CN112627438B - Organic glass curtain system and construction method thereof - Google Patents

Abstract

The invention discloses an organic glass curtain system and a construction method thereof, wherein the system comprises: the supporting frames are provided with a plurality of supporting rods; and the panel structure comprises a plurality of regular plates and a connecting plate connected between the regular plates, each regular plate comprises a plurality of node blocks, supporting rib plates and a panel, the supporting rods are supported on the node blocks, the supporting rib plates are connected between two adjacent node blocks, the node blocks and the supporting rib plates are arranged in a plurality of surrounding modes to form a plurality of vertical cavities, the panels are shielded at the upper ports of the vertical cavities and are bonded on the adjacent panels, the connecting plate is connected to the adjacent panels of the regular plates, expansion joints are formed in the panels, expansion joint structures are installed in the expansion joints, and the node blocks, the supporting rib plates and the panels are respectively organic glass. The invention solves the problem that the organic glass is not applied to a large-area glass curtain in the existing building structure.

Description

Organic glass curtain system and construction method thereof

Technical Field

The invention relates to the technical field of building construction, in particular to an organic glass curtain system and a construction method thereof.

Background

With the diversification and heterotyping of building structures, new challenges are brought to the innovation and development of construction technologies. Organic glass (acrylic) is a novel material, the weight of the organic glass is only half of that of glass, and the organic glass has strong light transmittance, strength and weather resistance, is a high-quality material for replacing a glass curtain, but the organic glass cannot be successfully applied to a large-area glass curtain due to the lack of related technologies.

Disclosure of Invention

In order to overcome the defects in the prior art, an organic glass curtain system and a construction method thereof are provided so as to solve the problem that organic glass is not applied to a large-area glass curtain in the existing building structure.

To achieve the above object, there is provided an organic glass curtain system, comprising:

the supporting frames are provided with a plurality of supporting rods; and

panel structure, including a plurality of regular plates and connect in a plurality of connecting plate between the regular plate, the regular plate includes a plurality of node pieces, supporting rib plate and panel, the bracing piece support in the node piece, supporting rib plate connects in adjacent two between the node piece, it is a plurality of node piece and a plurality of supporting rib plate enclose to close and form a plurality of vertical cavities, the panel shield in the up end of vertical cavity and bond in adjacent panel, the connecting plate connects in adjacent the panel of regular plate, be formed with the expansion joint in the panel, install the expansion joint structure in the expansion joint, the node piece the supporting rib plate and the panel is organic glass respectively.

Further, the regular plate is circular.

Furthermore, the panel comprises two unit plates, the expansion joint is formed between the two unit plates, and the outer edges of the unit plates are lapped on the supporting rib plates and connected with the adjacent unit plates of the panel.

Furthermore, a splicing seam is formed between two adjacent unit plates, and bonding slurry is poured into the splicing seam.

Further, the expansion joint structure includes:

the elastic plate is accommodated in the two expansion joints, and a gap is formed between the elastic plate and the unit plate;

the elastic strip is embedded at the lower part of the gap; and

and the plugging glue for plugging the gap is filled at the upper part of the gap.

Furthermore, inserting strips are formed on two opposite sides of the elastic strip, socket grooves are formed in the unit plates and the elastic plates respectively, and the inserting strips on the two sides of the elastic strip are inserted into the socket grooves.

Further, the elastic plate includes:

the organic glass strips are arranged at intervals along the width direction of the expansion joint; and

and the elastic strip arranged in the same direction as the organic glass strip is connected between the two adjacent organic glass strips.

Furthermore, the bottom of the unit plate is connected with a bearing plate, and the bearing plate extends to the lower part of the expansion joint and is supported at the bottom of the elastic plate.

Further, the support shelf includes:

the top of the upright post extends upwards in an inclined mode to form a plurality of arc-shaped spokes; and

the supporting rods are vertically arranged on the arc-shaped spokes, and the tops of the supporting rods are flush.

The invention provides a construction method of an organic glass curtain system, which comprises the following steps:

building a plurality of support frames;

erecting a temperature control shed outside the plurality of support frames, so that the temperature control shed covers the plurality of support frames;

a plurality of node blocks are respectively arranged on a plurality of support rods of the support frame in the temperature control shed;

connecting a supporting rib plate between two adjacent node blocks, so that a plurality of node blocks and a plurality of supporting rib plates are enclosed to form a plurality of vertical cavities;

installing a panel on the upper port of the vertical cavity, so that the panel is covered on the upper port of the vertical cavity and is bonded to an adjacent panel, and a regular plate is formed on the supporting frame;

and connecting the connecting plates between the adjacent regular plates of the plurality of support frames to form an organic glass curtain system.

The organic glass curtain system has the beneficial effects that the node blocks and the supporting rib plates of the organic glass are polymerized respectively, the supporting rib plates and the panel are polymerized respectively, the expansion joint structure is arranged in the panel, and the polymerized node blocks and the polymerized supporting rib plates are supported under stress by the supporting frame, so that the temperature control installation is convenient, the installation precision is high, the difficulty of high polymerization difficulty of the organic glass curtain is solved, the large-area organic glass curtain is applied to a building structure, the diversification and the heterotypic of the building structure are realized, the innovation and the development of the construction technology are provided, and meanwhile, the high light transmittance of the transparent colorless organic glass is combined with the building structure.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a schematic structural diagram of a plexiglass curtain system according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a single regular plate according to an embodiment of the present invention.

Fig. 3 is a side view of a single regular plate of an embodiment of the present invention.

Fig. 4 is a top view of a single regular plate of an embodiment of the present invention.

FIG. 5 is a schematic view of a support shelf according to an embodiment of the present invention.

FIG. 6 is a schematic view of a support rib of an embodiment of the present invention mounted to a support frame.

Fig. 7 is a schematic structural diagram of a connection node between a node block and a support rib plate according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of a connection node of the node block, the support rib, and the unit plate according to the embodiment of the present invention.

Fig. 9 is a partial structure diagram of the outer edge of the regular plate according to the embodiment of the present invention.

Fig. 10 is a partial cross-sectional view of the outer edge of a regular plate according to an embodiment of the present invention.

Fig. 11 is a cross-sectional view of the panel of the embodiment of the present invention at an expansion joint.

Fig. 12 is a schematic structural view of an expansion joint structure of a panel according to an embodiment of the present invention.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Fig. 1 is a schematic structural view of a organic glass curtain system according to an embodiment of the present invention, fig. 2 is a schematic structural view of a single regular plate according to an embodiment of the present invention, fig. 3 is a side view of a single regular plate according to an embodiment of the present invention, fig. 4 is a top view of a single regular plate according to an embodiment of the present invention, fig. 5 is a schematic structural view of a support frame according to an embodiment of the present invention, fig. 6 is a schematic structural view of a support rib plate according to an embodiment of the present invention mounted on a support frame, fig. 7 is a schematic structural view of a connection node of a node block and a support rib plate according to an embodiment of the present invention, fig. 8 is a schematic structural view of a node block, a support rib plate, and a connection node of a unit plate according to an embodiment of the present invention, fig. 9 is a schematic partial structural view of an outer edge of a regular plate according to an embodiment of the present invention, fig. 10 is a partial sectional view of an outer edge of a regular plate according to an embodiment of the present invention, and fig. 11 is a sectional view of an expansion joint of a panel according to an embodiment of the present invention, Fig. 12 is a schematic structural view of an expansion joint structure of a panel according to an embodiment of the present invention.

Referring to fig. 1 to 12, the present invention provides a plexiglass curtain system including: a plurality of support frames 1 and a panel structure 2.

Wherein, a plurality of support rods 14 are arranged on the support frame 1.

The panel structure 2 comprises a plurality of regular slabs 21 and connecting plates 22.

Specifically, the connection plate 22 is connected between the plurality of regular slabs 21. The support rods of the support frame are supported at the bottom of a regular plate 21.

Regular plate 21 includes a plurality of node blocks 211, support ribs 212, and a face plate 213. A support rod 14 is correspondingly supported at a node block 211. The support rib 212 is connected between two adjacent node blocks 211. The plurality of node blocks 211 and the plurality of support ribs 212 enclose a plurality of vertical cavities. The panel 213 covers the upper port of the vertical cavity, and the panel 213 is adhered to the adjacent panel 213. The outer edges of the panels are lapped on the supporting rib plates, a splicing seam B is formed between every two adjacent panels, and the splicing seam B is located right above the supporting rib plates. The connection plate 22 is connected between the panels 213 of the adjacent regular slabs 21.

Wherein, an expansion joint A is formed in the panel 213. An expansion joint structure 2132 is arranged in the expansion joint A.

In the present embodiment, the node block 211, the support rib 212, and the panel 213 are made of organic glass. Polymethyl methacrylate (PMMA) is a popular name. The chemical name of organic glass is polymethyl methacrylate, which is a high molecular compound polymerized from methyl methacrylate. The organic glass is divided into colorless transparent, colored transparent, pearly-lustre and embossed organic glass. Organic glass is commonly known as acrylic.

In the present embodiment, the node blocks 211, the support ribs 212, and the panel 213 are made of transparent and colorless organic glass.

The organic glass curtain system utilizes the respective polymerization of the node blocks and the supporting rib plates of the organic glass and the respective polymerization of the supporting rib plates and the panel, the expansion joint structure is arranged in the panel, and the polymerized node blocks and the polymerized supporting rib plates are supported under stress by the supporting frame, so that the temperature control installation is convenient, the installation precision is high, the difficulty of high polymerization difficulty of the organic glass curtain is solved, the large-area organic glass curtain is applied to a building structure, the diversification and the heterotypization of the building structure are realized, the innovation and the development of the construction technology are provided, and simultaneously the high light transmittance of the transparent colorless organic glass is combined with the building structure.

In this embodiment, the support frame is umbrella-shaped. Specifically, the support frame 1 comprises: a column 11, a plurality of arc-shaped spokes 12 and a connecting ring 13.

Wherein, the top of the upright post 11 extends obliquely upwards to form a plurality of arc spokes 12. The ends of the plurality of arc-shaped spokes 12 away from the upright post 11 are connected to a connecting ring 13. A plurality of support rods 14 are vertically arranged on the arc-shaped spokes 12. The tops of the plurality of support rods 14 are flush.

In a preferred embodiment, regular plate 21 is circular. Specifically, each panel 213 of the rule plate 21 includes two unit plates 2131. An expansion joint a is formed between the two unit plates 2131. The outer edge of the unit plate 2131 overlaps the support rib 212, and the outer edge of the unit plate 2131 is connected to the outer edge of the unit plate 2131 of the adjacent panel 213.

In this embodiment, a splicing seam B is formed between the outer edges of two adjacent unit plates 2131, and the splicing seam B is filled with a bonding slurry. The bonding slurry is organic glass slurry for preparing the panel. After the bonding slurry is poured into the splicing seams, the bonding slurry is solidified to connect two adjacent unit plates to form an integral molding effect.

Expansion joint structure 2132 in expansion joint a includes: elastic plate a, elastic strip b and shutoff glue c.

The elastic plate a is accommodated in the two expansion joints A. A gap is formed between the elastic plate a and the unit plate 2131. The elastic strip b is embedded at the lower part of the gap. And the plugging glue c is filled at the upper part of the gap.

The plugging rubber c is used for plugging the upper part of the gap. In this embodiment, the plugging glue is a silica gel caulking glue. The elastic strip b is a silica gel strip.

In a preferred embodiment, the opposite sides of the elastic strip b are formed with the cutting strips b 1. Opposite sides of the unit plate 2131 and the elastic plate a are formed with socket grooves, respectively. The inserting strips on two sides of the elastic strip b are inserted into the inserting grooves.

In the present embodiment, the elastic plate a includes: a plurality of plexiglass strips a1 and elastic strips a 2.

A plurality of the organic glass strips a1 are arranged at intervals in the width direction of the expansion slit a. In the present embodiment, the plurality of organic glass strips a1 are arranged at equal intervals.

The elastic strip a2 is arranged in the same direction as the plexiglass strip a 1. The elastic strip a2 is connected between two adjacent plexiglass strips a 1. Specifically, the elastic strip a2 is a silicone strip, and two ends of the elastic strip a2 are adhered to opposite sides of two adjacent organic glass strips a1 through silicone caulking glue.

In a preferred embodiment, a support plate 2133 is attached to the bottom of the cell plate 2131. The first end of the support plate is connected to the support rib. The second end of the supporting plate 2133 extends to the lower part of the expansion joint a, and the second end of the supporting plate 2133 is supported at the bottom of the elastic plate a.

The invention provides a construction method of an organic glass curtain system, which comprises the following steps:

s1: a plurality of support frames 1 are erected.

The support frame is made of stainless steel. The supporting frame is umbrella-shaped. Specifically, the support frame 1 comprises: the support comprises a column 11, a plurality of arc-shaped spokes 12, a connecting ring 13 and a plurality of support rods 14. In this embodiment, a plurality of arc-shaped spokes are arranged at equal intervals. An outer ring cross rod piece, a middle ring cross rod piece and an inner ring diagonal rod piece are connected between two adjacent arc-shaped spokes.

When a plurality of support frames are erected, the operation frame of the lattice system and the disk buckle type full framing is used as a support and operation platform of the organic glass curtain system, and a stacking platform is arranged according to requirements.

The lattice system consists of lattice columns, connecting beams and the like. The walkway beams, the connecting beams and the lattice columns are connected in a welding mode, and the adjacent connecting beams are arranged in a staggered mode.

The operation frame is a disk buckle type full hall frame, the distance is 1.5m, the step pitch is 1.5m, and the operation frame is erected twice to meet the requirements.

After the supporting frame is installed, the operation frame is erected and heightened for the second time until the height is 1-1.5 m below the finished surface of the panel structure, and the stamping type scaffold board is fully paved to provide a construction interface of the panel structure.

When a plurality of supporting frames are constructed, in order to reduce the temperature influence, an organic glass curtain system is divided into regions, the whole construction sequence is from the middle to two sides, the supporting frames in the regions are fixedly connected, and the supporting frames of two adjacent regions are not welded in the construction process. After the construction of each region is completed, proper folding temperature is selected through construction simulation analysis calculation, and then the members between the two supporting frames of the trans-region are welded and fixed.

Because the arc-shaped spokes of the supporting frames are long in length, in order to avoid the disadvantage of overlarge accumulated temperature stress to the structure in the construction process, three temperature release areas are arranged, the umbrella-shaped supporting frames are integrally divided into four areas by the three temperature release areas, when the temperature release areas are constructed, two adjacent supporting frames are not welded and fixed, and after the construction of all the partitioned supporting frames is completed, the welding construction between the supporting frames in the temperature release areas is carried out.

When a single supporting frame is erected, the installation and construction sequence sequentially comprises an upright post, an arc-shaped spoke, an inner ring inclined rod, a middle ring cross rod, an outer ring cross rod, a connecting ring and a supporting rod.

S2: and erecting a temperature control shed outside the plurality of support frames 1, so that the temperature control shed is covered on the plurality of support frames 1.

Set up the temperature control canopy that is used for panel structure accuse temperature in order to realize organic glass (ya keli) construction cleanness and technology operation demand, the temperature control canopy adopts assembled structure, and the top is overall structure for different temperature control canopy hoists and uses, but tarpaulin and steel construction quick installation.

1) An inner side circulating fan, an outer side constant temperature air conditioner, heating equipment and a conveying air pipe are arranged in the temperature control shed; the arrangement method of the air conditioner and the heater during the constant temperature period of the temperature control shed is adjusted according to the operation mode, and the method is suitable for different working conditions.

2) Installing a temperature control shed: fixing the temperature control shed base by using a buckle and a screw; sleeving the heat preservation quilt on the outer layer of the PVDF film (polyvinylidene fluoride film) structure greenhouse, and integrally hoisting the film structure greenhouse; adhering and fixing the heat-insulating quilt cover and the PVDF film structure shed base part by using an industrial adhesive tape; the safety protection net with the corresponding size is integrally covered outside the heat preservation quilt cover; after the center point of an arc beam at the top of the temperature control shed is fixed by adopting a detachable flange connecting plate and screws, a crane is used for hoisting and mounting; the upright post of the temperature control shed is fixedly connected with the corresponding arc beam framework through a flange connecting plate and screws.

S3: in the temperature-controlled shed, a plurality of node blocks 211 are respectively arranged on a plurality of support rods 14 of the support frame 1.

In this embodiment, after the supporting ribs and the node blocks are all assembled together, the assembled supporting ribs and node blocks are mounted on the supporting rod.

S4: the support ribs 212 are connected between two adjacent node blocks 211, so that the plurality of node blocks 211 and the plurality of support ribs 212 enclose a plurality of vertical cavities.

And when the supporting rib plate is installed, a supporting and adjusting tool is adopted to adjust the installation angle. The bottom of the supporting and adjusting tool is rotatably provided with a quick-assembling buckle type disc buckle assembly. The quick-fit snap-fit disc fastener assembly is mounted on the support frame. The supporting rib plates supported by the supporting and adjusting tool can be adjusted at different positions and angles of 360 degrees.

In the installation of the support ribs on a single support frame, the arrangement surface of the support ribs is adjusted and ordered by taking 12 nodes arranged on the periphery of the support frame and the support ribs are installed on the support frame as datum points, and the support ribs are paved from the outer side of the support frame to the middle of the support frame and are aggregated with node blocks.

S5: the panel 213 is mounted to the upper port of the vertical cavity such that the panel 213 covers the upper port of the vertical cavity and is bonded to the adjacent panel 213, thereby forming the regular plate 21 on the support frame 1.

The installation of the acryl panel 213 includes:

hoisting an acrylic panel: the panel uses tower crane and special sucker tool to suck, hang the acrylic panel and the support rib plate to align.

Bonding an acrylic panel: and arranging, calibrating and sequencing by taking the plane center of the grid structure of the support rib plates and the node blocks which are aggregated together as a reference calibrating point, and spreading the plane center of the grid structure to the periphery for paving. And arranging and installing the first piece as a starting point in a clockwise direction.

The bonding seam between the panel and the supporting ribbed slab is controlled within a certain range, and after all the supporting ribbed slabs are polymerized into an integrated grid structure, acrylic particles with the thickness of 2mm-5mm are pre-placed on the contact surface of the supporting ribbed slabs and the panel, so that the bonding seam is used for controlling the polymerization gap between the panel and the supporting ribbed slab and the adjustment of the flatness of the panel during construction.

In the polymerization installation of the connecting lug plates of the supporting rib plates and the node blocks, after the supporting rib plates and the node blocks are positioned and assembled, the periphery of a grouting seam between the supporting rib plates and the connecting lug plates is molded by a rapid molding method, and MMA (methyl methacrylate) adhesive is configured to inject the adhesive into the grouting seam. The curing temperature of the bonding material is constant (consistent with the temperature of a unit plate in a factory processing environment), and the temperature difference fluctuation is +/-3 ℃. After the bonding material is solidified, the grouting seam is cut and processed by adopting a special prop, and the surface is ground flat and polished.

During the polymerization installation of the unit plates and the supporting rib plates, assembling according to the drawing numbers, molding after adjustment, and pouring bonding slurry into the splicing seams between the unit plates from the edges of the regular plates to the center step by step. The bonding slurry is a main body material of the unit plate.

The bonding slurry of the splicing seams of the unit plates is cured at a constant temperature (the temperature is consistent with the processing temperature of a unit plate factory), the temperature difference fluctuates by +/-3 ℃, the curing period (the body material is cured after being injected into the splicing seams for 24-48 hours), and after 20 hours, the surface of the bonding slurry of the splicing seams is pressed by hands and is cured, so that the polymerization and curing are finished.

And (3) supporting the expansion joint by mounting a bearing plate on a support rib plate at the bottom of the expansion joint in the panel of the regular plate, and sticking a polytetrafluoroethylene gasket on the bearing plate by using epoxy resin.

And (3) carrying out high-temperature polymerization on the whole regular plate, and controlling the temperature according to a step temperature curve, wherein the annealing temperature range is 70-85 ℃ (high-temperature polymerization). Circulating fans are arranged at the upper, lower and middle positions in the temperature control shed, and intelligent control is achieved through a temperature detection instrument in the period.

And (3) processing, grinding and polishing the splicing seams of the regular plates, cleaning the milled end surfaces of the plates by using clean water, and grinding the surfaces by using sand skin.

S6: the connecting plates 22 are connected between the adjacent regular plates 21 of the plurality of support frames 1 to form a plexiglas curtain system.

In this embodiment, the connection plate comprises a plurality of triangular plates. The rib plate of the triangular plate acrylic is prefabricated in the largest specification and size in a factory, and batch panel integral bonding is carried out on site.

In order to ensure that the panel structure of the unloaded acrylic is close to the same horizontal plane, a partition unloading scheme is adopted, the panel structures of the four adjacent support frames are unloaded at one time, and the unloading sequence spreads from the middle to the two sides of the panel structure. And after unloading, adjusting the levelness of the gutter of the panel structure by adopting a jack tool, and monitoring the deformation of the panel structure of the acrylic in real time. After the first unloading is finished, two rows of unloading are carried out in sequence each time.

And (4) carrying out finite element unloading calculation under the condition of design load, and ensuring that the panel structure is safe under the deflection.

Selecting finite element analysis to calculate the larger stress rod piece as follows: the stand, arc spoke, ya keli panel structure etc. monitor, monitor the internal force of key position, parameter variation such as displacement and the stress state during the structure uninstallation, and timely feedback ensures structure safety.

The construction of the organic glass curtain system is completed, automatic acquisition equipment is installed, an automatic acquisition instrument for test data is carried out, and the test data is transmitted to a recording and analyzing terminal in a wireless mode, so that intelligent monitoring and analysis are realized.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by a person skilled in the art that the scope of the invention as referred to in the present application is not limited to the embodiments with a specific combination of the above-mentioned features, but also covers other embodiments with any combination of the above-mentioned features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (8)

1. An organic glass curtain system, comprising:

the supporting frames are provided with a plurality of supporting rods; and

the panel structure comprises a plurality of regular plates and connecting plates connected among the regular plates, each regular plate comprises a plurality of node blocks, supporting rib plates and a panel, the supporting rods are supported on the node blocks, the supporting rib plates are connected between two adjacent node blocks, the node blocks and the supporting rib plates are enclosed to form a plurality of vertical cavities, the panel covers an upper port of each vertical cavity and is bonded to the adjacent panel, the connecting plates are connected to the panels of the adjacent regular plates, expansion joints are formed in the panels, expansion joint structures are installed in the expansion joints, and the node blocks, the supporting rib plates and the panels are respectively organic glass;

the panel comprises two unit plates, the expansion joint is formed between the two unit plates, and the outer edges of the unit plates are lapped on the supporting rib plates and connected with the unit plates of the adjacent panel;

the expansion joint structure includes:

the elastic plate is accommodated in the two expansion joints, and a gap is formed between the elastic plate and the unit plate;

the elastic strip is embedded at the lower part of the gap; and

and the plugging glue for plugging the gap is filled at the upper part of the gap.

2. The plexiglas drapery system of claim 1, wherein the regular panels are circular in shape.

3. The organic glass curtain system as claimed in claim 1, wherein a joint seam is formed between two adjacent unit plates, and the joint seam is filled with a bonding paste.

4. The organic glass curtain system of claim 1, wherein insertion strips are formed at opposite sides of the elastic strip, the unit plates and the elastic plates are respectively formed with socket grooves, and the insertion strips at both sides of the elastic strip are inserted into the socket grooves.

5. The plexiglas curtain system of claim 4, wherein the elastic sheet includes:

the organic glass strips are arranged at intervals along the width direction of the expansion joint; and

and the elastic strip arranged in the same direction as the organic glass strip is connected between the two adjacent organic glass strips.

6. The organic glass curtain system of claim 1, wherein a support plate is connected to the bottom of the unit plate, the support plate extending below the expansion joint and supported on the bottom of the elastic plate.

7. The plexiglas curtain system of claim 1, wherein the support frame includes:

the top of the upright post extends upwards in an inclined mode to form a plurality of arc-shaped spokes; and

the supporting rods are vertically arranged on the arc-shaped spokes, and the tops of the supporting rods are flush.

8. A construction method of the organic glass curtain system as claimed in any one of claims 1 to 7, characterized by comprising the following steps:

building a plurality of support frames;

erecting a temperature control shed outside the plurality of support frames, so that the temperature control shed covers the plurality of support frames;

a plurality of node blocks are respectively arranged on a plurality of support rods of the support frame in the temperature control shed;

connecting a supporting rib plate between two adjacent node blocks, so that a plurality of node blocks and a plurality of supporting rib plates are enclosed to form a plurality of vertical cavities;

installing a panel on the upper port of the vertical cavity, so that the panel is covered on the upper port of the vertical cavity and is bonded to an adjacent panel, and a regular plate is formed on the supporting frame;

and connecting the connecting plates between the adjacent regular plates of the plurality of support frames to form an organic glass curtain system.

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