JP3764443B2 - A building and a collective building that gathers the building - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a building such as a house or a building.
[0002]
[Prior art]
As a kind of building, a rotating building in which a part of the upper part is rotatably provided is known (for example, Patent Document 1). FIG. 11 shows a rotating building described in Patent Document 1. In the rotary building 51, a rail 53 having a U-shaped cross section is provided on the lower surface of the building main body 52 in a circumferential shape, and a plurality of wheels 55, 55,. The building main body 52 is placed on the support base 54 in a state where the rail 53 is engaged with the wheels 55 on the support base 54. And the building main body 52 can be rotated centering on the rotating shaft 56 along a perpendicular direction.
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 2001-20384
[Problems to be solved by the invention]
However, in the conventional rotating building 51, when a strong wind is received or an earthquake occurs, the rail 53 of the building main body 52 and the wheels 55, 55,. Sometimes. In addition, since outside air enters through a gap between the lower surface of the building main body 52 and the upper surface of the support base 54, there is also a problem that the heating efficiency of the building main body 52 is poor.
[0005]
The object of the present invention is to eliminate the above-mentioned problems of the conventional rotating building, and quietly without vibrating the rotating part placed on the upper side of the building body even under strong winds or earthquakes. An object of the present invention is to provide a rotating building that can be smoothly rotated. An object of the present invention is to provide a rotating building capable of preventing outside air from entering between the building main body and the rotating part.
[0006]
[Means for Solving the Problems]
Among the configurations of the present invention, the configuration of the invention described in claim 1 is a building in which the rotary building unit placed on the main body building unit rotates around a rotation axis along the vertical direction. In addition, the central part of the lower surface of the rotary construction part is immersed upward in a substantially cylindrical shape, and the central part of the upper surface of the main body construction part protrudes upward in a substantially cylindrical shape, so that the rotary construction part is substantially circular. Rotating around the rotation axis with the columnar immersive part fitted into the columnar projecting part of the main body construction part, while the periphery of the lower surface of the rotary construction part is in the gap between the rotary construction part and the main body construction part A guard wall projecting downward and a U-shaped member projecting upward on the upper surface of the main body construction part so as to sandwich the guard wall so as to fill a gap between the guard wall and the U-shaped member The U-shaped member is filled with a liquid and a guard member for windbreak is provided. Some that are.
[0007]
According to a second aspect of the present invention, in the first aspect of the present invention, a plurality of wheels are provided circumferentially on the upper surface of the main body construction portion, and a rail is provided on the lower surface of the rotary construction portion. The rotating construction part is configured to rotate around the rotation axis along the vertical direction in a state where the rail is engaged with the wheel of the main body construction part.
[0008]
The structure of the invention described in claim 3 is the invention described in claim 1 or claim 2, wherein the substantially cylindrical protruding portion of the main body construction part is a living space and is provided on the side surface. It exists in communicating with the inside of a rotation construction part through the opened part.
[0009]
The structure of the invention described in claim 4 is the invention described in any one of claims 1 to 3, wherein the second rail is provided in a circumferential shape in the substantially cylindrical recessed portion of the rotating construction part. In addition, a plurality of second wheels are circumferentially provided on the substantially cylindrical protruding portion of the main body building portion, and the rotary building portion engages the second rail with the second wheel of the main body building portion. In the combined state, the rotation is about the rotation axis.
[0012]
The configuration of the invention described in claim 5 is a collective building in which a plurality of the buildings according to any one of claims 1 to 4 are assembled, and the rotary building parts of each building are synchronized in the same direction. It can be controlled to rotate at the same angle.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a building and a collective building of the present invention will be described in detail based on the drawings.
[0014]
1 to 3 are a perspective view, a partial cross-sectional view, and a plan view of a building and a collective building, respectively, according to the present invention, and the collective building 1 collects five buildings 2, 2,. It has been made. Each of the buildings 2, 2,... Has a rotating construction part 4 placed above the main body construction part 3, and the rotational construction part 4 is rotatable around a vertical central axis (rotating axis) 5. It has become.
[0015]
4 to 6 are a perspective view, a vertical cross-sectional view, and a horizontal cross-sectional view, respectively, of the rotary construction unit 4. The rotating construction part 4 is formed in a flat octagonal columnar shape, and the center part of the lower surface (the part in the vicinity of the central axis 5) is in a state of immersing upward in a substantially cylindrical shape. And the living part 7 is formed in the outer side of the immersion part 6, and it is in the state divided into the upper and lower two floors by the partition plate 8. FIG.
[0016]
Further, the outer pillars 9, 9,... Are provided at equal intervals along the vertical direction at the outer periphery of the rotary construction part 4, and a window 10 is provided between the outer pillars 9, 9,. Is provided. Further, on the circumference separated from the central axis 5 by a predetermined distance (about 4 m), there are provided middle pillars 11, 11,..., And each of the middle pillars 11, 11,. -It is in the state located on the line which connects the central axis 5 and. And, the immersive portion 6 is formed by the middle pillars 11, 11... And the wall surface 12 provided between the middle pillar 9 and the middle pillar 9. Further, partition walls 13, 13... Are provided so as to connect the predetermined outer pillar 9 and the middle pillar 11. In addition, a passage wall 14 is provided on the circumference separated from the center line 5 by a predetermined distance, and is separated from the wall surface forming the immersive portion 6 by a predetermined distance. The partition wall 13 and the passage wall 14 partition a bedroom, a study, and the like. A wall surface is not provided between the predetermined middle pillar 11 and the middle pillar 11, and an entrance / exit 15 is formed.
[0017]
On the other hand, a roof 16 is provided above the rotary construction part 4 so as to be inclined downward from the position of the central axis 5 to the outside. Further, the living part 7 and a part of the roof 16 are cut out over an angle of about 135 degrees around the central axis 5 to form balconies 17, 17.
[0018]
FIG. 7 shows an enlarged view of the gap between the rotary building unit 4 and the main body building unit 3, and FIG. 8 shows the lower surface of the rotary building unit 4. In the rotating construction part 4, a metal plate 19 is fixed to the lower surface of the concrete wall 37 on the bottom surface of the living part 7, and the first rails 18 a and 18 b are concentric with the metal plate 19 around the central axis 5. It is installed in the shape. The first rails 18a and 18b are in a state of hanging from the lower surface of the metal plate 19 (hereinafter, the inner first rail 18a is referred to as an inner rail, and the outer first rail 18b is referred to as an outer rail). ). Each of the first rails 18a and 18b has an I-shaped cross section used for railways, and is fixed to the lower surface of the metal plate 19 with an H steel 20 as shown in FIG. In addition, on the inner side of the joint portion between the inner rail 18a and the H-steel 20, a metal rack 21 having a large number of elongated teeth protruding outward continuously at equal intervals is fixed. It is in a state of forming a circle with 18a.
[0019]
Furthermore, as shown in FIGS. 5 and 8, the second rail 22 is installed on the lower surface of the uppermost part of the immersive portion 6 of the rotary construction part 4 in a circumferential shape centering on the central axis 5. It is in a state of hanging from the lower surface. In addition, the 2nd rail 22 is also a thing of the cross-section I character utilized for a railroad like each 1st rail 18a, 18b.
[0020]
In addition, as shown in FIGS. 7 and 8, an iron guard plate (guard wall) 23 is provided between the inner rail 18a and the outer rail 18b of the rotary construction part 4 so as to protrude downward. The inner rail 18a and the outer rail 18b are concentric with the central axis 5 as a center. The guard plate 23, together with a U-shaped member 24, which will be described later, provided in the main body construction portion 3, prevents entry of wind (outside air) from the gap between the rotary construction portion 4 and the main body construction portion 3. The guard member 43 is configured.
[0021]
On the other hand, as shown in FIGS. 5 and 6, pillars 30, 30,... Are provided on the upper surface of the main body building portion 3 on a circumference separated from the central axis 5 by a predetermined distance (about 4.1 m). A substantially cylindrical protruding portion 32 is formed by the pillars 30, 30... And the wall surface 31 provided between the pillars 30. The interior of the protruding portion 32 is also in a state of being partitioned into upper and lower two floors by the partition plate 33 as in the interior of the living portion of the rotary construction unit 4. Further, a staircase 34 is provided inside the protruding portion 32 so that it can go back and forth between the upper and lower floors. In addition, between the predetermined pillar 30 and the pillar 30, the wall surface is not provided but the entrance / exit 35 is formed.
[0022]
FIG. 9 shows the upper surface of the main body building portion 3, and a plurality of first wheels 25, 25... On the outside of the projecting portion 32 are triple concentric circles centered on the central axis 5. (Hereinafter, the plurality of first wheels 25, 25,... Arranged in an inner concentric shape is referred to as a wheel group A, and the plurality of first wheels 25, 25, arranged in a concentric shape on the outer side. Is referred to as wheel group B). The wheels 25, 25,... Of the wheel group A and the wheel group B are rotatable about the rotation axis along the direction radiating from the central axis 5 (see FIG. 7). 7, each wheel 25, 25,... Has a shape in which the edges on both the inner and outer sides protrude outward (in a direction radiating from the rotation axis of the wheel 25). The bearing members 26 and 26 are fixed to the upper surface of the concrete wall 27 forming the ceiling of the main body building portion 3 with the rotating shaft supported.
[0023]
Further, on the outside of the third wheel group C, three geared motors 28, 28,... Are installed at intervals of 120 degrees centering on the central shaft 5 (see FIGS. 7 and 9). At the upper ends of the support shafts of the motors 28, 28,..., Gear-shaped metal pinions 29 are fixed.
[0024]
On the other hand, as shown in FIGS. 5 and 9, a plurality of second wheels 36, 36... Are arranged on the upper surface of the projecting portion 32 in a circumferential shape around the central axis 5. It is rotatable about a rotation axis along the direction of radiation.
[0025]
Further, as shown in FIG. 7, between the wheel group A and the wheel group B on the upper surface of the main body building portion 3, two concrete walls are circumferentially separated by a predetermined distance (about 500 mm) (the central axis 5). The U-shaped member 24 is formed in a concentric circle centered on the center.
[0026]
The rotary construction part 4 is fitted into the central immersive part 6 with the protruding part 32 of the main body building part 3, and the uppermost second rail 22 of the immersive part 6 is connected to the second wheel 36 of the protruding part 32 of the main body building part 3. , 36... And the inner rail 18 a and the outer rail 18 b on the lower surface of the living part 7 are respectively connected to the first wheels 25, 25. In a state of being placed on the first wheels 25, 25,... B, it is rotatably supported on the main body construction part 3. The guard plate 23 projecting from the lower surface of the living part 7 of the rotary construction part 4 is in a state of entering between the U-shaped members 24 projecting from the upper surface of the main body construction part 3. The U-shaped member 24 is filled with an antifreeze liquid 44 so that a gap between the guard plate 23 and the U-shaped member 24 is filled. Further, the teeth of the rack 21 fixed to the lower surface of the living part 7 of the rotary building part 4 are in mesh with the teeth of the pinion 29 fixed to the geared motors 28, 28. ing.
[0027]
On the other hand, as shown in FIG. 1, a control device 38 is provided on the first floor of the central building 2 to control the rotation operation of the rotary building section 4 of each building 2, 2,. FIG. 10 is a block diagram showing a rotation control mechanism of the rotary building unit 4 of each building 2, 2,..., And the geared motors 28, 28,. Are connected to the CPU 40 of the control device 38 via a power supply board 39 provided in the vicinity of each geared motor 28, 28,. In addition, a timer 41 and input means 42 are connected to the CPU 40.
[0028]
In the collective building 1 configured as described above, when a predetermined time comes, power is supplied to the geared motors 28, 28,. When power is supplied to the geared motors 28, 28,... Of the buildings 2, 2,..., The pinions 29 fixed to the shafts of the geared motors 28, 28,. By the action of the rack 21 fixed to the lower surface, as shown in FIG. 6, the rotating construction parts 4 of the respective buildings 2, 2,... Rotate synchronously (same angular velocity in the same direction). Further, the rotating construction part 4 of each building 2, 2... Can be operated by operating the input means 42, or the rotating construction parts 4 of all the buildings 2, 2,. The rotating construction part 4 of 2 ... can be rotated by an arbitrary angle independently.
[0029]
As described above, each of the buildings 2, 2,... Of the collective building 1 has a central portion of the lower surface of the rotary construction portion 4 that is recessed upward in a substantially cylindrical shape, and a central portion of the upper surface of the main body construction portion 3. Projecting upward in a substantially cylindrical shape, and the rotating construction part 4 rotates around the central axis 5 with the projecting part 32 of the main body construction part 3 fitted in the immersive part 6, so that an extremely strong wind is generated. Even when it is received or in the event of an earthquake, the engagement between the first wheels 25, 25... Of the main body construction part 3 and the first rails 18 a, 18 b of the rotary construction part 4 is not released.
[0030]
In addition, each of the buildings 2, 2... Has a plurality of first wheels 25, 25... Circumferentially provided on the upper surface of the main body building portion 3, and a first rail 18 a on the lower surface of the rotary building portion 4. , 18b are provided in a circumferential shape, and the rotary construction part 4 is aligned along the vertical direction with the first rails 18a, 18b engaged with the first wheels 25, 25,. Since it rotates around the central axis 5, it is difficult for a load to be applied to the rotating construction part 4 and it is difficult to break down.
[0031]
Further, each of the buildings 2, 2... Has a substantially cylindrical projecting portion 32 of the main body building portion 3 serving as a living space, and is rotated through an opening (entrance / exit 35) provided on the side surface. Since it communicates with the inside of the part 4, there is no space loss.
[0032]
In addition, each of the buildings 2, 2... Is provided with a second rail 22 in a circumferential shape in the immersive portion 6 of the rotary building portion 4, and a plurality of second rails 22 in the protruding portion 32 of the main body building portion 3. Two wheels 36, 36... Are provided in a circumferential shape, and the rotating construction unit 4 engages the second rail 22 with the second wheels 36, 36. Since it rotates centering on 5, the rotation construction part 4 can be gently and smoothly rotated without vibrating.
[0033]
In addition, since each building 2, 2... Is provided with a guard member 43 for windbreak in the gap between the rotary building portion 4 and the main body building portion 3, The gap air (outside air) does not enter the living part 7 from the gap through the entrance / exit 35 of the projecting part 32 of the main body construction part 3 and the immersion part 6 entrance / exit 15 of the rotary construction part 4. Therefore, the heating efficiency is good. Further, even when the wind is blown by a strong wind, the rotary construction part 4 does not rattle above the main body construction part 3.
[0034]
Further, each of the buildings 2, 2... Has a guard plate 43 projecting downward on the periphery of the lower surface of the rotary building 4 and the main building 3 so as to sandwich the guard plate 23. A U-shaped member 24 projecting upward on the upper surface, and the U-shaped member 24 is filled with a liquid so as to fill a gap between the guard plate 23 and the U-shaped member 24. The accuracy of the prevention function is high.
[0035]
In addition, each building 2, 2... Is filled with antifreeze so as to fill the gap between the guard plate 23 of the guard member 43 and the U-shaped member 24. The situation where it becomes impossible to rotate the rotation construction part 4 does not arise because the liquid of this freezes.
[0036]
On the other hand, the collective building 1 can be controlled so that the rotary building portions 4 of the buildings 2, 2,...・ ・ Privacy of the residents is not infringed.
[0037]
In addition, the structure of the building and collective building of this invention is not limited to the aspect of each above-mentioned Example at all, The shape and structure of a rotation construction part, a main-body construction part, a wheel, a rail, a guard member, etc. These configurations can be appropriately changed as necessary without departing from the spirit of the present invention.
[0038]
For example, the building is not limited to the one in which the rail is provided in the rotary building portion and the wheel is provided in the main building, and the wheel may be provided in the rotary building portion and the rail may be provided in the main building.
[0039]
Further, the mechanism for rotating the rotary building part is not limited to a mechanism that converts the rotational force of the motor to the rotational force of the rotary building part by a rack and a pinion, but the rotational force of the motor is rotated by the chain and the sprocket. What converts it into force etc. may be sufficient. In addition, when a rack and a pinion are used, there exists an advantage that a rotation construction part can be rotated smoothly with little electric power.
[0040]
Furthermore, the shape of the rotating construction part is not limited to a shape in which the upper part of the flat octagonal prism is cut out about 135 degrees around the central axis as in the above embodiment, and is simply a prismatic shape, a cylindrical shape, or It is also possible to change the upper part of the upper part into a shape cut out at an arbitrary angle. In addition, when the shape of the rotary building part is a shape in which the upper part is notched over an angle of about 135 degrees or less around the central axis, the rotary building part of each building is rotated in synchronization. In addition, since it is difficult to see the cut-out portion of the rotating construction part of other buildings, there is an advantage that the privacy of residents in each building can be effectively protected.
[0041]
【The invention's effect】
In the building according to claim 1, the central portion of the lower surface of the rotary building portion is recessed upward in a substantially cylindrical shape, and the central portion of the upper surface of the main body building portion protrudes upward in a substantially cylindrical shape, The rotating construction part rotates around the rotation axis with the roughly cylindrical protruding part of the main body construction part fitted in the substantially cylindrical immersive part, so even in the event of extremely strong winds or earthquakes The engagement between the wheel of the main body construction part and the rail of the rotary construction part does not come off.
In addition, a guard wall that protrudes downward from the periphery of the lower surface of the rotary construction part and a top face of the main construction part so as to sandwich the guard wall are provided in the gap between the rotary construction part and the main body construction part. Since the guard member for windbreak which is made up of a U-shaped member and fills the liquid in the U-shaped member so as to fill the gap between the guard wall and the U-shaped member is provided. The accuracy of the function of preventing the draft from entering through the gap with the building is high, and the heating efficiency is good. Further, even when the wind is blown by a strong wind, the rotating construction part does not rattle above the main body construction part.
[0042]
The building according to claim 2 is provided with a plurality of wheels circumferentially provided on the upper surface of the main body building portion, and a rail is provided circumferentially on the lower surface of the rotary building portion. With the rail engaged with the wheel of the main body building part, the rotating part is less likely to be subjected to a load and is less likely to break down because the rail rotates around the rotation axis along the vertical direction.
[0043]
In the building according to claim 3, the substantially cylindrical protruding portion of the main body building portion is a living space, and communicates with the inside of the rotating building portion through an opening provided on a side surface. Therefore, there is no space loss.
[0044]
In the building according to claim 4, the second rail is provided in a circumferential shape in the substantially cylindrical immersive portion of the rotary building portion, and a plurality of protrusions in the substantially cylindrical shape of the main body building portion are provided. The second wheel is provided in a circumferential shape, and the rotation building unit rotates around the rotation axis with the second rail engaged with the second wheel of the main body building unit. The part can be rotated gently and smoothly without vibrating.
[0047]
Since the collective building according to claim 5 can be controlled so that the rotation building parts of each building rotate in the same direction and at the same angle in synchronism, the privacy of the residents in each rotation building part is reduced. Not infringed.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a collective building.
FIG. 2 is a partial cross-sectional view of a collective building.
FIG. 3 is a plan view of the collective building.
FIG. 4 is a perspective view showing a rotary construction part.
FIG. 5 is a vertical cross-sectional view of a rotating construction part.
6 is a horizontal cross-sectional view (cross-sectional view taken along line AA in FIG. 5) of the rotary construction part.
FIG. 7 is an explanatory diagram showing a portion between a rotary building section and a main building.
FIG. 8 is an explanatory view showing a lower surface of a rotating construction part.
FIG. 9 is an explanatory view showing an upper surface of a main body construction part.
FIG. 10 is an explanatory diagram showing a rotation control mechanism of a rotary building unit.
FIG. 11 is an explanatory view showing a conventional building.
[Explanation of symbols]
1 .... Collective building, 2 .... Building, 3 .... Main body building part, 4 .... Rotary building part, 5 .... Central axis (rotating axis), 6 .... Immersion part, 7 .... Residential part, 18a 18c ··· First rail, 22 ··· Second rail, 23 ·· Guard plate (guard wall), 24 · · U-shaped member, 25 · · First wheel, 36 · · Second wheel, · · · Guard member.

Claims (5)

The rotary building part placed on the main body building part is a building that rotates around a rotation axis along the vertical direction,
The central part of the lower surface of the rotating construction part is immersed upward in a substantially cylindrical shape, and the central part of the upper surface of the main body building part protrudes upward in a substantially cylindrical shape, so that the rotating construction part is immersed in a substantially cylindrical shape. While rotating around the rotation axis, with the roughly cylindrical protruding part of the main body construction part fitted in the part ,
A guard wall that protrudes downward from the periphery of the lower surface of the rotary building part in the gap between the rotary building part and the main body building part, and a U-shape that protrudes upward on the upper surface of the main body building part so as to sandwich the guard wall A windbreak guard member, which is made up of a liquid member and is filled with a liquid so as to fill a gap between the guard wall and the U-shaped member .   A plurality of wheels are provided circumferentially on the upper surface of the main construction part, and a rail is provided circumferentially on the lower surface of the rotary construction part. The rotary construction part engages the rail with the wheels of the main construction part. 2. The building according to claim 1, wherein the building rotates around a rotation axis along a vertical direction.   The substantially cylindrical projecting portion of the main body construction part is a living space, and communicates with the inside of the rotary construction part through an opening provided on the side surface. The building according to claim 2. A second rail is provided circumferentially in the substantially cylindrical immersive part of the rotating construction part, and a plurality of second wheels are provided circumferentially in the substantially cylindrical protruding part of the main body construction part. And
The construction according to any one of claims 1 to 3, wherein the rotational construction part rotates around the rotational axis in a state where the second rail is engaged with the second wheel of the main body construction part. object. It is a collective building in which a plurality of the buildings according to any one of claims 1 to 4 are gathered, and the rotating construction part of each building can be controlled to rotate in the same direction and at the same angle. A collective structure characterized by

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