JP5041409B2 - Daylighting equipment - Google Patents

Description

  The present invention relates to a daylighting apparatus for illuminating the interior of a space by introducing light into the interior of the space.

  Conventionally, a floating roof type storage tank (floating roof tank) has been known. This storage tank includes a side wall that defines a storage space for storing a liquid such as crude oil or petroleum, and a liquid level of the liquid in the storage space. It has a ceiling wall part (floating roof) that floats on the top, and when the liquid level rises and falls as the amount of liquid stored in the storage space of the side wall part increases or decreases, the ceiling wall part moves up and down accordingly. (See, for example, Patent Document 1).

  In such storage tanks, it is obliged to conduct periodic inspections according to the Fire Service Act. When conducting this periodic inspection, the liquid stored in the storage space is discharged to the outside, and the top wall is removed. After being lowered from the bottom of the side wall to a predetermined height position (for example, about 2 m), an operator enters the storage space through the manhole provided on the top wall or the manhole provided on the side wall, and stored. Work such as cleaning and inspection in the tank.

JP-A-9-142575

  When performing operations such as cleaning and inspection in the storage tank as described above, it is necessary to install a lighting fixture such as a discharge lamp in the storage tank and illuminate the storage tank with light from the lighting fixture. . However, flammable gas generated by evaporation of the liquid remains inside the storage tank. For example, when sparks or static electricity occurs in the electrical system of a lighting fixture, the gas in the storage tank is ignited. There is a problem that the safety at the time of work is significantly reduced. In order to solve such a problem, an explosion-proof illumination device is used when performing work, but even in such a case, it is difficult to ensure sufficient safety.

  In addition to the storage space in the storage tank described above, in order to illuminate a space where light from the sun is difficult to reach, such as an underground space, an inboard space, a tunnel space, and an underwater space, a lighting device such as a discharge lamp is used. There is a problem that it is not preferable from the viewpoint of energy saving.

An object of the present invention is to provide a daylighting apparatus that can save energy by illuminating a space with light from the sun.
Another object of the present invention is to provide a daylighting apparatus that can illuminate the inside of a storage tank with high safety.

The daylighting device according to claim 1 of the present invention is a daylighting device for illuminating the inside of the storage tank, wherein the daylighting means for introducing light from the sun, and the light from the daylighting means is reflected by its inner surface. A cylindrical light guide means for guiding the light in the predetermined direction, an irradiation means for irradiating light from the light guide means into the storage tank, and an illumination means for irradiating the light. The storage tank has a side wall part that defines a storage space, and a top wall part that closes an upper surface of the storage space, and the manhole part is provided on the top wall part ,
The daylighting unit is attached to the storage tank, one end of the light guiding unit is connected to the daylighting unit through the manhole, and the other end extends into the storage tank through the manhole. Connected to the means,
The illumination means is provided outside the storage tank,
The daylighting means includes an attachment member attached to the manhole part, and a dome member detachably attached to the attachment member,
The light guide means is connected to the irradiation means and locked to the attachment member, and the first tubular shape in a state where the dome member is detached from the attachment member. A second tubular member detachably connected to the member,
The dome member is detachably attached to the attachment member in a state where the second tubular member is detached from the first tubular member,
The light of the illumination means is introduced into the inside from one end of the second cylindrical member connected to the first cylindrical member in a state where the dome member is removed from the mounting member.
The second cylindrical member is a bent cylindrical member, and is bent after extending upward to the outside of the storage tank in a state connected to the first cylindrical member,
The light of the illumination means is introduced into the bent cylindrical member from one end thereof connected to the first cylindrical member, and is reflected by the inclined reflecting surface formed on the inner surface of the bent cylindrical member. Being led downward in the vertical direction,
Light from the sun, is introduced by the dome member mounted on said mounting member and said Rukoto.

Further, in the daylighting device according to claim 2, the first cylindrical member has a plurality of cylindrical members that are movably connected to each other, and the plurality of cylindrical members are adjacent to each other. Of the pair of cylindrical members, the cylindrical member on the daylighting means side is configured to be housed inside the cylindrical member on the irradiation means side, and the plurality of cylindrical members are moved relative to each other to move the first member. The cylindrical member is expanded and contracted .

Furthermore, in the lighting device according to claim 3 of the present invention, the lighting device is for illuminating the inside of the storage tank, and the dome member for introducing light from the sun and the dome member are detachably attached. A mounting member, a cylindrical first light guide means for guiding light from the dome member in a predetermined direction while reflecting the light from the inner surface thereof, and irradiating the inside of the storage tank with light from the first light guide means A first irradiating means for irradiating light, a illuminating means for irradiating light, a cylindrical second light guiding means for guiding light from the illuminating means in a predetermined direction while reflecting the light from the inner surface, and the second guiding means A second irradiating means for irradiating light from the light means to the inside of the storage tank; and a supporting means for supporting the second light guiding means, and the storage tank has a side wall defining an accommodation space. And a heaven that covers the upper surface of the housing space Includes a part, and the side wall portion is provided with a manhole section,
The attachment member is attached to the manhole portion, and one end portion of the first light guide means is connected to the dome member through the manhole portion, and the other end portion extends into the storage tank through the manhole portion. Connected to the first irradiation means, the illumination means is provided outside the storage tank;
The dome member is removable from the attachment member together with the first light guide means and the first irradiation means, and the dome member is detached from the attachment member together with the first light guide means and the first irradiation means. In the state, the support means is detachably attached to the attachment member, and the support means attached to the attachment member supports the second light guide means movably relative to the side wall portion, One end of the second light guide means supported by the support means extends to the outside of the storage tank through the manhole, and the other end extends to the inside of the storage tank through the manhole. The second light guide connected to the irradiation means, and the light of the illumination means is introduced from one end of the second light guide means into the second light guide means and supported by the support means. Stage, characterized in that the other end portion of the second light guiding means is swingable in a direction to move in the vertical and horizontal directions.

The lighting device according to claim 4 of the present invention is a lighting device for illuminating the inside of a storage tank having a storage space,
A cylindrical light guide means for guiding light in a predetermined direction while reflecting the light on its inner surface, an irradiation means for irradiating the light from the light guide means to the inside of the storage tank, and one end of the light guide means A support means for supporting the portion, and a support member for supporting the other end of the light guide means ,
The storage tank has a side wall part that defines a storage space, and a top wall part that closes an upper surface of the storage space, and the side wall part is provided with a manhole part,
The illumination means is provided outside the storage tank,
One end of the light guide means extends through front KOR Nhoru portion outside the storage tank, the other end is connected to the irradiation unit extends substantially horizontally inside the storage tank through the manhole portion And
The support means supports one end of the light guide means so as to be movable relative to the side wall , and the support member is provided inside the storage tank, and the other end of the light guide means Supports the height adjustable,
The light guide means supported by the support means and the support member can swing in a direction in which the other end of the light guide means moves in the vertical direction and the horizontal direction.

According to the daylighting device of the first aspect of the present invention, when light from the sun is introduced into the daylighting means, the light from the daylighting means is guided in a predetermined direction while being reflected by the inner surface of the light guiding means. Since the light from the light means is irradiated to the inside of the storage tank by the irradiating means, the light from the sun can be introduced into the storage tank and the accommodation space inside the storage tank can be illuminated by this light. Therefore, when illuminating the storage space inside the storage tank using the light from the sun, there is no risk of sparks, static electricity, etc., and flammable gas remaining in the storage space inside the storage tank. It is possible to reliably prevent ignition and explosion, and it is possible to illuminate the storage space inside the storage tank with high safety. Also, outside of the storage tank is illuminating means. Therefore, the storage space inside the storage tank can be illuminated with light from the illumination means even in rainy weather or at night when sufficient light from the sun cannot be obtained. Moreover, since the illumination means is provided outside the storage tank, even if the illumination means is used, it is possible to prevent the combustible gas remaining in the storage space inside the storage tank from being ignited and exploding. The storage tank can be composed of various storage tanks such as a floating roof tank, a dome roof tank, a cone roof tank, an underground tank, and a spherical tank. The lighting means is attached to the manhole part of the storage tank, one end of the light guiding means is connected to the lighting means through the manhole part, and the other end is connected to the irradiation means through the manhole part to the inside of the storage tank. Therefore, it is possible to easily install the daylighting device for the existing storage tank.

Moreover , since the light of the illumination means is introduced into the inside from one end of the second cylindrical member and the light from the sun is introduced by the dome member, the light of the illumination means and the light from the sun are introduced more efficiently. And can be used effectively .

Furthermore, according to the lighting device according to claim 2 of the present invention, since the multiple cylindrical member guiding means are stretchable by being moved to one another, for example, a side wall and a top wall integral In the storage tank of the type where the top wall is not moved up and down, when the daylighting device is installed in the manhole provided on the top wall, the light guiding means is extended to set the length longer By doing so, the irradiation means can be lowered to the lower region of the accommodation space. Accordingly, it is possible to illuminate the lower area of the accommodation space, and it is possible to perform work in the lower area of the accommodation space. In addition, since the cylindrical member on the daylighting means side of the pair of cylindrical members adjacent to each other is configured to be housed inside the cylindrical member on the irradiation means side, the light guide means is extended. The cross-sectional area of the light guide means increases in accordance with a predetermined direction in which light is guided, and light can be guided more efficiently.

Furthermore, according to the daylighting device of the third aspect of the present invention, when light from the sun is introduced from the dome member, the light from the dome member is reflected by the inner surface of the first light guide means in a predetermined direction. Since the light from the first light guiding means is guided to the inside of the storage tank by the first irradiating means, the light from the sun is introduced into the inside of the storage tank, and this light accommodates the inside of the storage tank. The space can be illuminated. Therefore, when illuminating the storage space inside the storage tank using the light from the sun, there is no risk of sparks, static electricity, etc., and flammable gas remaining in the storage space inside the storage tank. It is possible to reliably prevent ignition and explosion, and it is possible to illuminate the storage space inside the storage tank with high safety. Further, an illumination unit is provided outside the storage tank, and light from the illumination unit is introduced by the second light guide unit. Therefore, the storage space inside the storage tank can be illuminated with light from the illumination means even in rainy weather or at night when sufficient light from the sun cannot be obtained. Moreover, since the illumination means is provided outside the storage tank, even if the illumination means is used, it is possible to prevent the combustible gas remaining in the storage space inside the storage tank from being ignited and exploding. The storage tank can be composed of various storage tanks such as a floating roof tank, a dome roof tank, a cone roof tank, an underground tank, and a spherical tank. The attachment member to which the dome member is attached is attached to the manhole portion of the storage tank, one end portion of the first light guide means is connected to the first daylighting means through the manhole portion, and the other end portion is connected to the storage tank through the manhole portion. Therefore, the daylighting apparatus can be easily installed in the existing storage tank.
Moreover, since the light of the illumination means is introduced into the inside from one end of the second light guide means, and the light from the sun is introduced by the dome member, the light of the illumination means and the light from the sun are introduced more efficiently. Can be used effectively.
Furthermore, support means for supporting the second light guide means to be movable relative to the side wall portion is provided, and the second light guide means supported by the support means is the second light guide means. Since the other end can be swung in the vertical and horizontal directions, the direction of light irradiation from the illumination unit can be adjusted by moving the second light guide unit relative to the side wall unit. can do. Accordingly, it is possible to illuminate a desired area in the storage tank, and it is possible to improve workability in the storage tank.

According to the daylighting device of the fourth aspect of the present invention, the light guided in a predetermined direction while being reflected by the inner surface of the light guide means is irradiated to the inside of the storage tank by the irradiation means. Light from the outside can be introduced into the storage tank, and the interior of the storage tank can be illuminated by this light. Further, a support means for supporting the light guide means so as to be movable relative to the side wall portion is provided, and the light guide means supported by the support means has the other end portion of the light guide means in the vertical direction. and since it is pivotable in a direction that moves horizontally the light guiding means by relatively moving with respect to the side wall portion, it is possible to adjust the irradiation direction of light from the lighting means. Therefore, it is possible to illuminate a desired area in the storage tank, and it is possible to improve workability in the storage tank. In addition, since the light from the lighting means provided outside the storage tank can be irradiated to the inside of the storage tank, there is no risk of sparks or static electricity occurring inside the storage tank when illuminating the inside of the storage tank, It is possible to reliably prevent flammable gas remaining inside the storage tank from igniting and exploding, and to illuminate the interior of the storage tank with high safety.

Hereinafter, various embodiments of a daylighting device according to the present invention will be described with reference to the accompanying drawings.
[First Embodiment]
First, a daylighting device according to a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a schematic cross-sectional view showing a storage tank provided with a daylighting apparatus according to the first embodiment of the present invention, and FIG. 2 is a schematic cross-sectional view showing the daylighting apparatus of FIG.

  In FIG. 1, the illustrated floating roof type storage tank 2 (floating roof tank) includes, for example, a side wall 4 that defines a storage space 12 that stores a liquid (not shown) such as crude oil or petroleum, and an upper surface of the storage space 12. Has a ceiling wall 6 (floating roof). The side wall part 4 and the top wall part 6 are configured separately, and the top wall part 6 is configured to store liquid in the accommodation space 12 of the side wall part 4 (that is, the space surrounded by the side wall part 4 and the top wall part 6). It floats on the liquid surface.

  The side wall part 4 is configured in a cylindrical shape with an upper part opened, and is erected on the upper part of the foundation 8. At the lower end portion of the side wall portion 4, a manhole portion 14 is provided for workers and the like to enter and exit the accommodation space 12.

  The top wall portion 6 is made of a disk-shaped thin steel plate. The top wall portion 6 is provided with a plurality of circular manhole portions 16 through which workers and the like enter and leave the accommodation space 12 of the side wall portion 4. The opening 18 of the manhole 16 extends in a cylindrical shape above the top surface of the top wall 6. The top wall 6 is provided with a plurality of support holes 20 and a plurality of floating roof supports 22 inserted and supported in the plurality of support holes 20 respectively. The floating roof support 22 extends in the vertical direction, and a lower end portion thereof extends downward from the lower surface of the top wall portion 6 by a predetermined length (for example, about 2 m). An annular pontoon 24 is provided on the outer peripheral portion of the ceiling wall 6, and the ceiling wall 6 is floated on the liquid level in the accommodating space 12 of the side wall 4 by the buoyancy of the pontoon 24. Between the outer peripheral surface of the pontoon 24 and the inner peripheral surface of the side wall portion 4, a seal device 26 for sealing the accommodation space 12 of the side wall portion 4 and the outside is interposed, and above the seal device 26. A weather shield 28 is provided.

  In such a storage tank 2, when the liquid level in the storage space 12 of the side wall 4 increases or decreases and the liquid level of the liquid rises or falls, the top wall 6 is moved up and down accordingly. Therefore, when the top wall 6 is lowered by discharging the liquid in the accommodating space 12 of the side wall 4 to the outside, the lower ends of the plurality of floating roof supports 22 are supported by the bottom of the side wall 4. Thus, the top wall 6 is supported at a predetermined height position (for example, about 2 m) from the bottom of the side wall 4 (see FIG. 1). In this state where the top wall portion 6 is lowered, an operator or the like enters the accommodation space 12 of the side wall portion 4 through the manhole portion 16 provided in the top wall portion 6 or the manhole portion 14 provided in the side wall portion 4. Thus, for example, operations such as cleaning and inspection are performed in the accommodation space 12.

  Referring also to FIG. 2, the illustrated daylighting device 30 performs the operations such as cleaning and inspection in the housing space 12 of the side wall portion 4 as described above, and the housing space 12 (the storage tank 2 of the storage tank 2). The lighting device 30 will be described in detail below. The daylighting device 30 includes a daylighting means 32 for introducing light from the sun, a light guide means 34 for guiding light from the daylighting means 32 in a predetermined direction while reflecting the light from the inner surface thereof, and a side wall for light from the light guide means 34. Irradiating means 36 for irradiating the accommodating space 12 of the section 4.

  The daylighting means 32 includes an attachment member 38 and a dome member 40 attached to the attachment member 38. The attachment member 38 is made of, for example, a metal such as galvanium, aluminum, or copper, fiber reinforced plastic (FRP), or the like, and has a disk-shaped base portion 42 and a cylindrical support portion 44 that extends upward from the base portion 42. And have. A ring-shaped locking portion 46 extending radially inward is provided in the opening of the support portion 44, and a cylindrical cover portion 48 extending downward is provided on the outer peripheral portion of the base portion 42. Yes. The attachment member 38 is attached to the opening portion 18 of the manhole portion 16 of the top wall portion 6. When attached in this way, the outer peripheral portion of the opening portion 18 of the manhole portion 16 is covered by the cover portion 48 of the base portion 42. Is called.

  The dome member 40 is formed of, for example, a synthetic resin such as transparent acrylic or polycarbonate, transparent glass, or the like, and has a substantially hemispherical shape. The outer diameter of the opening portion of the dome member 40 is configured to be somewhat larger than the outer diameter of the opening portion of the support portion 44, and is supported by the opening portion of the dome member 40 when the dome member 40 is attached to the attachment member 38. The outer peripheral surface of the opening of the portion 44 is covered.

  An illumination unit 50 is provided in association with the daylighting unit 32. The illumination unit 50 includes an illumination unit 52 composed of, for example, a discharge lamp or an LED lamp, and a stand for supporting the illumination unit 52. Part 54. The stand part 54 is erected on the base part 42, and light from the illumination part 52 is introduced through the dome member 40 of the daylighting means 32. In addition, it is preferable to comprise the illumination part 52 of this illumination means 50 from an explosion-proof thing.

  The irradiation means 36 is composed of, for example, a hemispherical diffusion cover member 56, and the diffusion cover member 56 is formed of, for example, a semitransparent synthetic resin such as acrylic or plastic.

  The light guide means 34 has a lighting-side cylindrical member 58 and an irradiation-side cylindrical member 60 that are connected to each other. A reflective surface 62 is formed on the inner surface of each of the cylindrical members 58, 60. The reflective surface 62 is formed by attaching a reflective material (not shown) such as an aluminum film, or by vapor deposition of aluminum. ing. Ring-shaped locked portions 64 and 66 extending outward in the radial direction are provided at one end of the lighting-side tubular member 58 and the other end of the irradiation-side tubular member 60, respectively. Each cylindrical member 58, 60 is formed in a tapered shape whose outer diameter on one end side is somewhat smaller than the outer diameter on the other end side, and one end portion of the irradiation side cylindrical member 60 is a daylighting side cylindrical member. The other end of 58 is inserted into the inside by a predetermined length, and, for example, an aluminum tape (not shown) or the like is connected to the joint between the other end of the daylighting side cylindrical member 58 and one end of the irradiation side cylindrical member 60. By sticking, both are mutually connected, and the light guide means 34 is thus configured.

  One end portion of the light guide means 34 is inserted into the support portion 44 of the mounting member 38 through the manhole portion 16 of the top wall portion 6, and the locked portion 64 of the lighting side tubular member 58 is locked to the support portion 44. Locked to the portion 46. In this state, the dome member 40, the support portion 44, and the one end portion of the lighting-side cylindrical member 58 are fixed integrally with each other by a plurality of mounting screws 68, so that one end portion of the light guide means 34 opens the support portion 44. It is attached to the part. The other end portion of the light guide means 34 extends into the accommodating space 12 of the side wall portion 4 through the manhole portion 16 and is attached to the diffusion cover member 56 via the fixing ring 70. The fixing ring 70 includes a ring main body portion 72 and a cylindrical portion 74 extending from the inner peripheral portion of the ring main body portion 72. The ring main body 72 is locked to the locked portion 66 of the irradiation side cylindrical member 60 and both are fixed by a plurality of mounting screws 76, and the opening of the diffusion cover member 56 is connected to the outer peripheral portion of the cylindrical portion 74. And the other end portion of the light guide means 34 is attached to the diffusion cover member 56 via the fixing ring 70.

  Illumination of the inside of the storage tank 2 by the lighting device 30 configured as described above is performed as follows. The sunlight introduced through the dome member 40 of the daylighting means 30 is guided to the inside of the light guide means 34 from the opening of the support portion 44, and the light thus guided is transmitted to each cylindrical member 58, 60. The light is guided in a predetermined direction (the direction in which the irradiation means 36 is disposed) while irregularly reflecting the reflection surface 62 on the inner surface. The light emitted from the other end of the irradiation side tubular member 60 is diffused and irradiated to the accommodation space 12 of the side wall 4 through the diffusion cover member 56, and thus the accommodation space of the side wall 4 using sunlight. 12 is illuminated, and an operator or the like can perform operations such as cleaning and inspection in the accommodation space 12 of the side wall portion 4.

  In the daylighting device 30 according to the first embodiment, the housing space 12 of the side wall 4 is illuminated using light from the sun, so that no sparks, static electricity, etc. are generated, and the housing space 12 of the side wall 4 is not generated. It is possible to reliably prevent the flammable gas remaining in the flammable gas from igniting and exploding, and to illuminate the accommodating space 12 of the side wall portion 4 with high safety. Moreover, since the lighting device 30 can be installed using the manhole part 16 of the ceiling wall part 6, the lighting device 30 can be easily installed with respect to the existing storage tank 2. FIG. Moreover, since the lighting means 32, the light guide means 34, and the irradiation means 36 are each comprised integrally, the other end part side (irradiation means 36 side) of the light guide means 34 is the opening of the manhole part 16 of the top wall part 6. The daylighting means 30 can be easily installed by inserting it into the accommodating space 12 of the side wall 4 through the portion 18 and attaching the attachment member 38 to the opening 18 of the manhole portion 16.

  In addition, when sufficient light from the sun cannot be obtained, for example, in rainy weather or at night, the illumination unit 52 of the illumination unit 50 is turned on so that the light from the illumination unit 52 is emitted from the dome member 40. In the same manner as described above, the light can illuminate the accommodation space 12 of the side wall 4 with the light. In the first embodiment, the illuminating means 50 is configured to stand on the base 42, but is not limited thereto, and may be configured to stand on the top surface of the top wall 6, for example. Since the housing space 12 and the outside of the side wall portion 4 are blocked by the daylighting means 34, and the illumination means 50 is disposed outside the blocked space, the flammable gas remaining in the housing space 12 of the side wall portion 4 is outside. There is no risk of igniting this gas and igniting and blasting, and safety can be ensured.

  In the first embodiment, the light guide means 34 is composed of the lighting side cylindrical member 58 and the irradiation side cylindrical member 60. For example, the distance between the top wall 6 and the bottom of the side wall 4 is Depending on the length of the manhole portion 16 and the like, the number of cylindrical members can be set as appropriate. Thus, the length of the light guide means 34 can be adjusted by appropriately setting the number of cylindrical members.

[Second Embodiment]
Next, a daylighting device according to a second embodiment of the present invention will be described with reference to FIGS. FIG. 3 is a schematic cross-sectional view showing a daylighting apparatus according to a second embodiment of the present invention, FIG. 4 is a schematic cross-sectional view showing the bent tubular member of FIG. 3 in a state where it is not bent, and FIG. FIG. 4 is a view showing a state where the bent tubular member of FIG. 3 is bent at an angle of about 45 degrees. In the following embodiments, components that are substantially the same as those in the first embodiment are given the same reference numerals, and descriptions thereof are omitted.

  3 to 5, in the daylighting device 30 </ b> A of the second embodiment, the light guide unit 34 </ b> A includes a daylighting side tubular member 58 </ b> A and a bent tubular member 80 that are connected to each other. A mounting portion 82 extending radially outward and downward is provided on the outer peripheral portion at one end portion of the daylighting-side cylindrical member 58A, and a plurality of rollers 84 are rotatably attached to the inside of the mounting portion 82. It has been. The plurality of rollers 84 are movably mounted on the openings of the support portion 44 (functioning as guide rails), so that one end of the light guide means 34A is rotatably mounted on the opening of the support portion 44. Is done.

  The bent tubular member 80 has a pair of tubular bodies 86a and 86b that are rotatably connected to each other. One open end (open end connected to each other) of the cylindrical bodies 86a and 86b is inclined at an angle of about 45 degrees with respect to the axis C, and the other open end thereof is with respect to the axis C. Are substantially vertical. Also, a ring-shaped fitting projection 88 that protrudes somewhat outward in the radial direction is provided at one opening end of the cylindrical body 86b, and this fitting is provided at one opening end of the cylindrical body 86a. A ring-shaped fitting recess 90 that is slidably fitted into the fitting protrusion 88 is provided. Thereby, one cylindrical body 86a can be rotated relative to the other cylindrical body 86b as shown by an arrow in FIG. 4, and thus, one cylindrical body 86a can be rotated. The body 86a is flexibly bent with respect to the other cylindrical body 86b within an angle range of 0 to 45 degrees. Therefore, the bent tubular member 80 as a whole has an arbitrary angle within an angle range of 0 to 45 degrees. Can be bent freely. In FIG. 3, the fitting protrusion 88 and the fitting recess 90 are not shown. Further, a locked portion 66 is provided at the other opening end of the other cylindrical body 86b, and a fixing ring 70 is provided at the other end of the light guide means 34A as in the first embodiment. The diffusion cover member 56 is attached through the gap.

  In the daylighting apparatus 30A of the second embodiment, the plurality of rollers 84 are moved while rotating along the openings of the support portions 44, respectively, so that the light guide means 34A is indicated by an arrow in FIG. Therefore, the irradiation direction of the light from the irradiation means 36 can be adjusted, and a desired region in the accommodation space 12 of the side wall (not shown) can be illuminated.

  It is to be noted that the illumination angle of the light from the irradiation means 36 can be adjusted by appropriately adjusting the bending angle of the bent tubular member 80 as described above, and illumination that can be covered by rotating the light guide means 34A. The size of the range can be adjusted.

  The light guide means 34A is preferably made of aluminum, so that no spark is generated when the fitting protrusion 88 and the fitting recess 90 are slid relative to each other as described above. High safety can be ensured.

  Further, as in the daylighting device 30A 'shown in FIG. 6, a fixing unit 144 for fixing the daylighting unit 32, the light guide unit 34A, and the irradiation unit 36 integrally may be provided. The fixing means 144 includes a plurality of (for example, four) frame main bodies 146, and each frame main body 146 is bent corresponding to the bending angle of the light guide means 34A. The frame main body 146 is attached along the outer peripheral surface of the light guide means 34A using a plurality of rivets 147, and its upper end is bent substantially vertically and attached to the back surface of the base portion 42, and its lower end is It is bent into an L shape and connected to a protective member 148 for protecting the irradiation means 36. The protection member 148 is configured by combining a plurality of protection bars 150 and is disposed so as to cover the front of the diffusion cover member 56. In addition, a tape-like photocurable FRP sheet 152 is wound around the outer periphery of the light guide unit 34A, whereby the light guide unit 34A and the plurality of frame bodies 146 can be more firmly and integrally fixed. Therefore, in the daylighting device 30A ′ shown in FIG. 6, the daylighting device 30A ′ is easily handled when the daylighting device 30A ′ is installed in the storage tank 2, and the diffusion cover member 56 is prevented from dropping after the daylighting device 30A ′ is installed. be able to.

[Third Embodiment]
Next, a daylighting device according to a third embodiment of the present invention will be described with reference to FIGS. FIG. 7 is a schematic cross-sectional view showing a daylighting device according to a third embodiment of the present invention, FIG. 8 is a schematic cross-sectional view showing the bent tubular member of FIG. 7 in a state where it is not bent, and FIG. It is a figure which shows the state which bent the bending cylindrical member of FIG. 7 at the angle of about 90 degree | times.

  7 to 9, in the daylighting device 30B of the third embodiment, the light guiding means 34B is configured such that the daylighting side cylindrical member 58A, the bent cylindrical member 92, and the irradiation side cylindrical member 60 are connected to each other in this order. Is configured. The bent cylindrical member 92 has four cylindrical bodies 94a to 94d that are rotatably connected to each other, and the open ends of the cylindrical bodies 94a to 94d that are connected to each other are in relation to the axis C. Inclined at an angle of about 60 degrees, and the open ends on the outer sides of the cylindrical bodies 94a and 94d disposed on both sides are substantially perpendicular to the axis C. Further, each of the opening ends of the cylindrical bodies 94b, 94c, and 94d is provided with a ring-shaped fitting projection 88 that protrudes somewhat outward in the radial direction, and each of the cylindrical bodies 94a, 94b, and 94c. Each of the other open ends is provided with a ring-shaped fitting recess 90 that is slidably fitted to the fitting protrusion 88. Thereby, one cylindrical body 94a (94b) (94c) is made into the other cylindrical body 94b (94c) among a pair of mutually adjacent cylindrical bodies 94a, 94b (94b, 94c) (94c, 94d). 8 can be rotated relative to (94d) as indicated by the arrow in FIG. 8, and by rotating in this way, one cylindrical body 94a (94b) (94c) is the other cylindrical body. 94b (94c) (94d) can be freely bent in an angle range of 0 degrees to 30 degrees. Therefore, the bent tubular member 92 can freely be freely set in an angle range of 0 degrees to 90 degrees as a whole. Bend. In FIG. 7, the fitting protrusion 88 and the fitting recess 90 are not shown.

  For example, from the state in which the bent cylindrical member 92 extends linearly (that is, the state in which the bending angle is about 0 degree), the cylindrical body 94a on one end side is about 30 degrees with respect to the adjacent cylindrical body 94b. When bent at an angle, the bent tubular member 92 is bent at an angle of about 30 degrees as a whole, and the tubular body 94b is bent at an angle of about 30 degrees with respect to the adjacent tubular body 94c. The bent cylindrical member 92 is bent at an angle of about 60 degrees as a whole, and the cylindrical body 94c is bent at an angle of about 30 degrees with respect to the cylindrical body 94d on the other end side adjacent thereto. As a result, the bent tubular member 92 is bent at an angle of about 90 degrees as a whole. It should be noted that the outer diameter on one end side of the bent cylindrical member 92 is configured to be somewhat smaller than the outer diameter on the other end side.

  In the daylighting device 30B of the third embodiment, as in the second embodiment, the plurality of rollers 84 are moved while rotating along the openings of the support portions 44, respectively, so that the light guide means 34B. 7 is rotated as indicated by the arrow in FIG. 7, and therefore, the irradiation direction of the light from the irradiation means 36 can be adjusted, and a desired region in the accommodation space 12 of the side wall (not shown) is illuminated. be able to.

  Further, as described above, the bent cylindrical member 92 is freely bent in an angle range of 0 degrees to 90 degrees, so that the light from the irradiation means 36 can be adjusted by appropriately adjusting the bent angle of the bent cylindrical member 92. Can be adjusted, and a wider illumination range can be secured by rotating the light guide means 34B.

[Fourth Embodiment]
Next, a daylighting device according to a fourth embodiment of the present invention will be described with reference to FIGS. FIG. 10 is a schematic sectional view showing a daylighting apparatus according to the fourth embodiment of the present invention, and FIG. 11 is a perspective view showing the daylighting apparatus of FIG.

  10 and 11, in the daylighting device 30C of the fourth embodiment, the support portion 44C of the attachment member 38C of the daylighting means 32C extends vertically upward from the base portion 42. The irradiation unit 36 </ b> C includes a plurality of irradiation units 96, and each of the plurality of irradiation units 96 includes a diffusion cover member 56. The light guide unit 34 </ b> C includes a plurality (four in the present embodiment) of light guide units 98 bent at a predetermined angle (approximately 90 degrees in the present embodiment). The light guide unit 98 is configured by connecting the daylighting side cylindrical member 58C, the bent cylindrical member 92, and the irradiation side cylindrical member 60 to each other in this order. In addition, the to-be-latched part is not provided in the one end part of the lighting side cylindrical member 58C.

  One end portions of the plurality of light guide units 98 are inserted into the support portion 44C of the attachment member 38C through the manhole portion 16 of the top wall portion 6 in a state of being close to each other, and the dome member is formed by the plurality of attachment screws 68. 40, one end of each of the light guide units 98 is attached to the opening of the support 44C by fixing the one end of each of the light guide unit 44C and the support 44C and the daylighting side tubular member 58C. Further, the other end portions of the plurality of light guide units 98 extend through the manhole portion 16 to the accommodation space 12 of the side wall portion (not shown), and the diffusion cover member 56 of the illumination portion 96 is connected via the fixing ring 70. It is attached. The illumination units 96 attached to the other end portions of the plurality of light guide units 98 are arranged so as to face different directions.

  In the daylighting device 30C of the fourth embodiment, the sunlight introduced through the dome member 40 of the daylighting means 32C is guided to the inside of each light guide unit 98 through the opening of the support portion 44C, and is thus guided. The emitted light is guided in a predetermined direction while being irregularly reflected on the inner surface of each light guide unit 98. The light emitted from the other end of each light guide unit 98 is diffused and applied to the accommodation space 12 on the side wall through the diffusion cover member 56 of the corresponding illumination unit 96, thereby widening the accommodation space 12 on the side wall. Can be illuminated.

  In the fourth embodiment, the light guide unit 34C is constituted by the four light guide units 98, but is not limited thereto, and may be constituted by two, three, or five or more light guide units. The number can be set as appropriate. For example, when the light guide means 98 is composed of five light guide units, one first light guide unit extending linearly and four second light guide units bent at a predetermined angle are provided. It is possible to arrange four second light guide units around the first light guide unit. In addition, the bent cylindrical member 92 of the light guide unit 98 is configured to be bent in an angle range of 0 degrees to 90 degrees. However, similarly to the second embodiment, an angle range of 0 degrees to 45 degrees is used. You may comprise from the type of bending.

[Fifth Embodiment]
Next, a daylighting device according to a fifth embodiment of the present invention will be described with reference to FIG. FIG. 12 is a schematic cross-sectional view showing a daylighting apparatus according to the fifth embodiment of the present invention.

  In FIG. 12, in the daylighting device 30D of the fifth embodiment, a plurality of through holes (not shown) are provided on the upper side and the lower side of the base part 42D of the mounting member 38D of the daylighting means 32D. ing. A plurality of mounting screws 100 provided on the outer peripheral surface of the side wall portion 4 through the plurality of through holes of the base portion 42D in a state where the back surface side of the base portion 42D is in contact with the outer peripheral surface of the side wall portion 4. The attachment member 38 </ b> D is attached to the outer peripheral surface of the side wall portion 4 by being screwed into respective screw holes (not shown). When attached in this manner, the dome member 40 is directed substantially in the horizontal direction.

  The light guide unit 34 </ b> D includes a lighting-side cylindrical member 58 and an irradiation-side cylindrical member 60 that are connected to each other. One end portion of the light guiding means 34D is attached to the opening portion of the support portion 44 of the attachment member 38D through the manhole portion 14 provided in the side wall portion 4, and the other end portion is accommodated in the accommodating space 12 of the side wall portion 4 through the manhole portion 14. And is attached to the diffusion cover member 56 via a fixing ring 70.

  Accordingly, in the daylighting device 30D of the fifth embodiment, the light emitted from the other end of the light guide 34D is diffused and irradiated in the horizontal direction in the housing space 12 of the side wall 4 through the diffusion cover member 56. The housing space 12 of the side wall 4 can be illuminated from the lateral direction. Moreover, since the lighting device 30D can be installed using the manhole part 14 provided in the side wall part 4, it can be easily installed in the existing storage tank 2. Further, since the daylighting means 32D, the light guide means 34D, and the irradiation means 36 are integrally formed, the other end side (the irradiation means 36 side) of the light guide means 34D is accommodated through the manhole portion 14 of the side wall portion 4. 12, and the attachment member 38 </ b> D is attached to the outer peripheral surface of the side wall portion 4, so that the daylighting means 30 </ b> D can be easily installed.

  In addition, when sufficient light from the sun cannot be obtained, for example, in rainy weather or at night, an illumination unit 50H (described later) is installed outside the storage tank 2 as shown in FIG. The cylindrical light guide member 154 is provided between the illumination unit 52H of the illumination unit 50H and the daylighting unit 32D. The light guide member 154 is made of aluminum, and a reflection surface is formed on the inner surface thereof. One end portion of the light guide member 154 is attached so as to cover the outer peripheral portion of the support portion 44 of the attachment member 38D using, for example, a fixing tape (not shown), and the other end portion and the illumination means 50H are illuminated. A gap W of, for example, about 5 mm to 10 mm is provided between the portion 52H. When the illumination unit 52H is turned on, the light from the illumination unit 52H is efficiently guided to the inside of the light guide unit 34D through the dome member 40 while reflecting the reflection surface of the inner surface of the light guide member 154, and this light stores the storage tank. 2 can be illuminated. Since a gap W is provided between the illumination unit 52H and one end of the light guide member 154, outside air flows into the light guide member 154 through the gap W, and the light guide member is guided by the inflowed outside air. 154, the dome member 40, etc. are cooled. Thereby, it can suppress that the temperature of the light guide member 154, the dome member 40, etc. rises with the heat from the illumination part 52H.

[Sixth Embodiment]
Next, a daylighting apparatus according to a sixth embodiment of the present invention will be described with reference to FIG. FIG. 14 is a schematic cross-sectional view showing a daylighting device according to a fifth embodiment of the present invention.

  In FIG. 14, in the daylighting device 30E of the sixth embodiment, a mounting plate portion 102 is provided at one end of the base portion 42E of the mounting member 38E of the daylighting means 32E, and the base portion 42E is a mounting plate portion. It extends at a predetermined angle (for example, about 45 degrees) with respect to 102. A plurality of through holes (not shown) are provided in the upper part and the lower part of the mounting plate part 102, and a plurality of mounting screws 100 are provided on the outer peripheral surface of the side wall part 4 through the plurality of through holes. The attachment plate portion 102 is attached to the outer peripheral surface of the side wall portion 4 by being screwed into the plurality of screw holes (not shown). In the state of being attached in this way, the base portion 42E extends while tilting downward from one end portion toward the other end portion, and the dome member 40 has a predetermined angle θ (for example, about 45 with respect to the vertical direction). It turns to the direction inclined at (degree).

  The light guide unit 34E includes a bent tubular member 80 and an irradiation side tubular member 60 that are connected to each other. The bent tubular member 80 is bent at an angle of, for example, about 45 degrees, and a ring-like locked portion 64 extending radially outward is provided at one end portion thereof. One end portion of the light guide means 34E is attached to the opening of the support portion 44 through the manhole portion 14 provided in the side wall portion 4, and the other end portion is bent at an angle of about 45 degrees and then passed through the manhole portion 14. A diffusion cover member 56 is attached to the accommodation space 12 of the side wall portion 4 in a substantially horizontal direction via a fixing ring 70.

  In the daylighting device 30E according to the sixth embodiment, the dome member 40 is attached to be inclined at an angle of about 45 degrees with respect to the vertical direction. In the case where light is irradiated, sunlight can be efficiently introduced into the daylighting means 30E.

  In addition, as shown in FIG. 15, the dome member 40 can be inclined and attached at an angle of about 45 degrees with respect to the vertical direction. In the daylighting device 30E ′ shown in FIG. 15, the daylighting means 32D has substantially the same configuration as that of the fifth embodiment, the dome member 40 is removed from the mounting member 38D, and one end portion of the light guiding means 34E (ie, about One end of the bent tubular member 80 bent at an angle of 45 degrees extends to the outside through the opening of the support portion 44, and the other end (that is, the other end of the bent tubular member 80 and the irradiation side tubular shape). The member 60) extends substantially horizontally through the manhole portion 14. Further, the light guide unit 34E and the attachment member 38D are integrally fixed by a plurality of frame members 156. The frame member 156 is bent at a predetermined angle (that is, an angle formed by one end of the bent tubular member 80 and the support portion 44), and is arranged along the outer peripheral surface of the bent cylindrical member 80 and the outer peripheral surface of the support portion 44. It is installed. One end portion of the frame member 156 is bent outward in a U-shape, and the locked portion 64 of the bent tubular member 80 is locked to the one end portion, and the dome member 40 is used for a plurality of attachments. It is attached using screws 68. The other end of the frame member 156 is attached to the base portion 42D of the attachment member 38D using a plurality of attachment screws 158. Accordingly, the same effect as described above can be achieved also in the daylighting device 30E '.

  In the sixth embodiment, the bent cylindrical member 80 is used in a state bent at an angle of about 45 degrees. However, the present invention is not limited to this, and an appropriate angle such as, for example, 30 degrees, 35 degrees, or 40 degrees is used. It can be bent and used. Similarly to the fourth embodiment, the bent cylindrical member of the light guide unit 34E may be configured to be bent in an angle range of 0 degrees to 90 degrees.

[Seventh Embodiment]
Next, a daylighting device according to a seventh embodiment of the present invention will be described with reference to FIG. FIG. 16 is a schematic cross-sectional view showing a daylighting device according to a seventh embodiment of the present invention.

  In FIG. 16, in the lighting device 30F of the seventh embodiment, a mounting plate portion 102 is provided at one end of the base portion 42F of the mounting member 38F of the daylighting means 32F, and the base portion 42F has a mounting plate portion. It extends in a direction substantially perpendicular to 102. A plurality of through holes (not shown) are provided in the upper part and the lower part of the mounting plate part 102, and a plurality of mounting screws 100 are provided on the outer peripheral surface of the side wall part 4 through the plurality of through holes. The attachment plate portion 102 is attached to the outer peripheral surface of the side wall portion 4 by being screwed into the plurality of screw holes (not shown). In the attached state, the base portion 42F extends substantially in the horizontal direction, and the dome member 40 is directed upward in the vertical direction.

  The light guiding means 34F is configured by connecting the lighting side cylindrical member 58, the intermediate cylindrical member 104a, the bent cylindrical member 92, the intermediate cylindrical member 104b, and the irradiation side cylindrical member 60 in this order. Yes. The bent tubular member 92 is bent at an angle of, for example, about 90 degrees, and no latched portions are provided at both ends of the intermediate tubular members 104a and 104b. The light guide means 34F extends downward along the outer peripheral surface of the side wall portion 4 from the opening of the support portion 44 and then bends at an angle of about 90 degrees, and further passes through the manhole portion 14 to substantially enter the accommodating space 12 of the side wall portion 4. It extends in the upper horizontal direction and is connected to the diffusion cover member 56. Therefore, also in the daylighting device 30F of the seventh embodiment, the same function and effect as those of the fifth and sixth embodiments are achieved.

[Eighth Embodiment]
Next, a daylighting device according to an eighth embodiment of the present invention will be described with reference to FIGS. FIG. 17 is a schematic cross-sectional view showing a storage tank in which a daylighting device according to an eighth embodiment of the present invention is installed, and FIG. 18 is a schematic cross-sectional view showing the light guide means of FIG.

  17 and 18, in the storage tank 2G in which the daylighting device 30G of the eighth embodiment is installed, the top wall 6G is provided in the upper opening of the side wall 4G. The wall portion 6G is integrally formed. The light guide unit 34G is configured by connecting a plurality of (for example, eight) cylindrical members 106 having different outer diameters so as to be movable with respect to each other. One cylindrical member 106 of the pair of cylindrical members 106 adjacent to each other is configured to be housed inside the other cylindrical member 106, and at one open end of the one cylindrical member 106, A ring-shaped locking projection 108 extending outward in the radial direction is provided, and one opening end of the other cylindrical member 106 extends inward in the radial direction and interlocks with the locking projection 108. A locking recess 110 is provided. When one cylindrical member 106 is pulled out from the inside of the other cylindrical member 106, the locking projection 108 of one cylindrical member 106 is locked to the locking recess 110 of the other cylindrical member 106, This prevents one tubular member 106 from being detached from the other tubular member 106. Of the plurality of tubular members 106, the most distal tubular member 106a functions as a lighting-side tubular member, and the most proximal tubular member 106b functions as an irradiation-side tubular member, and is the most distal side. The plurality of tubular members 106c disposed between the tubular member 106a and the most proximal tubular member 106b function as intermediate tubular members. Ring-shaped locked portions 64 and 66 extending radially outward are provided at the other open ends of the most distal tubular member 106a and the most proximal tubular member 106b.

  Since it is configured as described above, the plurality of cylindrical members 106 are moved relative to each other, that is, one cylindrical member 106 of a pair of cylindrical members 106 adjacent to each other is placed inside the other cylindrical member 106. The light guide means 34G can be expanded and contracted by adjusting the length of the light guide means 34G by pulling it out of the tube, or by housing one tubular member 106 inside the other tubular member 106. For example, the length of the light guide means 34G is adjusted to the longest length (for example, about 10 m) by pulling out each cylindrical member 106 from the inside of the cylindrical member 106 adjacent thereto, and each cylindrical member 106 Is accommodated in the cylindrical member 106 adjacent thereto, the length of the light guide means 34G is adjusted to the shortest length (for example, about 1 m). Further, the length of the light guide means 34G can be freely adjusted between the longest length and the shortest length by adjusting the pull-out amount of each tubular member 106.

  Therefore, when working in the lower region of the accommodation space 12G of the side wall 4G, the light guiding means 34G is extended as described above to lower the irradiation means 36 and make this lower region of the accommodation space 12G. The lower region of the accommodation space 12G can be illuminated.

  As in the second and third embodiments, a part of the plurality of tubular members 106 is formed of a bent tubular member, and one end portion of the light guide unit 34G is an opening of the support unit 44 of the daylighting unit 32. You may comprise so that it may mount | wear to a part so that rotation is possible.

[Ninth Embodiment]
Next, a daylighting device according to a ninth embodiment of the present invention will be described with reference to FIG. FIG. 19 is a schematic cross-sectional view showing a daylighting device according to a ninth embodiment of the present invention.

  In FIG. 19, a daylighting device 30H according to the ninth embodiment includes an illumination unit 50H for irradiating light, and a cylindrical guide for guiding light from the illumination unit 50H in a predetermined direction while reflecting the light from the inner surface. The light means 34H and the irradiation means 36 for irradiating the inside of the storage tank 2 with the light from the light guide means 34H are provided.

  The light guide means 34H is configured by connecting a pair of bent cylindrical members 80a and 80b, a lighting side cylindrical member 58 and a bent cylindrical member 80c to each other in this order, and these bent cylindrical members 80a to 80c are connected to each other. Each is configured in the same manner as the bent tubular member 80 of the second embodiment. The pair of bent cylindrical members 80a and 80b are bent at an angle of about 45 degrees, and the pair of bent cylindrical members 80a and 80b connected to each other are bent at an angle of about 90 degrees as a whole. The bent tubular member 80c is bent at an angle of about 45 degrees, for example.

  The dome member (not shown) is removed from the attachment member 38. One end portion of the light guide means 34H extends outside the storage tank 2 through the manhole portion 16 of the top wall portion 6 and the opening portion of the support portion 44 of the mounting member 38, and is substantially bent after being bent at an angle of about 90 degrees as a whole. It extends in the upper horizontal direction. By bending in this way, an inclined reflecting surface 112 inclined at an angle of about 45 degrees with respect to the vertical direction is formed on the inner surface at one end portion of the light guide means 34H. The other end portion of the light guide means 34H extends substantially vertically downward into the storage tank 2 through the manhole portion 16 of the top wall portion 6 and is bent at an angle of about 45 degrees, and then via the fixing ring 70. The diffusion cover member 56 is attached. Accordingly, the light guide means 34H is supported by the mounting member 38. Further, a fixing means (not shown) for fixing the daylighting means, the light guide means 34A and the irradiation means 36 integrally, and a protection member 148 for protecting the irradiation means 36 are provided.

  The illumination unit 50H includes an illumination unit 52H configured from, for example, a discharge lamp or an LED lamp, and a stand unit 54H for supporting the illumination unit 52H. The stand portion 54H is erected on the top wall portion 6 of the storage tank 2, and the illumination portion 52H is disposed in front of one end portion of the light guide means 34H. A gap W of about 5 mm to 10 mm, for example, is provided between the illumination unit 52H and one end of the light guide unit 34H. In addition, it is preferable to comprise the illumination part 52H of this illumination means 50H from an explosion-proof type thing.

  Illumination inside the storage tank 2 by the daylighting device 30H of the ninth embodiment is performed as follows. For example, when sufficient light from the sun can be obtained during the daytime in fine weather, the dome member is attached to the attachment member 38, and light from the sun is introduced through the dome member as in the above-described embodiment. The interior of the storage tank 2 is illuminated by this light. For example, in the case of rainy weather, cloudy weather, nighttime, etc., when sufficient light from the sun cannot be obtained, the dome member is removed from the mounting member 38, and a pair of bent cylindrical members 80a, The other end of 80b is inserted into one end of the daylighting side tubular member 58 and connected to each other. Further, the illumination means 50H is installed at a predetermined position on the top wall 6 of the storage tank 2.

  When the illumination unit 52H of the illumination unit 50H is turned on in this state, the light from the illumination unit 52H is introduced into one end of the light guide unit 34H and diffusely reflected on the reflection surface 62 on the inner surface of the light guide unit 34H. Guided in a predetermined direction. Note that most of the introduced light is reflected by the inclined reflecting surface 112 at an angle of about 90 degrees, and the reflected light is guided downward in the vertical direction. Light can be efficiently guided in the direction in which the irradiation means 36 is disposed. The light emitted from the other end of the light guide means 34H is diffused and applied to the storage space 12 of the storage tank 2 through the diffusion cover member 56. Therefore, even when light from the sun cannot be sufficiently obtained in this way, the storage space 12 of the storage tank 2 can be illuminated with high safety by using the light from the illumination means 50H.

  Since a gap W is provided between the illuminating section 52H and one end of the light guide means 34H, outside air flows into the light guide means 34H through the gap W and is guided by the introduced outside air. The light means 34H, the diffusion cover member 56, etc. are cooled. Thereby, it can suppress that the temperature of the light guide means 34H, the diffusion cover member 56, etc. rises with the heat from the illumination part 52H of the illumination means 50H.

[Tenth embodiment]
Next, a daylighting device according to a tenth embodiment of the present invention will be described with reference to FIGS. 20 is a schematic cross-sectional view showing a daylighting device according to a tenth embodiment of the present invention, and FIG. 21 is a schematic perspective view showing the daylighting device of FIG.

  20 and 21, a lighting device 30J according to the tenth embodiment includes an illuminating unit 50H for irradiating light and a tube for guiding light from the illuminating unit 50H in a predetermined direction while reflecting the light from the inner surface. The light guide means 34J of the shape and the irradiation means 36 for irradiating the light from the light guide means 34J to the inside of the storage tank 2 are provided.

  The light guide unit 34 </ b> J includes a light guide tubular member 114 that extends linearly, and a protective tubular member 116 that covers an outer peripheral portion of the light guide tubular member 114. The light guide tubular member 114 is made of, for example, aluminum, and a reflection surface 62J is formed on the inner surface thereof. The protective tubular member 116 is made of a resin such as vinyl chloride.

  The dome member (not shown) is removed from the attachment member 38J, and a ring-shaped member 118 is attached to the inside of the support portion 44J of the attachment member 38J. A rod-shaped portion 120 extending radially outward is provided on the outer peripheral portion of the ring-shaped member 118, and the rod-shaped portion 120 is detachably inserted into the through hole 122 provided in the support portion 44J of the mounting member 38J. Thus, the ring-shaped member 118 is attached to the inside of the support portion 44J of the attachment member 38J. Further, the inner diameter of the ring-shaped member 118 is configured to be somewhat larger than the outer diameter of the light guide means 34J. The ring-shaped member 118 constitutes support means for supporting the light guide means 34J movably in the manhole part 14 of the side wall part 4.

  One end portion of the light guide means 34J is movably inserted into the ring-shaped member 118 through the manhole portion 14 of the side wall portion 4 and then extends to the outside of the storage tank 2, and the other end portion is the manhole portion 14 of the side wall portion 4. It extends through the storage tank 2 and is attached to the diffusion cover member 56 via a fixing ring 70.

  Further, the other end of the light guide 34J is supported by the support member 124 so that the height can be adjusted. The support member 124 includes a pair of support legs 126 attached to each other so as to be rotatable and a pair of support plate parts 128 attached to the lower ends of the pair of support legs 126. ing. Each of the pair of support legs 126 is provided with a plurality of through holes 130, and both ends of a substantially U-shaped fixing member 132 are attached to and detached from the corresponding through holes 130 of each support leg 126. Freely inserted and attached. By mounting in this way, the pair of support legs 126 are positioned and held at a predetermined crossing angle, and the other end of the light guide means 34J is attached to the crossing part 134 of the pair of support legs 126 that are positioned and held. Placed. In addition, by changing the through hole 130 to which the fixing member 132 is attached, the crossing angle of the pair of support legs 126 is increased (or decreased), and thereby the position of the crossing part 134 of the pair of support legs 126 is lowered. (Or upward) to adjust the height position of the other end of the light guide 34J.

  Further, a protection member 136 for protecting the diffusion cover member 56 is provided. The protection member 136 includes a cylindrical cover main body 138 and a lattice portion 140 provided at one end of the cover main body 138. ,have. The cover main body 136 is attached to the other end of the light guide means 34J by a plurality of attachment screws 142. When attached in this way, the lattice part 140 is disposed so as to cover the front of the diffusion cover member 56. The

  The illumination means 50H is installed outside the storage tank 2, and, for example, about 5 mm to 10 mm is provided between the illumination part 52H of the illumination means 50H and one end of the light guide means 34J, as in the ninth embodiment. A gap W is provided.

  Illumination inside the storage tank 2 by the daylighting device 30J of the tenth embodiment is performed as follows. For example, when sufficient light from the sun can be obtained during the daytime in fine weather, the dome member is attached to the attachment member 38J and the light from the sun is transmitted to the dome member, as in the fifth embodiment. This light is guided by, for example, a lighting side cylindrical member and an irradiation side cylindrical member (not shown), and the inside of the storage tank 2 is illuminated. For example, when it is not possible to obtain sufficient light from the sun, such as when it is raining or cloudy, at night, etc., the dome member, the lighting side cylindrical member, and the irradiation side cylindrical member are each removed from the mounting member 38J, The ring-shaped member 118 is attached to the inside of the support portion 44J of the attachment member 38J. Then, one end portion of the light guide means 34J is movably inserted into the ring-shaped member 118 through the manhole portion 14 of the side wall portion 4, and the other end portion of the light guide means 34J is supported at a predetermined height position by the support member 124. . Further, the illumination means 50H is installed at a predetermined position outside the storage tank 2.

  When the illumination unit 52H of the illumination unit 50H is turned on in this state, the light from the illumination unit 52H is introduced into one end portion of the light guide unit 34J, and the reflection surface 62J on the inner surface of the light guide tubular member 114 is introduced. The light is guided in a predetermined direction while being irregularly reflected. The light emitted from the other end of the light guide 34J is diffused and irradiated to the storage space 12 of the storage tank 2 through the diffusion cover member 56. Therefore, even when the light from the sun cannot be obtained sufficiently, the storage space 12 of the storage tank 2 can be illuminated with high safety using the light from the illumination means 50H.

  Further, since the light guide means 34J is supported by the ring-shaped member 118 so as to be movable, the light guide means 34J can be moved relative to the ring-shaped member 118. For example, the light guide unit 34J is moved in the front-rear direction (left-right direction in FIG. 20), or the other end portion of the light guide unit 34J is moved in the up-down direction (up-down direction in FIG. 20) or left-right direction (in FIG. (In the vertical direction) can be moved in various directions, so that the irradiation direction of light from the irradiation means 36 can be adjusted. Therefore, it is possible to illuminate a desired area in the storage tank 2 and to improve workability in the storage tank 2.

  As in the ninth embodiment, the outside air flows into the light guide unit 34J through a gap W provided between the illumination unit 52H and one end of the light guide unit 34J. As a result, the light guide unit 34J, the diffusion cover member 56, and the like are cooled, and thereby the temperature of the light guide unit 34J, the diffusion cover member 56, and the like can be prevented from rising due to heat from the illumination unit 52H of the illumination unit 50H. .

[Eleventh embodiment]
Next, a daylighting device according to an eleventh embodiment of the present invention will be described with reference to FIG. FIG. 22 is a schematic sectional view showing a daylighting apparatus according to the eleventh embodiment of the present invention.

  In FIG. 22, the daylighting device 30K according to the eleventh embodiment is installed in an underground space 160 (for example, an underground shopping center or an underground tunnel). An opening 166 extending in a cylindrical shape is provided on the ground 164 that partitions the ground space 162 and the underground space 160, and the daylighting means 32 is attached to the opening 166. The light guide unit 34K is configured by connecting the daylighting side cylindrical member 58, the intermediate cylindrical member 104, and the irradiation side cylindrical member 60 to each other, and one end of the light guide unit 34K has an opening 166. The other end portion extends to the underground space 160 through the opening 166 and is connected to the irradiation means 36.

  In the daylighting device 30K of the eleventh embodiment, similarly to the above embodiments, the light from the sun collected by the daylighting means 32 is guided in a predetermined direction by the light guide means 34K, and from the light guide means 34K. Is irradiated to the underground space 160 by the irradiation means 36. Therefore, it is possible to illuminate the underground space 160 where the light from the sun is difficult to reach with the light from the sun, and to save energy.

  Further, when the underground space 160 is composed of a plurality of layers (for example, the second basement floor), the length of the light guide unit 34K is adjusted by providing a plurality of intermediate cylindrical members 104 of the light guide unit 34K, What is necessary is just to connect the other end part of this light guide means 34K to the irradiation means 36 through the opening part 167 provided in the ceiling part 165 of the 2nd basement. Thereby, the underground space 160 in a desired floor can be illuminated.

[Twelfth embodiment]
Next, a daylighting device according to a twelfth embodiment of the present invention will be described with reference to FIG. FIG. 23 is a schematic sectional view showing a daylighting apparatus according to a twelfth embodiment of the present invention.

  In FIG. 23, the daylighting device 30L of the twelfth embodiment is installed in an inboard space 170 (for example, a cabin or an engine room inside the hull) formed inside the ship 168. The deck 172 of the ship 168 is provided with an opening 174 that extends upward in a cylindrical shape, and the daylighting means 32 is attached to the opening 174. An opening 169 is provided at the upper end of the inboard space 170. The light guide unit 34L is configured by connecting the daylighting side cylindrical member 58, the intermediate cylindrical member 104, and the irradiation side cylindrical member 60 to each other, and one end portion of the light guiding unit 34L has an opening 174. The other end portion extends to the inboard space 170 through the opening 169 and is connected to the irradiation means 36.

  Therefore, the light from the sun collected by the light collecting means 32 is guided in a predetermined direction by the light guide means 34L, and the light from the light guide means 34L is irradiated to the inboard space 170 by the irradiation means 36, and the eleventh The same effect as the embodiment is achieved.

[Thirteenth embodiment]
Next, a daylighting device according to a thirteenth embodiment of the present invention will be described with reference to FIG. FIG. 24 is a schematic sectional view showing a daylighting apparatus according to a thirteenth embodiment of the present invention.

  In FIG. 24, the daylighting device 30M of the thirteenth embodiment is installed in a tunnel space 176 (for example, an automobile tunnel). The opening 178 provided in the tunnel space 176 is provided with daylighting means 32F. The light guide means 34M is configured by connecting the lighting side tubular member 58, the intermediate tubular member 104a, the bent tubular member 92a, the plurality of intermediate tubular members 104b, and the bent tubular member 92b in this order. ing. One end of the light guiding means 34M is bent upward at an angle of about 90 degrees through the opening 178 and connected to the daylighting means 32F, and the other end is substantially horizontally aligned with the tunnel space 176 through the opening 178. After extending, it is bent downward at an angle of about 90 degrees and connected to the irradiation means 36 provided on the ceiling portion 180 of the tunnel space 176. Further, among the plurality of intermediate cylindrical members 104b, a specific intermediate cylindrical member 104b is provided with a branched cylindrical portion 182 that extends from the outer side, and is provided at the distal end of the branched cylindrical portion 182. The irradiation means 36 is connected.

  Therefore, the light from the sun collected by the lighting unit 32F is guided in a predetermined direction by the light guide unit 34M, and the light from the light guide unit 34M is irradiated to the tunnel space 176 by the plurality of irradiation units 36, and the first The effect similar to 11th Embodiment is achieved.

[Fourteenth embodiment]
Next, a daylighting device according to a fourteenth embodiment of the present invention will be described with reference to FIG. FIG. 25 is a schematic sectional view showing a daylighting apparatus according to a fourteenth embodiment of the present invention.

  In FIG. 25, the daylighting device 30N of the fourteenth embodiment is installed in an underwater space 184 (for example, a submarine city). The underwater space 184 is defined by a shelter body portion 188 disposed on the seabed 186 and a shelter tubular portion 190 extending from the upper end portion of the shelter body portion 188 to the sea surface. The shelter body portion 188 includes, for example, Residential facilities (not shown) are arranged. The daylighting means 32 is attached to the opening 192 of the shelter cylindrical portion 190. The light guide unit 34N is configured by connecting the daylighting side cylindrical member 58, the plurality of intermediate cylindrical members 104, and the irradiation side cylindrical member 60 to each other. The other end of the cylindrical portion 190 is connected to the daylighting means 32 through the opening 192, and the other end extends through the shelter cylindrical portion 190 into the shelter body 188 and is connected to the irradiation means 36.

  Therefore, the light from the sun collected by the light collecting means 32 is guided in a predetermined direction by the light guide means 34N, and the light from the light guide means 34N is irradiated into the shelter body 188 by the irradiation means 36, and The effect similar to 11th Embodiment is achieved.

[Examples and Comparative Examples]
In order to confirm the excellent effect of the daylighting apparatus according to the present invention, the following experiment was conducted.
As Example 1, an experiment was performed to measure the illuminance at the bottom of the side wall portion 4 when the daylighting device 30A shown in FIG. The results of this experiment are as shown in Table 1. The diameter and length of the light guide means 34A are 400 mm and 70 cm, respectively, the distance between the top wall 6 and the bottom of the side wall 4 is 2 m, and the illuminance outside the storage tank 2 is 50000 Lx. The illuminance in the vicinity of the diffusion cover member 56 was 7800 Lx.

表１に示すように、実施例１では、マンホール部１６の中心軸から片側に１３ｍ離れた範囲まで照明されており、広範囲に照明できることが確認された。従って、導光手段３４Ａを回転させることにより、マンホール部１６の中心軸を中心とする半径１３ｍの円形の範囲内を照明することができる。

As shown in Table 1, in Example 1, the illumination was performed up to a range 13 m away from the central axis of the manhole portion 16 on one side, and it was confirmed that illumination was possible in a wide range. Therefore, by rotating the light guide means 34A, it is possible to illuminate a circular area having a radius of 13 m with the central axis of the manhole portion 16 as the center.

  Further, as Example 2, an experiment was performed to measure the illuminance inside the storage tank 2 when the inside of the storage tank 2 was illuminated by the daylighting device 30J in a fine weather, using the daylighting device 30J shown in FIG. . The results of this experiment are as shown in FIG. The diameter and length of the light guide unit 34J are 400 mm and 40 cm, respectively, the gap W between the illumination unit 52H and one end of the light guide unit 34J is 5 mm, and the illuminance in the vicinity of the diffusion cover member 56 is 29400 Lx.

図２６（ａ）及び表２に示すように、実施例２では、導光手段３４Ｊの他端部の前方において約１５ｍの範囲内が照明され、更に、導光手段３４Ｊの左右外側において約１３ｍの範囲内が照明され、広範囲に照明できることが確認された。

As shown in FIG. 26 (a) and Table 2, in Example 2, the inside of the range of about 15 m is illuminated in front of the other end of the light guide unit 34J, and further, about 13 m on the left and right outer sides of the light guide unit 34J. It was confirmed that it was able to illuminate a wide area.

  Further, as Comparative Example 1, when the illumination part 52H of the illumination means 50H is installed in the manhole part 14 of the side wall part 4 and the interior of the storage tank 2 is illuminated by light from the illumination part 52H in a fine weather, the storage tank An experiment was conducted to measure the illuminance inside 2. The results of this experiment are as shown in FIG. In addition, the illumination intensity in the vicinity of the illumination part 52H was 26400Lx.

図２６（ｂ）及び表３に示すように、比較例１では、実施例２と同様に、照明部５２Ｈの前方において約１５ｍの範囲内が照明されるが、照明部５２Ｈの左右外側においては実施例２よりも短い約１０ｍの範囲内が照明され、実施例２よりも照明範囲が狭いことが確認された。

As shown in FIG. 26B and Table 3, in Comparative Example 1, as in Example 2, the range of about 15 m is illuminated in front of the illumination unit 52H, but outside the left and right sides of the illumination unit 52H. The area of about 10 m shorter than that of Example 2 was illuminated, and it was confirmed that the illumination range was narrower than that of Example 2.

  Therefore, in the daylighting apparatus according to the present invention, the light from the illuminating unit 52H is guided to the inside of the storage tank 2 by the light guide means 34J, and the inside of the storage tank 2 can be illuminated in a wider range. Excellent operational effects are achieved. Such an effect cannot be obtained by Comparative Example 1, that is, the conventional illumination method.

  As mentioned above, although various embodiment of the lighting device according to this invention was described, this invention is not limited to this embodiment, A various deformation | transformation thru | or correction | amendment are possible without deviating from the scope of the present invention.

  For example, the illumination unit 50 is provided in the first embodiment, but the illumination unit 50 may be provided in the second to eighth embodiments as well.

  Further, for example, in each of the above embodiments, the storage tank 2 (2G) is configured from a floating roof tank, but is not limited to this, and for example, from various storage tanks such as a dome roof tank, a corn roof tank, an underground tank, and a spherical tank. It may be configured.

  In addition, for example, in each of the above embodiments, the storage space in the storage tank, the underground space, the ship space, the tunnel space, and the underwater space are configured to illuminate, but the present invention is not limited to this. It can be configured to illuminate a space where light from various suns is difficult to reach, such as a space in a train station or a port facility (such as a landing site or a fish market).

It is a schematic sectional drawing which shows the storage tank which installed the daylighting apparatus by the 1st Embodiment of this invention. It is a schematic sectional drawing which shows the lighting apparatus of FIG. It is a schematic sectional drawing which shows the daylighting apparatus by the 2nd Embodiment of this invention. It is a schematic sectional drawing shown in the state which does not bend the bending cylindrical member of FIG. FIG. 4 is a view showing a state where the bent tubular member of FIG. 3 is bent at an angle of about 45 degrees. It is a perspective view which shows the deformation | transformation form of the lighting apparatus of FIG. It is a schematic sectional drawing which shows the daylighting apparatus by the 3rd Embodiment of this invention. It is a schematic sectional drawing shown in the state which does not bend the bending cylindrical member of FIG. It is a figure which shows the state which bent the bending cylindrical member of FIG. 7 at the angle of about 90 degree | times. It is a schematic sectional drawing which shows the lighting apparatus by the 4th Embodiment of this invention. It is a perspective view which shows the lighting apparatus of FIG. It is a schematic sectional drawing which shows the daylighting apparatus by the 5th Embodiment of this invention. It is a schematic sectional drawing which shows the modification of the lighting apparatus of FIG. It is a schematic sectional drawing which shows the daylighting apparatus by the 6th Embodiment of this invention. It is a schematic sectional drawing which shows the modification of the lighting apparatus of FIG. It is a schematic sectional drawing which shows the daylighting apparatus by the 7th Embodiment of this invention. It is a schematic sectional drawing which shows the storage tank which installed the lighting device by the 8th Embodiment of this invention. It is a schematic sectional drawing which shows the light guide means of FIG. It is a schematic sectional drawing which shows the daylighting apparatus by the 9th Embodiment of this invention. It is a schematic sectional drawing which shows the daylighting apparatus by the 10th Embodiment of this invention. It is a schematic perspective view which shows the lighting apparatus of FIG. It is a schematic sectional drawing which shows the daylighting apparatus by the 11th Embodiment of this invention. It is a schematic sectional drawing which shows the daylighting apparatus by the 12th Embodiment of this invention. It is a schematic sectional drawing which shows the daylighting apparatus by the 13th Embodiment of this invention. It is a schematic sectional drawing which shows the daylighting apparatus by the 14th Embodiment of this invention. (A) is the schematic which shows the illumination range inside the storage tank in Example 2, (b) is the schematic which shows the illumination range inside the storage tank in the comparative example 1. FIG.

Explanation of symbols

2,2G storage tank 4,4G side wall part 6,6G top wall part 12,12G accommodating space 14,16,16G manhole part 30,30A-30N light collecting device 32,32C-32D light collecting means 34,34A-34N light guiding means 36, 36C Irradiation means 38, 38C-38F, 38J Mounting member 40 Dome member 42, 42D-42F, 42J Base part 44, 44C, 44J Support part 50, 50H Illumination means 58, 58A, 58C Light collecting side cylindrical member 60 Irradiation side cylindrical member 80, 80a to 80c, 92 Bent cylindrical member 94a to 94d Cylindrical body 96 Irradiation unit 98 Light guide unit 104a, 104b Intermediate cylindrical member 160 Underground space 170 Inboard space 176 Tunnel space 184 Underwater space

Claims (4)

A lighting device for illuminating the interior of the storage tank,
A daylighting means for introducing light from the sun, a cylindrical light guide means for guiding the light from the daylighting means in a predetermined direction while reflecting the light from its inner surface, and the light from the light guide means in the storage tank An irradiating means for irradiating the interior; and an illuminating means for irradiating light, and the storage tank has a side wall defining the accommodating space and a top wall for closing the upper surface of the accommodating space. The manhole part is provided on the top wall part ,
The daylighting unit is attached to the storage tank, one end of the light guiding unit is connected to the daylighting unit through the manhole, and the other end extends into the storage tank through the manhole. Connected to the means,
The illumination means is provided outside the storage tank,
The daylighting means includes an attachment member attached to the manhole part, and a dome member detachably attached to the attachment member,
The light guide means is connected to the irradiation means and locked to the attachment member, and the first tubular shape in a state where the dome member is detached from the attachment member. A second tubular member detachably connected to the member,
The dome member is detachably attached to the attachment member in a state where the second tubular member is detached from the first tubular member,
The light of the illumination means is introduced into the inside from one end of the second cylindrical member connected to the first cylindrical member in a state where the dome member is removed from the mounting member.
The second cylindrical member is a bent cylindrical member, and is bent after extending upward to the outside of the storage tank in a state connected to the first cylindrical member,
The light of the illumination means is introduced into the bent cylindrical member from one end thereof connected to the first cylindrical member, and is reflected by the inclined reflecting surface formed on the inner surface of the bent cylindrical member. Being led downward in the vertical direction,
Light from the sun, lighting device according to claim Rukoto introduced by the dome member mounted on the mounting member.   The first cylindrical member has a plurality of cylindrical members that are movably connected to each other, and the plurality of cylindrical members are arranged on the daylighting means side of a pair of cylindrical members adjacent to each other. A cylindrical member is configured to be housed inside the cylindrical member on the irradiation means side, and the first cylindrical member is expanded and contracted by moving the plurality of cylindrical members relative to each other. The daylighting apparatus according to claim 1. A lighting device for illuminating the interior of the storage tank,
  A dome member for introducing light from the sun, a mounting member to which the dome member is detachably mounted, and a cylindrical first light guide for guiding light from the dome member in a predetermined direction while reflecting light from the inner surface thereof Means, a first irradiating means for irradiating the inside of the storage tank with light from the first light guiding means, an illuminating means for irradiating the light, while reflecting light from the illuminating means on the inner surface thereof A cylindrical second light guiding unit for guiding the light in a predetermined direction, a second irradiation unit for irradiating light from the second light guiding unit to the inside of the storage tank, and the second light guiding unit are supported. And the storage tank has a side wall part that defines a storage space, and a top wall part that closes an upper surface of the storage space, and a manhole part is provided on the side wall part. And
  The attachment member is attached to the manhole portion, and one end portion of the first light guide means is connected to the dome member through the manhole portion, and the other end portion extends into the storage tank through the manhole portion. Connected to the first irradiation means;
  The illumination means is provided outside the storage tank,
  The dome member is removable from the attachment member together with the first light guide means and the first irradiation means, and the dome member is detached from the attachment member together with the first light guide means and the first irradiation means. In the state, the support means is detachably attached to the attachment member, and the support means attached to the attachment member supports the second light guide means movably relative to the side wall portion, One end of the second light guide means supported by the support means extends to the outside of the storage tank through the manhole, and the other end extends to the inside of the storage tank through the manhole. Coupled to the irradiating means, the light of the illuminating means is introduced from one end of the second light guiding means into the second light guiding means;
  The daylighting apparatus, wherein the second light guide means supported by the support means can swing in a direction in which the other end portion of the second light guide means moves in the vertical direction and the horizontal direction.   A lighting device for illuminating the interior of a storage tank having a storage space,
  A cylindrical light guide means for guiding light in a predetermined direction while reflecting the light on its inner surface, an irradiation means for irradiating the light from the light guide means to the inside of the storage tank, and one end of the light guide means A support means for supporting the portion, and a support member for supporting the other end of the light guide means,
  The storage tank has a side wall part that defines a storage space, and a top wall part that closes an upper surface of the storage space, and the side wall part is provided with a manhole part,
  The illumination means is provided outside the storage tank,
One end portion of the light guide means extends to the outside of the storage tank through the manhole portion, and the other end portion extends substantially horizontally in the storage tank through the manhole portion and is connected to the irradiation means,
  The support means supports one end of the light guide means so as to be movable relative to the side wall,
  The support member is provided inside the storage tank, and supports the other end of the light guide means so that the height can be adjusted.
  The daylighting apparatus, wherein the light guide means supported by the support means and the support member can swing in a direction in which the other end of the light guide means moves in the vertical direction and the horizontal direction.

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