JP3233371U - Continuous panel structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a continuous panel structure expressing a three-dimensional and dynamic change on a surface. In addition to three-dimensional and dynamic changes, we also provide a continuous panel structure that is environmentally friendly and fosters emotions such as nature, healing, and forest bathing. SOLUTION: It is composed of a plurality of wooden panels 11 to 15 and a plurality of crosspieces 21 to 25. The plurality of wooden panels are manufactured so as to reproduce the shape of each cross section by dividing a structure having a desired three-dimensional and dynamic change on the surface into a plurality of cross sections. The plurality of crosspieces are arranged so as to intersect the plurality of wooden panels, and the plurality of wooden panels are connected by arranging the panel surfaces substantially in parallel with each other at a constant or changing interval. The desired three-dimensional and dynamic changes are reproduced on the surface of the structure in which a plurality of wooden panels and a plurality of crosspieces are connected. [Selection diagram] Fig. 3

Description

The present invention relates to a continuous panel structure that expresses three-dimensional and dynamic changes on the surface.

In buildings, louvers (surface grids) are used for the purpose of constantly blocking the line of sight from the outside, sunlight, wind and rain, etc. A louver is a series of elongated plates called wing plates arranged in parallel, and is used in various places such as fences and fences, or concealing lighting fixtures and air conditioners.

Conventional louvers have been monotonous, but decorative louvers with added design are also used. For example, it is also used to design rooftop equipment and outdoor stairs integrated with the building to protect the landscape of the building.

On the other hand, it is also possible to realize a space like a private semi-private room by arranging a structure using a decorative louver in the room and partitioning a part of the room space. For example, in Patent Document 1 below, a structure for a residential interior using a wooden louver is proposed.

JP-A-2017-071999

However, even in the decorative louvers used outdoors and indoors and the structure for the interior of a house according to the above-mentioned Patent Document 1, although the design is added, the two-dimensional and three-dimensional decorativeness and the dynamic It was poorly expressed.

Therefore, the present invention provides a continuous panel structure that expresses three-dimensional and dynamic changes on the surface by arranging panels with changes in shape instead of arranging wing plates with monotonous shapes. The purpose. In addition, the present invention uses a wooden panel made of sugi wood, etc., to create a continuous panel structure that is environmentally friendly and fosters emotions such as nature, healing, and forest bathing, in addition to three-dimensional and dynamic changes. The purpose is to provide.

In solving the above problems, the present inventor conceived a shape with a surface change on the target wall surface as a result of diligent research. Next, this was divided into a plurality of cross sections in the direction perpendicular to the wall surface, and wooden panels were created according to the shape of each cross section. As a result, it was found that the above object can be achieved by combining these wooden panels, and the present invention has been completed.

That is, the continuous panel structure according to the present invention is according to the description of claim 1.
A continuous panel structure (10) that expresses three-dimensional and dynamic changes on the wall surface (30, 40, 50, 60).
It is composed of a plurality of wooden panels (11 to 15) and a plurality of crosspieces (21 to 25) connecting the plurality of wooden panels.
The plurality of wooden panels envision a structure having a target three-dimensional and dynamic change on the surface, and the structure is divided into a plurality of cross sections via a constant or changing interval, and the shape of each cross section is formed. Made to reproduce
The plurality of crosspieces are arranged so as to intersect the plurality of wooden panels, and the plurality of wooden panels are connected by arranging and connecting the panel surfaces substantially in parallel via the constant or changing interval.
The surface of the structure in which the plurality of wooden panels and the plurality of crosspieces are connected is characterized in that the desired three-dimensional and dynamic changes are reproduced.

Further, according to the second aspect of the present invention, the present invention is the continuous panel structure according to the first aspect.
The structure having the desired three-dimensional and dynamic change on the surface is a structure having a tunnel shape.
The plurality of wooden panels are made to reproduce a plurality of arched cross-sectional shapes that divide the structure in a direction intersecting the direction of travel of the tunnel.
The structure in which the plurality of arched wooden panels having a cross-sectional shape and the plurality of crosspieces are connected reproduces the tunnel shape, and the outer wall of the structure and a part or the whole of the inner wall of the tunnel have the purpose. It is characterized by the reproduction of three-dimensional and dynamic changes.

Further, the present invention is the continuous panel structure according to claim 1 or 2, according to claim 3.
The plurality of wooden panels are made of veneer, plywood, laminated lumber, etc., such as wood, and have a bark color. By passing light and wind
In addition to the three-dimensional and dynamic changes that are aimed at, it is characterized by cultivating emotions such as nature, healing, and forest bathing.

The reference numerals in parentheses of each of the above means indicate the correspondence with the specific means described in the embodiments described later.

According to the above configuration, the continuous panel structure according to the present invention is composed of a plurality of wooden panels and a plurality of crosspieces connecting the plurality of wooden panels. First, a structure having a target three-dimensional and dynamic change on the surface is conceived, and the structure is divided into a plurality of cross sections via a constant or changing interval. Then, a plurality of wooden panels are produced so as to reproduce the shape of each cross section.

On the other hand, the plurality of crosspieces are arranged so as to intersect the plurality of wooden panels, and the plurality of wooden panels are connected by arranging the panel surfaces substantially in parallel with each other at a constant or changing interval. Therefore, the desired three-dimensional and dynamic changes are reproduced on the surface of the structure in which the plurality of wooden panels and the plurality of crosspieces are connected.

This makes it possible to provide a continuous panel structure that expresses three-dimensional and dynamic changes on the surface by arranging panels having a change in shape instead of arranging wing plates having a monotonous shape.

Further, according to the above configuration, the structure having the desired three-dimensional and dynamic change on the surface may be a structure having a tunnel shape. Here, the plurality of wooden panels are produced so as to reproduce a plurality of arch-shaped cross-sectional shapes that divide the structure in a direction intersecting the traveling direction of the tunnel. Therefore, a structure in which a plurality of arch-shaped wooden panels having a cross-sectional shape and a plurality of cross-sections are connected reproduces the shape of a tunnel, and at the same time, a solid body intended for a part or the whole of the outer wall of the structure or the inner wall of the tunnel. Targeted and dynamic changes are reproduced. As a result, the above-mentioned action and effect can be exerted more concretely and effectively.

Further, according to the above configuration, the plurality of wooden panels may be made of veneer, plywood, laminated lumber, etc. such as sugi wood and have a bark color. In addition, natural lighting and ventilation mechanisms provided as needed allow light and wind to pass between the wooden panels. Therefore, in addition to the desired three-dimensional and dynamic changes, emotions such as nature, healing, and forest bathing are cultivated.

This makes it possible to provide a continuous panel structure that is environmentally friendly and cultivates emotions such as nature, healing, and forest bathing, in addition to three-dimensional and dynamic changes.

It is a process drawing which shows the manufacturing process of the continuous panel structure which concerns on this embodiment. It is a perspective view which shows the assembly image of the continuous panel structure which concerns on this embodiment. It is a side view which shows the structure after assembling of the continuous panel structure of FIG. It is a front view which shows the internal image of the continuous panel structure of FIG. This is a photograph of the actually assembled continuous panel structure taken from a perspective direction. It is a photograph which took the inside of the continuous panel structure of FIG. 5 from the front direction. It is a photograph of one inner wall surface of the continuous panel structure of FIG. 5 taken from a perspective direction. It is a photograph of the other inner wall surface of the continuous panel structure of FIG. 5 taken from a perspective direction. It is a photograph of the outer wall surface of the continuous panel structure of FIG. 5 taken from a perspective direction. It is a photograph of the ceiling portion of the continuous panel structure of FIG. 5 taken from a perspective direction.

The continuous panel structure according to the present invention is mainly used for decoration of surfaces such as indoor walls, ceilings, and handrail walls of stairs, and three-dimensional and dynamic changes to those monotonous planes. It expresses. In that case, the continuous panel structure may be superposed on the surface of the wall or the ceiling, or the wall or the ceiling may be formed by the continuous panel structure itself. Of course, it may be used not only for interior decoration but also for decoration of building exterior and outer wall.

On the other hand, the continuous panel structure may be arranged indoors and used as a small space such as a partition or a semi-private room. Further, there are cases where a large-scale continuous panel structure is arranged outdoors or used as a structure such as an event venue. As such a large-scale structure, for example, it can be used as an event facility having a tunnel structure or a play facility such as a maze.

Further, in the present invention, the continuous panel is preferably made of wood. The wood used may be any of coniferous trees and hardwoods, and may be any kind of wood such as sugi, cypress, pine and radiata pine. Use wooden panels made of veneer, plywood, laminated lumber, etc. such as sugi wood. By expressing the bark color using wooden panels, you can feel the healing effect on the wall surface and space.

In addition, by using domestically produced cedar wood for wooden panels, it is possible to improve the devastated forests in Japan and contribute to new tree planting and protection of the forest ecosystem. Furthermore, by protecting the mountains, it promotes the absorption of carbon dioxide, and by using wood, it can contribute to the fixation of carbon dioxide.

Hereinafter, the continuous panel structure according to the present invention will be described according to an embodiment. Here, as a large-scale continuous panel structure, a structure having a tunnel shape used in an event venue or the like will be described as an example. The present invention is not limited to the following embodiments.

The continuous panel structure according to the present embodiment is composed of a plurality of wooden panels and a plurality of crosspieces connecting the plurality of wooden panels. Hereinafter, the continuous panel structure according to the present embodiment will be described by a manufacturing process.

FIG. 1 is a process diagram showing a manufacturing process of a continuous panel structure according to the present embodiment. First, in step S1, a shape that expresses a three-dimensional and dynamic change on the wall surface is conceived. Specifically, it may be an image image by a designer. Alternatively, it may be an image drawing using 2D-CAD or the like. Anything that expresses three-dimensional and dynamic changes in the surface of the structure may be used.

Next, in step S2, an image image or an image drawing is converted into 3D data (3D-CAD drawing) using a 3D image program. Next, in step S3, the structure is divided into a plurality of cross sections from the 3D data. At this time, the interval between the cross sections may be constant or may vary depending on the panels. A three-dimensional and dynamic change is given to the wall surface of the structure by a constant interval or a changing interval.

Next, in step S4, a reduced model is created with a 3D printer, and it is confirmed whether the target image is reproduced. The step S4 may be omitted. After confirming the image of the three-dimensional and dynamic changes in the surface in step S4, the next step is to manufacture the actual panel.

Next, in step S5, a plurality of wooden panels having different shapes are cut out from the plywood of sugi wood having a predetermined thickness by using a wood NC processing machine or the like from the data of each panel. In the present embodiment, since the continuous panel structure to be manufactured is large, a plywood made of sugi wood having a thickness of 24 mm is used. You can select it. Further, in the present embodiment, a wooden panel is manufactured by performing machine control using an NC router, but the cutting device and the like are not limited to this.

Next, in step S6, a plurality of cut out wooden panels are assembled to produce a continuous panel structure. Since the continuous panel structure according to the present embodiment has a tunnel shape, each wooden panel has an arch-shaped structure having a changed cross-sectional shape.

FIG. 2 is a perspective view showing an assembly image of the continuous panel structure according to the present embodiment. In FIG. 2, in the continuous panel structure 10, a plurality of wooden panels 11 to 15 are arranged substantially in parallel at predetermined intervals. In FIG. 2, the sixth and subsequent wooden panels are omitted without being shown. Further, in FIG. 2, a plurality of crosspieces connecting the plurality of wooden panels 11 to 15 are omitted without being described.

In FIG. 2, since the cross-sectional shapes of the wooden panels 11 to 15 constituting the inner wall surface 30 of the continuous panel structure 10 are rich in variation, the inner wall surface 30 expresses a three-dimensional and dynamic change. .. Similarly, since the cross-sectional shapes of the wooden panels 11 to 15 constituting the outer wall surface 60 are rich in variation, the outer wall surface 60 also expresses three-dimensional and dynamic changes. The three-dimensional and dynamic changes of the inner wall surface 30 and the outer wall surface 60 will be specifically described later.

FIG. 3 is a side view showing the structure of the continuous panel structure after assembly. In FIG. 3, the continuous panel structure 10 is placed on the floor surface G, and the plurality of wooden panels 11 to 15 (reference numerals after 16 are omitted) are arranged at equal intervals in the direction perpendicular to the floor surface G. ing. The plurality of wooden panels 11 to 15 are connected by a plurality of crosspieces 21 to 25 (five in the figure, but similarly arranged on the back surface of the drawing).

In the present embodiment, since the continuous panel structure to be produced is large and the number of wooden panels is large, a long sugi material of 30 mm × 40 mm was used as each of the crosspieces 21 to 25. As for the crosspiece, the type and thickness of the crosspiece to be used may be appropriately selected depending on the size and type of the structure to be manufactured.

The connection between each wooden panel and each crosspiece is not particularly limited, and may be performed by any method. For example, recesses may be formed in each of the recesses so that the recesses fit into each other. Further, it may be fixed with nails, screw nails, bolts and nuts, or the like. If these bonds can be easily released, it will be easy to assemble and disassemble, and it will be effective as a structure for events.

In this way, the continuous panel structure having the tunnel shape of the present embodiment was assembled. FIG. 4 is a front view showing an internal image of the continuous panel structure. Inside the tunnel, a plurality of arch-shaped wooden panels having continuously changed cross-sectional shapes are arranged at equal intervals with the panel surfaces parallel to each other, and one inner wall surface 30, the other inner wall surface 40, and the ceiling wall surface. Forming 50.

Although not shown in FIG. 4, each wooden panel has a bark color of wood, and the inside of the tunnel is illuminated by warm LED lighting from between each wooden panel, and it is refreshing from between each wooden panel. Blowers are arranged so that the wind blows into the tunnel. As a result, people in the tunnel can remember the three-dimensional and dynamic changes in the wall surface and emotions such as nature, healing, and forest bathing, and can be effective as an event structure.

Here, the three-dimensional and dynamic changes of the wall surface and the ceiling wall surface of the continuous panel structure having a tunnel shape specifically assembled in the present embodiment are shown. It should be noted that it is difficult to convey the three-dimensional and dynamic changes in detail even if each shape is illustrated, so a series of drawing substitute photographs will be shown realistically. The continuous panel structure shown in these photographs is a tunnel-shaped structure having a height of 2.7 m, a width of 3 m, and a depth of 6 m, which is composed of 48 arched wooden panels.

FIG. 5 is a photograph of the actually assembled continuous panel structure taken from a perspective direction. It can be seen that arched wooden panels with different shapes are arranged with the panel surfaces parallel to each other. FIG. 6 is a photograph of the inside of the continuous panel structure taken from the front direction. The internal image shown in FIG. 4 becomes more concrete, and the three-dimensional and dynamic changes in the wall surfaces of the inner wall surfaces 30 and 40 and the ceiling wall surface 50 can be clearly seen.

FIG. 7 is a photograph of one inner wall surface 30 of the continuous panel structure taken from a perspective direction. FIG. 8 is a photograph of the other inner wall surface 40 of the continuous panel structure taken from a perspective direction. Further, FIG. 9 is a photograph of the outer wall surface of the continuous panel structure taken from a perspective direction. FIG. 10 is a photograph of the ceiling portion of the continuous panel structure taken from a perspective direction. From these photographs, the three-dimensional and dynamic changes of each wall surface, ceiling wall surface, and outer wall surface in the tunnel can be clearly seen.

As described above, according to the present invention, a continuous panel structure that expresses a three-dimensional and dynamic change on the surface by arranging panels having a change in shape instead of arranging wing plates having a monotonous shape. Can provide a body. In addition, according to the present invention, by using a wooden panel made of sugi wood, etc., in addition to three-dimensional and dynamic changes, a continuous panel that is environmentally friendly and fosters emotions such as nature, healing, and forest bathing. Structures can be provided.

In carrying out the present invention, not only the above-described embodiment but also various modifications as follows can be mentioned.
(1) In the above embodiment, a continuous panel structure having a tunnel shape has been described. However, the present invention is not limited to this, and may be used for decoration of a surface such as an indoor wall, a ceiling, or a handrail wall of a staircase. Further, it may be used for decoration of the exterior or outer wall of a building.
(2) In the above embodiment, plywood made of sugi is used as the material of the wood panel constituting the continuous panel structure. However, the present invention is not limited to this, and wood other than sugi, veneer other than plywood, laminated lumber, and the like may be used.

10 ... continuous panel structure, 11-15 ... wooden panel, 21-25 ... pier,
30, 40 ... Inner wall surface, 50 ... Ceiling wall surface, 60 ... Outer wall surface,
G ... Floor surface, S1 to S6 ... Process.

Claims (3)

It is a continuous panel structure that expresses three-dimensional and dynamic changes on the wall surface.
It consists of multiple wooden panels and multiple crosspieces connecting these multiple wooden panels.
The plurality of wooden panels envision a structure having a target three-dimensional and dynamic change on the surface, and the structure is divided into a plurality of cross sections via a constant or changing interval, and the shape of each cross section is formed. Made to reproduce
The plurality of crosspieces are arranged so as to intersect the plurality of wooden panels, and the plurality of wooden panels are connected by arranging and connecting the panel surfaces substantially in parallel via the constant or changing interval.
A continuous panel structure characterized in that a three-dimensional and dynamic change of interest is reproduced on the surface of a structure in which the plurality of wooden panels and the plurality of crosspieces are connected. The structure having the desired three-dimensional and dynamic change on the surface is a structure having a tunnel shape.
The plurality of wooden panels are made to reproduce a plurality of arched cross-sectional shapes that divide the structure in a direction intersecting the direction of travel of the tunnel.
The structure in which the plurality of arched wooden panels having a cross-sectional shape and the plurality of crosspieces are connected reproduces the tunnel shape, and the outer wall of the structure and a part or the whole of the inner wall of the tunnel have the purpose. The continuous panel structure according to claim 1, wherein the three-dimensional and dynamic changes are reproduced. The plurality of wooden panels are made of veneer, plywood, laminated lumber, etc., such as wood, and have a bark color. By passing light and wind
The continuous panel structure according to claim 1 or 2, wherein emotions such as nature, healing, and forest bathing are cultivated in addition to the three-dimensional and dynamic changes intended.

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