CN110847450B

CN110847450B - Curtain wall glass frame structure with building curtain wall ventilation function

Info

Publication number: CN110847450B
Application number: CN201911223622.XA
Authority: CN
Inventors: 田汉兰
Original assignee: Yunnan Construction And Decoration Group Co ltd
Current assignee: Yunnan Construction and Decoration Group Co.,Ltd.
Priority date: 2019-12-03
Filing date: 2019-12-03
Publication date: 2020-09-22
Anticipated expiration: 2039-12-03
Also published as: CN110847450A

Abstract

The invention relates to the technical field of glass curtain wall structures, in particular to a curtain wall glass frame structure with a building curtain wall ventilation function, which comprises a curtain wall frame, a communicating pipe, a solar energy storage mechanism, a top communicating mechanism, an illumination sensor and a control mechanism, wherein a first glass plate and a second glass plate are arranged at two sides of the curtain wall frame, the communicating pipe is arranged inside the bottom end of the curtain wall frame, a closed space is formed between the first glass plate and the second glass plate, the bottom end of the first glass plate is communicated with the inner side of the curtain wall through the communicating pipe, the solar energy storage mechanism is arranged in the closed space, the top communicating mechanism is arranged inside the top end of the curtain wall frame, the top end of the closed space is communicated with the outer side of the curtain wall through the top communicating mechanism, the illumination sensor is, the mechanism is electrically connected with the control module, and the device can effectively prevent the glass curtain wall from cracking at a high temperature.

Description

Curtain wall glass frame structure with building curtain wall ventilation function

Technical Field

The invention relates to the technical field of glass curtain wall structures, in particular to a curtain wall glass frame structure with a building curtain wall ventilation function.

Background

The glass curtain wall is a building external protective structure or decorative structure which is composed of a supporting structure system and glass, has certain displacement capacity relative to a main structure and does not bear the action of the main structure. The wall body has two types of single-layer glass and double-layer glass, and the glass curtain wall is an attractive and novel building wall body decoration method and is a remarkable characteristic of modern meaning high-rise building times. High-rise building's glass is at present basically not mobilizable, and the current and the security in the use of the ventilation cooling effect between the building wall body directly have an influence to curtain wall glass's life, and the season that illumination is stronger, the inside and outside difference in temperature of glass curtain wall is great, can make the glass two sides be heated unevenly, the outside is heated the inflation, the inboard receives cold can shrink, must lead to the fracture, thereby lead to the danger of falling object, thereby need a curtain wall glass frame construction that has ventilation function.

Chinese patent CN201810383961.3 discloses a solar energy-saving ventilated glass curtain wall, which comprises an angle-adjustable solar cell panel, wherein one side of the angle-adjustable solar cell panel is driven by a motor, the motor is controlled by a controllable ECU (electronic control Unit), the controllable ECU controls the rotation of a fan, the fan is connected with an embedded isolation type dust screen, the bottom of the embedded isolation type dust screen is connected with a light sensation sensor, the light sensation sensor is connected with a double-layer glass curtain wall structure, a magnetic suction strip is fixed above the double-layer glass curtain wall structure, the lower part of the double-layer glass curtain wall structure is connected with the embedded isolation type dust screen, the side edge of the embedded isolation type dust screen is connected with an air filter, the air filter is connected with a temperature and humidity sensor, the temperature and humidity sensor is connected with a motor, the motor is connected with the fan, and the fan is connected with an air, and the last two components are connected with the temperature and humidity sensor and the rechargeable USB interface.

The device is relatively complex in construction.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a curtain wall glass frame structure with a building curtain wall ventilation function, and the technical scheme solves the problem that the glass curtain wall is easy to crack in a high-temperature state.

In order to solve the technical problems, the invention provides the following technical scheme: including the curtain frame, communicating pipe, solar energy storage mechanism, top feed through mechanism and illumination sensor and control mechanism, first glass board and second glass board set up in curtain frame both sides, communicating pipe sets up inside curtain frame bottom, form the enclosure between first glass board and the second glass board and the bottom is through communicating pipe and the inboard intercommunication of curtain, solar energy storage mechanism sets up in the enclosure, top feed through mechanism sets up inside curtain frame top, the enclosure top is through top feed through mechanism and curtain outside intercommunication, illumination sensor sets up inside and the working end of curtain frame towards the curtain outside, control module sets up inside curtain frame bottom, solar energy storage mechanism, top feed through mechanism and illumination sensor all are connected with the control module electricity.

Preferably, the curtain wall framework comprises a bottom column, a top column, a first stand column and a second stand column, wherein the first stand column and the second stand column are vertically arranged at two ends of the bottom column, two ends of the top column are respectively arranged at the top ends of the first stand column and the second stand column, and the vertical projection plane of the top column coincides with the bottom column.

Preferably, a first communicating port and a second communicating port are respectively arranged in the two ends of the bottom column and the top column; the inner sides of the bottoms of the first upright post and the second upright post are respectively provided with a first air inlet and a second air inlet, and the outer sides of the top ends of the first upright post and the second upright post are respectively provided with a first air outlet and a second air outlet; the first communicating port at the two ends of the bottom column, the second air inlet and the first communicating port are communicated through a communicating pipe, and the second communicating port at the two ends of the top column, the first air outlet and the second air outlet are communicated through a top communicating mechanism.

Preferably, a first groove in the same axial direction is also arranged in the first groove; the solar energy storage mechanism comprises a mounting plate, a mounting frame, a rotating roller, a first bevel gear, a second bevel gear, a first rotating shaft, a first gear, a second gear, a first servo motor and a storage battery, wherein the solar panels are coaxially arranged at two sides of the mounting plate, the mounting frame is arranged at two ends of the mounting plate, the rotating roller is coaxially arranged on the mounting frame to form an integrated plate, a plurality of integrated plates are coaxially arranged in a closed space formed by a first glass plate and a second glass plate, two ends of the integrated plate are arranged between the first upright post and the second upright post through the rotation of the rotating roller, the first bevel gear is coaxially arranged on the rotating roller penetrating through a first groove, the plurality of second bevel gears are coaxially arranged on the first rotating shaft, the first rotating shaft is coaxially arranged in the first groove, the first bevel gear is meshed with the second bevel gear, the first gear is coaxially arranged at the bottom end of the first rotating shaft, the first servo motor is arranged in the first upright post, the second gear is coaxially arranged on the working shaft of the first servo motor, the first gear is meshed with the second gear, and the solar panel is electrically connected with the storage battery through the solar assembly.

Preferably, the top column and the first column are internally provided with a second placing groove and a first groove which are coaxial, the top communicating mechanism comprises a movable blocking mechanism and an air pumping mechanism, the movable blocking mechanism is arranged at two ends of the second placing groove, the air pumping mechanism is arranged at the top ends of the first groove and the second groove, the air pumping mechanism is communicated with the first air outlet and the second air outlet, the movable blocking mechanism is communicated with the second communicating port, and the movable blocking mechanism is communicated with the air pumping mechanism.

Preferably, the activity blocking mechanism is including first breather pipe, the second breather pipe, the through-hole ball, second pivot and second servo motor, activity blocking mechanism and the perpendicular intercommunication of second breather pipe, first breather pipe and the mechanism intercommunication of bleeding, second breather pipe and second intercommunication mouth intercommunication, the coaxial rotation of through-hole ball sets up inside activity blocking mechanism and second breather pipe intercommunication department, the inside perpendicular through-hole that is provided with of through-hole ball, the coaxial intercommunication that runs through of second pivot and first breather pipe is in through-hole ball fixed connection, second servo motor sets up in the second standing groove, second servo motor and the coaxial fixed connection of second pivot.

Preferably, the air exhaust mechanism comprises a third air inlet pipe, a fourth air inlet pipe, a turbofan and a third servo motor, the third air inlet pipe is vertically communicated with the fourth air inlet pipe, the third air inlet pipe is communicated with the first air inlet and the second air outlet, the fourth air inlet pipe is communicated with the movable blocking mechanism, the third servo motor is arranged at the top ends of the first groove and the second groove, a working shaft of the third servo motor coaxially penetrates through the communicating position with the third air inlet pipe and is fixedly connected with the turbofan, and the turbofan is close to the air outlet.

Preferably, the solar cell panel further comprises a manual rotating mechanism, the manual rotating mechanism comprises a third bevel gear, a fourth bevel gear, a third rotating shaft, a fourth rotating shaft and a rotating head, the third rotating shaft penetrates through the first upright post and is fixedly connected with a rotating shaft of the solar energy storage mechanism, the fourth rotating shaft is rotatably arranged inside the first groove, the third bevel gear and the fourth bevel gear are respectively and coaxially arranged on the third rotating shaft and the fourth rotating shaft, the third bevel gear is meshed with the fourth bevel gear, and the rotating head is rotatably arranged on the inner side of the first upright post and penetrates through the first upright post and the fourth rotating shaft and is coaxially and fixedly connected with the first upright post.

Preferably, the curtain wall frame further comprises an embedded isolation type dust screen, and the embedded isolation type dust screen is coaxially arranged on the first air inlet, the first air outlet, the second air inlet and the second air outlet.

Preferably, the curtain wall frame further comprises an anti-fouling cover, and the anti-fouling cover is arranged on the outer sides of the first air outlet and the second air outlet.

Compared with the prior art, the invention has the beneficial effects that:

a worker installs a curtain wall frame on a building, when the illumination sensor detects that the illumination is too strong, a signal is generated to the control module, so that the control module controls the solar energy storage mechanism to store energy, the top communication mechanism is opened at the same time, so that the top communication mechanism exhausts air, because the bottom end of the closed space formed between the first glass plate and the second glass plate is communicated with the inner side of the curtain wall through the communication pipe, and the top end of the closed space is communicated with the outer side of the curtain wall through the top communication mechanism, so that cold air in the building is exhausted outwards through the closed space and the top communication mechanism through the communication pipe, in the process, the cold air cools the first glass plate and the second glass plate, the air convection inside and outside the curtain wall is realized, the glass is prevented from self-explosion or cracks under the condition of sunshine exposure, and electricity stored by the solar energy storage mechanism can provide power for equipment, thereby realizing the effects of energy conservation and environmental protection.

The device automatically provides electric power through solar energy, is energy-saving and environment-friendly, and can effectively prevent the glass curtain wall from cracking at a high temperature.

Drawings

FIG. 1 is an internal structural view of the present invention;

FIG. 2 is a perspective view of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 is a sectional view taken along line A-A of FIG. 3;

FIG. 5 is a partial enlarged view of FIG. 3 at B;

FIG. 6 is a side view of the present invention;

FIG. 7 is a sectional view taken along line C-C of FIG. 6;

FIG. 8 is a perspective view of the top communication mechanism of the present invention;

FIG. 9 is a front view of the top communication mechanism of the present invention;

FIG. 10 is a cross-sectional view taken along line D-D of FIG. 9;

FIG. 11 is a sectional view taken along line E-E of FIG. 9;

FIG. 12 is a first perspective view of the curtain wall framing of the present invention;

FIG. 13 is a second perspective view of the curtain wall framing of the present invention;

figure 14 is a perspective view of a solar panel of the present invention.

The reference numbers in the figures are:

1. a curtain wall frame; 1a, a bottom pillar; 1a1, a first communication port; 1a2, a first placement groove; 1b, a top pillar; 1b1, a second communication port; 1b2, second standing groove; 1c, a first upright post; 1c1, a first air inlet; 1c2, a first air outlet; 1c3, a first groove; 1d, a second upright post; 1d1, second air inlet; 1d2, second air outlet; 1d3, second groove; 1e, embedding an isolated dustproof net; 1f, an antifouling cover;

2. a first glass plate;

3. a second glass plate;

4. a communicating pipe;

5. a solar energy storage mechanism; 5a, a solar panel; 5b, mounting plates; 5c, placing a frame; 5d, rotating the roller; 5e, a first bevel gear; 5f, a second bevel gear; 5g, a first rotating shaft; 5h, a first gear; 5i, a second gear; 5j, a first servo motor; 5k, a storage battery;

6. a top communicating mechanism; 6a, a movable blocking mechanism; 6a1, a first vent pipe; 6a2, a second vent pipe; 6a3, through-hole ball; 6a4, a second rotating shaft; 6a5, a second servomotor; 6b, an air exhaust mechanism; 6b1, a third vent pipe; 6b2, a fourth air pipe; 6b3, turbofan; 6b4, third servomotor;

7. an illumination sensor;

8. a manual rotation mechanism; 8a, a third bevel gear; 8b, a fourth bevel gear; 8c, a third rotating shaft; 8d, a fourth rotating shaft; 8e, rotating the head.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 14, a curtain wall glass frame structure with a building curtain wall ventilation function comprises a curtain wall frame 1, a communication pipe 4, a solar energy storage mechanism 5, a top communication mechanism 6, an illumination sensor 7 and a control mechanism, wherein a first glass plate 2 and a second glass plate 3 are arranged at two sides of the curtain wall frame 1, the communication pipe 4 is arranged inside the bottom end of the curtain wall frame 1, a closed space is formed between the first glass plate 2 and the second glass plate 3, the bottom end of the closed space is communicated with the inner side of the curtain wall through the communication pipe 4, the solar energy storage mechanism 5 is arranged in the closed space, the top communication mechanism 6 is arranged inside the top end of the curtain wall frame 1, the top end of the closed space is communicated with the outer side of the curtain wall through the top communication mechanism 6, the illumination sensor 7 is arranged inside the curtain wall frame, the working end of the, the solar energy storage mechanism 5, the top communicating mechanism 6 and the illumination sensor 7 are all electrically connected with the control module.

A worker installs the curtain wall frame 1 on a large building, when the illumination sensor 7 detects that the illumination is too strong, a signal is generated to the control module, so that the control module controls the solar energy storage mechanism 5 to store energy, the top communication mechanism 6 is opened at the same time, so that the top communication mechanism 6 is pumped, because the bottom end of the closed space formed between the first glass plate 2 and the second glass plate 3 is communicated with the inner side of the curtain wall through the communication pipe 4, and the top end of the closed space is communicated with the outer side of the curtain wall through the top communication mechanism 6, so that cold air in the building is discharged outwards through the communication pipe 4, the closed space and the top communication mechanism 6, in the process, the cold air cools the first glass plate 2 and the second glass plate 3, so that the air convection inside and outside the curtain wall is realized, and the self-explosion or crack of the glass under the condition of sun exposure is avoided, and the electricity stored by the solar energy storage mechanism 5 can provide power for the equipment, thereby realizing the effects of energy conservation and environmental protection.

Curtain wall frame 1 is including sill pillar 1a, fore-set 1b, first stand 1c and second stand 1d, and vertical setting at sill pillar 1a both ends of first stand 1c and second stand 1d, and fore-set 1b both ends set up respectively on first stand 1c and second stand 1d top, and the vertical projection face of fore-set 1b coincides with sill pillar 1 a.

First stand 1c and the vertical setting of second stand 1d are at sill pillar 1a both ends, and top post 1b both ends set up respectively on first stand 1c and second stand 1d top, and the vertical projection face of top post 1b coincides with sill pillar 1a to make other mechanisms of mechanism formation an organic whole easily installation.

A first communication port 1a1 and a second communication port 1b1 are respectively arranged in the two ends of the bottom column 1a and the top column 1 b; the inner sides of the bottoms of the first upright post 1c and the second upright post 1d are respectively provided with a first air inlet 1c1 and a second air inlet 1d1, and the outer sides of the top ends of the first upright post 1c and the second upright post 1d are respectively provided with a first air outlet 1c2 and a second air outlet 1d 2; the first communication port 1a1 at both ends of the bottom pillar 1a, the second inlet port 1d1 and the first communication port 1a1 are communicated through the communication pipe 4, and the second communication port 1b1 at both ends of the top pillar 1b, the first outlet port 1c2 and the second outlet port 1d2 are communicated through the top communication mechanism 6.

The outer sides of the top ends of the first upright post 1c and the second upright post 1d are respectively provided with a first air outlet 1c2 and a second air outlet 1d 2; first intercommunication mouth 1a1 and second air inlet 1d1 and first intercommunication mouth 1a1 in bottom column 1a both ends all communicate through communicating pipe 4, and top column 1b both ends second intercommunication mouth 1b1 and first gas outlet 1c2 and second gas outlet 1d2 all communicate through top communicating mechanism 6 to when the glass curtain wall outside temperature was too high, the accessible was opened top communicating mechanism 6 and is made the inside cold air of building can pass through the passageway, thereby reduces the temperature between the glass board, thereby prevents that the glass board from appearing spontaneous explosion or rupture phenomenon.

A first coaxial groove 1c3 is also arranged in the first groove 1c 3; the solar energy storage mechanism 5 comprises a mounting plate 5a1, a mounting plate 5b, a placing frame 5c, a rotating roller 5d, a first bevel gear 5e, a second bevel gear 5f, a first rotating shaft 5g, a first gear 5h, a second gear 5i, a first servo motor 5j and a storage battery 5k, wherein the solar panels 5a are coaxially arranged at two sides of the mounting plate 5b, the placing frames 5c are arranged at two ends of the mounting plate 5b, the rotating roller 5d is coaxially arranged on the placing frame 5c to form an integrated plate, the integrated plates are coaxially arranged in a closed space formed by a first glass plate 2 and a second glass plate 3, two ends of the integrated plate are coaxially arranged between the first upright post 1c and the second upright post 1d through the rotating roller 5d, the first bevel gear 5e is coaxially arranged on the rotating roller 5d penetrating through a first groove 1c3, the second bevel gears 5f are coaxially arranged on the first rotating shaft 5g, the first rotating shaft 5g is coaxially arranged in a first groove 3, the first bevel gear 5e is meshed with the second bevel gear 5f, the first gear 5h is coaxially arranged at the bottom end of the first rotating shaft 5g, the first servo motor 5j is arranged in the first upright post 1c, the second gear 5i is coaxially arranged on a working shaft of the first servo motor 5j, the first gear 5h is meshed with the second gear 5i, and the solar panel 5a is electrically connected with the storage battery 5k through a solar assembly.

The solar energy storage mechanism 5 is used for collecting solar energy and converting the solar energy into electric energy so as to store the electric energy and maintain the normal operation of the mechanism, the solar panels 5a are coaxially arranged at two sides of the mounting plate 5b, the placing frames 5c are arranged at two ends of the mounting plate 5b, the rotating rollers 5d are coaxially arranged on the placing frames 5c to form an integrated plate, a plurality of integrated plates are coaxially arranged in the closed space formed by the first glass plate 2 and the second glass plate 3, two ends of the integrated plate are rotatably arranged between the first upright post 1c and the second upright post 1d through the rotating rollers 5d, the first bevel gear 5e is coaxially arranged on the rotating roller 5d penetrating through the first groove 1c3, a plurality of second bevel gears 5f are coaxially arranged on the first rotating shaft 5g, the first rotating shaft 5g is coaxially rotatably arranged in the first groove 1c3, the first bevel gear 5e is meshed with the second bevel gear 5f, the first gear 5h is coaxially arranged at the bottom end of the first rotating shaft 5g, the first servo motor 5j is arranged in the first upright post 1c, the second gear 5i is coaxially arranged on the working shaft of the first servo motor 5j, the first gear 5h is meshed with the second gear 5i, so that when the first servo motor 5j works, the solar panel 5a can rotate in a closed space formed by the first glass plate 2 and the second glass plate 3 through the rotating first rotating shaft 5g, on one hand, the solar panel can absorb solar energy, on the other hand, the solar panel can also be used for shading, and the solar panel 5a is electrically connected with the storage battery 5k through a solar assembly, so that the solar energy is converted into electric energy to be utilized.

The top column 1b and the first column 1c are also internally provided with a second placing groove 1b2 and a first groove 1c3 in the same axial direction respectively, the top communicating mechanism 6 comprises a movable blocking mechanism 6a and an air suction mechanism 6b, the movable blocking mechanism 6a is arranged at two ends of the second placing groove 1b2, the air suction mechanism 6b is arranged at the top ends of the first groove 1c3 and the second groove 1d3, the air suction mechanism 6b is communicated with both the first air outlet 1c2 and the second air outlet 1d2, the movable blocking mechanism 6a is communicated with the second communicating port 1b1, and the movable blocking mechanism 6a is communicated with the air suction mechanism 6 b.

The top communication mechanism 6 is used for discharging cold air in the building outwards, and the cold air can cool the glass in the traveling process, thereby preventing the glass from cracking, the movable blocking mechanism 6a is arranged at two ends of the second placing groove 1b2, the air exhaust mechanism 6b is arranged at the top ends of the first groove 1c3 and the second groove 1d3, the air exhaust mechanism 6b is communicated with the first air outlet 1c2 and the second air outlet 1d2, the movable blocking mechanism 6a is communicated with the second communicating port 1b1, the movable blocking mechanism 6a is communicated with the air exhaust mechanism 6b, when the temperature is normal, the movable blocking mechanism 6a and the air exhaust mechanism 6b are both closed, thereby preventing the external water vapor from entering the frame to erode the frame, when the temperature is too high, the movable blocking mechanism 6a and the air exhaust mechanism 6b are both opened, so that the air extracting mechanism 6b can extract the cold air inside the building to cool the glass.

The movable blocking mechanism 6a comprises a first vent pipe 6a1, a second vent pipe 6a2, a through hole ball 6a3, a second rotating shaft 6a4 and a second servo motor 6a5, the movable blocking mechanism 6a is vertically communicated with the second vent pipe 6a2, the first vent pipe 6a1 is communicated with the air suction mechanism 6b, the second vent pipe 6a2 is communicated with the second communication port 1b1, the through hole ball 6a3 is coaxially and rotatably arranged inside the communication part of the movable blocking mechanism 6a and the second vent pipe 6a2, the through hole ball 6a3 is internally provided with a vertical through hole, the second rotating shaft 6a4 is coaxially communicated with the first vent pipe 6a1 in a through hole ball 6a3 fixed connection, the second servo motor 6a5 is arranged in a second placing groove 1b2, and the second servo motor 6a5 is coaxially and fixedly connected with the second rotating shaft 6a 4.

The movable blocking mechanism 6a and the second vent pipe 6a2 are vertically communicated, while the first vent pipe 6a1 is communicated with the suction mechanism 6b, and the second vent pipe 6a2 is communicated with the second communication port 1b1, a through hole ball 6a3 is coaxially and rotatably provided inside the place where the movable blocking mechanism 6a and the second vent pipe 6a2 are communicated, a vertical through hole is provided inside the through hole ball 6a3, a second rotating shaft 6a4 is coaxially and penetratingly communicated with the first vent pipe 6a1 at a through hole ball 6a3 fixedly connected, while the second servo motor 6a5 is provided in the second placing groove 1b2, and the second servo motor 6a5 is coaxially and fixedly connected with the second rotating shaft 6a4, so that when the second servo motor 6a5 rotates by a certain angle, the through hole ball 6a3 is positioned inside the place where the movable blocking mechanism 6a and the second vent pipe 6a2 are communicated, thereby making the first vent pipe 6a1 and the first vent pipe 6a2 communicate through the vertical through hole 2, thereby enabling the extraction of cold air.

The air extracting mechanism 6b comprises a third air passing pipe 6b1, a fourth air passing pipe 6b2, a turbofan 6b3 and a third servo motor 6b4, the third air passing pipe 6b1 is vertically communicated with the fourth air passing pipe 6b2, the third air passing pipe 6b1 is communicated with both the first air inlet 1c1 and the second air outlet 1d2, the fourth air passing pipe 6b2 is communicated with the movable blocking mechanism 6a, the third servo motor 6b4 is arranged at the top ends of the first groove 1c3 and the second groove 1d3, a working shaft of the third servo motor 6b4 is coaxially communicated with the third air passing pipe 6b1 in a penetrating way and is coaxially and fixedly connected with the turbofan 6b3, and the turbofan 6b3 is close to the air outlet.

The third vent pipe 6b1 is vertically communicated with the fourth vent pipe 6b2, and the third vent pipe 6b1 is communicated with both the first air inlet 1c1 and the second air outlet 1d2, and the fourth air outlet pipe 6b2 is communicated with the movable blocking mechanism 6a, the third servo motor 6b4 is arranged at the top ends of the first groove 1c3 and the second groove 1d3, the working shaft of the third servo motor 6b4 is coaxially penetrated and communicated with the third air outlet pipe 6b1 and is coaxially and fixedly connected with the turbofan 6b3, the turbofan 6b3 is close to the air outlet, when the third servo motor 6b4 is rotated, the turbo fan 6b3 is rotated in the fourth air passage 6b2, due to the structural characteristics of the turbofan 6b3, the air inside the curtain wall is pumped out and exhausted to the outside, therefore, the pressure inside the curtain wall is reduced, and cold air inside a building can enter the curtain wall through the air inlet, so that the temperature of glass is reduced.

Still including manual rotary mechanism 8, manual rotary mechanism 8 is including third bevel gear 8a, fourth bevel gear 8b, third pivot 8c, fourth pivot 8d and rotating head 8e, third pivot 8c runs through first stand 1c and solar energy storage mechanism 5 axis of rotation fixed connection, fourth pivot 8d rotates and sets up inside first recess 1c3, third bevel gear 8a and fourth bevel gear 8b are coaxial arrangement respectively on third pivot 8c and fourth pivot 8d, third bevel gear 8a and fourth bevel gear 8b mesh, rotating head 8e rotates and sets up inboard in first stand 1c and runs through the coaxial fixed connection of first stand 1c and fourth pivot 8 d.

The fourth rotating shaft 8d is rotatably arranged inside the first groove 1c3, the third bevel gear 8a and the fourth bevel gear 8b are coaxially mounted on the third rotating shaft 8c and the fourth rotating shaft 8d, respectively, the third bevel gear 8a is engaged with the fourth bevel gear 8b, and the rotating head 8e is rotatably arranged inside the first upright post 1c and coaxially and fixedly connected with the fourth rotating shaft 8d through the first upright post 1c, when the temperature is normal and the mechanism is not rotating, a worker can rotate the rotating head 8e to rotate the fourth rotating shaft 8d, so that the engaged third bevel gear 8a and the engaged fourth bevel gear 8b rotate with each other, so that the third bevel gear 8a rotates the third rotating shaft 8c to rotate the solar panel 5a inside the glass curtain wall, thereby shading,

the curtain wall frame 1 further comprises an embedded isolation type dust screen 1e, and the embedded isolation type dust screen 1e is coaxially arranged on the first air inlet 1c1, the first air outlet 1c2, the second air inlet 1d1 and the second air outlet 1d 2.

Through set up embedded isolated dust screen 1e on first air inlet 1c1, first gas outlet 1c2, second air inlet 1d1 and second gas outlet 1d2 to prevent that the dust from getting into inside the frame construction, thereby make the inboard dust that is infected with of glass, thereby influence glass curtain wall sight.

The curtain wall frame 1 further includes a dirt protector 1f, and the dirt protector 1f is disposed outside the first air outlet 1c2 and the second air outlet 1d 2.

The dirt protector 1f is disposed outside the first air outlet 1c2 and the second air outlet 1d2, and can prevent rainwater from entering the interior of the frame through the first air outlet 1c2 and the second air outlet 1d2, thereby reducing the service life of the frame.

The working principle of the invention is as follows:

Claims

1. A curtain wall glass frame structure with a building curtain wall ventilation function is characterized by comprising a curtain wall frame (1), the curtain wall frame (1), a communication pipe (4), a solar energy storage mechanism (5), a top communication mechanism (6), an illumination sensor (7) and a control mechanism, wherein a first glass plate (2) and a second glass plate (3) are arranged at two sides of the curtain wall frame (1), the communication pipe (4) is arranged inside the bottom end of the curtain wall frame (1), a closed space is formed between the first glass plate (2) and the second glass plate (3), the bottom end of the closed space is communicated with the inner side of a curtain wall through the communication pipe (4), the solar energy storage mechanism (5) is arranged in the closed space, the top communication mechanism (6) is arranged inside the top end of the curtain wall frame (1), the top end of the closed space is communicated with the outer side of the curtain wall through the top communication mechanism (6), the illumination sensor (7) is arranged in the curtain wall framework, the working end of the illumination sensor faces the outer side of the curtain wall, the control module is arranged in the bottom end of the curtain wall framework (1), and the solar energy storage mechanism (5), the top communicating mechanism (6) and the illumination sensor (7) are electrically connected with the control module; the curtain wall framework (1) comprises a bottom column (1 a), a top column (1 b), a first upright column (1 c) and a second upright column (1 d), wherein the first upright column (1 c) and the second upright column (1 d) are vertically arranged at two ends of the bottom column (1 a), two ends of the top column (1 b) are respectively arranged at the top ends of the first upright column (1 c) and the second upright column (1 d), and the vertical projection plane of the top column (1 b) is superposed with the bottom column (1 a); a first communication port (1 a 1) and a second communication port (1 b 1) are respectively arranged in the two ends of the bottom column (1 a) and the top column (1 b); the inner sides of the bottoms of the first upright post (1 c) and the second upright post (1 d) are respectively provided with a first air inlet (1 c 1) and a second air inlet (1 d 1), and the outer sides of the top ends of the first upright post (1 c) and the second upright post (1 d) are respectively provided with a first air outlet (1 c 2) and a second air outlet (1 d 2); the first communication port (1 a 1) at the two ends of the bottom column (1 a) is communicated with the second air inlet (1 d 1) and the first communication port (1 a 1) through the communication pipe (4), and the second communication port (1 b 1) at the two ends of the top column (1 b) is communicated with the first air outlet (1 c 2) and the second air outlet (1 d 2) through the top communication mechanism (6); the top column (1 b) and the first upright column (1 c) are internally provided with a second placing groove (1 b 2) and a first groove (1 c 3) which are coaxial, the top communicating mechanism (6) comprises a movable blocking mechanism (6 a) and an air extracting mechanism (6 b), the movable blocking mechanism (6 a) is arranged at two ends of the second placing groove (1 b 2), the air extracting mechanism (6 b) is arranged at the top ends of the first groove (1 c 3) and the second groove (1 d 3), the air extracting mechanism (6 b) is communicated with the first air outlet (1 c 2) and the second air outlet (1 d 2), the movable blocking mechanism (6 a) is communicated with the second communicating port (1 b 1), and the movable blocking mechanism (6 a) is communicated with the air extracting mechanism (6 b); the movable blocking mechanism (6 a) comprises a first vent pipe (6 a 1), a second vent pipe (6 a 2), a vent ball (6 a 3), a second rotating shaft (6 a 4) and a second servo motor (6 a 5), the movable blocking mechanism (6 a) is vertically communicated with the second vent pipe (6 a 2), the first vent pipe (6 a 1) is communicated with the air suction mechanism (6 b), the second vent pipe (6 a 2) is communicated with a second communication port (1 b 1), the vent ball (6 a 3) is coaxially and rotatably arranged in the communication position of the movable blocking mechanism (6 a) and the second vent pipe (6 a 2), the vertical through hole is arranged in the vent ball (6 a 3), the second rotating shaft (6 a 4) is coaxially communicated with the first vent pipe (6 a 1) and fixedly connected with the vent ball (6 a 3), and the second servo motor (6 a 5) is arranged in a second placing groove (2), the second servo motor (6 a 5) is coaxially and fixedly connected with the second rotating shaft (6 a 4); the air extracting mechanism (6 b) comprises a third air through pipe (6 b 1), a fourth air through pipe (6 b 2), a turbofan (6 b 3) and a third servo motor (6 b 4), the third air through pipe (6 b 1) is vertically communicated with the fourth air through pipe (6 b 2), the third air through pipe (6 b 1) is communicated with both a first air inlet (1 c 1) and a second air outlet (1 d 2), the fourth air through pipe (6 b 2) is communicated with the movable blocking mechanism (6 a), the third servo motor (6 b 4) is arranged at the top end of the first groove (1 c 3) and the second groove (1 d 3), the working shaft of the third servo motor (6 b 4) is coaxially communicated with the third air through pipe (6 b 1) in a penetrating mode and is coaxially and fixedly connected with the turbofan (6 b 3), and the turbofan (6 b 3) is close to the air outlet.

2. A curtain wall glass frame structure with building curtain wall ventilation function as claimed in claim 1, wherein the first groove (1 c 3) is internally provided with a first coaxial groove (1 c 3); the solar energy storage mechanism (5) comprises a solar energy storage mechanism (5 a 1), a mounting plate (5 b), a placing frame (5 c), a rotating roller (5 d), a first bevel gear (5 e), a second bevel gear (5 f), a first rotating shaft (5 g), a first gear (5 h), a second gear (5 i), a first servo motor (5 j) and a storage battery (5 k), wherein the solar panels (5 a) are coaxially arranged on two sides of the mounting plate (5 b), the placing frame (5 c) is arranged on two ends of the mounting plate (5 b), the rotating roller (5 d) is coaxially arranged on the placing frame (5 c) to form an integrated plate, a plurality of integrated plates are coaxially arranged in a closed space formed by a first glass plate (2) and a second glass plate (3), two ends of the integrated plate are rotatably arranged between the first upright column (1 c) and the second upright column (1 d) through the rotating roller (5 d), the first bevel gear (5 e) is arranged on the rotating roller (5 d) which coaxially penetrates through a first groove (1 c 3), the plurality of second bevel gears (5 f) are coaxially arranged on the first rotating shaft (5 g), the first rotating shaft (5 g) is coaxially and rotatably arranged in the first groove (1 c 3), the first bevel gear (5 e) is meshed with the second bevel gears (5 f), the first gear (5 h) is coaxially arranged at the bottom end of the first rotating shaft (5 g), the first servo motor (5 j) is arranged in the first upright post (1 c), the second gear (5 i) is coaxially arranged on the working shaft of the first servo motor (5 j), the first gear (5 h) is meshed with the second gear (5 i), and the solar panel (5 a) is electrically connected with the storage battery (5 k) through a solar assembly.

3. The curtain wall glass frame structure with the building curtain wall ventilation function according to claim 1, further comprising a manual rotation mechanism (8), wherein the manual rotation mechanism (8) comprises a third bevel gear (8 a), a fourth bevel gear (8 b), a third rotation shaft (8 c), a fourth rotation shaft (8 d) and a rotation head (8 e), the third rotation shaft (8 c) penetrates through the first upright post (1 c) and is fixedly connected with a rotation shaft of the solar energy storage mechanism (5), the fourth rotation shaft (8 d) is rotatably arranged in the first groove (1 c 3), the third bevel gear (8 a) and the fourth bevel gear (8 b) are coaxially mounted on the third rotation shaft (8 c) and the fourth rotation shaft (8 d), the third bevel gear (8 a) is meshed with the fourth bevel gear (8 b), and the rotation head (8 e) is rotatably arranged inside the first upright post (1 c) and penetrates through the first upright post (1 c) and is coaxially and fixedly connected with the fourth rotation shaft (8 d).

4. The curtain wall glass frame structure with the building curtain wall ventilation function of claim 1, wherein the curtain wall frame (1) further comprises an embedded isolation type dust screen (1 e), and the embedded isolation type dust screen (1 e) is coaxially arranged on the first air inlet (1 c 1), the first air outlet (1 c 2), the second air inlet (1 d 1) and the second air outlet (1 d 2).

5. The curtain wall glass frame structure with the building curtain wall ventilation function as claimed in claim 1, wherein the curtain wall frame (1) further comprises an anti-fouling cover (1 f), and the anti-fouling cover (1 f) is arranged outside the first air outlet (1 c 2) and the second air outlet (1 d 2).