CN114809391A - Environment-friendly glass curtain wall structure and system - Google Patents

Abstract

The invention discloses an environment-friendly glass curtain wall structure and system, which comprises a supporting module and a shading module, wherein the supporting module comprises an upright post, a cross beam and glass plates, a first clamping groove is formed in the upright post, a second clamping groove is formed in the cross beam, the glass plates are respectively arranged in the first clamping groove and the second clamping groove, and a cavity is formed between the glass plates; the invention adopts the non-coated glass or the coated glass, thereby avoiding light pollution caused by reflection glare generated by specular reflection of the glass when direct sunlight and sky light irradiate the surface of the glass; through adjusting bottom plate and solar cell panel's angle, can play the effect of sheltering from sunshine, avoid indoor temperature to rise too fast, and lead to the air conditioner power consumptive increase by a wide margin, guarantee simultaneously that solar cell panel faces outdoors, can make solar cell panel gather more sunshine, carry out more photoelectric conversion, can also generate electricity in the power saving, environmental protection more.

Description

Environment-friendly glass curtain wall structure and system

Technical Field

The invention relates to the technical field of glass curtain walls, in particular to an environment-friendly glass curtain wall structure and system.

Background

The glass curtain wall is a building external protective structure or a decorative structure which has a certain displacement capacity relative to the main structure by a supporting structure system and does not bear the action of the main structure. Glass curtain wall includes that the glass rib splices full glass curtain wall and glass rib point connection glass curtain wall, and glass curtain wall has used in the outer decoration trade of building in a large number, provides a pleasing to the eye and durable's decoration form for neotype modern building.

The existing glass curtain wall adopts coated glass or coated glass in order to prevent direct sunlight, when direct sunlight and sky light irradiate the surface of the glass, the reflection glare generated by the mirror reflection of the glass can cause light pollution, and the noise light generated by the reflection of the glass curtain wall can cause people to generate dizziness, temporary blindness and accidents; and the sunlight in summer is reflected to the room, so that the room temperature is increased by 4-6 ℃ on average, the power consumption of the air conditioner is greatly increased, and the energy consumption is high and is not environment-friendly.

Disclosure of Invention

In order to solve the technical problems, the invention provides the following technical scheme: an environment-friendly glass curtain wall structure comprises a supporting module and a shading module, wherein the supporting module comprises an upright post, a cross beam and glass plates, a first clamping groove is formed in the upright post, a second clamping groove is formed in the cross beam, the glass plates are respectively arranged in the first clamping groove and the second clamping groove, and a cavity is formed between the glass plates; the shading module comprises a solar cell panel, a bottom plate, a first rotating shaft and a second rotating shaft, the shading module is arranged inside the cavity, the solar cell panel is arranged on the bottom plate, the two ends of the bottom plate are respectively fixedly connected with the first rotating shaft and one end of the second rotating shaft, and the other ends of the first rotating shaft and the second rotating shaft are respectively rotatably connected with the stand columns.

As a preferred scheme of the environment-friendly glass curtain wall structure, the invention comprises the following steps: still include drive module, the inside cavity of stand and crossbeam, drive module set up inside stand and crossbeam, drive module includes first piston head, dead lever, push pedal, scroll bar and driving medium, first piston head sliding connection crossbeam inner wall, first piston head fixed connection dead lever one end, dead lever other end fixed connection push pedal one side, the push pedal opposite side is provided with the pinion rack, and the scroll bar is connected in the pinion rack meshing, and the scroll bar passes through the first pivot of driving medium connection.

As a preferred scheme of the environment-friendly glass curtain wall structure, the invention comprises the following steps: the driving medium includes first gear, second gear, pivot, third gear and belt ring, the first gear of worm wheel fixed connection, the crossbeam inner wall is connected in the rotation of worm wheel both ends, and the second gear is connected in first gear meshing, second gear fixed connection pivot, and the pivot both ends are rotated and are connected the meshing and connect the crossbeam inner wall, pivot fixed connection third gear, and belt ring inner wall is connected in the meshing of third gear, and the fourth gear is connected in the meshing of belt ring, the fourth gear corresponds first pivot setting to the first pivot of fourth gear fixed connection.

As a preferred scheme of the environment-friendly glass curtain wall structure, the invention comprises the following steps: the crossbeam inner wall is provided with spacing to the pinion rack corresponds spacing and is provided with the spacing groove, spacing and spacing inslot wall sliding connection.

As a preferred scheme of the environment-friendly glass curtain wall structure, the invention comprises the following steps: the crossbeam inner wall is provided with first spring and solid fixed ring, first spring one side fixed connection first piston head, the solid fixed ring of first spring other end fixed connection, solid fixed ring outer wall fixed connection crossbeam inner wall to the dead lever passes first spring and solid fixed ring in proper order.

As a preferred scheme of the environment-friendly glass curtain wall structure, the invention comprises the following steps: the beam is provided with an air inlet hole, and the cavity is communicated with the inside of the beam through the air inlet hole.

As a preferred scheme of the environment-friendly glass curtain wall structure, the invention comprises the following steps: the electric push rod is arranged on one side, far away from the first piston head, of the second piston head, the electric push rod is connected with one side of the movable plate, the other side of the movable plate is connected with the second spring, a vent hole is formed in the cross beam, and the vent hole is located in the position of the cross beam where the second piston head is located.

As a preferred scheme of the environment-friendly glass curtain wall system, the invention comprises the following steps: the glass plate supporting and fixing device comprises a supporting module and a shading module, wherein the supporting module comprises a glass plate, and the upright post and the cross beam which are used for supporting and fixing the glass plate, the glass plate is provided with two layers, and a cavity is formed between the glass plates; the shading module comprises a solar cell panel and a bottom plate used for supporting the solar cell panel, and the bottom plate is rotatably arranged inside the cavity.

As a preferred scheme of the environment-friendly glass curtain wall system, the invention comprises the following steps: the part between the first piston head and the second piston head in the cross beam is a movable cavity, and the cavity is communicated with the movable cavity through an air inlet hole.

As a preferred scheme of the environment-friendly glass curtain wall system, the invention comprises the following steps: still include control module still includes battery and controller, battery electric connection solar cell panel, battery and controller, solar cell panel are used for charging for the battery, battery charging is used for electric putter and controller energy supply, the controller is through establishing wireless connection with handheld terminal, receives control command to send drive command to electric putter.

The invention has the beneficial effects that: the invention adopts the non-coated glass or the coated glass, thereby avoiding light pollution caused by reflection glare generated by specular reflection of the glass when direct sunlight and sky light irradiate the surface of the glass; through adjusting bottom plate and solar cell panel's angle, can play the effect of sheltering from sunshine, avoid indoor temperature to rise too fast, and lead to the air conditioner power consumptive increase by a wide margin, guarantee simultaneously that solar cell panel faces outdoors, can make solar cell panel gather more sunshine, carry out more photoelectric conversion, can also generate electricity in the power saving, environmental protection more.

Drawings

Fig. 1 is a schematic overall structure diagram in the embodiment of the present disclosure.

Fig. 2 is a schematic structural diagram of a support module in an embodiment of the disclosure.

Fig. 3 is a schematic structural diagram of a light shielding module in an embodiment of the disclosure.

Fig. 4 is an enlarged schematic view at a in fig. 1 in an embodiment of the disclosure.

Fig. 5 is a schematic structural diagram of a driving module and a control module in an embodiment of the disclosure.

Fig. 6 is an enlarged schematic view at B in fig. 5 in an embodiment of the present disclosure.

Fig. 7 is an enlarged schematic view at C in fig. 5 in an embodiment of the present disclosure.

FIG. 8 is a schematic view of a transmission member according to an embodiment of the disclosure.

Fig. 9 is a schematic diagram of a charging and power supply process of the storage battery in the embodiment of the disclosure.

In the figure: the solar shading module comprises a supporting module 100, a vertical column 101, a first clamping groove 101a, a cross beam 102, a second clamping groove 102a, a limiting strip 102b, a first spring 102c, a fixing ring 102d, an air inlet hole 102e, an air vent 102f, a movable cavity 102g, a glass plate 103, a cavity 104, a shading module 200, a solar cell panel 201, a bottom plate 202, a first rotating shaft 203, a second rotating shaft 204, a driving module 300, a first piston head 301, a fixing rod 301, a push plate 303, a toothed plate 303a, a limiting groove 303b, a worm 304, a transmission piece 305, a first gear 305a, a second gear 305b, a rotating shaft 305c, a third gear 305d, a belt ring 305e, a control module 400, a second piston head 401, an electric push rod 402, a movable plate 403, a second spring 404, a storage battery 405 and a controller 406.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Example 1

Referring to fig. 1 to 3, for a first embodiment of the present invention, the embodiment provides an environment-friendly glass curtain wall structure, which includes a support module 100 and a light shielding module 200, the support module 100 includes a pillar 101, a beam 102 and a glass plate 103, the pillar 101 is provided with a first slot 101a, the beam 102 is provided with a second slot 102a, the first slot 101a and the second slot 102a are respectively provided with the glass plate 103, and a cavity 104 is formed between the glass plates 103. When the glass plate mounting structure is used, the upright columns 101 are fixedly mounted at two ends of the cross beam 102, the first clamping grooves 101a and the second clamping grooves 102a on the upright columns 101 and the cross beam 102 are arranged corresponding to the thickness of the glass plate 103 to be mounted, sealant is put into the first clamping grooves 101a and the second clamping grooves 102a, then the glass plate 103 is inserted, the first clamping grooves 101a and the second clamping grooves 102a are favorable for enabling the glass plate 103 to be mounted more firmly, the first clamping grooves 101a and the second clamping grooves 102a are respectively close to two sides of the transverse cross section of the upright columns 101 and the cross beam 102 and are provided with two groups, so that two layers of glass plates 103 can be mounted on the upright columns 101 and the cross beam 102, and a gap is reserved between the two layers of glass plates 103. The glass curtain wall can prevent the accident caused by the dazzling and temporary blindness of people due to the noise light generated by the reflection of the glass curtain wall, and can also prevent the sunshine from being reduced and reflected into a room, so that the room temperature is averagely increased by 4-6 ℃, and the power consumption of the air conditioner is greatly increased.

The light shielding module 200 comprises a solar cell panel 201, a bottom plate 202, a first rotating shaft 203 and a second rotating shaft 204, the light shielding module 200 is arranged inside the cavity 104, the solar cell panel 201 is arranged on the bottom plate 202, two ends of the bottom plate 202 are respectively fixedly connected with one ends of the first rotating shaft 203 and the second rotating shaft 204, and the other ends of the first rotating shaft 203 and the second rotating shaft 204 are respectively rotatably connected with the upright post 101. The solar cell panel 201 is used for sunlight, performs photoelectric conversion, and performs green power generation, so that the environment is more environment-friendly, the bottom plate 202 is used for supporting and fixing the solar cell panel 201, the cross section of the bottom plate 202 can be set to be arc-shaped, and the structural strength of the bottom plate 202 is improved, and the bottom plate 202 is lighter; the base plate 202 can rotate on the upright 101 along with the first rotating shaft 203 and the second rotating shaft 204, and the angle between the base plate 202 and the solar cell panel 201 is adjusted; when outdoor sunlight is strong, the included angle between the bottom plate 202 and the solar cell panel 201 and the ground can be increased, so that the angles of the bottom plate 202 and the solar cell panel 201 are close to vertical, the effect of shielding sunlight can be achieved, the phenomenon that the power consumption of an air conditioner is greatly increased due to too fast rise of indoor temperature is avoided, meanwhile, the solar cell panel 201 is ensured to face outdoors, more sunlight can be collected by the solar cell panel 201, more photoelectric conversion is carried out, electricity can be saved, meanwhile, electricity can be generated, and the solar energy air conditioner is more environment-friendly; when outdoor sunshine is mild, included angle between bottom plate 202 and solar cell panel 201 and the ground can be reduced, and it is indoor to make sunshine pass the space entering between bottom plate 202, reduces the power consumptive of indoor illumination, makes solar cell panel 201 up simultaneously to solar cell panel 201 gathers sunshine and generates electricity, plays the time of reducing the energy consumption, can also generate electricity, environmental protection more.

Example 2

Referring to fig. 3 to 6, a second embodiment of the present invention is based on the previous embodiment, and is different from the previous embodiment.

Still include drive module 300, the inside cavity of stand 101 and crossbeam 102, drive module 300 sets up inside stand 101 and crossbeam 102, drive module 300 includes first piston head 301, dead lever 301, push pedal 303, scroll bar 304 and driving medium 305, first piston head 301 sliding connection crossbeam 102 inner wall, first piston head 301 fixed connection dead lever 301 one end, dead lever 301 other end fixed connection push pedal 303 one side, push pedal 303 opposite side is provided with pinion rack 303a, the meshing of pinion rack 303a is connected scroll bar 304, scroll bar 304 passes through driving medium 305 and connects first pivot 203. The driving module 300 is arranged inside the upright column 101 and the cross beam 102, which is beneficial to providing a protection effect for the driving module 300, and when the driving module is prevented from being exposed to the sun, the structure is more attractive, the first piston head 301 can push the fixing rod 301 to move when moving, the fixing rod 301 drives the toothed plate 303a to move through the push plate 303, the toothed plate 303a is meshed with and connected with the worm 304, the worm 304 is driven to rotate when the toothed plate 303a moves, the worm 304 rotates to drive the first rotating shaft 203 to rotate through the transmission part 305, the first rotating shaft 203 rotates to drive the bottom plate to rotate, the angles of the bottom plate 202 and the solar cell panel 201 are adjusted, so that the effect of shielding sunlight can be achieved, the situation that the indoor temperature rises too fast is avoided, the power consumption of an air conditioner is greatly increased, meanwhile, the solar cell panel 201 faces outdoors, the solar cell panel 201 can collect more sunlight, more photoelectric conversion is performed, and power can be generated while power is saved, is more environment-friendly.

The transmission member 305 comprises a first gear 305a, a second gear 305b, a rotating shaft 305c, a third gear 305d and a belt ring 305e, wherein a worm 304 is fixedly connected with the first gear 305a, two ends of the worm 304 are rotatably connected with the inner wall of the cross beam 102, the first gear 305a is engaged and connected with the second gear 305b, the second gear 305b is fixedly connected with the rotating shaft 305c, two ends of the rotating shaft 305c are rotatably connected and engaged and connected with the inner wall of the cross beam 102, the rotating shaft 305c is fixedly connected with the third gear 305d, the third gear 305d is engaged and connected with the inner wall of the belt ring 305e, the belt ring 305e is engaged and connected with the fourth gear 203a, the fourth gear 203a is arranged corresponding to the first rotating shaft 203, and the fourth gear 203a is fixedly connected with the first rotating shaft 203. The worm 304 rotates to drive the first gear 305a to rotate, the first gear 305a drives the second gear 305b, the rotating shaft 305c and the third gear 305d to rotate, the third gear 305d is located on the inner wall of one end of the belt ring 305e, the third gear 305d rotates to drive the belt ring 305e to rotate, the belt ring 305e drives the fourth gear 203a to rotate, the fourth gear 203a rotates to drive the first rotating shaft 203 to rotate, the first rotating shaft 203 rotates to drive the bottom plate to rotate, and the angles of the bottom plate 202 and the solar cell panel 201 are adjusted. After the angles of the bottom plate 202 and the solar cell panel 201 are adjusted, the worm 304 cannot be reversed, and the toothed plate 303a is pushed to move reversely, so that the included angle between the bottom plate 202 and the solar cell panel 201 and the ground can be prevented from being changed under the action of the gravity of the bottom plate 202 and the solar cell panel 201.

The inner wall of the beam 102 is provided with a limit strip 102b, the tooth plate 303a is provided with a limit groove 303b corresponding to the limit strip 102b, and the limit strip 102b is connected with the inner wall of the limit groove 303b in a sliding manner. When pinion rack 303a slides at crossbeam 102 inner wall, spacing groove 303b slides on spacing strip 102b, stability when being favorable to improving pinion rack 303a and removing.

The inner wall of the cross beam 102 is provided with a first spring 102c and a fixing ring 102d, one side of the first spring 102c is fixedly connected with a first piston head 301, the other end of the first spring 102c is fixedly connected with the fixing ring 102d, the outer wall of the fixing ring 102d is fixedly connected with the inner wall of the cross beam 102, and the fixing rod 301 sequentially penetrates through the first spring 102c and the fixing ring 102 d. When the first piston head 301 pushes the fixed rod 301 to move, the elastic force of the first spring 102c is overcome, and when the force pushing the first piston head 301 to move is removed, the first piston head 301 can be pushed to reset under the action of the elastic force of the first spring 102 c.

An air inlet hole 102e is arranged on the crossbeam 102, and the cavity 104 is communicated with the inside of the crossbeam 102 through the air inlet hole 102 e. The gas in the cavity 104 can be communicated with the inside of the cross beam 102 through the gas inlet holes 102e, when the gas is hot, the gas in the cavity 104 between the glass plates 103 is heated and expanded in volume, the gas enters the inside of the cross beam 102 through the gas inlet holes 102e, the air pressure in the inside of the cross beam 102 is increased, the first piston head 301 is pushed to move under the action of the air pressure, the first piston head 301 pushes the fixed rod 301 to move, the fixed rod 301 drives the toothed plate 303a to move through the push plate 303, the toothed plate 303a is meshed and connected with the worm 304, the worm plate 303a drives the worm 304 to rotate when moving, the worm 304 rotates to drive the first rotating shaft 203 to rotate through the transmission piece 305, the first rotating shaft 203 rotates to drive the bottom plate to rotate, the angles of the bottom plate 202 and the solar cell panel 201 are adjusted, the effect of shielding sunlight can be achieved, the situation that the indoor temperature is increased too fast to cause that the electricity consumption of the air conditioner is greatly increased is avoided, and meanwhile, the solar cell panel 201 faces outdoors, more sunshine can be gathered to solar cell panel 201, more photoelectric conversion is carried out, can also generate electricity when the power saving, environmental protection more. When the temperature is lowered, the temperature of the gas inside the cavity 104 is lowered, the gas pressure inside the cavity 104 and the cross beam 102 is reduced, no inference can be made on the first piston head 301, and at the moment, the first piston head 301 can be pushed to reset under the action of the elastic force of the first spring 102 c. Can play a role of automatically adjusting the angles of the base plate 202 and the solar cell panel 201.

The control module 400 further comprises a control module 400, the control module 400 comprises a second piston head 401, an electric push rod 402, a movable plate 403 and a second spring 404, the second piston head 401 is connected with the inner wall of the cross beam 102 in a sliding mode, the electric push rod 402 is arranged on one side, relatively far away from the first piston head 301, of the second piston head 401, the electric push rod 402 is connected with one side of the movable plate 403, the other side of the movable plate 403 is connected with the second spring 404, a vent hole 102f is formed in the cross beam 102, and the vent hole 102f is located at the position of the cross beam 102 where the second piston head 401 is located. When the weather is hot, the heated volume of the air inside the cavity 104 between the glass plates 103 expands, the air enters the inside of the cross beam 102 through the air inlet holes 102e, the air pressure inside the cross beam 102 increases, and after the first piston head 301 is pushed to move to the maximum stroke under the action of the air pressure, the included angle between the bottom plate 202 and the solar cell panel 201 is close to vertical, the angle between the bottom plate 202 and the solar cell panel 201 is close to vertical, and the rotation cannot be continued, at this time, the excessive air pressure can push the second piston head 401, the electric push rod 402 and the movable plate 403 to move against the second spring 404 (in this process, the electric push rod 402 does not work and can be regarded as a rod with a fixed length), when the second piston head 401 moves to expose the vent holes 102f, the redundant air is discharged from the vent holes 102, so that the pressure inside the cavity 104 is prevented from being excessive, and the glass plates 103 are broken due to exceeding the pressure bearing capacity thereof, the second spring 404 has a greater stiffness than the first spring 102c for self-protection.

Example 3

Referring to fig. 1 to 6, a third embodiment of the present invention is different from the previous embodiment in that the third embodiment is different from the previous embodiment.

The light shading module comprises a support module 100 and a light shading module 200, wherein the support module 100 comprises a glass plate 103, and a column 101 and a beam which are used for supporting and fixing the glass plate 103, the glass plate 103 is provided with two layers, and a cavity 104 is formed between the glass plates 103; two groups of first clamping grooves 101a and two groups of second clamping grooves 102a are respectively arranged close to two sides of the transverse cross section of the upright column 101 and two sides of the transverse cross section of the upright column 101 and the transverse cross section of the upright column 101 and the transverse cross section of the upright column 101 and the transverse cross section of.

The light shielding module 200 includes a solar cell panel 201, and a bottom plate 202 for supporting the solar cell panel 201, wherein the bottom plate 202 is rotatably disposed inside the cavity 104. The solar panel 201 and the bottom plate 202 are protected, the solar panel 201 is prevented from being damaged by wind, rain and rain, and the service life of the solar panel is prolonged.

The part between the first piston head 301 and the second piston head 401 inside the cross beam 102 is a movable cavity 102g, and the cavity 104 is communicated with the movable cavity 102g through an air inlet hole 102 e. When the weather is hot, the air inside the cavity 104 between the glass plates 103 is heated to expand in volume, the air enters the movable cavity 102g through the air inlet holes 102e, the air pressure inside the movable cavity 102g is increased, the first piston head 301 is pushed to move to the maximum stroke under the action of the air pressure, the included angle between the bottom plate 202 and the solar cell panel 201 and the ground is approximately vertical, the angle between the bottom plate 202 and the solar cell panel 201 is approximately vertical, the bottom plate 202 and the solar cell panel 201 cannot rotate continuously, the second piston head 401, the electric push rod 402 and the movable plate 403 are pushed by the excessive air pressure to move against the second spring 404 (the electric push rod 402 does not work in the process and can be regarded as a rod with fixed length), when the second piston head 401 moves to expose the vent hole 102f, the redundant air is discharged from the vent hole 102, the excessive pressure inside the cavity 104 is avoided, and the glass plate 103 is broken due to exceeding the pressure bearing capacity thereof, plays a self-protection role.

The control module 400 further comprises a storage battery 405 and a controller 406, the storage battery 405 is electrically connected with the solar cell panel 201, the storage battery 405 and the controller 406, the solar cell panel 201 is used for charging the storage battery 405, the storage battery 405 is used for supplying power to the electric push rod 402 and the controller 406, and the controller 406 establishes wireless connection with the handheld terminal, receives a control instruction and sends a driving instruction to the electric push rod 402. The controller 406 can be a single chip microcomputer TC15W4K56S4/IAP15W4K58S4, and the electric push rod 402 can extend or contract when receiving a driving command. For example, when the sunlight is not strong and the temperature is not high, the air pressure in the cavity 104 and the movable cavity 102g is not enough to drive the first piston head 301 to move against the elastic force of the first spring 102c, and when the included angle between the base plate 202 and the solar cell panel 201 and the ground needs to be actively adjusted, the mobile phone or the remote controller sends an adjusting instruction (closing or opening) to the controller 406, the base plate 202 blocks the sunlight when closing, the base plate 202 rotates when opening, the sunlight can pass through the gap between the base plates 202, and the controller 406 receives the controlling instruction and sends a driving instruction to the electric push rod 402.

When the electric push rod 402 receives a driving instruction to extend or shorten, when the electric push rod 40 extends, the second piston head 401 is pushed to move, the volume of the movable cavity 102g is compressed, so that the air pressure inside the movable cavity 102g and the cavity 104 is increased, the air pressure inside the movable cavity 102g is increased, the first piston head 301 is pushed to move under the action of the air pressure, the first piston head 301 pushes the fixed rod 301 to move, the fixed rod 301 drives the toothed plate 303a to move through the push plate 303, the toothed plate 303a is meshed and connected with the worm 304, the worm 304 is driven to rotate when the toothed plate 303a moves, the worm 304 rotates to drive the first rotating shaft 203 to rotate through the transmission piece 305, the first rotating shaft 203 rotates to drive the bottom plate to rotate, the angle between the bottom plate 202 and the solar cell panel 201 is adjusted, the sunlight shielding effect can be achieved, the active control and adjustment of the angle between the bottom plate 202 and the solar cell panel 201 are achieved, and the flexibility is stronger when the electric push rod 40 is used, is more convenient.

Claims (10)

1. The utility model provides an environmental protection glass curtain wall structure which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the supporting module (100) comprises an upright post (101), a cross beam (102) and glass plates (103), wherein a first clamping groove (101a) is formed in the upright post (101), a second clamping groove (102a) is formed in the cross beam (102), the glass plates (103) are respectively installed in the first clamping groove (101a) and the second clamping groove (102a), and a cavity (104) is formed between the glass plates (103);

shading module (200), shading module (200) includes solar cell panel (201), bottom plate (202), first pivot (203) and second pivot (204), shading module (200) set up inside cavity (104), and solar cell panel (201) sets up on bottom plate (202), and bottom plate (202) both ends are first pivot (203) of fixed connection and second pivot (204) one end respectively, first pivot (203) and second pivot (204) other end rotate respectively and connect stand (101).

2. The environmentally friendly glass curtain wall structure of claim 1, wherein: still include drive module (300), stand (101) and crossbeam (102) inside cavity, drive module (300) set up inside stand (101) and crossbeam (102), drive module (300) include first piston head (301), dead lever (301), push pedal (303), worm (304) and driving medium (305), first piston head (301) sliding connection crossbeam (102) inner wall, first piston head (301) fixed connection dead lever (301) one end, dead lever (301) other end fixed connection push pedal (303) one side, push pedal (303) opposite side is provided with pinion rack (303a), and worm (304) are connected in pinion rack (303a) meshing, and first pivot (203) are connected through driving medium (305) in worm (304).

3. The environmentally friendly glass curtain wall structure of claim 2, wherein: the transmission member (305) comprises a first gear (305a), a second gear (305b), a rotating shaft (305c), a third gear (305d) and a belt ring (305e), the worm (304) is fixedly connected with a first gear (305a), two ends of the worm (304) are rotatably connected with the inner wall of the cross beam (102), the first gear (305a) is meshed with a second gear (305b), the second gear (305b) is fixedly connected with a rotating shaft (305c), two ends of the rotating shaft (305c) are rotatably connected with the inner wall of the cross beam (102) in a meshed manner, the rotating shaft (305c) is fixedly connected with a third gear (305d), the third gear (305d) is meshed with the inner wall of a belt ring (305e), the belt ring (305e) is meshed with a fourth gear (203a), the fourth gear (203a) is arranged corresponding to the first rotating shaft (203), and the fourth gear (203a) is fixedly connected with the first rotating shaft (203).

4. The environmentally friendly glass curtain wall structure of claim 3, wherein: the inner wall of the cross beam (102) is provided with a limiting strip (102b), the toothed plate (303a) is provided with a limiting groove (303b) corresponding to the limiting strip (102b), and the limiting strip (102b) is in sliding connection with the inner wall of the limiting groove (303 b).

5. The environmentally friendly glass curtain wall structure of claim 4, wherein: the inner wall of the cross beam (102) is provided with a first spring (102c) and a fixing ring (102d), one side of the first spring (102c) is fixedly connected with a first piston head (301), the other end of the first spring (102c) is fixedly connected with the fixing ring (102d), the outer wall of the fixing ring (102d) is fixedly connected with the inner wall of the cross beam (102), and the fixing rod (301) sequentially penetrates through the first spring (102c) and the fixing ring (102 d).

6. The environmental protection glass curtain wall structure of claim 5, wherein: an air inlet hole (102e) is formed in the cross beam (102), and the cavity (104) is communicated with the interior of the cross beam (102) through the air inlet hole (102 e).

7. The environmentally friendly glass curtain wall structure of claim 6, wherein: the electric control device is characterized by further comprising a control module (400), wherein the control module (400) comprises a second piston head (401), an electric push rod (402), a movable plate (403) and a second spring (404), the second piston head (401) is connected with the inner wall of the cross beam (102) in a sliding mode, the electric push rod (402) is arranged on one side, away from the first piston head (301), of the second piston head (401), the electric push rod (402) is connected with one side of the movable plate (403), the other side of the movable plate (403) is connected with the second spring (404), a vent hole (102f) is formed in the cross beam (102), and the vent hole (102f) is located at the position of the cross beam (102) where the second piston head (401) is located.

8. The environmentally friendly glass curtain wall system of claims 1-7, wherein: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the glass plate fixing device comprises a support module (100), the glass plate (103), and the upright posts (101) and the cross beams for supporting and fixing the glass plate (103), wherein the glass plate (103) is provided with two layers, and a cavity (104) is formed between the glass plates (103);

the solar cell module comprises a light shading module (200), wherein the light shading module (200) comprises a solar cell panel (201) and a bottom plate (202) used for supporting the solar cell panel (201), and the bottom plate (202) is rotatably arranged in the cavity (104).

9. The environmentally friendly glass curtain wall system of claim 8, wherein: the part between the first piston head (301) and the second piston head (401) in the cross beam (102) is a movable cavity (102g), and the cavity body (104) is communicated with the movable cavity (102g) through an air inlet hole (102 e).

10. The environmentally friendly glass curtain wall system of claim 9, wherein: the solar energy electric power generation system is characterized in that the control module (400) further comprises a storage battery (405) and a controller (406), the storage battery (405) is electrically connected with the solar cell panel (201), the storage battery (405) and the controller (406), the solar cell panel (201) is used for charging the storage battery (405), the storage battery (405) is used for supplying power to the electric push rod (402) and the controller (406), and the controller (406) is used for establishing wireless connection with the handheld terminal, receiving a control instruction and sending a driving instruction to the electric push rod (402).

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