JP2005029986A - Sunshine securing structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sunshine securing structure having a large natural lighting quantity, capable of serviceably using the collected sunlight, and superior in terms of an outward appearance. <P>SOLUTION: A sufficient quantity of sunlight L is convergently reflected by a concave mirror 3 arranged on the rooftop (a) a shaded side building A, and the converged sunlight L is exposed to a convex mirror 4 arranged in the vicinity of the rooftop (b) of a sunshine side building B. The convex mirror 4 diffusively reflects the sunlight L over a wide range toward the shaded side building B just as "the second sun". Even if the sunlight L is diffusively reflected by the convex mirror 4, since the sufficient sunlight L is collected in advance by the concave mirror 3, brightness does not become the problem. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a sunshine securing structure for a building in which part of the sunshine is restricted by an adjacent building.
[0002]
[Prior art]
When a high adjacent building is built on the sunshine side of an existing building, the sunshine to the existing building is restricted by the adjacent building, and the right of sunshine arises between the buildings. Conventionally, as a structure for securing sunshine to an existing building, a light receiving panel is installed at a certain angle in the sunshine part of the adjacent building, and a light emitting panel directed to the existing building side is installed in a part of the adjacent building. Then, sunlight received by the light receiving panel is transmitted to the light emitting panel via a large number of optical fibers, and the sunlight is irradiated from the light emitting panel toward the existing building (for example, see Patent Document 1).
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 2002-309785
[Problems to be solved by the invention]
However, in such a conventional technique, sunlight is collected by the light receiving panel installed at a fixed angle. Therefore, depending on the altitude of the sun, the daylighting area for the sunlight of the light receiving panel is reduced, and sufficient sunlight is obtained. Cannot be received. In addition, since sunlight received by the light receiving panel is transmitted to the light emitting panel using a large number of optical fibers, the sunlight transmission efficiency is poor. Furthermore, in order to irradiate the entire existing building with sunlight, a large light-emitting panel is required together with a large light-receiving panel, and the appearance of the building itself is degraded.
[0005]
The present invention pays attention to such a conventional technique, and provides a structure for securing sunshine that has a large amount of collected light, can use the collected sunlight without waste, and is excellent in appearance.
[0006]
[Means for Solving the Problems]
In the invention according to claim 1, the sunshine side building is built on the sunshine side of the shade side building, and at least part of the sunlight to the shade side building side is restricted by the sunshine side building. A concave mirror having a structure in which a convex mirror is installed near the top of the sunshine-side building, and the direction is controlled so that sunlight is converged and reflected toward the convex mirror on the top of the shade-side building. The solar light converged and reflected to the convex mirror by the concave mirror is diffused and reflected toward the shaded building side by the convex mirror.
[0007]
The invention according to claim 2 is characterized in that the convex mirror is installed in the vicinity of the outer edge at the top of the sunshine-side building or in a state of protruding outward from the outer edge.
[0008]
The invention according to claim 3 is a state in which the convex mirror is installed at the tip of the rotary lever and rotated to rotate the convex mirror in the vicinity of the outer edge at the top of the sunshine-side building or from the outer edge to the outside. Each of the states located in the area in the top of the sunshine-side building can be obtained.
[0009]
【The invention's effect】
According to the invention of claim 1, since the concave mirror of the heliostat changes its angle so as to reflect sunlight toward the convex mirror near the top of the sunshine-side building, the daylighting area for the sunlight of the concave mirror is large, A sufficient amount of sunlight can be taken to secure sunlight to the shaded building. Moreover, since sunlight is converged and reflected by the concave mirror and sent directly to the convex mirror, the transmission efficiency is good. Furthermore, since sunlight is converged and reflected by the concave mirror, the size of the concave mirror installed in the sunshine-side building can be small and looks good. Even if the convex mirror is small, it reflects diffusely and can illuminate a wide area of the shaded building.
[0010]
According to the invention described in claim 2, since the convex mirror is installed in the vicinity of the outer edge at the top of the sunshine-side building or in a state of protruding outward from the outer edge, the lowermost part of the shade-side building or between the shade-side building and the sunshine-side building. The ground can also be irradiated with diffused light from the convex mirror.
[0011]
According to the third aspect of the present invention, since the convex mirror can be placed in the top of the sunshine-side building by rotating the rotary lever, maintenance such as cleaning of the convex mirror is easy.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a preferred embodiment of the present invention will be described with reference to FIGS. On the sunshine side (south side) of the shade side building A, a sunshine side building B higher than the shade side building A is built. A heliostat 1 is installed on the roof a of the shaded building A. The heliostat 1 includes a support 2 and a concave mirror 3. The concave mirror 3 generally faces the sun S side, and the angle in the azimuth direction and the altitude direction is controlled by a control mechanism (not shown). The support column 2 has retreated inward from the outer edge of the roof a of the shaded building A by d. Accordingly, the entire heliostat 1 is located within the roof a region of the shaded building A and does not protrude outward from the roof a. And even if it looks up from under the shade side building A, it is hard to see the heliostat 1, and it does not care for the resident of the shade side building A. Further, even if a part of the heliostat 1 is destroyed for some reason, the fragments are received by the roof a of the shaded building A and do not fall under the shaded building A.
[0013]
In the vicinity of the roof b of the sunshine-side building B, a convex mirror 4 is provided that protrudes slightly outward from the outer edge of the roof b. The convex mirror 4 is smaller in size than the concave mirror 3 of the heliostat 1 and is provided at the tip of the rotary lever 5 at a predetermined angle.
The rotary lever 5 is supported at a midway portion in a vertical direction (or in a horizontal direction) at a rotation fulcrum 7 a at the upper end of the support column 7, and a counterweight 6 is provided at the base end. The rotation fulcrum 7a is provided with a lock mechanism (not shown). By operating the lock mechanism, the horizontal state where the convex mirror 4 of the rotation lever 5 is directed toward the shaded building A side and the horizontal state toward the opposite side are provided. It has come to be obtained. The convex mirror 4 is located in the area of the roof a of the shade-side building A in the state of being rotated to the opposite side. Even if the convex mirror 4 protrudes slightly outward from the roof b of the sunshine-side building B, there is no problem in terms of appearance because the size of the convex mirror 4 itself is small.
[0014]
Next, the operation of this embodiment will be described. The concave mirror 3 of the heliostat 1 converges and reflects the sunlight L and strikes the convex mirror 4. The concave mirror 3 of the heliostat 1 is fixed at a constant angle as in the prior art because the direction is controlled so as to reflect the sunlight L toward the convex mirror 4 regardless of the position of the sun S. Compared to the light receiving panel, it is possible to continue to secure a large daylighting area W for the sunlight L of the concave mirror 3 and to capture a sufficient amount of sunlight L.
[0015]
And since the sufficient amount of sunlight L is converged and applied to the convex mirror 4 and diffused and reflected by the convex mirror 4 toward the shade-side building A, the convex mirror 4 is like a “second sun”. It shines toward the shade side building A and shines on the ground G between the shade side building A and the sunshine side building B. Since the convex mirror 4 reflects the sunlight L in a diffused state, the sunlight L can be radiated over a wide range toward the shade-side building A and its surroundings. Even if it irradiates over a wide area, since a sufficient amount of sunlight L is converged in advance, the irradiation power is strong. Further, since the sunlight L is converged and reflected by the concave mirror 3 and sent directly to the convex mirror 4, the transmission efficiency is good, and most of the sunlight L collected by the concave mirror 3 can be sent to the convex mirror 4 without waste.
[0016]
In particular, in this embodiment, since the convex mirror 4 is slightly outside the outer edge of the roof b of the sunshine-side building B, it is irradiated directly below and the ground G between the shade-side building A and the sunshine-side building B is exposed. In addition, the sunlight L can be reliably irradiated. Therefore, even if there is a plant such as a plant on the ground G, it will not wither due to lack of sunlight. Further, when the convex mirror 4 is protruded outward from the rooftop b in this way, the convex mirror 4 is also applied to the rear side surface 8 of the sunshine-side building B itself by changing the curvature of the convex mirror 4 and the holding angle of the convex mirror 4. The reflected sunlight L can be irradiated.
[0017]
When the convex mirror 4 becomes dirty due to long-term use, the rotating lever 5 is rotated as shown in FIG. Since there is the counterweight 6, the rotation operation is easy. By rotating the rotary lever 5, the convex mirror 4 is positioned in the area of the roof b of the sunshine-side building B, and cleaning maintenance of the convex mirror 4 by the worker M can be performed in a safe state. Since the angle of the concave mirror 3 of the heliostat 1 can be changed freely by operating the control panel, the surface can be cleaned with a dedicated cleaning tool while changing the angle of the concave mirror 3.
[0018]
A plurality of heliostats 1 and convex mirrors 4 may be installed on the roof of the shade-side building A or the sunshine-side building B. Moreover, as a building to install, it can install not only in a building and a large apartment house but in a general house.
[Brief description of the drawings]
FIG. 1 is a side view showing a shade-side building and a sunshine-side building.
FIG. 2 is an explanatory view showing a reflection state of sunlight by a concave mirror and a convex mirror.
FIG. 3 is a view of the roof of a shaded building showing a state before the rotation of the rotation lever.
FIG. 4 is a view of the roof of a shaded building showing a state after the rotation of the rotation lever.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Heliostat 2 Heliostat support | pillar 3 Concave mirror 4 Convex mirror 5 Rotating lever 6 Counterweight 7 Rotating lever support | pillar 7a Rotating fulcrum 8 Rotating lever back side A Shade side building B Sun side building S Sun L Sunlight W Daylighting Area G Ground M Worker a Rooftop of shaded building (top)
b Rooftop of the sunshine side building (top)
d The amount of retreat from the outer edge on the roof of Heliostat

Claims (3)

The sunshine side building is built on the sunshine side of the shade side building, and at least a part of the sunlight to the shade side building side is a sunshine securing structure between the buildings in a relationship that is restricted by the sunshine side building,
In the vicinity of the top of the sunshine-side building, a convex mirror for the shade-side building is installed,
A heliostat with a concave mirror whose direction is controlled to converge and reflect sunlight toward the convex mirror at the top of the shade-side building,
A sunshine securing structure characterized in that sunlight reflected and reflected to a convex mirror by a concave mirror is diffusely reflected toward the shaded building by the convex mirror. The sunshine securing structure according to claim 1,
A sunshine securing structure characterized in that the convex mirror is installed in the vicinity of the outer edge at the top of the sunshine-side building or in a state of protruding outward from the outer edge. The sunshine securing structure according to claim 2,
By installing the convex mirror at the tip of the rotating lever and rotating the rotating lever, the convex mirror protrudes near the outer edge at the top of the sunshine-side building or outward from the outer edge, and the area within the top of the sunshine-side building. A structure for securing sunshine, characterized in that each of the states positioned in the can be obtained.

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