CN113818555A - Rotary sunlight platform of prefabricated building - Google Patents

Abstract

The invention belongs to the technical field of fabricated buildings, solves the problem that lighting is affected between sunlight platforms in the prior art, and provides a rotary sunlight platform of a fabricated building. This assembled building's rotatory sunshine platform includes sunshine building subject, floor and a plurality of sunshine platform, be provided with the elevartor shaft in the sunshine building subject, the floor encircles the setting and is in on the elevartor shaft, just the floor is followed the direction of height of elevartor shaft is equipped with the multilayer, and is a plurality of the sunshine platform with the floor is connected, just the sunshine platform can be followed the circumference direction of floor rotates, and the adjacent layer is crisscross the setting between the sunshine platform. The invention can reduce or even eliminate the influence of the sunlight platform positioned above on the lighting of the sunlight platform positioned below, so that the light receiving area and the sightseeing view angle of the building are increased, and the experiences of living, office, business, exhibition, education and training, cultural and sports, medical treatment, health maintenance, three-dimensional space planting and cultivation, photographing, parking and the like are better.

Description

Rotary sunlight platform of prefabricated building

The present application is a divisional application of an invention patent application with the invention name of "fabricated solar building" filed on 5.6.2021, application No. 202110627973.8.

Technical Field

The invention belongs to the technical field of assembly type buildings, and particularly relates to a rotary sunlight platform of an assembly type building.

Background

The sunshine tower is a high tower with the effect of attracting tourists, and the construction is usually in city central area and tourist attraction, and the body of the tower of sunshine is usually built by concrete or steel construction, is equipped with the sunshine platform in higher position for the visitor climbs the sky view scenic spot scenery, and the visitor also can shoot on the sunshine platform and reserve. At present, sunlight buildings similar to sunlight towers, such as Shanghai's bright bead towers, are large-scale sunlight tower buildings in China, are attractive in appearance and complete in function, and become one of Shanghai's landmark buildings. For the volume of receptionist of improving visitor, be equipped with multilayer sunshine platform on the current sunshine building, but the sunshine platform on upper strata sets up in lower floor sunshine platform top, and consequently the sunshine platform on upper strata can block the daylighting effect of lower floor's sunshine platform to influence the effect that the visitor shot on lower floor's sunshine platform.

Disclosure of Invention

In view of the above, the present invention provides a rotating sunlight platform for an assembly type building, which is used to reduce the influence of an upper sunlight platform on a lower sunlight platform of an existing assembly type building.

The technical scheme adopted by the invention is as follows:

the invention provides a rotary solar platform of an assembly type building, which comprises: sunshine building subject, floor and a plurality of sunshine platform, be provided with the elevartor shaft in the sunshine building subject, the floor encircles the setting and is in on the elevartor shaft, just the floor is followed the direction of height of elevartor shaft is equipped with the multilayer, and is a plurality of the sunshine platform with the floor is connected, just the sunshine platform can follow according to sunshine angle of illumination the circumference direction of floor rotates, and the adjacent layer is crisscross the setting between the sunshine platform.

As the preferred scheme of the rotary sunlight platform of the assembly type building, a plurality of light sensors are arranged on the periphery of each sunlight platform and used for judging whether the sunlight platform is lighted or not.

As a preferable aspect of the above-described rotary solar light platform of the fabricated building, the floor slab includes: the elevator shaft comprises a first floor slab, a second floor slab and a third floor slab, wherein the third floor slab is positioned above the first floor slab, the second floor slab is positioned between the first floor slab and the third floor slab, and the second floor slab is provided with a plurality of layers along the height direction of the elevator shaft;

the sunlight platform includes: first sunshine platform, second sunshine platform and third sunshine platform, first sunshine platform is in be provided with threely in the week of first floor, second sunshine platform is in be provided with threely in the week of second floor, third sunshine platform is in be provided with threely in the week of third floor, first sunshine platform and adjacent layer be the crisscross setting in interval between the second sunshine platform, adjacent layer also be the crisscross setting in interval between the second sunshine platform.

As a preferable mode of the above-described revolving solar light platform of the prefabricated building, three adjacent first solar light platforms are spaced apart from each other by 60 °, three adjacent second solar light platforms are spaced apart from each other by 60 °, and three adjacent third solar light platforms are spaced apart from each other by 60 °.

As a preferable scheme of the rotating sunlight platform of the prefabricated building, a first cavity is formed in the first floor, a base is arranged in the first cavity in the direction towards the elevator shaft, and a reinforcing rib used for connecting and supporting the first sunlight platform is rotatably arranged on the base.

As a preferred scheme of the rotary sunlight platform of the assembly type building, a second cavity is formed in the second floor, a rack guide rail is arranged in the second cavity, a rack is arranged on the rack guide rail, and the rack slides on the rack guide rail;

the rack guide rail is disposed in a direction of the second cavity toward the elevator hoistway, and the rack guide rail is located between the base and the elevator hoistway.

As a preferred scheme of the rotary sunlight platform of the assembly type building, a motor is arranged on the inner top wall of the second cavity, the output end of the motor is connected with a gear, and the gear is meshed with the rack and is used for driving the rack to slide on the rack guide rail.

As a preferable scheme of the rotary sunlight platform of the fabricated building, a second flexible connecting mechanism is connected to the surface of the rack, and one end of the second flexible connecting mechanism, which is away from the rack, is connected to the first sunlight platform.

As the preferred scheme of the rotary sunlight platform of the assembly type building, the racks and the second sunlight platform are arranged at intervals in a staggered mode, and the motor is fixed at the junction of the racks and the second sunlight platform.

As a preferable solution of the above-mentioned rotary solar power platform of a fabricated building, the rotary solar power platform of a fabricated building further comprises: the motor control system comprises a master control center, wherein the master control center comprises a plurality of control lines, and each control line independently controls the positive and negative rotation of one motor.

In conclusion, the beneficial effects of the invention are as follows:

the rotary sunlight platform of the fabricated building provided by the embodiment of the invention is provided with the floor slab and the sunlight platforms, and the sunlight platforms can rotate along the circumferential direction of the floor slab, so that the positions of the sunlight platforms can be changed, the sunlight platforms of adjacent layers are arranged in a staggered manner, namely, the interval between the sunlight platforms of adjacent layers is ensured, meanwhile, the sunlight platforms can rotate to change the positions, and the relative positions between the sunlight platforms of adjacent layers can be adjusted according to the irradiation angle of light, so that the light receiving area of the sunlight platforms is maximized, and the influence of the sunlight platforms on the sunlight platforms of lower layers by the sunlight platforms of upper layers is reduced or even eliminated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below, and for those skilled in the art, without any creative effort, other drawings may be obtained according to the drawings, and these drawings are all within the protection scope of the present invention.

Fig. 1 is a schematic structural view of a rotary solar light platform of a prefabricated building in embodiment 1 of the present invention;

FIG. 2 is a schematic structural view of a rotary solar power platform of a prefabricated building according to embodiment 2 of the present invention;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a schematic view of the distance between the solar platforms;

FIG. 5 is a schematic structural view of a rotary solar power platform of a prefabricated building according to embodiment 3 of the present invention;

FIG. 6 is a schematic structural view of a rotary solar power platform of a prefabricated building according to embodiment 4 of the present invention;

FIG. 7 is a top view of FIG. 6;

FIG. 8 is a schematic structural view of a rotary solar power platform of a prefabricated building according to embodiment 5 of the present invention;

FIG. 9 is a schematic structural view of a rotary solar power platform of a prefabricated building according to embodiment 6 of the present invention;

FIG. 10 is a top view of a rotating solar platform of the fabricated building of embodiment 6 of the present invention;

FIG. 11 is a top view of a second solar power platform according to embodiment 6 of the present invention;

FIG. 12 is a top view of a first solar platform according to embodiment 6 of the present invention;

FIG. 13 is a top view of a third solar platform according to embodiment 6 of the present invention;

fig. 14 is a schematic structural view of a first floor in embodiment 6 of the present invention.

Parts and numbering in the drawings:

10. a sunlight building body; 11. an elevator shaft; 20. a first solar platform; 21. a first floor slab; 22. a first cavity; 30. a second solar platform; 31. a second cavity; 32. a second floor slab; 33. a rack; 34. a motor; 35. a gear; 36. a rack guide rail; 37. a base; 38. reinforcing ribs; 40. a third solar platform; 41. a third floor slab; 42. a third cavity; 50. a fourth solar platform; 61. a first connecting mechanism; 62. a second connecting mechanism; 63. a third connecting mechanism; 71. a first flexible connection mechanism; 72. a second flexible connection mechanism; 73. a third flexible connection mechanism; 74. a fourth flexible connection mechanism; 75. a fifth flexible connection mechanism; 76. a sixth flexible connection mechanism; 80. a fifth solar platform; 81. a sunshine station; 82. a sixth solar platform;

s1, a first preset distance; s2, a second preset distance; s3, a third preset distance; s4, a fourth preset distance; s5, a fifth preset distance; s6, a sixth preset distance.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element. In case of conflict, the embodiments of the present invention and the various features of the embodiments may be combined with each other within the scope of the present invention.

Example 1

As shown in fig. 1, embodiment 1 of the present invention discloses a rotary solar power platform of a prefabricated building, which includes a solar power building main body 10, a first solar power platform 20 and a second solar power platform 30, wherein the first solar power platform 20 is disposed on the solar power building main body 10, and the first solar power platform 20 extends out of the solar power building main body 10 by a first preset distance S1. The second solar light platform 30 is disposed on the solar light building main body 10, the second solar light platform 30 is disposed below the first solar light platform 20 along the vertical direction, the second solar light platform 30 extends out of the solar light building main body 10 by a second preset distance S2, and the second preset distance S2 is greater than the first preset distance S1.

In this embodiment, the first solar platform 20 extends a first predetermined distance S1 from the solar building body 10, the second solar platform 30 extends a second predetermined distance S2 from the solar building body 10, and the second predetermined distance S2 is greater than the first predetermined distance S1, so that the sunlight emitted to the solar building is as shown by the arrow in fig. 1, and more sunlight is emitted to the second solar platform 30, thereby reducing the influence of the first solar platform 20 above the second solar platform 30 on the lighting of the second solar platform 30.

Example 2

As shown in fig. 2 to 4, embodiment 2 of the present invention discloses a rotary solar light platform of a fabricated building, which includes a solar light building main body 10, a first solar light platform 20, a second solar light platform 30, a third solar light platform 40, and a fourth solar light platform 50, wherein the first solar light platform 20, the second solar light platform 30, the third solar light platform 40, and the fourth solar light platform 50 are sequentially disposed in a vertical direction. The first solar platform 20 is disposed on the solar building body 10, and the first solar platform 20 extends out of the solar building body 10 by a first predetermined distance S1. The second solar light platform 30 is disposed on the solar light building main body 10, the second solar light platform 30 is disposed below the first solar light platform 20 along the vertical direction, the second solar light platform 30 extends out of the solar light building main body 10 by a second preset distance S2, and the second preset distance S2 is greater than the first preset distance S1. The third solar platform 40 is disposed on the solar building body 10, the third solar platform 40 is disposed below the second solar platform 30 along the vertical direction, the third solar platform 40 extends a third preset distance S3 from the solar building body 10, and the third preset distance S3 is greater than the second preset distance S2. In the present embodiment, the difference between the third predetermined distance S3 and the second predetermined distance S2 is equal to the difference between the second predetermined distance S2 and the first predetermined distance S1. When sunshine comes, because first preset distance S1 is less than second preset distance S2, second preset distance S2 is less than third preset distance S3 again, make and to let more sunshine shine on second sunshine platform 30 and third sunshine platform 40, reduce the daylighting influence of first sunshine platform 20 to second sunshine platform 30, reduce the daylighting influence of second sunshine platform 30 to third sunshine platform 40, give the sufficient daylighting effect of the people who shoots on this sunshine building, make everybody have good experience of shooing.

In this embodiment, the first solar light platform 20, the second solar light platform 30 and the third solar light platform 40 are disposed at equal intervals along the vertical direction, the first solar light platform 20 and the second solar light platform 30 are spaced at a fourth preset distance S4 along the vertical direction, and the second solar light platform 30 and the third solar light platform 40 are spaced at a fourth preset distance S4 along the vertical direction. The fourth solar platform 50 is arranged on the solar building main body 10, the fourth solar platform 50 is arranged below the third solar platform 40 along the vertical direction, the fourth solar platform 50 extends out of the solar building main body 10 by a fifth preset distance S5, and the fifth preset distance S5 is smaller than the third preset distance S3; the fourth solar platform 50 and the third solar platform 40 are spaced at a sixth preset distance in the vertical direction, the sixth preset distance is greater than a fourth preset distance S4, and the sixth preset distance is greater than a fourth preset distance S4, so that the third solar platform 40 is ensured not to greatly affect the lighting of the fourth solar platform 50.

In this embodiment, a first connecting mechanism 61 is further disposed between the first solar platform 20 and the second solar platform 30, and the first connecting mechanism 61 is connected to the first solar platform 20 and the second solar platform 30 respectively, so as to increase the connecting strength between the first solar platform 20 and the second solar platform 30 and the bearing capacity of the first solar platform 20 and the second solar platform 30. Still be equipped with second coupling mechanism 62 between second sunshine platform 30 and third sunshine platform 40, this second coupling mechanism 62 is connected with second sunshine platform 30, third sunshine platform 40 respectively, increases joint strength and second sunshine platform 30 and the bearing capacity of third sunshine platform 40 between second sunshine platform 30 and the third sunshine platform 40, ensures sunshine crowd's personal safety.

In the present embodiment, the sunlight building body 10 is provided with a hoistway, which is an elevator shaft 11 in the present embodiment. The first sunlight platform 20 is connected with the elevator shaft 11 through a plurality of first flexible connecting mechanisms 71, in this embodiment, the first flexible connecting mechanisms 71 are first stay cables, the second sunlight platform 30 is connected with the elevator shaft 11 through a plurality of second flexible connecting mechanisms 72, in this embodiment, the second flexible connecting mechanisms 72 are second stay cables, the third sunlight platform 40 is connected with the elevator shaft 11 through a plurality of third flexible connecting mechanisms 73, in this embodiment, the third flexible connecting mechanisms 73 are third stay cables, the fourth sunlight platform 50 is connected with the elevator shaft 11 through a plurality of fourth flexible connecting mechanisms 74, and in this embodiment, the fourth flexible connecting mechanisms 74 are fourth stay cables. The first sunlight platform 20, the second sunlight platform 30, the third sunlight platform 40 and the fourth sunlight platform 50 are respectively connected with the elevator shaft 11 through the flexible connecting mechanisms, and the bearing capacity of the sunlight platforms is further enhanced.

Sunlight building main part 10's sunshine platform is equipped with the multilayer in this embodiment, and every layer also is equipped with a plurality of sunshine platforms, and the sunshine platform on every layer is arranged into a circular around the surface of well, total eight sunshine platforms in each layer, and the shape size homogeneous phase on the sunshine platform on same layer is the same, the sunshine platform is isosceles trapezoid shape, extend to the direction that is kept away from the well, extend outward more, the area of its sunshine platform is big more, so that supply more visitor's recreation to shoot, and enclose into the round through setting up the same platform of eight shapes, guarantee the whole symmetry of this building, make it be rich in the aesthetic feeling more, attract more visitor's recreation.

The three adjacent layers of sunlight platforms are used as a unit, a first floor slab 21 is arranged above each unit, and the first floor slab 21 is circular and surrounds the sunlight building main body 10. The first floor 21 is provided with a plurality of rooms as a plurality of functional areas. Including exhibition room, meeting room, rest room, entertainment room and dining room etc. to enrich the function of this building, supply visitor's tourist or business personage to obtain good recreation experience or work experience. This first floor 21 is located between fourth sunshine platform 50 and third sunshine platform 40, and the length that first floor 21 extends sunshine building subject 10 is less than the length that fourth sunshine platform 50 extends sunshine building subject 10, guarantees that first floor 21 can not influence the daylighting effect of fourth sunshine platform 50 below first floor 21.

The working principle of the rotary sunlight platform of the fabricated building in the embodiment of the invention is as follows: three solar platforms are taken as a unit, namely a first solar platform 20, a second solar platform 30 and a third solar platform 40, wherein the first solar light platform 20 extends a first predetermined distance S1 outside the solar building body 10, the second solar light platform 30 extends a second predetermined distance S2 outside the solar building body 10, and the second preset distance S2 is greater than the first preset distance S1, the third solar platform 40 extends a third preset distance S3 out of the solar building body 10, and the third predetermined distance S3 is greater than the second predetermined distance S2, such that more sunlight is directed to the second solar platform 30, and more sunlight is directed to the third solar platform 40, thus reducing the impact of the first solar platform 20 located above the second solar platform 30 on the lighting of the second solar platform 30 and also reducing the impact of the second solar platform 30 located above the third solar platform 40 on the lighting of the third solar platform 40; a plurality of such building units are sequentially arranged in the vertical direction of the sunlight building main body 10, and the distance between the fourth sunlight platform 50 and the third sunlight platform 40 in the vertical direction is far greater than the distance between the second sunlight platform 30 and the third sunlight platform 40, so that more sunlight can be incident on the fourth sunlight platform 50, and the influence of the third sunlight platform 40 on the lighting of the fourth sunlight platform 50 is reduced; all be equipped with coupling mechanism between first sunshine platform 20 and second sunshine platform 30 and between second sunshine platform 30 and third sunshine platform 40, still be equipped with many stay cables of being connected with sunshine building subject 10 on the sunshine platform, strengthen the bearing capacity of sunshine platform for the security of this sunshine building obtains guaranteeing. Through predetermineeing the distance between each platform and the sunshine building main part for the daylighting influence of the sunshine platform that reduces to be located the below to the sunshine platform that is located the top makes the illuminated area and the sightseeing visual angle increase of building, lets experience such as living, official working, commercial affairs, exhibitions, education and training, civilization, medical treatment, health, building three-dimensional space planting breed, shoot and park better.

Example 3

As shown in fig. 5, the embodiment 3 of the present invention discloses a rotary solar light platform for a prefabricated building, which is improved on the basis of the embodiment 2. Specifically, a first sunlight platform 20 and a second sunlight platform 30 are arranged on a sunlight building main body 10, the first sunlight platform 20 and the second sunlight platform 30 are identical in shape and size, wherein four first sunlight platforms 20 are arranged on the same floor of the sunlight building main body 10, two adjacent first sunlight platforms 20 are vertically distributed, four second sunlight platforms 30 are also arranged on the same floor of the sunlight building main body 10, two adjacent second sunlight platforms 30 are also vertically distributed, the first sunlight platforms 20 are arranged at equal intervals along the vertical direction of the sunlight building main body 10, the second sunlight buildings are also arranged at equal intervals along the vertical direction of the sunlight building main body 10, meanwhile, the first sunlight platforms 20 and the second sunlight platforms 30 are not on the same horizontal plane, namely, the first sunlight platforms 20 and the second sunlight platforms 30 are arranged at intervals along the vertical direction, and an angle of forty-five degrees is formed between the adjacent first sunlight platforms 20 and the second sunlight platforms 30, the first sunlight platform 20 on one floor and the second sunlight platform 30 on the adjacent floor are arranged in a circle around the sunlight building main body 10 from a top view, that is, the first sunlight platform 20 is also arranged right above the first sunlight platform 20, but the distance between the first sunlight platform 20 and the first sunlight platform 20 located right above the first sunlight platform 20 is the distance between two layers of sunlight platforms, and similarly, the second sunlight platform 30 is also arranged right above the second sunlight platform 30, but the distance between the second sunlight platform 30 and the second sunlight platform 30 located right above the second sunlight platform 30 is also the distance between two layers of sunlight platforms, and the distance is increased, so that more sunlight can irradiate the sunlight platforms, and the first sunlight platform 20 and the second sunlight platform 30 are arranged in a forty-five degree included angle staggered arrangement, so that the second sunlight platform 30 does not affect the sunlight of the first sunlight platform 20, similarly, the first solar platform 20 does not affect the lighting of the second solar platform 30, and compared with embodiment 2, this embodiment also avoids extending the length of the solar platform and enhancing the structural stability and the bearing capacity while achieving a better effect of this lighting.

The rest of the structure and the operation principle of the embodiment are the same as those of the embodiment 2.

Example 4

As shown in fig. 6 and 7, the embodiment 4 of the present invention discloses a rotary solar light platform for a prefabricated building, which is improved on the basis of the embodiment 2. Specifically, a plurality of layers of fifth sunlight platforms 80 are arranged on the sunlight building main body 10 along the vertical direction, eight fifth sunlight platforms 80 are arranged on each layer of the sunlight building main body 10, the fifth sunlight platforms 80 are arranged in an upward inclined manner, the inclined angle between the fifth sunlight platforms 80 and the horizontal plane can be fifteen to thirty degrees, one section of sunlight platform 81 parallel to the horizontal plane is further arranged at one end of the fifth sunlight platform 80 away from the sunlight building main body 10, tourists can conveniently take pictures on the platform, a plurality of first flexible connecting mechanisms 71 are arranged on the fifth sunlight platforms 80 and the sunlight platform 81, the first flexible connecting mechanisms 71 can adopt stay cables, the other ends of the stay cables are fixedly connected with a hoistway to fix the fifth sunlight platforms 80 and the sunlight platform 81, wherein an integrally formed structure is arranged between the fifth sunlight platforms 80 and the sunlight platform 81, so that the structure is more stable, support through third coupling mechanism 63 between adjacent sunshine platform 81 and connect, increase bearing capacity, and the length of sunshine platform 81 is less than fifth sunshine platform 80's length far away, in order to reduce the influence of sunshine platform 81 to fifth sunshine platform 80 daylighting, the arrow in figure 6 represents sunshine, can see out, fifth sunshine platform 80 that the slope set up compares with parallel arrangement's sunshine platform, can receive more sunshine, daylighting is better, guarantee that visitors experience sunshine well.

The rest of the structure and the operation principle of the embodiment are the same as those of the embodiment 2.

Example 5

The embodiment 5 of the invention discloses a rotary sunlight platform of an assembly type building, which is improved on the basis of the embodiment 2. Specifically, a plurality of sixth sunlight platforms 82 are arranged on the sunlight building main body 10 in an encircling manner, and a plurality of layers of sixth sunlight platforms 82 are arranged in the vertical direction of the sunlight building main body 10, the sixth sunlight platforms 82 are fixedly connected with a hoistway inside the sunlight building main body 10, a plurality of sixth flexible connecting mechanisms 76 are arranged on two sides of the sixth sunlight platforms 82, the sixth flexible connecting mechanisms 76 adopt stay cables, one ends of the sixth flexible connecting mechanisms 76 far away from the sixth sunlight platforms 82 penetrate through the outer wall of the sunlight building main body 10 and are fixedly connected with the surface of the hoistway, so that the sixth sunlight platforms 82 are fixed and stable, the hoistway and the sixth sunlight platforms 82 both adopt transparent materials, so that sunlight can penetrate through the hoistway and the sixth sunlight platforms 82, the sunlight can be ensured that the sixth sunlight platforms 82 on the upper layer cannot influence the lighting of the sixth sunlight platforms 82 on the lower layer, and the playability of the sunlight platforms can be increased, on the part that is close to the well to sixth sunshine platform 82, daylighting is all relatively poor usually, but the well adopts the printing opacity material, just can make sunshine shine into from the well, guarantees that the daylighting of the adjacent well part of sixth sunshine platform 82 is good, and the well uses the printing opacity material, also makes the sight of well department improve, and wherein the printing opacity material can adopt printing opacity cloud slabstone or ya keli printing opacity cloud slabstone, characteristics such as its mechanical strength is high, environmental protection, ageing resistance and simple to operate.

The rest of the structure and the operation principle of the embodiment are the same as those of the embodiment 2.

Example 6

The embodiment 6 of the invention discloses a rotary sunlight platform of an assembly type building, which is improved on the basis of the embodiment 2. Be equipped with the multilayer floor on sunshine building subject 10's circumference direction specifically, all be equipped with a plurality of rotatable sunshine platforms on every layer of floor, the sunshine platform of adjacent layer is crisscross setting, and the sunshine platform rotates according to sunshine irradiation angle for the daylighting area of every layer of sunshine platform of increase. The sunlight platform includes: a first solar platform 20, a second solar platform 30, and a third solar platform 40. The elevator shaft 11 is provided on the sunlight building body 10, and a plurality of layers of circular ring-shaped floor slabs are provided around the elevator shaft 11, wherein the distance between the upper and lower floor slabs is equal. The floor includes first floor 21, second floor 32 and third floor 41, and first floor 21 is the bottom floor, and third floor 41 is the top floor, and second floor 32 is located between first floor 21 and the third floor 41, and second floor 32 is provided with the multilayer along the elevartor shaft 11 direction of height, shows for convenient in the figure, has only made one deck second floor 32. The first floor 21, the second floor 32 and the third floor 41 have the same structure, and each floor is provided with a plurality of rooms, including restaurants, entertainment rooms, meeting rooms, rest rooms and the like, so that the functions of living, working, business, exhibition, education and training, cultural and sports, medical treatment, health maintenance and the like can be realized.

Three first sunlight platforms 20 are provided in the circumferential direction of the first floor 21, three second sunlight platforms 30 are provided in the circumferential direction of the second floor 32 of each floor, and three third sunlight platforms 40 are provided in the circumferential direction of the third floor 41. Three adjacent first solar platforms 20 are spaced 60 deg. from each other, three second solar platforms 30 of each layer are spaced 60 deg. from each other, and three adjacent third solar platforms 40 are spaced 60 deg. from each other. The three first sunlight platforms 20 and the three second sunlight platforms 30 of the adjacent layer are arranged in a staggered mode at intervals, so that the adjacent second sunlight platforms 30 can not shield the first sunlight platforms 20 in the vertical direction; the second sunlight platforms 30 of adjacent layers are also arranged in a staggered manner at intervals, so that the second sunlight platforms 30 of adjacent layers positioned on the upper layer can not shade the lighting in the vertical direction of the second sunlight platforms 30 of adjacent layers positioned on the lower layer; the three third solar platforms 40 are not blocked by the upper platform because they are the topmost solar platform, and are fixed on the third floor 41, so as to enhance the stability and safety of the third solar platforms 40.

First cavity 22 has been seted up along its circumferential direction's inside at first floor 21, still be provided with base 37 in first cavity 22 towards the direction at elevartor shaft 11 center, it is provided with two strengthening ribs 38 to rotate on base 37, be the top and bottom setting, and strengthening rib 38 can use the vertical axis of elevartor shaft 11 to do circular motion around base 37 as the axle center, its strengthening rib 38 is used for the first sunshine platform 20 of joint support, supplementary first sunshine platform 20 rotates around elevartor shaft 11 simultaneously, also make the rotation more stable, guarantee personal safety. The second floor 32 is provided with a second cavity 31 along the inside of the circumferential direction, a base 37 is also arranged in the second cavity 31 in the direction towards the center of the elevator shaft 11, two reinforcing ribs 38 are arranged on the base 37 in a rotating manner, the two reinforcing ribs 38 are arranged vertically, and the reinforcing ribs 38 can move circularly around the base 37 by taking the vertical axis of the elevator shaft 11 as the axis. This strengthening rib 38 is used for connecting and supporting second sunshine platform 30, and supplementary second sunshine platform 30 rotates around elevartor shaft 11 simultaneously, also makes the rotation more stable, guarantees personal safety. Each of the bases 37 corresponds to two reinforcing ribs 38 arranged up and down, and each two reinforcing ribs 38 arranged up and down corresponds to one second solar platform 30. A rack rail 36 is further provided in the second cavity 31 along the circumferential direction thereof, and the rack rail 36 is annular at 360 °. The rack guide rail 36 is provided with a rack 33, the rack 33 can slide on the rack guide rail 36, the bottom of the rack 33 is connected with a second flexible connecting mechanism 72, one end of the second flexible connecting mechanism 72, which is far away from the rack 33, is connected with the first sunlight platform 20, and the rack 33 can be moved to drive the first sunlight platform 20 to move. The gear 35 is engaged with the inner side of the rack 33, the axis of the gear 35 is fixedly connected with the output end of the motor 34, and the motor 34 is fixed on the inner top wall of the second cavity 31. By starting the motor 34, the gear 35 is driven to rotate, and the rack 33 can be driven to slide in the rack 33 sliding rail in a meshing manner, so as to drive the first solar platform 20 to move. The rack guide 36 is located in the direction of the second cavity 31 toward the center of the hoistway 11, and the rack guide 36 is between the base 37 on the second solar platform 30 and the hoistway 11 to avoid interference between the rotational movement of the second solar platform 30 and the movement of the rack 33. Wherein the racks 33 and the second solar platforms 30 are arranged at staggered intervals, each layer is provided with three second solar platforms 30 and three racks 33, the motor 34 is fixedly arranged at the junction of one end of the rack 33 and one end of the second solar platforms 30, when the motor 34 drives the gear 35 to rotate, the gear 35 drives the rack 33 to slide on the rack guide rail 36, one end of the rack 33 starts to be far away from the gear 35, the other end starts to be close to the gear 35, when the rack 33 passes through 60 degrees, the rack 33 is switched from one end to the other end to be meshed with the gear 35, and then the motor 34 is controlled to rotate reversely, so that the rack 33 can be driven to return to the state of being meshed with the gear 35 from one end to the other end, i.e. the angle of sliding of each rack 33 along the rack guide 36 is 60 deg. maximum, the first solar platform 20 connected to the rack 33 will also move 60 deg. maximum in the circumferential direction of the first floor 21. Similarly, the second solar platform 30 of the adjacent layer is also driven by the motor 34, the gear 35, the rack 33 and the second flexible connecting mechanism 72 on the second solar platform 30 of the upper layer to slide in the corresponding second cavity 31.

A third cavity 42 is opened in the third floor 41 in the circumferential direction thereof, wherein one end of the third solar platform 40 is fixedly arranged in the third cavity 42. Also disposed within the third cavity 42 are rack guide rails 36 and a rack 33 that can slide on the rack guide rails 36, the rack guide rails 36 being located between the third sunlight platform 40 and the hoistway 11. The bottom of the rack guide rail 36 is connected with a plurality of third flexible connecting mechanisms 73, the other ends of the third flexible connecting mechanisms 73 are connected with the second sunlight platform 30, so that the second sunlight platform 30 is fixed, and meanwhile, the movement of the rack 33 can be transmitted to drive the second sunlight platform 30 to move. The inner side of the rack 33 is engaged with the gear 35, the axis of the gear 35 is fixedly connected with the output end of the motor 34, and the motor 34 is fixed on the inner top wall of the second cavity 31. The output end of the motor 34 drives the gear 35 to rotate, the gear 35 drives the rack 33 to slide along the rack guide rail 36, and the rack 33 drives the second solar platform 30 to move through the third flexible connecting mechanism 73. The gear 35 and the motor 34 are both fixedly arranged at one end of the rack 33, when the gear 35 rotates, the rack 33 is gradually switched from one end meshed with the gear 35 to the other end meshed with the gear 35, and the angle traveled by the rack 33 is 60 degrees in the whole process. The motor 34 is then reversed to control the rack 33 to slide back 60 ° along the rack guide 36 and return to the original position.

The positive and negative rotation of the motor 34 is controlled through an external master control center, the master control center comprises a plurality of control lines, each control line independently controls the positive and negative rotation of one motor 34, and the daylighting of each layer of sunlight platform can reach the daylighting to the maximum degree under the condition that the platform and the control lines are not interfered with each other. The basis for controlling the platform to rotate is that the sun rises from east to west every day, and the angle irradiated by the sun changes along with the change of time periods. The control center sets the rotation speed and the reverse time of the motor 34 according to the change of the sun irradiation angle, and the east-rising-west-falling time of the sun is basically consistent in the same season, so the control program only needs to be set once in each season, the workload is reduced, and the control method is simple and easy to implement. Because each platform is controlled independently through different control lines, the rotation of the platforms can be controlled according to the illumination angle of the sun changing along with time, the rotation of the platforms can be controlled according to the shielding influence between adjacent layers of platforms, and the independent control of each platform is more favorable for realizing the functions. Except that the angle is shone through calculating the sun and change over time and carry out the control platform rotation, can also adopt all to set up a plurality of light ray sensors on every layer of platform, a plurality of light ray sensors distribute around the platform for judge whether each position of platform has daylighting, then through the data on integrating each sensor, judge the required pivoted angle in the biggest daylighting face of this platform, control platform rotates. Because the sun shines the angle and is slowly changed, so the platform rotates also very slowly, guarantees that the people on the platform can't notice the rotation of platform to avoid influencing people's experience of playing.

Specifically, the second flexible connecting mechanism 72 and the third flexible connecting mechanism 73 are preferably cables, wherein the length of each cable is different according to the distance between the joint of the rack 33 and the joint of the sunlight platform, and each cable is ensured to be always in a stretching state, so that the stability of the platform is improved.

The working principle of the embodiment is as follows: firstly, set up the control scheme of each sunshine platform in advance on total control center, starter motor 34, motor 34 drives gear 35 and rotates, gear 35 and rack 33 mesh, gear 35 rigidity, rack 33 just slides on rack guide rail 36, drive the sunshine platform through coupling mechanism and slide in the cavity then, guarantee that sunshine platform can receive sunshine as much as possible, and guarantee on every platform that self daylighting is as much as possible, reduce the influence of upper strata sunshine platform to lower floor's sunshine platform daylighting. According to the change relation of the sunlight irradiation angle along with time, each sunlight platform is independently controlled to rotate around the building main body, the angular rotation is performed according to the relationship between the upper and lower adjacent stages and the relationship with the sunlight irradiation angle, because the sunlight irradiation angle is slowly changed, the rotation speed of the platform is so slow that the person on the platform cannot perceive the rotation speed, and the rotation speed of the platform cannot cause any uncomfortable influence on the play, work or rest of the person, and through the rotation of the platform, the daylighting of each layer of platform reaches the largest area as far as possible, the sightseeing visual angle is increased as far as possible, each layer is also provided with a large floor, and a plurality of rooms are arranged on the building plate, so that the experiences of living, office work, business affairs, exhibition, education and training, cultural and literature, medical treatment, health maintenance, planting and breeding in the three-dimensional space of the building, photographing, parking and the like are better.

The rest of the structure and the operation principle of the embodiment are the same as those of the embodiment 2.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A prefabricated building rotary solar platform, comprising: sunshine building subject, floor and a plurality of sunshine platform, be provided with the elevartor shaft in the sunshine building subject, the floor encircles the setting and is in on the elevartor shaft, just the floor is followed the direction of height of elevartor shaft is equipped with the multilayer, and is a plurality of the sunshine platform with the floor is connected, just the sunshine platform can follow according to sunshine angle of illumination the circumference direction of floor rotates, and the adjacent layer is crisscross the setting between the sunshine platform.

2. The modular building rotary solar platform of claim 1, wherein each solar platform has a plurality of light sensors disposed around it, the light sensors being configured to determine whether there is lighting on the solar platform.

3. The fabricated building rotary solar platform of claim 2, wherein the floor slab comprises: the elevator shaft comprises a first floor slab, a second floor slab and a third floor slab, wherein the third floor slab is positioned above the first floor slab, the second floor slab is positioned between the first floor slab and the third floor slab, and the second floor slab is provided with a plurality of layers along the height direction of the elevator shaft;

the sunlight platform includes: first sunshine platform, second sunshine platform and third sunshine platform, first sunshine platform is in be provided with threely in the week of first floor, second sunshine platform is in be provided with threely in the week of second floor, third sunshine platform is in be provided with threely in the week of third floor, first sunshine platform and adjacent layer be the crisscross setting in interval between the second sunshine platform, adjacent layer also be the crisscross setting in interval between the second sunshine platform.

4. A rotating solar platform of a fabricated building according to claim 3, wherein three adjacent first solar platforms are spaced 60 ° from each other, three adjacent second solar platforms are spaced 60 ° from each other, and three adjacent third solar platforms are spaced 60 ° from each other.

5. The rotating solar platform of prefabricated building according to claim 3, wherein said first floor has a first cavity formed therein, said first cavity having a base disposed therein in a direction toward said elevator shaft, said base being pivotally provided with a reinforcing rib for connecting and supporting said first solar platform.

6. The fabricated building rotary solar platform according to claim 5, wherein a second cavity is formed in the second floor, a rack rail is formed in the second cavity, a rack is arranged on the rack rail, and the rack slides on the rack rail;

the rack guide rail is disposed in a direction of the second cavity toward the elevator hoistway, and the rack guide rail is located between the base and the elevator hoistway.

7. The rotating solar platform of an assembly building according to claim 6, wherein a motor is disposed on the inner top wall of the second cavity, and an output end of the motor is connected to a gear, and the gear is engaged with the rack and is used for driving the rack to slide on the rack guide rail.

8. The fabricated building rotary solar platform of claim 7, wherein a second flexible connection mechanism is connected to a surface of the rack, and an end of the second flexible connection mechanism facing away from the rack is connected to the first solar platform.

9. The modular building rotary solar platform of claim 8, wherein the racks are spaced from the second solar platform in a staggered manner, and the motor is fixed at the junction of the racks and the second solar platform.

10. The modular building rotary solar platform of claim 7, further comprising: the motor control system comprises a master control center, wherein the master control center comprises a plurality of control lines, and each control line independently controls the positive and negative rotation of one motor.

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