of the base 15 constituting the LED lighting device 1.

As shown in FIG. 1, the LED lighting device 1 is a linear lighting device having an elongated shape. At least one of the surfaces constituting the outer peripheral surface of the LED lighting device 1 is flat. In the present specification, this planar surface is referred to as a bottom surface of the LED lighting device 1. The LED lighting device 1 can be used, for example, as lighting for a room, lighting for illuminating a showcase installed in a store, or the like, instead of a conventional fluorescent lamp. When the LED lighting device 1 is attached to the ceiling of the room, the bottom surface of the LED lighting device 1 (that is, the bottom surface 21 of the cover member 11) is attached to the top surface.

The LED lighting device 1 of the present embodiment has, as main components, a cover member 11, end support members 12a and 12b, a mounting plate 13, an LED light source 14, a base 15, a side plate 16, and a screw (fixing member). It is equipped with 17 and so on.

The cover member 11 is made of a material capable of transmitting light. For example, the cover member 11 is formed by molding a translucent resin such as polycarbonate. The cover member 11 has a tubular shape having a space inside. More specifically, the cover member 11 has a tunnel-like shape in which a part of the tubular member is a flat surface (bottom surface 21) (see FIG. 6). An LED light source 14 or the like is arranged in the space inside the cover member 11. As a result, the light emitted from the LED light source 14 passes through the cover member 11 and is applied to the object to be irradiated.

The end support members 12a and 12b are arranged at both ends of the cover member 11, respectively. The end support members 12a and 12b close both ends of the internal space formed by the cover member 11. The end support members 12a and 12b are made of a resin material, a metal material, or the like. The end support members 12a and 12b may be made of a material that transmits light, or may be made of a material that blocks light. Wiring (not shown) for supplying electric power from the power source to each LED light source 14 penetrates through the end support member 12a.

On the mounting plate 13, the LED light sources 14 are arranged in a row and mounted. The mounting plate 13 is a plate-shaped member extending along the longitudinal direction of the LED lighting device 1. The mounting plate 13 is attached to a base 15 arranged on the bottom surface of the LED lighting device 1. In addition to the LED light source 14, wiring (not shown) for supplying electric power from the power source to each LED light source 14 is mounted on the mounting plate 13.

The LED light source 14 has a light emitting diode element. The LED light source 14 has lower power consumption and a longer life than a fluorescent lamp. Further, the LED light source 14 has higher directivity than the fluorescent lamp. A plurality of LED light sources 14 are arranged side by side on the mounting plate 13 along the longitudinal direction of the LED lighting device 1 (see FIGS. 2 and 3).

The base 15 extends along the longitudinal direction of the LED lighting device 1 and constitutes a bottom surface portion of the LED lighting device 1. As shown in FIG. 2 and the like, the mounting plate 13 is arranged on the base 15. The base 15 is made of a metal material having high thermal conductivity, such as aluminum or copper. As a result, the base 15 acts as a heat sink that controls the temperature rise of the LED light source 14 by taking away the heat generated by the LED light source 14.

The side plates 16 are attached to the end portions of the cover member 11 in the longitudinal direction, respectively. The side plate 16 is fixed to the cover member 11 by a screw 17 or the like. Then, the end support members 12a and 12b are attached to the cover member 11 so as to cover each side plate 16.

(Structure of cover member and base)
Subsequently, with reference to FIGS. 4 to 6, a more detailed configuration of the cover member 11 and the base 15 constituting the LED lighting device 1 will be described. FIG. 4 is a cross-sectional view of the LED lighting device 1. FIG. 4 illustrates the configuration of the AA surface portion of the LED lighting device 1 shown in FIG. In FIG. 4, the base 15 is not shown. FIG. 5 shows the cross-sectional structure of the base 15 portion. FIG. 6 shows the appearance of the cover member 11.

As shown in FIGS. 4 and 6, the cover member 11 includes a bottom surface 21, a curved top (curved portion) 22, vertical side surfaces (flat surfaces) 23a and 23b, inclined side surfaces (inclined surfaces) 24a and 24b, and a base. It has mounting portions 25a, 25b, and the like.

The bottom surface 21 has a flat shape. A base 15 and a mounting plate 13 are arranged on the bottom surface 21. As shown in FIG. 4, the LED light source 14 is arranged on the mounting plate 13 arranged along the bottom surface 21. Therefore, the LED light source 14 emits the highest intensity light toward the curved top 22 at a position facing the upper surface of the LED light source 14. FIG. 7 shows the light distribution characteristics of the LED light source 14. This light distribution characteristic is called Lambert light distribution. In the example shown in FIG. 7, the 1/2 light distribution angle of the LED light source 14 is 120 °.

The curved top 22 exists at a position facing the bottom surface 21 (that is, a position facing the light emitting surface of the LED light source 14), and extends along the longitudinal direction of the LED lighting device 1. The curved top 22 has a curved surface shape. The ends of the curved top 22 on both sides in the lateral direction (the ends on both the left and right sides in FIG. 4) are continuous with the vertical side surfaces 23a and 23b, respectively.

When the LED lighting device 1 is attached to the top surface of a room or a showcase, the bottom surface 21 of the cover member 11 is arranged so as to come into contact with the top surface (see FIG. 8). At this time, the light emitted from the LED light source 14 and passing through the curved top 22 is mainly emitted from the top surface directly below (directly below). Therefore, the curved top 22 can be rephrased as a direct irradiation surface.

The vertical side surfaces 23a and 23b form a part of the left and right side surfaces of the cover member 11. The vertical side surfaces 23a and 23b are located on the left and right sides of the curved top 22 along the extending direction (longitudinal direction) of the curved top 22. For convenience of explanation, in the present specification, in the cross-sectional view of the LED lighting device 1 shown in FIG. 4, the vertical side surface located on the left side is referred to as a vertical side surface 23a, and the vertical side surface located on the right side is referred to as a vertical side surface 23b.

In this embodiment, the vertical side surfaces 23a and 23b are flat surfaces extending in a direction perpendicular to the mounting plate 13 (that is, the mounting surface of the LED light source 14). Here, the flat surface means a plane that extends straight without being curved. The light emitted from the LED light source 14 and passing through the vertical side surfaces 23a and 23b passes through these flat surfaces extending in the direction perpendicular to the mounting plate 13 to irradiate the light laterally. Can be diffused. Therefore, the vertical side surfaces (flat surfaces) 23a and 23b can be paraphrased as vertical diffusion surfaces.

The inclined side surfaces 24a and 24b form a part of the left and right side surfaces of the cover member 11. As shown in FIG. 4, the inclined side surfaces 24a and 24b are located between the vertical side surfaces 23a and 23b and the bottom surface portion of the cover member 11. More specifically, the left inclined side surface 24a is located between the vertical side surface 23a and the base mounting portion 25a. The inclined side surface 24b on the right side is located between the vertical side surface 23b and the base mounting portion 25b.

The inclined side surfaces 24a and 24b are inclined from the mounting plate 13 side toward the curved top 22 side in a direction in which the distance between the inclined side surfaces 24a and 24b is narrowed. As a result, the distance L2 between the vertical side surfaces 23a and 23b continuous from the inclined side surfaces 24a and 24b is smaller than the width L1 in the lateral direction of the mounting plate 13 (see FIG. 4). Since the side surface portion of the cover member 11 has such a shape, the light emitted from the LED light source 14 can be diffused to a wider range in the lateral direction thereof. Therefore, the inclined side surfaces (inclined surfaces) 24a and 24b can be rephrased as inclined diffusion surfaces.

FIG. 9 shows the light distribution characteristics of the LED lighting device 1 of the present embodiment (that is, the structure in which the LED light source 14 is covered with the cover member 11). Comparing the light distribution curve of the LED light source 14 alone (shown by A in the figure) shown in FIG. 7 with the light distribution curve of the LED lighting device 1 shown in FIG. 9 (shown by B1 in the figure), the LED lighting device 1 Then, it can be seen that more intense light can be emitted in the lateral direction of the LED light source 14. In the example shown in FIG. 9, the intensity of the light emitted at a position shifted to the side by about 30 ° from directly below is about the same as the intensity of the light emitted directly below the LED light source 14 (position at an angle of 0 °). You can see that you can.

Further, the 1/2 light distribution angle of the LED light source 14 is about 120 ° (see FIG. 7), whereas the 1/2 light distribution angle of the LED lighting device 1 provided with the cover member 11 is 180 °. The above can be achieved (see FIG. 9).

The base mounting portions 25a and 25b form a part of the left and right side surfaces of the cover member 11. The base mounting portions 25a and 25b are portions erected from both sides of the bottom surface 21. The base mounting portions 25a and 25b form a recess on the inner peripheral surface of the cover member 11, and the base 15 is placed between one base mounting portion 25a and the other base mounting portion 25b. It is sandwiched.

FIG. 5 shows the cross-sectional structure of the base 15 and the mounting plate 13. As shown in FIG. 5, the base 15 has a mounting plate support surface 15a and mounting plate gripping portions 15b and 15c. The mounting plate 13 is arranged on the mounting plate support surface 15a. The mounting plate gripping portions 15b and 15c grip both ends of the mounting plate 13 in the lateral direction, respectively. As a result, the mounting plate 13 is supported and fixed on the base 15.

As described above, both side surfaces of the cover member 11 in the lateral direction are mainly composed of vertical side surfaces 23a or 23b, inclined side surfaces 24a or 24b, and base mounting portions 25a or 25b, respectively. As a result, the cover member 11 has a symmetrical shape along the arrangement of the LED light sources 14.

(About the shape of the cover member and the light distribution characteristics of the LED lighting device)
Hereinafter, the relationship between the shape of the cover member 11 and the light distribution characteristics of the LED lighting device 1 will be described with reference to FIGS. 7 to 9. FIG. 7 is a diagram showing a light distribution curve A of the LED light source 14. FIG. 8 is a schematic cross-sectional view showing the internal configuration of the LED lighting device 1. FIG. 8 is a diagram showing a cross-sectional configuration of an AA surface portion of the LED lighting device 1 shown in FIG. FIG. 8 shows a state in which the LED lighting device 1 is installed on the top surface of a room or a showcase and irradiates light downward. FIG. 9 is a diagram showing a light distribution curve B1 of the LED lighting device 1. 7 and 9 show the light distribution characteristics when the LED light source 14 or the LED lighting device 1 is arranged at the center of the circle and the directivity of the LED serving as the light source is directly below (0 ° position).

In FIG. 8, the half light distribution angle of the LED light source 14 is shown by a alternate long and short dash line. Further, FIG. 8 also shows the light distribution curve A of the LED light source 14 shown in FIG. 7. As described above, the 1/2 light distribution angle of the LED light source 14 is about 120 °. Therefore, in the LED light source 14 of FIG. 8, the angle θ is 120 °.

The cover member 11 of the present embodiment is structurally designed so that the vertical side surfaces 23a and 23b constituting the side surface thereof are within the 1/2 light distribution angle of the LED light source 14. That is, the cover member 11 of the present embodiment is designed so that all the regions of the vertical side surfaces 23a and 23b exist within the range of the angle θ. For example, in the example shown in FIG. 8, the shape is such that the boundary between the vertical side surfaces 23a and 23b and the inclined side surface 24a or 24b is located on the position of the 1/2 light distribution angle of the LED light source 14. Here, the 1/2 light distribution angle means a light distribution angle in which light having an intensity of half (1/2) of the light emitted directly below (light distribution angle 0 °) from the light source is irradiated.

However, in the LED lighting device 1 according to the present embodiment, the dimensions of the vertical side surfaces 23a and 23b and the inclined side surfaces 24a and 24b are not limited to those shown in FIG. As described above, it is preferable that the cover member 11 of the present embodiment is structurally designed so that the vertical side surfaces 23a and 23b are within the 1/2 light distribution angle of the LED light source 14. Therefore, for example, in the LED lighting device 1 shown in FIG. 8, a cover member 11 having a shape in which the vertical side surfaces 23a and 23b have a shorter dimension L3 and the inclined side surfaces 24a and 24b have a longer dimension L4 is also possible (FIG. 8). 8).

Of the light emitted laterally from the LED light source 14 by designing the cover member 11 so that the entire region of the vertical side surfaces 23a and 23b fits in the 1/2 light distribution angle of the LED light source 14. The relatively high intensity light can be diffused to the side. As a result, the light can be diffused to the side of the LED light source 14 while maintaining the utilization efficiency of the light emitted from the LED light source 14.

As shown in FIG. 9, it can be seen that in the LED lighting device 1 provided with the cover member 11, the 1/2 light distribution angle of the light emitted from the LED light source 14 is 180 ° or more. That is, according to this configuration, it is possible to irradiate light having a certain intensity along the same plane as the mounting surface of the LED light source 14.

Further, according to the LED lighting device 1 according to the present embodiment, it is possible to irradiate light having a light distribution characteristic as shown in FIG. That is, it is possible to suppress the concentration of light directly under the LED lighting device 1 and irradiate light of uniform intensity within a certain range (for example, a light distribution angle of about ± 30 °) from directly underneath to the side. it can.

(About the light transmittance of each part of the cover member)
In the LED lighting device 1 according to the present embodiment, the transmittance (total light transmittance) of the cover member 11 having translucency can be made different depending on each part.

For example, in the LED lighting device 1, the light transmittance of the curved top 22 of the cover member 11 is set to the light transmittance of the side surface portions (that is, the vertical side surfaces 23a and 23b, the inclined side surfaces 24a and 24b, etc.) of the cover member 11. It can be lower than the rate. The light distribution characteristic shown in FIG. 9 is a case where the LED lighting device 1 is configured by using the cover member 11 in which the transmittance of the curved top 22 is lower than the transmittance of the side surface.

According to this configuration, it is possible to irradiate the LED light source 14 with higher intensity light in the lateral direction. Further, according to this configuration, the intensity of the light emitted at a position shifted to the side by about 30 ° from directly below is about the same as the intensity of the light emitted directly below the LED light source 14 (position at an angle of 0 °). Can be. Therefore, the irradiation light from the LED lighting device 1 can be diffused to a wider range in the lateral direction thereof.

On the other hand, in the LED lighting device 1, the light transmittance of the curved top 22 of the cover member 11 is set to the light transmittance of the side surface portions (that is, the vertical side surfaces 23a and 23b, the inclined side surfaces 24a and 24b, etc.) of the cover member 11. It can be higher than the rate. The light distribution curve B2 shown in FIG. 10 is a case where the LED lighting device 1 is configured by using the cover member 11 in which the transmittance of the curved top portion 22 is higher than the transmittance of the side surface portion.

Comparing FIGS. 9 and 10, when the light transmittance of the curved top 22 of the cover member 11 is made higher (FIG. 10), the light diffusion range to the side is narrowed, while the light in the immediate vicinity is narrowed. It can be seen that the intensity of is increased. That is, in this configuration, the light can be concentrated and irradiated around the area directly below the LED lighting device 1. That is, by making the light transmittance of the curved top 22 of the cover member 11 higher than the light transmittance of the side surface portion, the light is concentrated in a specific region without using a condensing member such as a lens. It can be irradiated.

The light transmittance of each part of the cover member 11 can be realized, for example, by changing the thickness of each part of the cover member 11. For example, by making the thickness of the curved top 22 of the cover member 11 thicker than the thickness of the side surfaces (that is, the vertical side surfaces 23a and 23b, the inclined side surfaces 24a and 24b, etc.), the light transmittance of the curved top 22 is increased. Can be lower than the light transmittance of the side surface portion.

Further, by differentiating the components of the resin material (for example, polycarbonate material) constituting the curved top 22 of the cover member 11 and the resin material (for example, polycarbonate material) constituting the side surface portion of the cover member 11, the cover member 11 The light transmittance of each part of the above can be changed.

(Summary of the first embodiment)
As described above, the LED lighting device 1 according to the present embodiment mainly includes the LED light source 14, the mounting plate 13 on which the LED light source 14 is mounted, and the mounting plate 13 so as to include the LED light source 14 inside. It includes a translucent cover member 11 for covering. The cover member 11 has at least a side surface portion and a curved top portion 22. The side surface portions are arranged at positions facing each other with the LED light source 14 in between. In this embodiment, the side surface portion has flat vertical side surfaces 23a and 23b and inclined side surfaces 24a and 24b. Further, the curved top portion 22 is arranged at a position facing the LED light source 14, and is continuous with each of the vertical side surfaces 23a and 23b.

In the cover member 11, the vertical side surfaces 23a and 23b are arranged on the side surface close to the curved top 22, and the inclined side surfaces 24a and 24b are arranged on the side surface close to the mounting plate 13. Of the light emitted laterally from the LED light source 14, light having a relatively small light distribution angle can be transmitted to the vertical side surfaces 23a and 23b and diffused laterally. Further, among the light emitted laterally from the LED light source 14, the light having a relatively large light distribution angle can be efficiently diffused by passing through the inclined side surfaces 24a and 24b.

Therefore, according to the LED lighting device 1 according to the present embodiment, while maintaining the utilization efficiency of the light emitted from the LED light source 14, it promotes the diffusion of the light to the side and is uniform with respect to the space to be irradiated. It can irradiate light. Therefore, the light can be diffused and irradiated to a wider range on the side of the LED light source without separately using an optical member for diffusing the light.

Further, according to the LED lighting device 1 according to the present embodiment, the configuration can be made thinner. That is, by providing the vertical side surfaces 23a and 23b on the side surface portion of the cover member 11 in the LED lighting device 1, even if the distance from the bottom surface 21 of the cover member 11 to the curved top portion 22 is relatively short, the LED light source 14 can be used. It is possible to prevent the emitted light from being concentrated directly underneath.

[Second Embodiment]
Subsequently, a second embodiment of the present invention will be described. In the LED lighting device 101 according to the second embodiment, the structure of the cover member 111 is different from that of the first embodiment. Therefore, in the following, the structure of the cover member 111 will be mainly described. The description of the constituent members to which the same configuration as that of the first embodiment can be applied will be omitted as appropriate.

The LED lighting device 101 according to the second embodiment is suitably used for signboard lighting installed outdoors in a store such as a convenience store. Similar to the first embodiment, the LED lighting device 101 is a linear lighting device having an elongated shape.

FIG. 11 is a cross-sectional view of the LED lighting device 101 according to the second embodiment. FIG. 11 is a diagram showing a cross section of the linear LED lighting device 101 (that is, a cross section corresponding to the AA surface portion of the LED lighting device 1 shown in FIG. 1) as in FIG.

The LED lighting device 101 of the present embodiment includes a cover member 111, end support members 12a and 12b, a mounting plate 13, an LED light source 14, a side plate 16, a screw (fixing member) 17, and the like as main constituent members. ing. The same configurations as in the first embodiment can be applied to the end support members 12a and 12b, the mounting plate 13, the LED light source 14, the side plate 16, and the screw (fixing member) 17.

The cover member 111 is made of a material capable of transmitting light. Examples of the material of the cover member 111 include a translucent resin such as polycarbonate, as in the first embodiment. The cover member 111 has a tubular shape having a space inside. An LED light source 14 or the like is arranged in the space inside the cover member 111. As a result, the light emitted from the LED light source 14 passes through the cover member 111 and is applied to the object to be irradiated.

As shown in FIG. 11, the cover member 111 includes a bottom surface 121, a curved top (curved portion) 122, first inclined side surfaces (flat surfaces) 123a and 123b, second inclined side surfaces (inclined surfaces) 124a and 124b, and mounting members 111. It has a plate gripping portion 125a, 125b, and the like.

The bottom surface 121 serves as a mounting surface for the LED lighting device 101 on a ceiling, a signboard, or the like. For example, when the LED lighting device 101 is used as signboard lighting, the bottom surface 121 is attached to the back surface of the signboard or the like. A space 128 is formed on the bottom surface 121. Then, the mounting plate 13 and the LED light source 14 are arranged in the upper part of the space 128. The space 128 serves as a heat insulating layer that suppresses the diffusion of heat generated by the LED light source 14. That is, since the space 128 is provided, the heat of the LED light source 14 is less likely to be transferred to the cover member 111. This makes it possible to suppress deformation of the cover member 111 due to heat.

The curved top 122 exists at a position facing the bottom surface 121 and extends along the longitudinal direction of the LED lighting device 101. The curved top 122 has a curved surface shape. The ends on both sides of the curved top 122 in the lateral direction (the ends on both the left and right sides in FIG. 11) are continuous with the first inclined side surfaces 123a and 123b, respectively.

The first inclined side surfaces 123a and 123b form a part of the left and right side surfaces of the cover member 111. The first inclined side surfaces 123a and 123b are located on the left and right sides of the curved top 122 along the extending direction (longitudinal direction) of the curved top 122. For convenience of explanation, in the present specification, in the cross-sectional view of the LED lighting device 101 shown in FIG. 11, the first inclined side surface located on the left side is referred to as the first inclined side surface 123a, and the first inclined side surface located on the right side is referred to as the first inclined side surface. It is referred to as a first inclined side surface 123b.

In the present embodiment, the first inclined side surfaces 123a and 123b are flat surfaces extending in an inclined direction with respect to the mounting plate 13 (that is, the mounting surface of the LED light source 14). Here, the flat surface means a plane that extends straight without being curved.

In FIG. 11, mounting plate gripping portions 125a and 125b are provided on the inner side surfaces of the first inclined side surfaces 123a and 123b on the lower side (the side where the space 128 is provided), respectively. The mounting plate grips 125a and 125b have recesses formed on the inner side surfaces of the first inclined side surfaces 123a and 123b. Then, the mounting plate 13 is sandwiched between the recess of one mounting plate grip portion 125a and the recess of the other mounting plate grip portion 125b.

The first inclined side surfaces 123a and 123b are inclined from the mounting plate 13 side toward the curved top 122 side in a direction in which the distance between the first inclined side surfaces 123a and 123b is narrowed.

Further, the second inclined side surfaces 124a and 124b form a part of the left and right side surfaces of the cover member 111. As shown in FIG. 11, the second inclined side surfaces 124a and 124b are located between the first inclined side surfaces 123a and 123b and the bottom surface 121. The second inclined side surface 124a on the left side is located between the first inclined side surface 123a and the bottom surface 121. The second inclined side surface 124b on the right side is located between the first inclined side surface 123b and the bottom surface 121.

In the present embodiment, the second inclined side surfaces 124a and 124b are located closer to the bottom surface 121 than the mounting plate gripping portions 125a and 125b. Then, the second inclined side surfaces 124a and 124b form a space 128.

With the above configuration, the light emitted from the LED light source 14 and passing through the first inclined side surfaces 123a and 123b is irradiated laterally by passing through a flat surface inclined with respect to the mounting plate 13. Light can be diffused. Therefore, the first inclined side surfaces 123a and 123b can be rephrased as inclined diffusion surfaces.

(About the dimensions of each part of the cover member)
Subsequently, an example of specific dimensions of the cover member 111 of the LED lighting device 101 according to the present embodiment will be described.

For example, in the cover member 111, the inclination angles of the first inclined side surfaces 123a and 123b are 20 ° with respect to the normal line (the line perpendicular to the mounting surface) of the mounting surface of the LED light source 14. Further, in the cover member 111, the width L5 (light source holding surface width) of the mounting plate 13 can be 6 mm, and the distance L6 from the LED light source 14 to the curved top 122 can be 7.6 mm. That is, the ratio of the width L5 to the distance L6 (L6 / L5, this ratio is also referred to as an aspect ratio) can be set within the range of 1.2 or more and 1.3 or less.

FIG. 12 shows the light distribution characteristics of the LED lighting device 101 having the above dimensions. In FIG. 12, the light distribution curve when the LED lighting device 101 is viewed from the longitudinal direction is shown by A, and the light distribution curve when the LED lighting device 101 is viewed from the lateral direction (side direction) is shown by B.

As shown in FIG. 12, in the LED lighting device 101 having the above configuration, the light spreads outward toward the side of the first inclined side surfaces 123a and 123b, and is directly below the LED light source 14 (that is, the light distribution angle is 0 °). It is possible to realize a light distribution in which the luminosity of both sides is higher than the luminosity of (position). By arranging the LED lighting device 101 having such a light distribution characteristic inside the signboard body, uniform illuminance can be realized on the internal illumination surface of the signboard body, and a thin signboard with less uneven brightness can be obtained.

The dimensions of the cover member 111 described above are an example, and the present invention is not limited thereto. However, if the height of the cover member 111 is made too large (that is, if the aspect ratio L6 / L5 is made too large), the luminous intensity directly under the LED light source 14 may be lowered too much. Therefore, for example, it is preferable that the ratio of the width L5 and the distance L6 is twice or less (that is, L6 / L5 ≦ 2). As a result, it is possible to prevent the area directly below the LED light source 14 from becoming too dark.

[Third Embodiment]
Subsequently, a third embodiment of the present invention will be described. In the LED lighting device 201 according to the third embodiment, the structure of the cover member 211 is different from that of the first embodiment. Therefore, the structure of the cover member 211 will be mainly described below. The description of the constituent members to which the same configuration as that of the first embodiment can be applied will be omitted as appropriate.

The LED lighting device 201 according to the third embodiment can be suitably used, for example, as lighting for a room, lighting for illuminating a showcase installed in a store, or the like, instead of a conventional fluorescent lamp. Similar to the first embodiment, the LED lighting device 201 is a linear lighting device having an elongated shape.

FIG. 13 is a cross-sectional view of the LED lighting device 201 according to the third embodiment. FIG. 13 is a diagram showing a cross section of the linear LED lighting device 201 (that is, a cross section corresponding to the AA surface portion of the LED lighting device 1 shown in FIG. 1) as in FIG.

The LED lighting device 201 of the present embodiment includes a cover member 211, end support members 12a and 12b, a mounting plate 13, an LED light source 14, a side plate 16, a screw (fixing member) 17, and the like as main constituent members. ing. The same configurations as those in the first embodiment can be applied to the end support members 12a and 12b, the mounting plate 13, the LED light source 14, the base 15, the side plate 16, and the screw (fixing member) 17.

As shown in FIG. 13, the cover member 211 includes a bottom surface 221 and a curved top (curved portion) 222, a first inclined side surface (flat surface) 223a and 223b, a second inclined side surface (inclined surface) 224a and 224b, and a base. It has pedestal mounting portions 225a and 225b and the like. Note that in FIG. 13, the base 15 is not shown.

The bottom surface 221 has a flat shape. A base 15 and a mounting plate 13 are arranged on the bottom surface 221. Similar to the first embodiment, the LED light source 14 is arranged on the mounting plate 13 arranged along the bottom surface 221. Therefore, the LED light source 14 emits the highest intensity light toward the curved top 222 located at a position facing the upper surface of the LED light source 14.

The curved top 222 exists at a position facing the bottom surface 221 and extends along the longitudinal direction of the LED lighting device 201. Similar to the first embodiment, the curved top 222 has a curved surface shape. The ends on both sides of the curved top 222 in the lateral direction (the ends on both the left and right sides in FIG. 13) are continuous with the first inclined side surfaces 223a and 223b, respectively.

When the LED lighting device 201 is attached to the top surface of a room or a showcase, the bottom surface 221 of the cover member 211 is arranged so as to come into contact with the top surface. At this time, the light emitted from the LED light source 14 and passing through the curved top 222 is mainly emitted from the top surface directly below (directly below). Therefore, the curved top 222 can be rephrased as a direct irradiation surface.

The first inclined side surfaces 223a and 223b form a part of the left and right side surfaces of the cover member 211. The first inclined side surfaces 223a and 223b are located on the left and right sides of the curved top 222 along the extending direction (longitudinal direction) of the curved top 222. For convenience of explanation, in the present specification, in the cross-sectional view of the LED lighting device 201 shown in FIG. 13, the first inclined side surface located on the left side is referred to as the first inclined side surface 223a, and the first inclined side surface located on the right side is referred to as the first inclined side surface. It is referred to as a first inclined side surface 223b.

In the present embodiment, the first inclined side surfaces 223a and 223b are flat surfaces extending in an inclined direction with respect to the mounting plate 13 (that is, the mounting surface of the LED light source 14). Here, the flat surface means a plane that extends straight without being curved.

The second inclined side surfaces 224a and 224b form a part of the left and right side surfaces of the cover member 211. As shown in FIG. 13, the second inclined side surfaces 224a and 224b are located between the first inclined side surfaces 223a and 223b and the bottom surface 221. The same shapes as the inclined side surfaces 24a and 24b of the cover member 11 of the first embodiment can be applied to the second inclined side surfaces 224a and 224b.

The base mounting portions 225a and 225b form a part of the left and right side surfaces of the cover member 211. The base mounting portions 225a and 225b are portions erected from both sides of the bottom surface 221. The base mounting portions 225a and 225b can have the same shape as the base mounting portions 25a and 25b of the cover member 11 of the first embodiment.

As shown in FIG. 13, the first inclined side surfaces 223a and 223b and the second inclined side surfaces 224a and 224b both have a distance between the opposite inclined side surfaces from the mounting plate 13 side toward the curved top 222 side. It is tilted in the narrowing direction. Therefore, the distance L12 between the first inclined side surfaces 223a and 223b near the boundary with the second inclined side surfaces 224a and 224b is smaller than the width L11 of the mounting plate 13 in the lateral direction.

Further, the inclination angles of the second inclined side surfaces 224a and 224b with respect to the normal line of the mounting surface of the LED light source 14 (the line perpendicular to the mounting surface) are larger than the inclination angles of the first inclined side surfaces 223a and 223b. ..

Since the side surface portion of the cover member 211 has the above-mentioned shape, the light emitted from the LED light source 14 can be diffused to a wider range in the lateral direction thereof.

[Fourth Embodiment]
Subsequently, a fourth embodiment of the present invention will be described. In the LED lighting device 301 according to the fourth embodiment, the structure of the cover member 311 is different from that of the first embodiment. Therefore, in the following, the structure of the cover member 311 will be mainly described. The description of the constituent members to which the same configuration as that of the first embodiment can be applied will be omitted as appropriate.

The LED lighting device 301 according to the fourth embodiment is a linear lighting device having an elongated shape as in the first embodiment.

FIG. 14 is a cross-sectional view of the LED lighting device 301 according to the fourth embodiment. FIG. 14 is a diagram showing a cross section of the linear LED lighting device 301 (that is, a cross section corresponding to the AA surface portion of the LED lighting device 1 shown in FIG. 1) as in FIG.

The LED lighting device 301 of the present embodiment includes a cover member 311 and end support members 12a and 12b, a mounting plate 13, an LED light source 14, a side plate 16, a screw (fixing member) 17, and the like as main constituent members. ing. The same configurations as those in the first embodiment can be applied to the end support members 12a and 12b, the mounting plate 13, the LED light source 14, the base 15, the side plate 16, and the screw (fixing member) 17.

As shown in FIG. 14, the cover member 311 has a bottom surface 321 and a curved top (curved portion) 322, vertical side surfaces (flat surfaces) 323a and 323b, and a base mounting portion 325a and 325b. Note that in FIG. 14, the base 15 is not shown.

The bottom surface 321 has a flat shape. The base 15 and the mounting plate 13 are arranged on the bottom surface 321. Similar to the first embodiment, the LED light source 14 is arranged on the mounting plate 13 arranged along the bottom surface 321. Therefore, the LED light source 14 emits the highest intensity light toward the curved top 322 at a position facing the upper surface of the LED light source 14.

The curved top portion 322 exists at a position facing the bottom surface 321 and extends along the longitudinal direction of the LED lighting device 301. Similar to the first embodiment, the curved top 322 has a curved surface shape. The ends on both sides of the curved top 322 in the lateral direction (the ends on both the left and right sides in FIG. 14) are continuous with the vertical side surfaces 323a and 323b, respectively.

The vertical side surfaces 323a and 323b form the left and right side surfaces of the cover member 311. The vertical side surfaces 323a and 323b are located on the left and right sides of the curved top 322 along the extending direction (longitudinal direction) of the curved top 322. Note that FIG. 14 shows a state in which the LED lighting device 301 is installed on the top surface of a room or a showcase and irradiates light downward. That is, the LED lighting device 301 is shown in an upside-down state as shown in FIG. Therefore, in the cross-sectional view of the LED lighting device 1 shown in FIG. 14, the vertical side surface located on the left side is referred to as a vertical side surface 323b, and the vertical side surface located on the right side is referred to as a vertical side surface 323a.

In the present embodiment, the vertical side surfaces 323a and 323b are flat surfaces extending in a direction perpendicular to the mounting plate 13 (that is, the mounting surface of the LED light source 14). Here, the flat surface means a plane that extends straight without being curved. The light emitted from the LED light source 14 and passing through the vertical side surfaces 323a and 323b passes through these flat surfaces extending in the direction perpendicular to the mounting plate 13 to irradiate the light laterally. Can be diffused. Therefore, the vertical side surfaces 323a and 323b can be paraphrased as vertical diffusion surfaces.

As described above, the LED lighting device 301 according to the present embodiment is not provided with the inclined diffusion surface on the side surface of the cover member 311. An LED lighting device having such a configuration is also included in one aspect of the present invention. It can also be said that the cover member 311 of the present embodiment has a configuration in which a part of the vertical side surfaces 323a and 323b (flat surface) is located inside the 1/2 light distribution angle of the LED light source 14.

In the LED lighting device 301 according to the present embodiment, as in the first embodiment, the light transmittance of the curved top portion 322 of the cover member 311 is set to the side surface portions (that is, the vertical side surfaces 323a and 323b) of the cover member 311. ) May be different from the light transmittance.

For example, in the LED lighting device 301, the light transmittance of the curved top 322 of the cover member 311 is lower than the light transmittance of the vertical side surfaces 323a and 323b of the cover member 311 in the lateral direction of the LED light source 14. Can irradiate more intense light. That is, the irradiation light from the LED lighting device 301 can be diffused to a wider range in the lateral direction thereof.

[Summary]
As described above, the LED lighting devices 1, 101, 201, and 301 according to the present embodiment include at least one LED light source 14 and the translucent cover members 11, 111, 211, and 311 that cover the LED light source 14. I have. The cover members 11, 111, 211, and 311 have side surfaces having flat surfaces (for example, vertical side surfaces 23a and 23b, first inclined side surfaces 123a and 123b, first inclined side surfaces 223a and 223b, or vertical side surfaces 323a and 323b). , Each of the flat surfaces has at least a curved portion (for example, a curved top portion 22, 122, 222, 322) continuous with each other.

Like the LED lighting devices 1 and 301 according to the present embodiment, the flat surface is preferably a vertical side surface extending in a direction parallel to the irradiation direction of the LED light source 14. Here, the irradiation direction of the LED light source 14 means the direction in which the highest intensity light is emitted from the LED light source 14. Further, in the present embodiment, this direction can be said to be a direction perpendicular to the mounting surface of the LED light source 14. Since the flat surface parallel to the irradiation direction of the LED light source 14 is provided, the light can be diffused in the lateral direction of the LED light source 14.

Further, as in the LED lighting devices 101 and 201 according to the present embodiment, the flat surface may be an inclined side surface extending in a direction inclined with respect to the irradiation direction of the LED light source 14. Here, the irradiation direction of the LED light source 14 means the direction in which the highest intensity light is emitted from the LED light source 14. Further, in the present embodiment, this direction can also be said to be a direction inclined with respect to the mounting surface of the LED light source 14.

Further, as in the LED lighting devices 1 and 201 according to the present embodiment, the LED light source 14 is mounted on the mounting plate 13 and the distance between the flat surfaces arranged at opposite positions (for example, L2). Alternatively, L12) may be smaller than the length of the mounting plate 13 in the corresponding direction (for example, the width L1 or L11 of the mounting plate 13 in the lateral direction).

Further, as in the LED lighting devices 1 and 201 according to the present embodiment, the side surface portion has an inclined surface (for example, inclined side surfaces 24a and 24b, or a second inclined surface) between the flat surface and the above-mentioned mounting plate 13. It may further have side surfaces 224a and 224b).

Further, as in the LED lighting device 1 according to the present embodiment, all of the vertical side surfaces 23a and 23b having a flat surface may be located inside the 1/2 light distribution angle of the LED light source 14. Alternatively, as in the LED lighting device 301 according to the present embodiment, a configuration in which a part of the vertical side surfaces 323a and 323b having a flat surface is located inside the 1/2 light distribution angle of the LED light source 14 is also possible. ..

Further, in the LED lighting devices 1, 101, 201, and 301 according to the present embodiment, the light transmittance (total light transmittance) of the curved portion is higher than the light transmittance (total light transmittance) of the side surface portion. May be low.

In this embodiment, a linear lighting device has been described as an example. However, in another aspect of the present invention, the form of the LED lighting device can be a dot type such as a light bulb. Even in such a case, the cover member of the LED lighting device can have a cross-sectional shape as shown in FIG.

It should be considered that the embodiments disclosed this time are exemplary in all respects and not restrictive. The scope of the present invention is shown by the scope of claims rather than the above description, and it is intended to include all modifications within the meaning and scope equivalent to the scope of claims. In addition, a configuration obtained by combining the configurations of different embodiments described in the present specification with each other is also included in the scope of the present invention.

1: LED lighting device 11: Cover member 13: Mounting plate 14: LED light source 15: Base 15a: Mounting plate support surface (of the base) 15b: Mounting plate gripping portion (of the base) 15c: (Base) Mounting plate gripping part 21: Bottom surface 22: Curved top (curved part)
23a: Vertical side surface (flat surface)
23b: Vertical side surface (flat surface)
24a: Inclined side surface (inclined surface)
24b: Inclined side surface (inclined surface)
25a: Base arrangement part 25b: Base arrangement part 101: LED lighting device 111: Cover member 122: Curved top (curved part)
123a: First inclined side surface (flat surface)
123b: First inclined side surface (flat surface)
201: LED lighting device 211: Cover member 222: Curved top (curved part)
223a: First inclined side surface (flat surface)
223b: First inclined side surface (flat surface)
224a: Second inclined side surface (inclined surface)
224b: Second inclined side surface (inclined surface)
301: LED lighting device 311: Cover member 322: Curved top (curved part)
323a: Vertical side surface (flat surface)
323b: Vertical side surface (flat surface)

Claims (7)

With LED light source
A translucent cover member that covers the LED light source is provided.
The cover member is
A side surface portion having a flat surface, which is arranged at positions facing each other with the LED light source in between,
An LED lighting device that is arranged at a position facing the LED light source and has at least a curved portion that is continuous with each of the flat surfaces. The LED lighting device according to claim 1, wherein the flat surface extends in a direction parallel to the irradiation direction of the LED light source. The LED lighting device according to claim 1, wherein the flat surface extends in a direction inclined with respect to the irradiation direction of the LED light source. The LED light source is mounted on a mounting plate and is mounted on a mounting plate.
The LED lighting device according to any one of claims 1 to 3, wherein the distance between the flat surfaces arranged at the opposite positions is smaller than the length of the above-mentioned mounting plate. The LED light source is mounted on a mounting plate and is mounted on a mounting plate.
The LED lighting device according to any one of claims 1 to 4, wherein the side surface portion further has an inclined surface between the flat surface and the above-mentioned mounting plate. The LED lighting device according to any one of claims 1 to 5, wherein the flat surface is located inside a 1/2 light distribution angle of the LED light source. The LED lighting device according to any one of claims 1 to 6, wherein the light transmittance of the curved portion is lower than the light transmittance of the side surface portion.

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