CN116815963A - An energy-saving and environmentally friendly prefabricated building glass curtain wall - Google Patents

Abstract

The application discloses an energy-saving and environment-friendly assembled building glass curtain wall, which relates to the technical field of glass curtain walls and comprises a wall body mechanism, wherein one side of the outer wall of the wall body mechanism is fixedly connected with a fixing mechanism, and the inside of the fixing mechanism is rotatably connected with a connecting mechanism. According to the application, the connecting columns are used as medium points, the connection among the plurality of stand columns can be realized, the connection and fixation between the stand columns and the cross beams can be realized under the action of a plurality of groups of connecting lock pins, and the frame of the curtain wall can be quickly assembled in the two connecting modes.

Description

An energy-saving and environmentally friendly prefabricated building glass curtain wall

Technical field

The present invention relates to the field of glass curtain walls, and more specifically, to an energy-saving and environmentally friendly prefabricated building glass curtain wall.

Background technique

Glass curtain wall refers to the building envelope or decorative structure that has a supporting structure system that has a certain displacement capacity relative to the main structure and does not share the effects of the main structure. The wall has two types of single-layer and double-layer glass. Glass curtain wall is a This beautiful and novel method of building wall decoration is a distinctive feature of the era of modernist high-rise buildings.

In the existing technology, such as Chinese patent number: CN114319671A, a prefabricated architectural glass curtain wall that is easy to install is provided, including an assembly frame and a glass plate. The glass plate is inlaid and buckled on the inside of the assembly frame. The assembly frame There is a removable mounting base for connecting to the building. The mounting base is used to install the curtain wall with the building through the assembly frame, which can achieve good detachability after installation and facilitate the later maintenance of the assembled glass curtain wall. work; through the cooperation between the longitudinal frame and the horizontal frame, the assembly work of the assembly frame can be facilitated; through the installation of the inner and outer horizontal and vertical plates with the first pad and the second pad respectively, it can be facilitated during the assembly The installation and fixation of the glass plate during the frame installation process improves the stability of the glass plate installation and the safety of use.

Although the above equipment can facilitate the installation and fixation of glass panels during the installation process of the assembly frame and improve the stability and safety of glass panel installation, existing glass curtain walls are generally positioned through riveting and bolts, and Due to its large size, it is located at high altitude on the exterior wall. It is difficult to install and strengthen the overall positioning, and it is inconvenient to operate. It is also difficult to repair the curtain wall structure when it is used for a long time or when individual parts of the curtain wall structure are broken and damaged.

Contents of the invention

In order to overcome the shortcomings of the existing technology, the technical problem to be solved by the present invention is to propose an energy-saving and environmentally friendly prefabricated building glass curtain wall to solve the problem that it is difficult to install the glass curtain wall in the above-mentioned background technology, and when breakage and damage occur, the curtain wall will be damaged. Structural maintenance is a difficult problem.

To achieve this goal, the present invention adopts the following technical solutions:

The invention provides an energy-saving and environmentally friendly assembled building glass curtain wall, which includes a wall mechanism. A fixing mechanism is fixedly connected to one side of the outer wall of the wall mechanism, and a connecting mechanism is rotatably connected to the interior of the fixing mechanism. The connecting mechanism The outer surface wall of the mechanism is movable with a frame mechanism, and the inner surface wall of the frame mechanism is movable with a glass mechanism;

The frame mechanism includes a plurality of upright columns. Two engaging slots 2 are provided inside each of the plurality of upright columns. Two sets of holes 4 are preset inside the plurality of upright columns. The plurality of sets of holes 4 are The inner surface walls are all provided with threaded rods 3, and the outer walls of the groups of threaded rods 3 are all provided with connecting ferrules. The outer walls of the groups of threaded rods 3 are all provided with gaskets. 3. A set of threaded holes is provided on one side of the outer wall of the plurality of connecting ferrules. Cross beams are movable between the outer walls of the plurality of groups of connecting ferrules. One side of the outer wall of the plurality of cross beams is Two sets of holes 5 are provided. Screws are movably inserted into the inner surface walls of the holes 5 in the plurality of groups, and the outer walls of the screws are rotatably connected to the inside of the threaded holes 2. Multiple holes are provided on one side of the outer walls of the columns. There is a set of embedded slots. First, two threaded rods are inserted between the inner walls of the connecting ferrule, and then the two threaded rods are inserted inside the holes. With the assistance of external equipment, Rotate the two threaded rods three, so that the threaded rods three can be rotated and connected inside the threaded hole one respectively. Through the generated threaded connection, the connection shell, the connecting column and the connecting ferrule can be extruded and fixed, and then the The cross beams are respectively inserted between the outer walls of the two connecting ferrules, which can complete the connection process between multiple columns and multiple beams, and can form a complete frame mechanism.

In a preferred technical solution of the present invention, the connecting mechanism includes a set of connecting shells. The inner surface walls of one set of connecting shells are each provided with two engaging grooves 1. The inner surfaces of the two sets of engaging grooves 1 The surface walls are all movably embedded with connecting columns. Under the action of the connecting columns, they can be respectively engaged at the two positions of the engaging grooves inside the two columns, which can realize the vertical connection processing of multiple columns and facilitate the frame. Organizations make effective connections.

In a preferred technical solution of the present invention, two groups of connecting posts are provided with two holes 2 on one side of the outer wall, and two groups of holes 3 are preset inside the connecting shell of one group. There are two sets of threaded holes on the outer wall of the column. The connecting column is inserted inside the engaging groove one, and the threaded rod two is penetrated between the inner surface walls of the hole two and the hole four respectively, so as to complete the connection. The connection between the shell and the connecting column is effectively reinforced to maintain the stability of the equipment.

In a preferred technical solution of the present invention, the fixing mechanism includes multiple sets of fixing plates. Four expansion nuts are movably inserted inside the multiple sets of fixing plates. The inner surfaces of the multiple sets of expansion nuts are Threaded rods are movably inserted into the walls, and gaskets are movably set on the outer walls of multiple groups of threaded rods. First, the expansion nut is inserted into the inside of the installation slot, and the expansion nut is first connected to the wall. The connection between the two bodies is maintained in a fixed state, and then the threaded rods are inserted into the expansion nuts respectively. At this time, the mounting plate is set between the outer walls of the four threaded rods. During the installation, the mounting plate can be fixed to the outer wall side of the wall with the action of four nuts.

In a preferred technical solution of the present invention, the outer walls of multiple groups of threaded rods are each rotatably connected with a nut, and multiple groups of fixed plates are fixedly connected with two mounting plates on one side of the outer wall. There are two holes on one side of the outer wall of the mounting plate. Each set of nuts is rotatably connected between the outer walls of the threaded rod for rotation. During the rotation, the four nuts can squeeze the mounting plate. Pressure and maintain a fixed state. In this process, multiple gaskets can be placed between the threaded rod and the nut to increase the contact area, reduce the pressure, prevent loosening, protect parts and screws, and maintain the connection. stability.

In a preferred technical solution of the present invention, threaded rods 2 are movably inserted into the inner surface walls of multiple groups of holes 1, and gaskets 2 are movablely inserted into the outer walls of multiple groups of threaded rods 2. The outer walls of the two threaded rods are rotatably connected with two nuts. Under the action of the two threaded rods, the connection between the fixing mechanism, the connecting mechanism and the frame mechanism can be realized.

In a preferred technical solution of the present invention, the wall mechanism includes a wall body, and multiple sets of installation slots are provided on one side of the outer wall of the wall body. Multiple sets of expansion nuts are inserted into the installation slots respectively. inside, so that the connection between the fixed mechanism and the wall mechanism can be realized.

In a preferred technical solution of the present invention, the glass mechanism includes multiple sets of embedded blocks. The outer walls of the multiple groups of embedded blocks are all fixedly connected with limiting plates. First, under the action of the embedded blocks, The limit plate can be flexibly embedded between the inner walls of the two columns, and then the glass can be placed on one side of the outer wall of the limit plate, which can effectively limit the glass and avoid the problem of the glass slipping. A threat to pedestrians below.

In a preferred technical solution of the present invention, one side of the outer wall of the plurality of limiting plates is in contact with the glass body, and one side of the outer wall of the plurality of glass bodies is adhered with adhesive strips. The glass body uses LOW-E glass. It can not only meet the indoor lighting requirements, but also make the light soft and will not make people feel dizzy. In summer, it can effectively block outdoor infrared rays from entering the room and keep the room cool. In winter, it can effectively block indoor heat from escaping to the outside and keep the room indoors. Warm and comfortable.

In a preferred technical solution of the present invention, one side of the outer wall of the plurality of fixing plates is in contact with one side of the outer wall of the wall body, and the outer walls of the plurality of groups of expansion nuts are all movably inserted into the installation slot. Inside, the outer walls of multiple groups of connecting posts are movably embedded inside the engaging groove two, and the outer walls of multiple groups of threaded rods two are movably inserted inside hole three. The multiple groups of threaded rods two The outer walls of the multiple sets of threaded rods three are all rotatably connected to the inside of the threaded hole one, and the outer walls of multiple sets of the embedded blocks are all movably inserted inside the embedded holes. Inside the trough, one side of the outer wall of multiple groups of columns and beams is in contact with one side of the outer wall of the wall body. The columns are made of aluminum alloy profiles, and the beams are made of closed-cavity aluminum alloy profiles. The stress calculation uses a multi-span continuous beam stress model. , The outdoor visible surface of the aluminum alloy profile is fluorocarbon spray-coated, the indoor visible surface is powder-coated, and the non-exposed surface is anodized. The specific color is determined by the owner or architect.

The beneficial effects of the present invention are:

The invention provides an energy-saving and environmentally friendly prefabricated building glass curtain wall. Under the action of the fixing mechanism, the connecting mechanism and the frame mechanism, the connection between multiple columns can be realized by first measuring and using the connecting column as the media point. , and with the action of multiple sets of connecting inserts, the connection and fixation between columns and beams can be realized, and through these two connection methods, the frame of the curtain wall can be quickly assembled, and the aluminum alloy beams, columns and glass can be Factory assembly improves the installation accuracy, the processing quality can be effectively controlled, and the processing cycle is shortened. The unit installation method is adopted on site, which can improve the efficiency of workers and save the construction period. There is no need for welding in the whole process, and the assembly efficiency is high, which is also convenient for the long term in the future. After use, repair and replace the broken parts.

Through the action of the frame mechanism and the glass mechanism, first of all, the columns adopt a closed cavity design, which enhances the mechanical properties of the columns, while the cross beams adopt an inclined angle, which is an external drainage design that can effectively discharge external moisture. , so that rainwater can flow out smoothly without backflow, and the glass and frame are connected by adhesive strips, which can improve the watertight and airtight performance of the connection.

Under the action of the frame mechanism and the glass mechanism, the frame mechanism is installed and connected through mutual embedding and engagement, which can improve the stability and safety of the installation of the curtain wall body.

Through the action of the frame mechanism and the glass mechanism, the glass panel can be freely replaced, which facilitates maintenance and replacement after normal use.

Description of the drawings

Figure 1 is a front structural perspective view of an energy-saving and environmentally friendly prefabricated building glass curtain wall according to the present invention;

Figure 2 is a plan view of the wall mechanism in an energy-saving and environmentally friendly prefabricated building glass curtain wall according to the present invention;

Figure 3 is a three-dimensional exploded view of the fixing mechanism in an energy-saving and environmentally friendly prefabricated building glass curtain wall according to the present invention;

Figure 4 is a cross-sectional and three-dimensional exploded view of the connecting mechanism in an energy-saving and environmentally friendly prefabricated building glass curtain wall according to the present invention;

Figure 5 is a three-dimensional exploded view of the frame mechanism in an energy-saving and environmentally friendly prefabricated building glass curtain wall according to the present invention;

Figure 6 is a three-dimensional exploded view of structure A in an energy-saving and environmentally friendly prefabricated building glass curtain wall according to the present invention;

Figure 7 is a partial plan view of the frame mechanism in an energy-saving and environmentally friendly prefabricated building glass curtain wall according to the present invention;

Figure 8 is a side plan view of the glass mechanism in an energy-saving and environmentally friendly prefabricated building glass curtain wall according to the present invention;

Figure 9 is a partial plan view of the glass mechanism in an energy-saving and environmentally friendly prefabricated building glass curtain wall according to the present invention;

Figure 10 is a side plan view of a beam in an energy-saving and environmentally friendly prefabricated building glass curtain wall according to the present invention. .

In the picture:

1-wall mechanism; 101-wall body; 102-installation slot; 2-fixing mechanism; 201-fixing plate; 202-expansion nut; 203-threaded rod one; 204-gasket one; 205-nut one; 206-Mounting plate; 207-Hole one; 208-Threaded rod two; 209-Gasket two; 210-Nut two; 3-Connecting mechanism; 301-Connecting shell; 302-Latching groove one; 303-Connecting column; 304 - Hole two; 305- Hole three; 306- Threaded hole one; 4- Frame mechanism; 401- Column; 402- Engagement slot two; 403- Hole four; 405- Threaded rod three; 406- Connecting ferrule; 407- Gasket three; 408-threaded hole two; 409-beam; 410-hole five; 411-screw; 412-embedded slot; 5-glass mechanism; 501-embedded block; 502-limiting plate; 503-glass body ;504-Adhesive strip.

Detailed ways

The technical solution of the present invention will be further described below with reference to the accompanying drawings and through specific implementation modes.

As shown in Figure 1-10, the embodiment provides an energy-saving and environmentally friendly prefabricated building glass curtain wall, including a wall mechanism 1. A fixing mechanism 2 is fixedly connected to one side of the outer wall of the wall mechanism 1, and the inside of the fixing mechanism 2 The rotary connection is provided with a connecting mechanism 3, the outer surface wall of the connecting mechanism 3 is movable with a frame mechanism 4, and the inner surface wall of the frame mechanism 4 is movable with a glass mechanism 5;

The frame mechanism 4 includes a plurality of uprights 401. Two engaging slots 402 are provided inside the plurality of uprights 401. Two sets of holes 403 are preset inside the plurality of uprights 401. The inner parts of the plurality of sets of holes 403 are preset. Threaded rods 3 405 are movably inserted into the surface walls. Connecting ferrules 406 are movably set between the outer walls of multiple groups of threaded rods 3 405 . Gaskets 3 are movably set into the outer walls of multiple groups of threaded rods 3 405 . 407. A set of threaded holes 408 are provided on one side of the outer wall of the multiple connecting ferrules 406. Cross beams 409 are movably set between the outer walls of the multiple groups of connecting ferrules 406. The plurality of cross beams 409 are provided on one side of the outer wall. There are two sets of holes 410. Screws 411 are movably inserted into the inner walls of the holes 410, and the outer walls of the screws 411 are rotatably connected to the inside of the threaded holes 408. One side of the outer walls of the plurality of columns 401 is A set of embedding slots 412 is provided. First, the two threaded rods 3 405 are movably inserted between the inner walls of the connecting ferrule 406 , and then the two threaded rods 3 405 are kept inserted inside the hole 403 , and the two threaded rods 3 405 are inserted through the outside. With the assistance of the equipment, the two threaded rods 305 are rotated respectively, so that the threaded rods 3405 can be rotationally connected inside the threaded hole 306 respectively. Through the generated threaded connection, the shell 301, the connecting column 303 and the connecting ferrule can be connected. 406 are extruded and fixed among the three, and then the cross beams 409 are respectively inserted between the outer walls of the two connecting ferrules 406, which can complete the connection process between the multiple columns 401 and the multiple beams 409, and form a The completed frame mechanism 4, and the cross beam 409 adopts an outward inclined manner, which can effectively help its drainage, so that rainwater can flow out smoothly without causing backflow.

As shown in Figures 4 to 6: the connection mechanism 3 includes a set of connection shells 301. The inner surface walls of the set of connection shells 301 are each provided with two engaging grooves 302. The inner surface walls of the two sets of engaging grooves 302 are Both columns are movably embedded with connecting columns 303. Under the action of the connecting columns 303, they can be respectively engaged at the positions of the two engaging grooves 402 inside the two columns 401, so that the vertical connection processing of multiple columns 401 can be realized. It is convenient to effectively connect the frame mechanism 4.

As shown in Figure 4: two groups of connecting columns 303 are provided with two holes 304 on one side of the outer wall, one group of connecting shells 301 is preset with two groups of holes three 305 inside, and the outer walls of the two groups of connecting columns 303 are both preset. Two sets of threaded holes 306 are provided, the connecting post 303 is inserted inside the engaging groove 302, and the threaded rod 208 is penetrated between the inner surface walls of the hole 2 304 and the hole 3 305 respectively, thereby connecting the holes 304 and 305. The connection between the connection shell 301 and the connection column 303 is effectively reinforced to maintain the stability of the device.

As shown in Figure 3: the fixing mechanism 2 includes multiple sets of fixing plates 201. Four expansion nuts 202 are movably inserted into the interior of the multiple sets of fixing plates 201. The inner surface walls of the multiple sets of expansion nuts 202 are all movably inserted. There is a threaded rod 203, and multiple groups of threaded rods 203 are movable with spacers 204 on their outer walls. Firstly, the expansion nut 202 is inserted into the inside of the installation slot 102. First, the expansion nut 202 is connected to the wall body. 101 to maintain the fixed state between the two, and then insert the threaded rods 203 inside the expansion nuts 202 respectively. At this time, the fixing plate 201 is set on the four threaded rods 203 Between the outer walls, the fixing plate 201 can be fixed to the outer wall side of the wall under the action of four nuts 205.

As shown in Figure 3: the outer walls of multiple sets of threaded rods 203 are all rotatably connected with nuts 205, the outer walls of multiple sets of fixing plates 201 are fixedly connected with two mounting plates 206 on one side, and the outer walls of multiple sets of mounting plates 206 are fixedly connected There are two holes 207 on both sides. Each set of nuts 205 is rotatably connected between the outer walls of the threaded rod 203 for rotation. During the rotation, the four nuts 205 can form an squeeze on the fixed plate 201. Pressure and maintain a fixed state. During this process, multiple gaskets 204 can be placed between the threaded rod 203 and the nut 205 to increase the contact area, reduce pressure, prevent loosening, and protect parts and screws. Keep your connection stable.

As shown in Figure 3: the inner surface walls of the multiple groups of holes 207 are all movably provided with threaded rods 208, the outer walls of the multiple groups of threaded rods 208 are all movably provided with gaskets 209, and the multiple groups of threaded rods 208 are movable. Nuts 210 are rotatably connected to the outer walls of the two screws. Through the action of the threaded rod 208, the connection between the fixing mechanism 2, the connecting mechanism 3 and the frame mechanism 4 can be realized.

As shown in Figure 2: the wall mechanism 1 includes a wall body 101. A plurality of sets of installation slots 102 are provided on one side of the outer wall of the wall body 101. Multiple sets of expansion nuts 202 are inserted into the inside of the installation slots 102 respectively. , so that the connection process between the fixing mechanism 2 and the wall mechanism 1 can be realized.

According to Figures 6 to 10, the glass mechanism 5 includes multiple sets of embedded blocks 501. The outer walls of the multiple sets of embedded blocks 501 are all fixedly connected with limiting plates 502. First, under the action of the embedded blocks 501, The limiting plate 502 can be movably embedded between the inner walls of the two columns 401, and then the glass is placed on the outer wall side of the limiting plate 502, which can effectively maintain the limiting treatment of the glass and prevent the glass from slipping. problem, posing a threat to pedestrians downstairs.

As shown in Figures 8 and 9: one side of the outer wall of the multiple limiting plates 502 is in contact with the glass body 503, and one side of the outer wall of the multiple glass bodies 503 is adhered with adhesive strips 504. The glass body 503 uses LOW-E glass. It can not only meet the indoor lighting requirements, but also make the light soft and will not make people feel dizzy. In summer, it can effectively block outdoor infrared rays from entering the room and keep the room cool. In winter, it can effectively block indoor heat from escaping to the outside and keep the room indoors. Warm and comfortable.

As shown in Figures 6-7, one side of the outer wall of the multiple fixing plates 201 is in contact with one side of the outer wall of the wall body 101, and the outer walls of the multiple sets of expansion nuts 202 are all movably inserted inside the installation slot 102. , the outer walls of the multiple sets of connecting posts 303 are all movably embedded in the interior of the engaging groove 2 402 , the outer walls of the multiple sets of threaded rods 208 are all movably inserted in the interior of the hole three 305 , and the outer surfaces of the multiple sets of threaded rods 208 The walls are all movably inserted inside hole two 304, the outer walls of multiple sets of threaded rods three 405 are all rotatably connected inside the threaded hole one 306, and the outer walls of multiple sets of embedded blocks 501 are all movably inserted in the embedded slot 412 Inside, one side of the outer wall of multiple sets of columns 401 and beams 409 are in contact with one side of the outer wall of the wall body 101. The columns 401 are made of aluminum alloy profiles, and the beams 409 are made of closed-cavity aluminum alloy profiles. The force calculation uses multi-span continuous Beam stress model, the outdoor visible surface of the aluminum alloy profile is sprayed with fluorocarbon, the indoor visible surface is powder sprayed, and the non-exposed surface is anodized. The specific color is determined by the owner or architect.

The working principle of the entire mechanism is: before use, after measurement, holes are drilled on the external wall with external equipment to form multiple sets of installation slots 102, and multiple sets of expansion nuts 202 and threaded rods 203 are connected through external force. Then drive it into the inside of the installation groove 102, set multiple fixing plates 201 between each set of expansion nuts 202 and the outer wall of the threaded rod 203, and then set the gasket 204 on the threaded rod respectively. between the outer walls of the threaded rod 203, and then rotate the nut 205. At this time, each set of nuts 205 rotates on the outer wall of the threaded rod 203, which can respectively squeeze the fixing plate 201, and realize the fixing mechanism 2 and For the fixed connection between the wall mechanisms 1, a plurality of connecting posts 303 are respectively inserted into the two engaging grooves 302 inside the connecting shell 301, and a plurality of threaded rods 208 are passed through the holes 2304 and 304 respectively. Three 305 and one hole 207, and then place the two gaskets 209 between the outer walls of the plurality of threaded rods 208 respectively, and rotate the two nuts 210 between the outer walls of the two threaded rods 208 to form a fixing mechanism. 2 and the connecting mechanism 3, and then insert a plurality of upright columns 401 between the outer walls of the connecting column 303, thereby realizing the vertical connection process of the plurality of upright columns 401, and then connect the two threaded rods 3 405 The movable insertion is between the inner surface walls of the connecting ferrule 406, and the two threaded rods 3 405 are kept inserted inside the hole 403. With the assistance of external equipment, the two threaded rods 3 405 are rotated respectively, causing the threaded rods to Three 405 can be rotatably connected inside the threaded hole 306 respectively. Through the generated threaded connection, the connection shell 301, the connecting column 303 and the connecting insert 406 can be extruded and fixed, and then the cross beams 409 can be inserted respectively. Between the outer walls of the two connecting ferrules 406, the connection process between multiple columns 401 and multiple cross beams 409 can be completed. The columns 401 are made of aluminum alloy profiles, and the cross beams 409 are made of closed-cavity aluminum alloy profiles, which can form a complete The frame mechanism 4, and through this connection method, the frame mechanism 4 can be constructed in large quantities, and can be installed on the outer wall of the building wall, and then the limiting plate 502 can be moved through the action of the embedded block 501 Embedded between the inner surface walls of the two columns 401, the vertical relationship between the limiting plate 502 and the frame mechanism 4 can be maintained, and the connection and fixed state between the two can be maintained. Finally, the glass is placed inside the frame mechanism 4. , and can cause it to contact the outer wall side of the limiting plate 502. By adhering a rubber strip 504 between the glass body 503 and the inner surface wall of the frame mechanism 4, and the glass is made of LOW-E glass, indoor lighting can be satisfied. requirements, and makes the light soft and will not cause people to feel dizzy. In summer, it can effectively block outdoor infrared rays from entering the room and keep the room cool. In winter, it can effectively block indoor heat from escaping to the outside, keeping the room warm and making people feel comfortable. By optimizing the rubber strip 504, the water-tightness and air-tightness of the connection can be improved, and the glass can be effectively kept in position to avoid the problem of glass slipping and threatening pedestrians downstairs. Moreover, this The installation method can quickly assemble the frame of the curtain wall, improve the installation accuracy, effectively control the processing quality, and shorten the processing cycle.

Other technologies in this embodiment adopt existing technologies.

The present invention has been described through preferred embodiments. Those skilled in the art will know that various changes or equivalent substitutions can be made to these features and embodiments without departing from the spirit and scope of the invention. The present invention is not limited to the specific embodiments disclosed here, and other embodiments falling within the claims of this application all fall within the scope of protection of the present invention.

Claims (10)

1. An energy-concerving and environment-protective assembled building glass curtain wall, its characterized in that: the wall body mechanism (1) is characterized by comprising a wall body mechanism (1), wherein one side of the outer wall of the wall body mechanism (1) is fixedly connected with a fixing mechanism (2), the inside of the fixing mechanism (2) is rotatably connected with a connecting mechanism (3), the outer surface wall of the connecting mechanism (3) is movably sleeved with a frame mechanism (4), and the inner surface wall of the frame mechanism (4) is movably embedded with a glass mechanism (5);

the frame mechanism (4) comprises a plurality of stand columns (401), a plurality of two clamping grooves (402) are formed in the stand columns (401), two groups of holes (403) are formed in the stand columns (401), three threaded rods (405) are movably inserted into the inner surface walls of the holes (403), connecting inserts (406) are movably sleeved between the outer surface walls of the three threaded rods (405), gaskets (407) are movably sleeved on the outer surface walls of the three threaded rods (405), a plurality of threaded holes (408) are formed in one side of the outer wall of the connecting inserts (406), a cross beam (409) is movably sleeved between the outer surface walls of the connecting inserts (406), screws (411) are movably inserted into the inner surface walls of the holes (410), and the walls of the screws (411) are rotatably connected inside the threaded holes (408), and one side of the outer surface walls of the stand columns (406) are provided with grooves (412).

2. The energy-saving and environment-friendly prefabricated building glass curtain wall according to claim 1, wherein: the connecting mechanism (3) comprises a group of connecting shells (301), two first clamping grooves (302) are formed in the inner surface walls of the group of connecting shells (301), and connecting columns (303) are movably embedded in the inner surface walls of the two first clamping grooves (302).

3. An energy-saving and environment-friendly fabricated building glass curtain wall according to claim 2, wherein: two groups of holes II (304) are formed in one side of the outer wall of the connecting column (303), two groups of holes III (305) are preset in the connecting shell (301), and two groups of threaded holes I (306) are formed in the outer surface wall of the connecting column (303).

4. An energy-saving and environment-friendly fabricated building glass curtain wall according to claim 3, wherein: the fixing mechanism (2) comprises a plurality of groups of fixing plates (201), four expansion nuts (202) are movably inserted into the fixing plates (201), a first threaded rod (203) is movably inserted into the inner surface walls of the expansion nuts (202), and a first gasket (204) is movably sleeved on the outer surface walls of the first threaded rods (203).

5. The energy-saving and environment-friendly prefabricated building glass curtain wall according to claim 4, wherein: the outer surface wall of the threaded rod I (203) is rotationally connected with a nut I (205), one side of the outer wall of the fixed plate (201) is fixedly connected with two mounting plates (206), and one side of the outer wall of each mounting plate (206) is provided with two holes I (207).

6. The energy-saving and environment-friendly prefabricated building glass curtain wall according to claim 5, wherein: the inner surface walls of the first holes (207) are movably inserted with second threaded rods (208), the outer surface walls of the second threaded rods (208) are movably sleeved with second gaskets (209), and the outer surface walls of the second threaded rods (208) are rotatably connected with second nuts (210).

7. The energy-saving and environment-friendly prefabricated building glass curtain wall according to claim 6, wherein: the wall body mechanism (1) comprises a wall body (101), and a plurality of groups of mounting grooves (102) are formed in one side of the outer wall of the wall body (101).

8. The energy-saving and environment-friendly prefabricated building glass curtain wall according to claim 7, wherein: the glass mechanism (5) comprises a plurality of groups of embedded blocks (501), and limiting plates (502) are fixedly connected between the outer surface walls of the embedded blocks (501).

9. The energy-saving and environment-friendly prefabricated building glass curtain wall according to claim 8, wherein: glass bodies (503) are contacted with one side of the outer walls of the limiting plates (502), and adhesive tapes (504) are adhered to one side of the outer walls of the glass bodies (503).

10. The energy-saving and environment-friendly prefabricated building glass curtain wall according to claim 9, wherein: the outer wall side of a plurality of fixed plates (201) is contacted with the outer wall side of a wall body (101), the outer surface wall of each expansion nut (202) is movably inserted into the mounting groove (102), the outer surface wall of each connecting column (303) is movably embedded into the clamping groove II (402), the outer surface wall of each threaded rod II (208) is movably inserted into the hole III (305), the outer surface wall of each threaded rod II (208) is movably inserted into the hole II (304), the outer surface wall of each threaded rod III (405) is rotatably connected into the threaded hole I (306), and the outer surface wall of each embedded block (501) is movably inserted into the embedded groove (412), and the outer surface walls of each upright column (401) and each cross beam (409) are contacted with the outer wall side of the wall body (101).