CN115434623A

CN115434623A - Ventilation skylight based on intelligent control

Info

Publication number: CN115434623A
Application number: CN202210996165.3A
Authority: CN
Inventors: 毛海林; 蔡鹏�; 祁亦飞; 赵凤仪
Original assignee: Jingjiang Tambert Environmental Science And Technology Co ltd
Current assignee: Jingjiang Tambert Environmental Science And Technology Co ltd
Priority date: 2022-08-19
Filing date: 2022-08-19
Publication date: 2022-12-06

Abstract

The invention discloses a ventilation skylight based on intelligent control, relates to the technical field of ventilation skylights, and aims to solve the problems that the existing ventilation skylight is low in flexibility, cannot automatically regulate and control the size of a ventilation opening according to an external environment, and cannot automatically regulate and control the size of the ventilation opening according to an internal environment of a building. The ventilation skylight structure comprises a structure framework, a light-transmitting skylight and an electric louver component, wherein the structure framework comprises a plurality of cross beams and a plurality of vertical beams, the cross beams are located at the upper end of the structure framework and are located at the lower end of the structure framework, the vertical beams are located at two sides of the lower end of the cross beams respectively and are arranged between the cross beams, a first mounting groove is formed between the cross beams, a second mounting groove is formed between the vertical beams, the light-transmitting skylight is located on the inner side of the first mounting groove, the electric louver component is located on the inner side of the second mounting groove, and the light-transmitting skylight is located at the top end of the ventilation skylight structure.

Description

Ventilation skylight based on intelligent control

Technical Field

The invention relates to the technical field of ventilation skylights, in particular to a ventilation skylight based on intelligent control.

Background

The ventilating skylight is mainly used for ventilating air indoors and outdoors in a building so as to ventilate indoors, thereby improving indoor air quality;

for example, chinese granted patent publication No. CN215167289U (a ventilation skylight): the ventilating skylight is ingenious in design, external rainwater or sundries can be prevented from entering the inside through suspension design and arrangement of the skirt edge, the skylight can be controlled to be opened and closed through electrification of the electromagnetic coil, and the practicability is high;

above-mentioned prior art's ventilation skylight can control the switching in skylight through solenoid's circular telegram, reaches the purpose of ventilation, but the flexibility in whole skylight is lower, and can't carry out automatic regulation and control to the vent size according to external environment, also can't carry out automatic regulation and control to the vent size according to building internal environment.

Disclosure of Invention

The invention aims to provide a ventilation skylight based on intelligent control, and aims to solve the problems that the existing ventilation skylight provided by the background art is low in flexibility, cannot automatically regulate and control the size of a ventilation opening according to an external environment, and cannot automatically regulate and control the size of the ventilation opening according to an internal environment of a building.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a ventilation skylight based on intelligent control, includes ventilation skylight structure and intelligent control subassembly, the ventilation skylight structure includes structure skeleton, printing opacity skylight and electric shutter subassembly, the structure skeleton includes a plurality of crossbeams and a plurality of roof beam that erects, and is a plurality of the crossbeam is located the upper end of structure skeleton, and is a plurality of it is located structure skeleton lower extreme, and is a plurality of to erect the roof beam and be located the both sides of crossbeam lower extreme respectively, two be provided with first mounting groove between the crossbeam, two it is provided with the second mounting groove to erect between the roof beam, the printing opacity skylight is located the inboard of first mounting groove, electric shutter subassembly is located the inboard of second mounting groove, and is a plurality of the printing opacity skylight is located the top of ventilation skylight structure, and is a plurality of electric shutter subassembly is located the both sides of ventilation skylight structure.

Preferably, the intelligent control subassembly includes the mounting bracket, the anemoscope is installed to one side of mounting bracket upper end, the anemoscope is installed to the opposite side of mounting bracket upper end, the control box is installed to the centre of mounting bracket upper end.

Preferably, connecting shafts are installed at two ends of the light-transmitting skylight and embedded into the beam, an electric driving assembly is installed inside the beam, one end of the light-transmitting skylight is fixedly connected with the electric driving assembly through the connecting shafts, and the connecting shafts at the other end of the light-transmitting skylight are connected with the beam through bearing seats.

Preferably, electronic shutter subassembly includes the frame, a plurality of blades are installed to the inboard of frame, the drive shaft is all installed at the both ends of blade, and the drive shaft rotates with the frame to be connected, and is a plurality of connect through the drive connecting rod between the drive shaft, the drive connecting rod includes the motor drive axle.

Preferably, baffles are arranged at the front end and the rear end of the ventilating skylight structure.

Preferably, a sealing ring is arranged on the outer side of the light-transmitting skylight, and the light-transmitting skylight is fixedly connected with the sealing ring in a bonding manner.

Preferably, the lower end of the vertical beam is provided with a mounting bottom plate, and the mounting bottom plate is connected with the vertical beam in a welding manner.

Preferably, the cross beam is connected with the vertical beam in a welding mode.

Preferably, the electric blind window assembly is fixedly connected with the structural framework through screws.

Preferably, a temperature and humidity sensing module and a wireless receiving module are arranged in the control box.

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

1. the electric driving component can drive the light-transmitting skylight to rotate relative to the cross beam when working, so that the angle of the light-transmitting skylight is adjusted, namely, the size of a ventilation opening and the air inlet direction of the light-transmitting skylight are adjusted and controlled, the light-transmitting skylights work independently to jointly form a top ventilation structure of the ventilation skylight, the motor driving shaft of the electric louver component works to drive the driving connecting rod, the driving connecting rod drives the driving shaft, the driving shaft drives the blades to rotate, the size of the ventilation opening and the air inlet direction of the electric louver component are adjusted and controlled, the plurality of electric louver components work independently to jointly form a side ventilation structure, the ventilation area and the ventilation quality of the ventilation skylight structure are improved by the top ventilation structure and the side ventilation structure, the ventilation effect is good, and the ventilation flexibility is high;

2. the anemoscope and the anemoscope can monitor the wind direction and the wind speed of the external environment in real time, and the ventilation skylight structure can automatically regulate and control the size and the wind inlet direction of the ventilation opening of the top ventilation structure and the size and the wind inlet direction of the ventilation opening of the side ventilation structure according to the wind direction and the wind speed of the external environment, so that the ventilation skylight structure always keeps the optimal ventilation state for ventilation, and the ventilation quality of the ventilation skylight structure is further improved;

3. the temperature and humidity sensing module and the wireless receiving module are arranged in the control box, the temperature and humidity sensing module can monitor the temperature and humidity of the external environment and judge whether the ventilation skylight structure is suitable to be opened for ventilation, the wireless receiving module can receive indoor environment information and weather information and judge whether the ventilation skylight structure is suitable to be opened for ventilation in the time period, the ventilation skylight structure is automatically opened and closed, and the ventilation safety and the ventilation flexibility are improved.

Drawings

FIG. 1 is a schematic structural view of a ventilation skylight structure of the present invention;

FIG. 2 is a schematic structural view of the structural skeleton of the present invention;

FIG. 3 is a schematic view of the construction of the motorized blind assembly of the present invention;

FIG. 4 is a connection diagram of the skylight and the cross beam according to the present invention;

fig. 5 is a schematic structural diagram of the intelligent control assembly of the present invention.

In the figure: 1. a ventilation skylight structure; 2. a structural skeleton; 3. a cross beam; 4. erecting a beam; 5. mounting a bottom plate; 6. a light-transmitting skylight; 7. an electric blind assembly; 8. an intelligent control component; 9. a mounting frame; 10. a wind direction indicator; 11. an anemometer; 12. a control box; 13. a first mounting groove; 14. a connecting shaft; 15. an electric drive assembly; 16. a bearing seat; 17. a second mounting groove; 18. a frame; 19. a blade; 20. a drive shaft; 21. a drive link; 22. a motor drive shaft; 23. a baffle plate; 24. and (5) sealing rings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: a ventilation skylight based on intelligent control comprises a ventilation skylight structure 1 and an intelligent control assembly 8, wherein the ventilation skylight structure 1 comprises a structure framework 2, a light-transmitting skylight 6 and an electric louver assembly 7, the structure framework 2 comprises a plurality of cross beams 3 and a plurality of vertical beams 4, the plurality of cross beams 3 are positioned at the upper end of the structure framework 2, the plurality of vertical beams 4 are positioned at the lower end of the structure framework 2, the plurality of vertical beams 4 are respectively positioned at two sides of the lower end of the cross beams 3, a first mounting groove 13 is arranged between the two cross beams 3, a second mounting groove 17 is arranged between the two vertical beams 4, the light-transmitting skylight 6 is positioned at the inner side of the first mounting groove 13, the electric louver assembly 7 is positioned at the inner side of the second mounting groove 17, the plurality of light-transmitting skylights 6 are positioned at the top end of the ventilation skylight structure 1, the plurality of electric louver assemblies 7 are positioned at two sides of the ventilation skylight structure 1, and the ventilation skylight structure 1 and the intelligent control assembly 8 are both installed on the roof of a building, the ventilation skylight structure 1 is controlled by the intelligent control component 8, the plurality of light-transmitting skylights 6 work independently to jointly form a top ventilation structure of the ventilation skylight, the plurality of electric louver components 7 work independently to jointly form a side ventilation structure, the ventilation area and the ventilation quality of the ventilation skylight structure 1 are improved by the top ventilation structure and the side ventilation structure, the anemoscope 10 and the anemoscope 11 of the intelligent control component 8 can monitor the wind direction and the wind speed of the external environment in real time, the intelligent control component 8 controls the ventilation skylight structure 1 according to the wind direction and the wind speed of the external environment, the ventilation skylight structure 1 automatically regulates the size and the wind inlet direction of the top ventilation structure and the size and the wind inlet direction of the side ventilation structure according to the wind direction and the wind speed of the external environment, so that the ventilation skylight structure 1 always keeps the best ventilation state for ventilation, the inside of control box 12 is provided with humiture sensing module and wireless receiving module, humiture sensing module can monitor the humiture of external environment, and judge whether be fit for opening ventilation skylight structure 1 and ventilate, wireless receiving module can receive indoor environmental information and weather information, and judge whether this time quantum is fit for opening ventilation skylight structure 1 and ventilate, realize ventilation skylight structure 1's automatic start-stop, top ventilation structure and side ventilation structure have improved ventilation area and ventilation quality of ventilation skylight structure 1, the ventilation effect is good and possess higher ventilation flexibility.

Further, the intelligent control assembly 8 comprises a mounting rack 9, a wind direction indicator 10 is installed on one side of the upper end of the mounting rack 9, an anemoscope 11 is installed on the other side of the upper end of the mounting rack 9, a control box 12 is installed in the middle of the upper end of the mounting rack 9, the anemoscope 10 and the anemoscope 11 of the intelligent control assembly 8 can monitor the wind direction and the wind speed of the external environment in real time, the intelligent control assembly 8 controls the ventilation skylight structure 1 according to the wind direction and the wind speed of the external environment, the ventilation skylight structure 1 can automatically regulate the size of the ventilation opening and the size of the ventilation opening of the top ventilation structure and the size of the ventilation opening of the side ventilation structure, the ventilation skylight structure 1 can always keep the best ventilation state for ventilation, a temperature and humidity sensing module and a wireless receiving module are arranged inside the control box 12, the temperature and humidity sensing module can monitor the temperature of the external environment, whether the ventilation skylight structure 1 is suitable for opening and closing is suitable for judging, the ventilation skylight structure is suitable for the wireless receiving module can receive indoor environment information and weather information, whether the ventilation information of the ventilation skylight structure 1 is suitable for judging, automatic opening and closing of the ventilation structure of the top ventilation structure 1 is capable of improving the ventilation area and the ventilation effect is good, and the ventilation skylight flexibility of the skylight is good.

Further, connecting axle 14 is all installed at the both ends in printing opacity skylight 6, and the inside of connecting axle 14 embedding crossbeam 3, the internally mounted of crossbeam 3 has electric drive assembly 15, connecting axle 14 and electric drive assembly 15 fixed connection are passed through to the one end in printing opacity skylight 6, the connecting axle 14 of the 6 other ends in printing opacity skylight passes through bearing frame 16 with crossbeam 3 and is connected, 15 work drive connecting axles of electric drive assembly 14, connecting axle 14 drive printing opacity skylight 6 rotates for crossbeam 3, thereby adjust the angle in printing opacity skylight 6, adjust and control the vent size in printing opacity skylight 6 and the air inlet direction promptly, a plurality of printing opacity skylight 6 independent work, constitute the top ventilation structure in ventilation skylight jointly.

Further, electronic shutter subassembly 7 includes frame 18, a plurality of blades 19 are installed to the inboard of frame 18, drive shaft 20 is all installed at the both ends of blade 19, and drive shaft 20 rotates with frame 18 and is connected, connect through drive connecting rod 21 between a plurality of drive shafts 20, drive connecting rod 21 includes motor drive shaft 22, motor drive shaft 22 work drive connecting rod 21 of electronic shutter subassembly 7, drive connecting rod 21 drive shaft 20, drive shaft 20 drives a plurality of blades 19 and rotates, adjust and control the vent size and the air inlet direction of electronic shutter subassembly 7, a plurality of electronic shutter subassemblies 7 work independently, constitute the side ventilation structure jointly.

Further, the front end and the rear end of the ventilation skylight structure 1 are provided with the baffle plates 23, so that the ventilation skylight structure 1 is protected.

Further, the outside in printing opacity skylight 6 is provided with sealing washer 24, and printing opacity skylight 6 and sealing washer 24 bonding fixed connection improve the leakproofness of junction when ventilation skylight structure 1 printing opacity skylight 6 is closed, prevent the phenomenon of leaking rain.

Further, the lower end of the vertical beam 4 is provided with the mounting bottom plate 5, the mounting bottom plate 5 is connected with the vertical beam 4 in a welding mode, and the ventilation skylight structure 1 is mounted on the roof of a building through the mounting bottom plate 5 and is convenient to mount and fix.

Further,

crossbeam

3 and 4 welded connection of perpendicular roof beam, the connected mode is simple, and the wholeness after the welding is good, possesses higher mechanical strength.

Furthermore, the electric shutter assembly 7 is fixedly connected with the structural framework 2 through screws, the connection mode is simple, the installation and the disassembly are convenient, the ventilation skylight structure 1 is convenient to maintain, and the maintenance cost is reduced.

Further, the inside of control box 12 is provided with humiture sensing module and wireless receiving module, and humiture sensing module can monitor the humiture of external environment to judge whether be fit for opening ventilation skylight structure 1 and ventilate, and wireless receiving module can receive indoor environmental information and weather information, and judge whether this time quantum is fit for opening ventilation skylight structure 1 and ventilates, realizes ventilation skylight structure 1's automatic start-stop.

The working principle is as follows: when the ventilating skylight structure is used, the ventilating skylight structure 1 and the intelligent control component 8 are both installed on the roof of a building, the ventilating skylight structure 1 is controlled by the intelligent control component 8, the electric driving component 15 works to drive the connecting shaft 14, the connecting shaft 14 drives the light-transmitting skylight 6 to rotate relative to the cross beam 3, so that the angle of the light-transmitting skylight 6 is adjusted, namely, the size of a ventilation opening and the air inlet direction of the light-transmitting skylight 6 are adjusted, the light-transmitting skylights 6 work independently to jointly form a top ventilating structure of the ventilating skylight, the motor driving shaft 22 of the electric louver component 7 works to drive the driving connecting rod 21, the driving rod 21 drives the driving shaft 20, the driving shaft 20 drives the plurality of blades 19 to rotate, the size of the ventilation opening and the air inlet direction of the electric louver component 7 are adjusted, the plurality of electric louver components 7 work independently to jointly form a side ventilating structure, the anemoscope 10 and the anemoscope 11 of the intelligent control component 8 can monitor the wind direction and the wind speed of the external environment in real time, the intelligent control component 8 controls the ventilation skylight structure 1 according to the wind direction and the wind speed of the external environment, the ventilation skylight structure 1 automatically regulates and controls the size and the wind inlet direction of the ventilation opening of the top ventilation structure and the size and the wind inlet direction of the ventilation opening of the side ventilation structure according to the wind direction and the wind speed of the external environment, so that the ventilation skylight structure 1 is always kept in the optimal ventilation state for ventilation, the temperature and humidity sensing module and the wireless receiving module are arranged in the control box 12, the temperature and humidity sensing module can monitor the temperature and humidity of the external environment and judge whether the ventilation skylight structure 1 is suitable to be opened for ventilation, the wireless receiving module can receive indoor environment information and weather information and judge whether the ventilation of the ventilation skylight structure 1 is suitable to be opened in the time period, and the automatic opening and closing of the ventilation skylight structure 1 are realized, the top ventilation structure and the side ventilation structure improve the ventilation area and the ventilation quality of the ventilation skylight structure 1, and the ventilation effect is good and the ventilation flexibility is high.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a ventilation skylight based on intelligent control, includes ventilation skylight structure (1) and intelligent control subassembly (8), its characterized in that: ventilation skylight structure (1) is including structure skeleton (2), printing opacity skylight (6) and electric louver subassembly (7), structure skeleton (2) are including a plurality of crossbeams (3) and a plurality of roof beam (4) of erectting, and are a plurality of crossbeam (3) are located the upper end of structure skeleton (2), and it is a plurality of erect roof beam (4) and are located structure skeleton (2) lower extreme, and are a plurality of erect roof beam (4) and are located the both sides of crossbeam (3) lower extreme respectively, two be provided with first mounting groove (13) between crossbeam (3), two it is provided with second mounting groove (17) to erect between roof beam (4), printing opacity skylight (6) are located the inboard of first mounting groove (13), electric louver subassembly (7) are located the inboard of second mounting groove (17), and are a plurality of printing opacity skylight (6) are located the top in ventilation skylight structure (1), and are a plurality of electric louver subassembly (7) are located the both sides in ventilation skylight structure (1).

2. The ventilation skylight based on intelligent control of claim 1, characterized in that: the intelligent control assembly (8) comprises a mounting frame (9), a wind direction indicator (10) is installed on one side of the upper end of the mounting frame (9), a wind speed indicator (11) is installed on the other side of the upper end of the mounting frame (9), and a control box (12) is installed in the middle of the upper end of the mounting frame (9).

3. A ventilation skylight based on intelligent control according to claim 2, characterized in that: connecting shafts (14) are installed at two ends of the light-transmitting skylight (6), the connecting shafts (14) are embedded into the beam (3), an electric driving assembly (15) is installed inside the beam (3), one end of the light-transmitting skylight (6) is fixedly connected with the electric driving assembly (15) through the connecting shafts (14), and the connecting shafts (14) at the other end of the light-transmitting skylight (6) are connected with the beam (3) through bearing seats (16).

4. A ventilation skylight based on intelligent control of claim 3, characterized in that: electronic shutter subassembly (7) include frame (18), a plurality of blades (19) are installed to the inboard of frame (18), drive shaft (20) are all installed at the both ends of blade (19), and drive shaft (20) and frame (18) rotate to be connected, and are a plurality of connect through drive connecting rod (21) between drive shaft (20), drive connecting rod (21) include motor drive axle (22).

5. A ventilation skylight based on intelligent control according to claim 4, characterized in that: the front end and the rear end of the ventilating skylight structure (1) are provided with baffles (23).

6. The ventilation skylight based on intelligent control of claim 5, characterized in that: and a sealing ring (24) is arranged on the outer side of the light-transmitting skylight (6), and the light-transmitting skylight (6) is fixedly connected with the sealing ring (24) in a bonding manner.

7. The ventilation skylight based on intelligent control of claim 6, characterized in that: the lower end of the vertical beam (4) is provided with a mounting bottom plate (5), and the mounting bottom plate (5) is connected with the vertical beam (4) in a welding manner.

8. The ventilation skylight based on intelligent control of claim 7, characterized in that: the cross beam (3) is connected with the vertical beam (4) in a welding mode.

9. The ventilation skylight based on intelligent control of claim 8, characterized in that: the electric shutter component (7) is fixedly connected with the structural framework (2) through screws.

10. A ventilation skylight based on intelligent control of claim 9, characterized in that: the temperature and humidity sensing module and the wireless receiving module are arranged in the control box (12).