CN113107231A

CN113107231A - Star sky room

Info

Publication number: CN113107231A
Application number: CN202110422614.9A
Authority: CN
Inventors: 黄彦竹; 刘凤良; 周展鸿
Original assignee: Celtic Construction Technology Guangdong Co ltd
Current assignee: Celtic construction technology (Guangdong) Co.,Ltd.; Outstanding technology (Shanghai) Co.,Ltd.
Priority date: 2021-04-19
Filing date: 2021-04-19
Publication date: 2021-07-13

Abstract

The invention discloses a starry sky house which comprises a wall body mechanism and a door plate mechanism, wherein the wall body mechanism is provided with a door opening structure, the door plate mechanism is assembled on the wall body mechanism and can be arranged on the door opening structure in an opening and closing mode, the wall body mechanism comprises a wall body framework, a plurality of transparent wall plates and wall body luminous bodies, the peripheries of the transparent wall plates are arranged in the wall body framework, the wall body luminous bodies are arranged in the wall body framework, and the light emitting ends of the wall body luminous bodies are aligned to the peripheral sides of the transparent wall plates. When the starry sky room is used, the light of the lamp tube can be prevented from directly irradiating eyes.

Description

Star sky room

Technical Field

The invention relates to the field of building structures, in particular to a starry sky house.

Background

Outdoor camping has become more and more interesting and popular in recent years, and many outdoor campers will choose to use the star lounge in order to get closer to nature. The starry sky room is made of transparent materials, so that visual experience without dead corners around can be provided, and the starry sky feeling is brought to people especially at night. The existing starry sky house is internally provided with the lamp tube to provide illumination for night use, but in the using process, the lamp tube can directly irradiate eyes of people, discomfort can be brought to users, and the lamp tube scatters light inwards, so that the excellent aesthetic feeling of the structure of the starry sky house during use is difficult to embody.

Therefore, there is a need for a starry sky house that prevents light from the lamp from directly striking the eyes to overcome the above-mentioned drawbacks.

Disclosure of Invention

The invention aims to provide a starry sky room capable of preventing light rays of a lamp tube from directly irradiating eyes.

In order to achieve the purpose, the starry sky room comprises a wall body mechanism and a door plate mechanism, wherein the wall body mechanism is provided with a door opening structure, the door plate mechanism is assembled on the wall body mechanism and can be arranged on the door opening structure in an opening and closing mode, the wall body mechanism comprises a wall body framework, a plurality of transparent wall plates and wall body luminous bodies, the peripheries of the transparent wall plates are arranged in the wall body framework, the wall body luminous bodies are arranged in the wall body framework, and the luminous ends of the wall body luminous bodies are aligned to the peripheral sides of the transparent wall plates.

Preferably, the door panel mechanism comprises a door panel frame, a transparent door panel and a door panel luminous body, the periphery of the transparent door panel is installed in the door panel frame, the door panel luminous body is installed in the door panel frame, and the light emitting end of the door panel luminous body is aligned to the periphery of the transparent door panel.

Preferably, the wall framework comprises a top frame section, a plurality of bottom frame sections and a plurality of supporting sections, the top frame sections are arranged in a circular structure, the top ends of the supporting sections are mounted on the top frame sections, each bottom frame section is mounted between the lower ends of the two supporting sections which are arranged at intervals, two adjacent supporting sections are mounted in parallel, and all the bottom frame sections surround the circular structure.

Preferably, at least one of the top frame section, the bottom frame section and the support section is provided with a first installation cavity for installing a wall illuminant and a first opening communicated with the first installation cavity, the wall illuminant is installed in the first installation cavity, the transparent wall plate is inserted in the first opening through a sealing rubber strip, the peripheral side of the transparent wall plate is close to the wall illuminant, and the first opening faces the tangential direction of the transparent wall plate.

Preferably, the door panel frame includes a top section, a bottom section and two door panel sections, the upper end and the lower end of one of the two door panel sections are respectively connected to the first end of the top section and the first end of the bottom section, the upper end and the lower end of the other of the two door panel sections are respectively connected to the second end of the top section and the second end of the bottom section, at least one of the top section, the bottom section and the door panel sections is provided with a second installation cavity for installing a door panel illuminant and a second opening communicated with the second installation cavity, the door panel illuminant is installed in the second installation cavity, the transparent door panel is inserted in the second opening by a sealing rubber strip, the periphery of the transparent door panel is close to the door panel illuminant, and the second opening faces the tangential direction of the transparent door panel.

Preferably, the starry sky room further comprises a door plate ground rail which is arranged below the door plate frame and is arranged in a circular ring shape, the bottom of the door plate frame is slidably mounted on the door plate ground rail, and the top of the door plate frame is circumferentially slidably mounted on the top frame profile.

Preferably, the starry sky room further comprises a sliding device, a sliding groove is formed in the top frame section bar and arranged along the circumferential direction of the top frame section bar, the sliding device comprises a mounting assembly and a pulley, the pulley is mounted at a first end of the mounting assembly, the pulley is slidably mounted in the sliding groove, a second end of the mounting assembly extends out of the top frame section bar, and the top of the door plate frame is mounted at a second end of the mounting assembly.

Preferably, the starry sky house further comprises a dome device installed on the wall framework, the top frame profile encloses a ventilation opening structure, the dome device is arranged right above the ventilation opening structure, and the dome device is arranged in an up-and-down lifting mode.

Preferably, the dome device comprises a transparent dome and at least one lifter, the lifter is mounted on the top frame section, the transparent dome is mounted at an output end of the lifter, the transparent dome at least has a covering position covering the top frame section and an opening position far away from the top frame section relative to the wall framework, the lifter selectively drives the transparent dome to move to the covering position or the opening position, and the transparent dome at the opening position is horizontally or obliquely arranged.

Preferably, the starry sky room further comprises a wall body ground rail which is arranged below the wall body framework in a circular ring shape, the door plate ground rail and the wall body ground rail are arranged in a concentric different-diameter mode, the bottom of the wall body framework is slidably mounted on the wall body ground rail, a locking device is mounted on the wall body framework, and the wall body framework can be locked to the wall body ground rail through the locking device.

Compared with the prior art, the starry sky house comprises a wall mechanism and a door plate mechanism. The wall mechanism is provided with a door opening structure, and the door plate mechanism is assembled on the wall mechanism and can be arranged on the door opening structure in an opening and closing manner. The wall body mechanism comprises a wall body framework, a plurality of transparent wall boards and wall body luminous bodies, wherein the peripheries of the transparent wall boards are arranged in the wall body framework, the wall body luminous bodies are arranged in the wall body framework, and the luminous ends of the wall body luminous bodies are aligned to the peripheral sides of the transparent wall boards. Therefore, the wall luminous body is arranged in the wall framework, and when the wall luminous body is opened, light rays emitted by the wall luminous body cannot directly irradiate to the inner space of the wall mechanism, so that direct light irradiation to eyes is avoided. And the light emitted by the wall luminous body irradiates the periphery of the transparent wallboard, and the light is refracted out through the transparent wallboard, so that a beautiful atmosphere can be created, just as a starry sky room is shiny, and the starry sky is matched with vast starry sky, so that a beautiful use experience is generated.

Drawings

Fig. 1 is a schematic perspective view of the spacehouse of the invention.

Fig. 2 is a perspective view of the star room after the transparent dome is exploded.

Fig. 3 is an enlarged schematic view of the structure at B in fig. 2.

Fig. 4 is a sectional view of the three-dimensional structure taken along the line a-a in fig. 1 after the sliding device is hidden.

Fig. 5 is an enlarged schematic view of the structure at C in fig. 4.

Fig. 6 is an enlarged schematic view of the structure at D in fig. 4.

Fig. 7 is an enlarged schematic view of the structure at E in fig. 4.

Fig. 8 is an enlarged schematic view of the structure at F in fig. 4.

Fig. 9 is a schematic plan view of the wall mechanism in engagement with the wall ground rail.

Fig. 10 is a schematic perspective view of the door panel mechanism of the present invention.

Fig. 11 is a schematic view of a partial three-dimensional structure of the door panel mechanism matching with the wall mechanism when the door panel mechanism is closed.

Fig. 12 is a partial perspective view of a wall structure.

Fig. 13 is a schematic plan view of the wall mechanism, door panel mechanism and dome assembly of the present invention.

Fig. 14 is a schematic plan view of the wall mechanism, door panel mechanism and dome unit in accordance with another embodiment of the present invention.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

As shown in fig. 1, 2, 4, 6, 7, 9, 12 and 13, the starry sky room 100 of the present invention includes a wall mechanism 10 and a door mechanism 20. The wall mechanism 10 has a door opening structure 11, and the door panel mechanism 20 is assembled on the wall mechanism 10 and openably and closably disposed on the door opening structure 11. The structure of the spacehouse 100 is beautiful and elegant, when the door panel mechanism 20 is opened, the door panel mechanism 20 enters the inner space of the wall mechanism 10 through the door opening structure 11, and after the door panel mechanism 20 is closed, a relatively safe and private use space can be built.

Specifically, the wall mechanism 10 includes a wall framework 12, a plurality of transparent wall panels 13 and wall illuminants 14, the periphery of the transparent wall panels 13 is installed in the wall framework 12, the wall illuminants 14 are installed in the wall framework 12, and the light emitting ends of the wall illuminants 14 are aligned with the peripheral sides of the transparent wall panels 13. Thus, since the wall body luminous bodies 14 are installed in the wall body framework 12, when the wall body luminous bodies 14 are turned on, the light emitted by the wall body luminous bodies 14 cannot directly irradiate into the internal space of the wall body mechanism 10, and the light is prevented from directly irradiating the eyes. And the light emitted by the wall luminous body 14 shines to the periphery of the transparent wall plate 13, and the light is refracted out through the transparent wall plate 13 to create a beautiful atmosphere, just as the starry sky room 100 itself shines, and generates a beautiful use experience in concert with the vast starry sky.

Preferably, the transparent wall 13 is not installed at a region of the wall framework 12, which forms the door opening structure 11, but is not limited thereto. In the embodiment, the wall mechanism 10 and the door mechanism 20 form a hemispherical starry sky room 100, but the wall mechanism 10 and the door mechanism 20 may also form other starry sky rooms 100, such as an ellipsoid and a sphere, according to actual needs, and thus the invention is not limited thereto.

As shown in fig. 1, 4, 5, 8, 10, and 11, the door panel mechanism 20 includes a door panel frame 21, a transparent door panel 22, and a door panel light 23. The periphery of the transparent door panel 22 is installed in the door panel frame 21, the door panel luminous body 23 is installed in the door panel frame 21, and the light emitting end of the door panel luminous body 23 is aligned with the periphery of the transparent door panel 22. When the wall body luminous body 14 and the door panel luminous body 23 are opened together, the wall body mechanism 10 and the door panel mechanism 20 emit light together, so that the whole space house 100 is brighter, more dazzling and more harmonious. When door plant luminous element 23 opened, the light that door plant luminous element 23 sent also can not directly shoot in the inner space of wall body mechanism 10, avoids light to penetrate eyes directly, and the light that door plant luminous element 23 sent shines to transparent door plant 22's week side, and light refracts out through transparent door plant 22 and can build graceful atmosphere.

For example, the wall light 14 and the door light 23 are light bar structures, so as to radiate light to the transparent wall panel 13 and the transparent door panel 22 to a greater extent. Preferably, the transparent wall panel 13 and the transparent door panel 22 are transparent PC boards, but are not limited thereto.

As shown in fig. 1, 2 and 12, the wall framework 12 includes a top frame section 121, a plurality of bottom frame sections 122 and a plurality of support sections 123. The top frame section bars 121 are arranged in a circular ring structure, the top ends of the support section bars 123 are mounted on the top frame section bars 121, each bottom frame section bar 122 is mounted between the lower ends of the two support section bars 123 which are oppositely arranged at intervals, the two adjacent support section bars 123 are mounted in parallel, and all the bottom frame section bars 122 together enclose a circular ring structure. The wall framework 12 is simple and stable in structure and easy to disassemble and assemble. Preferably, the support section 123 is disposed to be bent toward the inner space of the wall framework 12, but is not limited thereto.

As shown in fig. 4, 6, 7, 8, 9, 11 and 12, at least one of the top frame profile 121, the bottom frame profile 122 and the support profile 123 has a first installation cavity 124 for installing the wall illuminant 14 and a first opening 125 communicated with the first installation cavity 124, the wall illuminant 14 is installed in the first installation cavity 124, the transparent wall panel 13 is inserted into the first opening 125 by a sealing rubber strip 30, the peripheral side of the transparent wall panel 13 is close to the wall illuminant 14, and the first opening 125 faces the tangential direction of the transparent wall panel 13. The wall body luminous body 14 is stably installed in the section bar, and light rays emitted by the wall body luminous body 14 cannot penetrate out and only can be emitted to the outside through the transparent wall plate 13. Because the peripheral side of the transparent wall plate 13 is close to the wall illuminant 14, the light emitted by the wall illuminant 14 can be more directly and effectively transmitted to the transparent wall plate 13. Since the first opening 125 is directed toward the tangential direction of the transparent wall panel 13, the light conducted to the transparent wall panel 13 can be more efficiently directed to the middle of the transparent wall panel 13.

In this embodiment, the wall illuminant 14 is installed in the top frame profile 121, the bottom frame profile 122 and the supporting profile 123, and after the wall illuminant 14 is turned on, the transparent wall plate 13 is full of light, so that the transparent wall plate 13 is bright and dazzling.

As shown in fig. 4, 6, 7, 8, 9, 11 and 12, the first installation cavity 124 and the first opening 125 are extended along the length direction of the top frame profile 121, the bottom frame profile 122 and the support profile 123, so as to better place the wall luminary 14 and better provide for the installation of the transparent wall panel 13. After the transparent wall panel 13 is inserted into the first opening 125 by means of a sealing rubber strip 30, good sealing between the transparent wall panel 13 and the top frame section 121, the bottom frame section 122 and the supporting section 123 is achieved, and the transparent wall panel can prevent water, wind and sand, soil, mosquitoes and other insects from entering the transparent wall panel. The first installation space 124 on the top frame profile 121 is open and provides for the installation of electrical supply lines in addition to the wall lights 14. The wall lights 14 in the support profile 123 are connected in parallel by wires.

As shown in fig. 4, 5, 8, 10, 11 and 13, the door frame 21 includes a top section 211, a bottom section 212 and two door profiles 213, wherein an upper end and a lower end of one of the two door profiles 213 are respectively connected to the first end of the top section 211 and the first end of the bottom section 212, an upper end and a lower end of the other of the two door profiles 213 are respectively connected to the second end of the top section 211 and the second end of the bottom section 212, at least one of the top section 211, the bottom section 212 and the door profile 213 is provided with a second mounting cavity 24 for mounting the door illuminator 23 and a second opening 25 communicated with the second mounting cavity 24, the door illuminator 23 is mounted in the second mounting cavity 24, the transparent door panel 22 is inserted into the second opening 25 by a sealing rubber strip 30, the peripheral side of the transparent door panel 22 is close to the door panel luminous body 23, and the second opening 25 faces the tangential direction of the transparent door panel 22. The door panel frame 21 is simple and stable in structure. The door panel luminous body 23 can be stably installed in the sectional material, and light emitted by the door panel luminous body 23 cannot penetrate out and can only be emitted to the outside through the transparent door panel 22. Because the peripheral side of the transparent door panel 22 is close to the door panel luminous body 23, the light emitted by the door panel luminous body 23 can be more directly and effectively transmitted to the transparent door panel 22, so that the transparent door panel 22 appears to emit light. Since the second opening 25 is directed toward the tangential direction of the transparent door panel 22, the light conducted to the transparent door panel 22 can be more efficiently directed to the center of the transparent door panel 22. When the door panel luminous bodies 23 and the wall body luminous bodies 14 are both opened, the whole starry sky room 100 emits light, and the beautiful and transparent starry sky room 100 is presented.

In this embodiment, the door panel lights 23 are installed in the top section 211, the bottom section 212 and the door panel section 213, and after the door panel lights 23 are opened, the transparent door panel 22 is full of light, so that the transparent door panel 22 is bright and dazzling. Preferably, the supporting section bar 123 and the door panel section bar 213 are the same structural section bar, the top section bar 211, the bottom section bar 212 and the bottom frame section bar 122 are the same structural section bar, and the transparent wall panel 13 and the transparent door panel 22 are door panels made of the same material, so that the universality of the structure is increased, and the purchase and the replacement are convenient.

As shown in fig. 11, in order to prevent the gap between the door panel profile 213 and the supporting profile 123 from being directly exposed when the door panel mechanism 20 is closed, in this embodiment, the door panel profile 213 is further installed with a brush 28, and the brush 28 is attached to the supporting profile 123 when the door is closed, so as to cover the gap and shield light, and facilitate sound insulation.

As shown in fig. 1, fig. 2, fig. 4, fig. 5, fig. 6 and fig. 9, the starry sky room 100 of the present invention further includes a door plate ground rail 40 disposed below the door plate frame 21 and arranged in a circular ring shape, the bottom of the door plate frame 21 is slidably mounted on the door plate ground rail 40, and the top of the door plate frame 21 is circumferentially slidably mounted on the top frame profile 121. The door panel mechanism 20 is stably installed, the door panel mechanism 20 can slide along the top frame profile 121, and the door panel mechanism 20 can conveniently move in a horizontal direction to open and close along the door panel ground rail 40.

As shown in fig. 2, 3, 5 and 10, it is preferable that the bottom section bar 212 is installed with a roller 70 therein, and the roller 70 of the bottom section bar 212 is slidably installed on the door panel ground rail 40 to facilitate the sliding movement of the door panel mechanism 20. In order to facilitate the opening and closing of the door panel mechanism 20, a handle 26 is mounted on the door panel section bar 213. The door plate mechanism 20 is provided with the door lock device 27, the door lock device 27 can be of an existing structure, the door plate mechanism 20 can be locked on the wall body mechanism 10 through the door lock device 27, and therefore the anti-theft effect of the spaceflight room 100 is achieved, and the use safety is improved.

As shown in fig. 2, 4, 8 and 13, in order to facilitate the relative sliding between the door panel mechanism 20 and the top frame section 121, the sky room 100 of the present invention further includes a sliding device 50, a sliding slot 1211 is disposed in the top frame section 121 along a circumferential direction thereof, the sliding device 50 includes a mounting component 51 and a pulley 52, the pulley 52 is mounted at a first end of the mounting component 51, the pulley 52 is slidably mounted in the sliding slot 1211, a second end of the mounting component 51 extends out of the top frame section 121, and a top of the door panel frame 21 is mounted at a second end of the mounting component 51. For example, the mounting member 51 is a hardware structure, but is not limited thereto.

As shown in fig. 1, 2, 4 and 13, the starry sky house 100 of the present invention further includes a dome assembly 60 mounted on the wall framework 12. The top frame section 121 encloses a ventilation opening structure (not shown), the dome device 60 is arranged right above the ventilation opening structure, and the dome device 60 is arranged in an up-and-down lifting mode. Therefore, after the dome device 60 rises, natural wind of the external environment enters the starry sky room 100 through the ventilation opening structure, ventilation of the starry sky room 100 is achieved, when the dome device 60 falls and covers the wall body mechanism 10 and the door plate mechanism 20, the interior of the starry sky room 100 is isolated from the external environment, invasion of rain, snow and wind and sand is avoided, meanwhile, convection can be reduced when the dome device is used in winter, and temperature reduction in the starry sky room 100 is avoided. Preferably, the sealing rubber strip 30 is installed on the top of the top frame section 121, and is pressed on the sealing rubber strip 30 when the dome device 60 descends and covers, so that a better sealing effect is realized.

As shown in fig. 1, 2 and 4, the dome device 60 includes a transparent dome 61 and at least one lifter 62, the lifter 62 is mounted on the top frame section 121, the transparent dome 61 is mounted at an output end of the lifter 62, the transparent dome 61 has at least one covering position covering the top frame section 121 and an opening position far away from the top frame section 121 relative to the wall framework 12, the lifter 62 selectively drives the transparent dome 61 to move to the covering position or the opening position, and the transparent dome 61 in the opening position is arranged horizontally or obliquely. The opening or closing of the transparent dome 61 can be conveniently controlled by controlling the jack 62 to drive the transparent dome 61 to ascend or descend. Moreover, the sky is conveniently looked up through the transparent dome 61, and the sight is not blocked. Preferably, 3 lifters 62 are installed on the top frame profile 121 of the present embodiment, but not limited thereto, by respectively controlling each lifter 62, the lifting distance of each lifter 62 is different, so that the transparent dome 61 can be oriented to different directions while the transparent dome 61 is inclined, thereby facilitating convection of the intake air. For example, the transparent dome 61 is arranged in an arc shape, but is not limited thereto, so as to facilitate rapid drainage. The jack 62 is a drive such as an air cylinder, an oil cylinder or a linear motor, but not limited thereto.

As shown in fig. 1, fig. 2, fig. 4, fig. 5, fig. 6 and fig. 9, the starry sky house 100 of the present invention further includes a wall body ground rail 80 disposed below the wall body frame 12 and arranged in a circular shape, the door plate ground rail 40 and the wall body ground rail 80 are arranged concentrically and in different diameters, the bottom of the wall body frame 12 is slidably mounted on the wall body ground rail 80, the wall body frame 12 is mounted with a locking device 90, and the wall body frame 12 can be locked to the wall body ground rail 80 by the locking device 90. The wall body mechanism 10 slides on the wall body ground rail 80, so that the wall body mechanism 10 can rotate 360 degrees relative to the ground without obstacles, the direction of the door opening can be adjusted randomly according to requirements, engineering disassembly and assembly are not needed, and the flexibility and convenience of use are improved. The arrangement of the wall body ground rail 80 and the installation of the wall body framework 12 on the wall body ground rail 80 make the starry sky house 100 have better wind resistance. After the locking device 90 is used to lock the wall body mechanism 10 on the wall body ground rail 80, the wall body mechanism 10 can be prevented from falling off from the wall body ground rail 80, and the wind resistance of the whole starry sky room 100 can be increased when strong wind blows to the starry sky room 100, so that the starry sky room 100 is not lifted.

Preferably, in the present embodiment, the door panel ground rail 40 is disposed outside the wall ground rail 80, that is, the radius of the door panel ground rail 40 is greater than the radius of the wall ground rail 80, and at this time, the door panel mechanism 20 is located outside the wall mechanism 10, so as to facilitate the opening and closing operation of the door panel mechanism 20. Of course, the radius of the door panel ground rail 40 can be set smaller than the radius of the wall body ground rail 80 according to actual requirements, and the door panel mechanism 20 is located at the inner side of the wall body mechanism 10. The door panel ground rail 40 and the wall body ground rail 80 are of an integral structure and can be fixed on the bottom surface by using a structure such as a screw, a screw rod or a shaft pin when in use. For example, the locking device 90 is a buckle structure, and the locking device 90 may be a conventional buckle structure, which is well known to those skilled in the art and thus will not be described herein.

It should be noted that the wall framework 12 and the door panel frame 21 are made of aluminum profiles to ensure the structural strength thereof. The transparent wall panel 13 and the transparent door panel 22 are made of PC board, but not limited thereto. The star-shaped hollow house 100 can be provided with different numbers of door panel mechanisms 20 according to actual needs, so as to be convenient for people to use.

As shown in fig. 14, in order to facilitate the structural arrangement of the wall body mechanism 10, the first installation cavity 124 may also be eliminated from the top frame profile 121, and the wall body luminous bodies 14 are installed inside the top end of the transparent wall panel 13, at this time, the wall body luminous bodies 14 emit light from top to bottom, and the light is not directly emitted to the eyes of people, so that the use discomfort can be avoided to a certain extent.

The above disclosure is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, so that the appended claims are intended to cover all such modifications and changes as fall within the true spirit of the invention.

Claims

1. A starry sky house, characterized by: including wall body mechanism and door plant mechanism, wall body mechanism has a door opening structure, door plant mechanism assemble in wall body mechanism just can open and shut and establish the door opening is structural, wall body mechanism includes wall body skeleton, a plurality of transparent wallboard and wall body luminous body, install around transparent wallboard in the wall body skeleton, wall body luminous body install in the wall body skeleton, the luminous end of wall body luminous body is aimed at the week side of transparent wallboard.

2. The starry sky room of claim 1, wherein the door panel mechanism comprises a door panel frame, a transparent door panel and a door panel illuminator, the transparent door panel is mounted in the door panel frame at the periphery, the door panel illuminator is mounted in the door panel frame, and the light emitting end of the door panel illuminator is aligned with the periphery of the transparent door panel.

3. The starry sky room as claimed in claim 2, wherein the wall skeleton comprises a top frame section, a plurality of bottom frame sections and a plurality of supporting sections, the top frame section is arranged in a circular ring structure, the top ends of the supporting sections are mounted on the top frame section, each bottom frame section is mounted between the lower ends of two supporting sections which are oppositely arranged at intervals, two adjacent supporting sections are mounted in parallel, and all the bottom frame sections together enclose a circular ring structure.

4. The star-hollow house according to claim 3, wherein at least one of the top frame section, the bottom frame section and the support section is provided with a first installation cavity for installing a wall body illuminant and a first opening communicated with the first installation cavity, the wall body illuminant is installed in the first installation cavity, the transparent wall plate is inserted into the first opening by a sealing rubber strip, the peripheral side of the transparent wall plate is close to the wall body illuminant, and the first opening faces the tangential direction of the transparent wall plate.

5. The starry sky room of claim 2, wherein the door panel frame comprises a top profile, a bottom profile, and two door panel profiles, wherein an upper end and a lower end of one of the two door panel profiles are connected to a first end of the top profile and a first end of the bottom profile, respectively, and an upper end and a lower end of the other of the two door panel profiles are connected to a second end of the top profile and a second end of the bottom profile, respectively, at least one of the top section bar, the bottom section bar and the door panel section bar is provided with a second mounting cavity for mounting the door panel luminous body and a second opening communicated with the second mounting cavity, the door panel luminous body is arranged in the second installation cavity, the transparent door panel is inserted in the second opening by a sealing rubber strip, the periphery of the transparent door panel is close to the door panel luminous body, and the second opening faces the tangential direction of the transparent door panel.

6. The spacehouse according to claim 3, further comprising a door panel ground rail arranged in a circular ring shape below the door panel frame, wherein the bottom of the door panel frame is slidably mounted on the door panel ground rail, and the top of the door panel frame is circumferentially slidably mounted on the top frame profile.

7. The sky room as claimed in claim 6, further comprising a sliding device, wherein the top frame section bar is provided with a sliding groove arranged along a circumferential direction thereof, the sliding device comprises a mounting assembly and a pulley, the pulley is mounted at a first end of the mounting assembly, the pulley is slidably mounted in the sliding groove, a second end of the mounting assembly extends out of the top frame section bar, and a top of the door panel frame is mounted at a second end of the mounting assembly.

8. The spacehouse according to claim 3 further comprising a dome device mounted on the wall framework, wherein the top frame profile encloses a vent structure, the dome device is disposed directly above the vent structure, and the dome device is in an up-and-down lifting arrangement.

9. The spacehouse of claim 8 wherein the dome assembly includes a transparent dome and at least one jack, the jack is mounted on the top frame section, the transparent dome is mounted at an output end of the jack, the transparent dome has at least one covering position covering the top frame section and an open position away from the top frame section relative to the wall frame, the jack selectively drives the transparent dome to move to the covering position or the open position, and the transparent dome in the open position is arranged horizontally or obliquely.

10. The starry sky room of claim 6, further comprising a wall body ground rail arranged in a circular ring shape and below the wall body frame, wherein the door plate ground rail and the wall body ground rail are arranged in a concentric different diameter manner, the bottom of the wall body frame is slidably mounted on the wall body ground rail, the wall body frame is provided with a locking device, and the wall body frame can be locked to the wall body ground rail through the locking device.