CN211623236U - Energy-saving sun-shading system of glass dome - Google Patents

Abstract

The utility model discloses an energy-conserving solar shading system of intelligent glass dome, it includes: the energy-saving sun-shading system comprises a transmission motor, a traction rod, louver boards, a transmission rod, a connecting rod, a frame, glass, a steel connecting piece, a motor fixing seat and a stand column. The device adopts intelligent control system, controls the opening and shutting of electric actuator control glass dome shutter plate, compares in artifical switching mode, and is more convenient, also safer.

Description

Energy-saving sun-shading system of glass dome

Technical Field

The utility model belongs to the technical field of the glass curtain wall, concretely relates to an energy-conserving solar shading system for glass dome.

Background

The conventional spherical glass curtain wall (dome) aims at a safe and stable structure and good heat preservation and heat insulation, but is too bright and causes light pollution under the condition of particularly good sunlight, and the heat insulation effect of the curtain wall is greatly weakened. The conventional sunshade system is to partially manufacture a sunshade curtain in a glass dome indoor, and has a certain limitation on the built-in effect.

Faithfully use novel patent CN207988245U discloses a dome glass curtain wall with sunshade tripe, including glass curtain wall, glass curtain wall's the outside is provided with shutter frame, shutter frame's inside is provided with movable tripe, the overhead tank has been seted up on glass curtain wall's top, the inside in overhead tank is provided with the octagon pipe, one side fixedly connected with winder of octagon pipe, the inside fixedly connected with stay cord of winder, the bottom of stay cord is provided with the handle, one side of winder is provided with the connecting rod, the fixed surface of connecting rod is connected with the reel, the surface of activity tripe is provided with the insulating layer, the inside of insulating layer is provided with the puigging, the inside of puigging is provided with the inoxidizing coating, the inside of inoxidizing coating is. It is essentially used for the sunshade of shutter, and can see from its figure that is not practical to spherical glass curtain wall, and in addition, the sunshade shutter that mentions in this utility model needs the manual work to open and shut, can not automated control.

If utility model CN206815608U discloses a dome glass curtain wall with sunshade tripe again, the concrete operation process of sunshade tripe as follows: firstly, hoisting an arc-shaped main structural beam to fix two ends of the main structural beam with a concrete structure, then installing a supporting steel keel, and welding and fixing the supporting steel keel and the main structural beam by adopting a sleeve support; and secondly, mounting a rivet nut on the upper surface of the support steel keel, and then connecting and fixing the aluminum alloy pin boss with the rivet nut through a stainless steel screw and then mounting a circular sealing connecting strip. And thirdly, after the lighting glass is installed, weather-proof sealant is filled between the glass, and then the glass is connected and compressed by using a connecting screw, an aluminum pressing plate and a pin boss. And fourthly, welding and fixing the circular steel hanging rods below the main structural beam, fixing the steel hanging beams in a threaded manner at the lower ends of the steel hanging rods through spherical hinge connecting pieces, and connecting the steel hanging beams through the spherical hinge connecting pieces. And fifthly, connecting the aluminum alloy louver blades with welding nuts on the steel hanging beam through a spherical hinge connecting piece below the steel hanging rod, designing the section of the sun-shading louver into a circular groove to enable the spherical hinge connecting piece to slide, and fixing the sun-shading louver by using a limiting block, a fixing screw and a set screw after the position of the sun-shading louver is adjusted in place. Therefore, the utility model discloses in the sunshade tripe that adopts also need artifical the adjustment, all need the workman to operate on the dome at the in-process that opens and shuts, workman's safety can not be ensured on the one hand, the application convenience of this sunshade tripe of on the other hand is relatively poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving solar shading system of intelligent glass dome utilizes motor control, makes its can be free lets the tripe open and shut. Through a good sun-shading design, the energy is saved, indoor light distribution can be enriched, and the building modeling and facade effects can be enriched. The microprocessor is adopted to intelligently control the opening and closing of the sun-shading system, so that the indoor temperature and brightness can be kept at a better temperature and brightness to the greatest extent.

In order to realize the purpose, the utility model discloses the technical scheme who takes is:

an energy-saving sun-shading system for an intelligent glass dome, comprising: the energy-saving sun-shading system comprises a transmission motor, a traction rod, louver boards, a transmission rod, a connecting rod, a frame, glass, a steel connecting piece, a motor fixing seat and a stand column, wherein the transmission motor is installed on the motor fixing seat and is connected with the transmission rod through a speed reducer, the transmission rod is hinged with the connecting rod, the connecting rod is arched and is hinged with the traction rod, the traction rod is hinged with the edges of the louver boards, the frame is even and symmetrically arranged, the louver boards are erected on the frame through a central shaft, and the glass is installed on the inner sides of the louver boards.

The intelligent control system comprises a wind speed sensor, a rainfall sensor, a signal receiver and a microprocessor, wherein the wind speed sensor and the rainfall sensor are connected with the signal receiver, the signal receiver is connected with the microprocessor, and the microprocessor is connected with the transmission motor.

Further, the traction rod, the transmission rod, the connecting rod and the frame are all made of stainless steel materials.

Further, the louver boards are in elongated oval shapes.

Furthermore, the louver boards are made of aluminum alloy materials.

Further, the energy-saving sun-shading system can be arranged in a blocking mode.

Further, the tilting angle of the louver does not exceed 75 °.

Furthermore, two sides of the louver boards are also provided with drainage grooves.

The utility model also provides a use method of the energy-conserving solar shading system of intelligent glass dome, this use method divide into automatic control and manual control, automatic control collects wind speed, rainfall information through air velocity transducer, rainfall sensor, transmits to signal receiver, is organized by signal receiver again, gathers to microprocessor, and microprocessor is through the operation, transmits the requirement of opening and shutting of shutter plate to driving motor to make driving motor drive shutter plate open and shut to the optimum angle; the manual control method is to control the transmission motor in a inching mode according to weather conditions so as to gradually adjust the proper angle of the louver boards.

The beneficial effects of the utility model reside in that: (1) the electric device is adopted to control the opening and closing of the glass dome louver boards, and compared with a manual opening and closing mode, the glass dome louver boards are more convenient and safer; (2) the system components are made of aluminum alloy and stainless steel, the aluminum alloy louver boards are low in density, negative pressure load of the glass dome is reduced, and oxidation resistance and corrosion resistance are good; the stainless steel frame can ensure that the system has enough strength; (3) the drainage channel plays a role in guiding rainwater to be discharged outwards and can be collected to be used as non-drinking water for the mansion; (4) the energy-saving sun-shading system can be arranged in blocks, is managed in a partition mode, and is opened or closed according to needs; (5) through intelligent control, can effectively adjust the angle of shutter plate for indoor be in better luminance and temperature environment.

Description of the drawings:

the invention itself, however, as well as many of the attendant advantages thereof, will be best understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein like reference numerals indicate like parts throughout the several views, and wherein:

FIG. 1 is a front view of the energy saving sunshade system of the present invention;

FIG. 2 is a schematic view of the energy-saving sunshade system of the present invention;

the reference numerals in fig. 1-2 are illustrated as follows: the device comprises a transmission motor 1, a traction rod 2, a louver board 3, a transmission rod 4, a connecting rod 5, a frame 6, glass 7, a steel connecting piece 8, a motor fixing seat 9 and a stand column 10.

Detailed Description

The utility model provides an energy-conserving solar shading system of intelligent glass dome, it includes: the energy-saving sun-shading system comprises a transmission motor (1), traction rods (2), louver boards (3), a transmission rod (4), a connecting rod (5), a frame (6), glass (7), a steel connecting piece (8), a motor fixing seat (9) and an upright post (10), wherein the transmission motor (1) is installed on the motor fixing seat (9) and is connected with the transmission rod (4) through a speed reducer, the transmission rod (4) is hinged with the connecting rod (5), the connecting rod (5) is arched and is hinged with the traction rods (2), the traction rods (2) are hinged with the edges of the louver boards (3), the number of the frames (6) is even and are symmetrically arranged, the louver boards (3) are erected on the frame (6) through a central shaft, and the glass (7) is installed on the inner side of the louver boards (3); the intelligent control system comprises a wind speed sensor, a rainfall sensor, a signal receiver and a microprocessor, wherein the wind speed sensor and the rainfall sensor are connected with the signal receiver, the signal receiver is connected with the microprocessor, and the microprocessor is connected with the transmission motor (1).

Through the connection of all parts, the motor can drive the louver boards to rotate around the central shaft so as to change the angle of the louver boards and further perform the sun-shading action.

The draw bar (2), the transmission rod (4), the connecting rod (5) and the frame (6) are made of stainless steel materials, and the stainless steel materials are wide in source, low in price, strong in anti-corrosion capability and suitable for outdoor members.

Louver board (3) are rectangular oval, louver board (3) are aluminum alloy material, because louver board (3) need install on glass upper portion, can not weight too big, but will guarantee longer life, and the aluminum alloy possesses the advantage that density is little, the antioxidant power is strong.

In the actual use process, if all the energy-saving sun-shading systems are integrated, the damage of one part of the energy-saving sun-shading systems can possibly cause the paralysis of the whole system, the energy-saving sun-shading systems can be arranged in blocks and can be adjusted according to indoor brightness, and the condition that the damage of the part causes the incapability of using the whole dome sun-shading system can be prevented.

The tilting angle of the louver board (3) does not exceed 75 degrees, and the louver board can not be closed due to overlarge rotating angle. The two sides of the louver boards (3) are also provided with drainage grooves which play a role in guiding rainwater to be discharged outwards and can be collected so as to be used as non-drinking water of a building, achieve waste water utilization and save the operating cost of the building.

The utility model also provides a use method of the energy-conserving solar shading system of intelligent glass dome, this use method divide into automatic control and manual control, automatic control collects wind speed, rainfall information through air velocity transducer, rainfall sensor, transmits to signal receiver, is organized by signal receiver again, gathers to microprocessor, and microprocessor is through the operation, transmits the requirement of opening and shutting of shutter plate to driving motor to make driving motor drive shutter plate open and shut to the optimum angle; in summer, the weather of thunderstorm is more and the weather change is quicker, the dome wind speed and rainfall information can be accurately acquired through the arrangement of the wind speed sensor and the rainfall sensor, and the transmission motor is driven to work through the operation of the microprocessor by combining the bearing strength of the louver boards, so that the louver boards are closed or adjusted to a proper small angle; building managers can also switch automatic control to manual control when needed, and the manual control method is that the transmission motor is controlled in a jogging mode to gradually adjust the proper angle of the louver boards or close the louver boards according to weather conditions or other needs, such as night in winter and in order to keep indoor heat.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics of the embodiments is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (7)

1. An energy efficient solar shading system for a glass dome, comprising: this system includes intelligence control system and energy-conserving solar shading system, energy-conserving solar shading system includes drive motor (1), traction lever (2), shutter plate (3), transfer line (4), connecting rod (5), frame (6), glass (7), steel connecting piece (8), motor fixing base (9), stand (10), its characterized in that: the transmission motor (1) is arranged on a motor fixing seat (9) and is connected with a transmission rod (4) through a speed reducer, the transmission rod (4) is hinged with the connecting rod (5), the connecting rod (5) is arched and is hinged with the traction rod (2), the traction rod (2) is hinged with the edge of the louver board (3), the number of frames (6) is even and are symmetrically arranged, the louver board (3) is erected on the frame (6) through a central shaft, and the glass (7) is arranged on the inner side of the louver board (3);

the intelligent control system comprises a wind speed sensor, a rainfall sensor, a signal receiver and a microprocessor, wherein the wind speed sensor and the rainfall sensor are connected with the signal receiver, the signal receiver is connected with the microprocessor, and the microprocessor is connected with the transmission motor (1).

2. The energy saving sun shade system of a glass dome of claim 1, wherein: the traction rod (2), the transmission rod (4), the connecting rod (5) and the frame (6) are all made of stainless steel materials.

3. The energy saving sun shade system of a glass dome of claim 1, wherein: the louver boards (3) are in a long-strip oval shape.

4. The energy saving sun shade system of a glass dome of claim 3, wherein: the louver boards (3) are made of aluminum alloy materials.

5. The energy saving sun shade system of a glass dome of claim 4, wherein: the tilting angle of the louver board (3) is not more than 75 degrees.

6. The energy saving sun shade system of a glass dome of claim 5, wherein: and drainage grooves are also formed in the two sides of the louver boards (3).

7. The energy saving sun shade system of a glass dome of claim 1, wherein: the energy-saving sun-shading system can be arranged in a blocking mode.

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