CN215336857U - Be used for building green energy-conserving ventilation unit - Google Patents

Abstract

The utility model belongs to the technical field of building ventilation, and particularly discloses a green energy-saving ventilation device for buildings, which comprises an energy-saving ventilation device main body, an exhaust fan cylinder, an air inlet cylinder and an exhaust through pipe, wherein the exhaust fan cylinder is fixedly connected to the top end of the energy-saving ventilation device main body, a solar electric plate is fixedly connected to one side of the top end of the exhaust fan cylinder, the air inlet through pipe is fixedly connected to the periphery of the air inlet cylinder, one end of the air inlet through pipe is embedded and connected with an air inlet through groove, the air inlet cylinder is fixedly connected to the bottom end of the energy-saving ventilation device main body, the air inlet cylinder can exhaust fresh air of the external environment to the indoor, outdoor air is transmitted to the indoor through the air inlet cylinder, solar energy is converted into electric energy through a solar electric plate arranged on the exhaust fan cylinder, the waste of energy is reduced, the ventilation in the indoor is ensured, the energy saving and environmental protection performance of the device are effectively improved, and the indoor hot air is exhausted through the exhaust fan cylinder connected with the energy-saving ventilation device main body and the air inlet cylinder, so that the air in the room is circulated.

Description

Be used for building green energy-conserving ventilation unit

Technical Field

The utility model belongs to the technical field of building ventilation, and particularly relates to a green energy-saving ventilation device for a building.

Background

The green building evaluation is to follow the principle of local conditions, combine the characteristics of climate, environment, resources, economy, culture and the like of the region where the building is located, comprehensively evaluate the performance of five indexes such as safety, durability, health, comfort, convenience in life, resource conservation, environmental livability and the like in the whole life cycle of the building, and simultaneously, the green building evaluation is to take a single building or a building group as an evaluation object. The evaluation object should implement and deepen the green development requirement proposed by the upper legal plan and the related special plan; indexes related to systematicness and integrity are evaluated based on the whole of the engineering project to which the building belongs.

The existing building green energy-saving ventilation device is poor in green environmental protection performance, poor in ventilation effect and incapable of reducing energy waste, the existing building green energy-saving ventilation device is not provided with indoor and outdoor air circulation exchange components, indoor air cannot be well ventilated and deodorized, outdoor air cannot be treated and then discharged, the air in the outside is easily polluted, the device is not perfect, and social requirements cannot be met.

Therefore, how to design a green energy-saving ventilating device for buildings becomes a problem which needs to be solved currently.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a green energy-saving ventilating device for buildings, which aims to solve the problems of poor environment protection and poor ventilating effect in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a green energy-saving ventilation device for buildings comprises an energy-saving ventilation device main body, an exhaust barrel, an air inlet barrel and an exhaust through pipe, wherein the exhaust barrel is fixedly connected to the top end of the energy-saving ventilation device main body, the air inlet barrel is fixedly connected to the bottom end of the energy-saving ventilation device main body, the exhaust through pipe is fixedly connected to the periphery of the air inlet barrel, the fixed fixture block is connected to the other side of the exhaust barrel in a nested manner, a solar electroplate is fixedly connected to one side of the top end of the exhaust barrel, an exhaust through groove is connected to one end of the exhaust through pipe in an embedded manner, an exhaust through groove is connected to the other end of the exhaust through pipe in an embedded manner, an air inlet through pipe is fixedly connected to the periphery of the air inlet barrel, an air inlet through groove is connected to one end of the air inlet through pipe in an embedded manner, a second exhaust through groove is connected to the other end of the air inlet through pipe in an embedded manner, and a fan fixing frame is fixedly connected to the middle part inside of the exhaust through pipe, the middle part of the fan fixing frame is movably connected with an exhaust fan, the other side inside the exhaust through pipe is movably connected with an air filter layer, one end inside the energy-saving ventilation device main body is connected with a regulation and control platform in an embedded manner, one side inside the energy-saving ventilation device main body is fixedly connected with an electricity storage box, the middle part inside the air inlet through pipe is fixedly connected with a second fan fixing frame, the middle part of the second fan fixing frame is movably connected with an air exhaust fan, the middle part inside the other end inside the air inlet through pipe is connected with a butt joint installation groove in an embedded manner, the other side inside the air inlet through pipe is movably connected with a dust removal filter layer, the inner side of the air filter layer is fixedly connected with an active carbon filter plate, the two ends inside the dust removal filter layer are fixedly connected with filter cotton, the middle part inside the dust removal filter layer is fixedly connected with a fiber cotton layer, and the middle part inside the energy-saving ventilation device main body is fixedly connected with a motor, the opposite side swing joint of motor has the initiative tooth, the other end swing joint of motor has the driven tooth, the middle part swing joint of driven tooth has the drive track, the bottom swing joint of initiative tooth has the driving tooth, the opposite side swing joint of driving tooth has the driven tooth of second, the middle part swing joint of the driven tooth of second has the drive track of second, the both sides middle part embedding of dust removal filtering layer is connected with the spring dop.

Preferably, the inner side of the exhaust through groove is movably connected with an air guide shutter.

Preferably, the fan mount comprises two disc structures with a circular through hole penetrating through the middle, and the air filter layer is of a circular disc structure which is attached to the inner diameter of the air inlet through pipe.

Preferably, the appearance of dustproof filter screen is the circular disk-shaped structure of laminating and exhaust siphunculus internal diameter size, the cotton layer of fibre is by the ventilative circular disk-shaped structure of vegetable fibre weaving formation.

Compared with the prior art, the utility model has the beneficial effects that:

1. the air exhaust barrel is fixedly connected with the energy-saving ventilation device main body, indoor air can be exhausted outdoors by the air exhaust barrel, and outdoor air to be exhausted can be filtered and then exhausted, so that the indoor heat dissipation and air exhaust effects are effectively improved.

2. The energy-saving ventilating device is used for building green energy-saving ventilating devices, the air inlet barrel is arranged at the bottom end of the energy-saving ventilating device main body and is fixedly connected with the energy-saving ventilating device main body, the air inlet barrel can discharge fresh air of the external environment to the indoor, and the energy supply is converted into electric energy through the solar electric plate arranged by the air discharge barrel, so that the energy waste is reduced, the indoor ventilation is ensured, and the energy conservation and the environmental protection of the device are effectively improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view of the utility model at A;

FIG. 4 is a schematic view of a dedusting filter layer structure of the present invention;

FIG. 5 is a schematic view of an air filter layer according to the present invention.

In the figure: 1. an energy-saving ventilation device main body; 2. an exhaust duct; 3. an air inlet cylinder; 4. air exhaust through pipes; 5. an air inlet through pipe; 6. fixing the fixture block; 7. an exhaust through groove; 8. an air extraction through groove; 9. an air inlet through groove; 10. a second air exhaust through groove; 11. a solar panel; 12. a console; 13. a power storage box; 14. air guide shutter; 15. An exhaust fan; 16. a fan fixing frame; 17. an air filtering layer; 18. a dustproof filter screen; 19. a second fan fixing frame; 20. an air exhaust fan; 21. a dust removal filter layer; 22. a fiber cotton layer; 23. filtering cotton; 24. Butting mounting grooves; 25. a motor; 26. a driving tooth; 27. an active carbon filter plate; 28. a drive track; 29. A driven tooth; 30. a transmission gear; 31. a second driven tooth; 32. a second drive track; 33. a spring clip is provided.

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 embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In a first embodiment, referring to fig. 1-5, the present invention provides a technical solution: a green energy-saving ventilation device for buildings comprises an energy-saving ventilation device main body 1, an air exhaust cylinder 2, an air inlet cylinder 3 and an air exhaust through pipe 4, wherein the top end of the energy-saving ventilation device main body 1 is fixedly connected with the air exhaust cylinder 2, the bottom end of the energy-saving ventilation device main body 1 is fixedly connected with the air inlet cylinder 3, the periphery of the air exhaust cylinder 2 is fixedly connected with the air exhaust through pipe 4, the other side of the air exhaust cylinder 2 is connected with a fixed fixture block 6 in a nesting manner, one side of the top end of the air exhaust cylinder 2 is fixedly connected with a solar electric plate 11, one end of the air exhaust through pipe 4 is connected with an exhaust through groove 7 in a embedding manner, the other end of the air exhaust through pipe 4 is connected with an air exhaust through groove 8 in a embedding manner, the periphery of the air inlet cylinder 3 is fixedly connected with an air inlet through pipe 5, one end of the air inlet through pipe 5 is connected with an air inlet through groove 9 in an embedding manner, the other end of the air inlet through pipe 5 is connected with a second air exhaust through groove 10 in a embedding manner, and the middle part in the inside of the through pipe 4 is fixedly connected with a fan fixing frame 16, an exhaust fan 15 is movably connected at the middle part of a fan fixing frame 16, an air filter layer 17 is movably connected at the other side inside the exhaust through pipe 4, one end inside the energy-saving ventilation device main body 1 is connected with a regulating and controlling platform 12 in an embedding manner, one side inside the energy-saving ventilation device main body 1 is fixedly connected with an electricity storage box 13, the middle part inside the air inlet through pipe 5 is fixedly connected with a second fan fixing frame 19, the middle part of the second fan fixing frame 19 is movably connected with an air exhaust fan 20, the middle part inside the other end inside the air inlet through pipe 5 is connected with a butt joint installation groove 24 in an embedding manner, the other side inside the air inlet through pipe 5 is movably connected with a dust removal filter layer 21, an active carbon filter plate 27 is fixedly connected at the inner side of the air filter layer 17, filter cotton 23 is fixedly connected at the two ends inside of the dust removal filter layer 21, and a fiber cotton layer 22 is fixedly connected at the middle part inside the dust removal filter layer 21, the inside middle part fixedly connected with motor 25 of energy-conserving ventilation unit main part 1, the opposite side swing joint of motor 25 has driving tooth 26, the other end swing joint of motor 25 has driven tooth 29, the middle part swing joint of driven tooth 29 has drive track 28, the bottom swing joint of driving tooth 26 has drive tooth 30, the opposite side swing joint of drive tooth 30 has second driven tooth 31, the middle part swing joint of second driven tooth 31 has second drive track 32, the both sides middle part embedding of dust removal filtering layer 21 is connected with spring dop 33.

Preferably, the inner side of the exhaust through groove 7 is movably connected with an air guide louver 14, firstly, it is required to know that the left side of the device is located outdoors, the right side of the device is located indoors, the middle of the device is built or fixed through a wall body, so that the exhaust through groove 7 is located outdoors, the air guide louver 14 is connected with the exhaust through groove 7 through a shaft at the top, the exhaust through groove 7 is arranged in an exhaust through pipe 4 arranged in an exhaust barrel 2, when air flows in the exhaust through pipe 4, the bottom of the air guide louver 14 is blown by the flowing air so as to be unfolded outwards by taking the shaft as a center, the exhaust through groove 7 is opened, when no air flows in the exhaust through pipe 4, the bottom of the air guide louver 14 is vertically downward due to the action of gravity, so that the exhaust through groove 7 is closed, when wind in the external environment blows into the exhaust through pipe 4 from the exhaust through groove 7, the inner ring of the exhaust through groove 7 supports the other end of the air guide louver 14, thereby blocking impurities or dust in the external environment and playing a role of making the air exhaust through pipe 4 to ventilate in one direction.

Preferably, the fan fixing frame 16 is composed of two disk structures with a circular through hole penetrating through the middle, the air filtering layer 17 is in a circular disk structure which is attached to the inner diameter of the air inlet pipe 5, one air exhaust cylinder 2 is arranged, the air exhaust cylinder 2 is arranged at the top end of the energy-saving ventilation device main body 1, the air exhaust cylinder 2 is fixedly connected with the energy-saving ventilation device main body 1, the air exhaust cylinder 2 can exhaust indoor air to the outdoor and can filter and exhaust the air to be exhausted to the outdoor, the air exhaust pipe 4 arranged on the air exhaust cylinder 2 is connected with the fan fixing frame 16, the fan fixing frame 16 is connected with the exhaust fan 15, the solar panel 11 arranged on the air exhaust cylinder 2 is connected with the electricity storage box 13 in the energy-saving ventilation device main body 1, the electricity storage box 13 is connected with the motor 25 through the regulation and control platform 12 in the energy-saving ventilation device main body 1, the motor 25 is connected with the driving tooth 26 and the driven tooth 29, the driven gear 29 is connected with the exhaust fan 15 through the transmission crawler belt 28, the exhaust through slot 7 on the exhaust through pipe 4 is located outdoors, the air suction through slot 8 of the exhaust through pipe 4 is located indoors, when the exhaust work is performed through the exhaust barrel 2, the control platform 12 is communicated with the circuit of the electricity storage box 13 and the motor 25, so that the motor 25 drives the driving gear 26 and the driven gear 29 to rotate clockwise, the driven gear 29 drives the exhaust fan 15 to rotate clockwise through the transmission crawler belt 28, the exhaust fan 15 rotates clockwise, the air in the exhaust through pipe 4 is discharged to the exhaust through slot 7 from the air suction through slot 8, and then is discharged to the outdoors from the exhaust through slot 7, the air in the exhaust through slot absorbs the outdoor air into the exhaust through pipe 4, the indoor air is discharged to the outdoors, and the air filter layer 17 in the exhaust through pipe 4 can absorb and filter the air discharged to the outdoors through the activated carbon filter plate 27 arranged on the inner side, the exhaust duct 2 is arranged at the top of the device, the density of indoor hot air is reduced easily due to expansion with heat and contraction with cold, and the hot air can float at the indoor top, so that the exhaust duct 2 arranged at the top of the device can well discharge the indoor hot air, and the indoor heat dissipation and air discharge effects are effectively improved.

Preferably, the dustproof filter screen 18 is a disk-shaped structure with the inner diameter of the fit and exhaust through pipe 4, the fiber cotton layer 22 is a breathable disk-shaped structure formed by weaving plant fibers, one air inlet cylinder 3 is arranged, the air inlet cylinder 3 is arranged at the bottom end of the energy-saving ventilation device main body 1, the air inlet cylinder 3 is fixedly connected with the energy-saving ventilation device main body 1, the air inlet cylinder 3 can discharge fresh air of the external environment to the indoor, the air inlet through groove 9 arranged on the air inlet through pipe 5 on the air inlet cylinder 3 is located outdoors, the second air exhaust through groove 10 arranged on the air inlet through pipe 5 is located indoors, the second fan fixing frame 19 in the air inlet through pipe 5 is connected with the air exhaust fan 20, the driving tooth 26 in the energy-saving ventilation device main body 1 is connected with the driving tooth 30, the driving tooth 30 is connected with the second driven tooth 31, the second driven tooth 31 is connected with the air exhaust fan 20 through the second transmission crawler 32, the air inlet through pipe 5 is connected with the dust-removing filter layer 21, the spring chuck 33 on the dust-removing filter layer 21 is connected with the butt joint installation groove 24 in the air inlet through pipe 5, the fiber cotton layer 22 is arranged between the filter cotton 23 in the dust-removing filter layer 21, when the air inlet barrel 3 is used for transmitting outdoor air to the room, firstly, deodorant liquid or perfume is sprayed on the fiber cotton layer 22, so that the fiber cotton layer 22 absorbs the deodorant liquid and the perfume, then, the side surface of the spring chuck 33 is pressed, the spring chuck 33 is embedded into the butt joint installation groove 24, then, the hand pressing the side surface of the spring chuck 33 is loosened, so that the spring chuck 33 fixes the dust-removing filter layer 21 in the air inlet through pipe 5, and then, the electric storage box 13 in the energy-saving ventilation device main body 1 is communicated with the motor 25 in the energy-saving ventilation device main body 1 through the regulating and the regulating table 12 in the energy-saving ventilation device main body 1, so that the motor 25 drives the driving tooth 26 to rotate clockwise, the driving teeth 26 drive the transmission teeth 30 and the second driven teeth 31 to rotate counterclockwise, the second driven teeth 31 drive the air exhaust fan 20 to rotate counterclockwise through the second transmission track 32, so that the air in the air inlet duct 5 is transmitted to the second air exhaust through groove 10 from the air inlet through groove 9, the air is exhausted to the indoor from the second air exhaust through groove 10, then the air in the external environment enters the air inlet duct 5 from the air inlet through groove 9, meanwhile, the air entering the air inlet duct 5 and passing through the air inlet through groove 9 isolates the dust and impurities in the air outdoors through the dustproof filter screen 18, when the air passes through the air inlet duct 5 and is exhausted from the second air exhaust through groove 10, the air passes through the fiber cotton layer 22 soaked with deodorant liquid or perfume, and simultaneously, the volatilized deodorant liquid or perfume is brought into the indoor environment, the odor of the indoor environment is removed or weakened, and the outdoor air is transmitted to the indoor through the air inlet drum 3, the exhaust barrel 2 connected with the air inlet barrel 3 through the energy-saving ventilation device main body 1 is used for removing indoor hot air, so that indoor air is circulated and replaced, meanwhile, the device is driven by a motor 25, the solar panel 11 arranged through the exhaust barrel 2 is used for supplying energy to convert solar energy into electric energy, the waste of energy is reduced, indoor ventilation is guaranteed simultaneously, and the energy conservation and environmental protection of the device are effectively improved.

The working principle is as follows: firstly, the air filter layer 17 is replaced, the inner side of the air filter layer 17 is fixedly connected with an active carbon filter plate 27, the air filter layer 17 is connected with the exhaust through pipe 4 on the exhaust cylinder 2 through threads, and the active carbon filter plates 27 are dispersedly arranged on the inner side of the air filter layer 17, so that air flowing in the exhaust through pipe 4 can pass through the active carbon filter plates 27 in the air filter layer 17, and the active carbon filter plates 27 can adsorb impurities or harmful substances in the passing air, thereby performing simple purification treatment on the exhausted air;

then, whether the air guide louver 14 is damaged is checked, the air guide louver 14 is movably connected to the inner side of the exhaust through groove 7, the left side of the device is located outdoors, the right side of the device is located indoors, the middle of the device is built or fixed through a wall body, the exhaust through groove 7 is located outdoors, the air guide louver 14 is connected with the exhaust through groove 7 through a shaft at the top, the exhaust through groove 7 is arranged in an exhaust through pipe 4 arranged in an exhaust barrel 2, when air flows in the exhaust through pipe 4, the bottom of the air guide louver 14 is blown by the flowing air so as to be unfolded outwards with the shaft as the center, the exhaust through groove 7 is opened, when the exhaust through pipe 4 does not flow air, the bottom of the air guide louver 14 is vertically downward due to the action of gravity, the exhaust through groove 7 is closed, when air in the external environment is blown into the exhaust through pipe 4 from the exhaust through groove 7, the inner side ring of the exhaust through groove 7 supports the other end of the air guide louver 14, thereby blocking impurities or dust in the external environment and playing a role of making the air exhaust through pipe 4 to ventilate in one direction;

then, the indoor air is exhausted through an exhaust barrel 2, the exhaust barrel 2 is provided with one, the exhaust barrel 2 is arranged at the top end of an energy-saving ventilator main body 1, the exhaust barrel 2 is fixedly connected with the energy-saving ventilator main body 1, the exhaust barrel 2 can exhaust the indoor air to the outdoor and can also filter the air to be exhausted to the outdoor and then exhaust the air, an exhaust through pipe 4 arranged on the exhaust barrel 2 is connected with a fan fixing frame 16, the fan fixing frame 16 is connected with an exhaust fan 15, a solar electric plate 11 arranged on the exhaust barrel 2 is connected with an electricity storage box 13 in the energy-saving ventilator main body 1, the electricity storage box 13 is connected with a motor 25 through a regulating and controlling platform 12 in the energy-saving ventilator main body 1, the motor 25 is connected with a driving tooth 26 and a driven tooth 29, the driven tooth 29 is connected with the exhaust fan 15 through a driving crawler belt 28, and an exhaust through groove 7 on the exhaust through pipe 4 is positioned outdoors, the air exhaust through groove 8 of the exhaust through pipe 4 is located indoors, when the exhaust work is carried out through the exhaust barrel 2, the circuit of the electricity storage box 13 and the motor 25 is communicated through the regulating and controlling table 12, the motor 25 drives the driving tooth 26 and the driven tooth 29 to rotate clockwise, the driven tooth 29 drives the exhaust fan 15 to rotate clockwise through the transmission crawler belt 28, the exhaust fan 15 rotates clockwise to enable the air in the exhaust through pipe 4 to be exhausted to the exhaust through groove 7 from the air exhaust through groove 8, then the air is exhausted to the outside from the exhaust through groove 7, the air in the exhaust through groove absorbs the outdoor air into the exhaust through pipe 4, the indoor air is exhausted to the outside, meanwhile, the air filter layer 17 in the exhaust through pipe 4 can absorb and filter the outdoor air through the activated carbon filter plate 27 arranged on the inner side, the exhaust barrel 2 is arranged on the top of the device, the indoor hot air is easy to reduce in density due to expansion and contraction, the hot air floats on the top of the room, so that the air exhaust barrel 2 arranged on the top of the device can exhaust the indoor hot air well, and the indoor heat dissipation and air exhaust effects are effectively improved;

finally, outdoor air is transmitted to the indoor through the air inlet barrel 3, one air inlet barrel 3 is arranged, the air inlet barrel 3 is arranged at the bottom end of the energy-saving ventilation device main body 1, the air inlet barrel 3 is fixedly connected with the energy-saving ventilation device main body 1, fresh air of the external environment can be discharged to the indoor through the air inlet barrel 3, the air inlet through groove 9 arranged on the air inlet through pipe 5 on the air inlet barrel 3 is positioned outdoors, the second air exhaust through groove 10 arranged on the air inlet through pipe 5 is positioned indoors, the second fan fixing frame 19 in the air inlet through pipe 5 is connected with the air exhaust fan 20, the driving tooth 26 in the energy-saving ventilation device main body 1 is connected with the driving tooth 30, the driving tooth 30 is connected with the second driven tooth 31, the second driven tooth 31 is connected with the air exhaust fan 20 through the second transmission crawler 32, the air inlet through pipe 5 is connected with the dust-removing filter layer 21, and the spring chuck 33 on the dust-removing filter layer 21 is connected with the butt joint installation groove 24 in the air inlet through pipe 5, the fiber cotton layer 22 is arranged between the filter cotton 23 in the dust removal filter layer 21, when outdoor air is transmitted to the indoor space by using the air inlet drum 3, firstly, deodorant liquid or perfume is sprayed on the fiber cotton layer 22, so that the fiber cotton layer 22 absorbs the deodorant liquid and the perfume, then, the side surface of the spring chuck 33 is pressed, the spring chuck 33 is embedded into the butt joint installation groove 24, then, the hand pressing the side surface of the spring chuck 33 is loosened, the dust removal filter layer 21 is fixed in the air inlet through pipe 5 by the spring chuck 33, then, the power storage box 13 in the energy-saving ventilation device main body 1 and the motor 25 in the energy-saving ventilation device main body 1 are communicated through the regulating and controlling table 12 in the energy-saving ventilation device main body 1, so that the motor 25 drives the driving tooth 26 to rotate clockwise, the driving tooth 26 drives the driving tooth 30 and the second driven tooth 31 to rotate anticlockwise, the second driven tooth 31 drives the fan 20 to rotate anticlockwise through the air exhaust second transmission crawler 32, thereby, the air in the air inlet pipe 5 is transmitted to the second air exhaust through groove 10 from the air inlet through groove 9, then the air is exhausted to the indoor from the second air exhaust through groove 10, then the air of the external environment enters the air inlet pipe 5 from the air inlet through groove 9, meanwhile, the air entering the air inlet pipe 5 and passing through the air inlet through groove 9 isolates the dust and the impurities in the air outdoors through the dustproof filter screen 18, when the air passes through the air inlet pipe 5 and is exhausted from the second air exhaust through groove 10, the air passes through the fiber cotton layer 22 soaked with the deodorant liquid or the perfume, simultaneously, the volatile deodorant liquid or the perfume is brought into the indoor environment, the odor of the indoor environment is removed or weakened, when the air inlet cylinder 3 transmits the outdoor air to the indoor, the indoor hot air is exhausted through the air exhaust cylinder 2 connected with the air inlet cylinder 3 through the energy-saving ventilation device main body 1, so that the indoor air is circulated and replaced, meanwhile, the device is driven by a motor 25, and the solar panel 11 which supplies energy and is arranged through the exhaust barrel 2 converts solar energy into electric energy, so that the energy waste is reduced, the indoor ventilation is ensured, the energy conservation and environmental protection of the device are effectively improved, and the working principle of the green energy-saving ventilation device for buildings is realized.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a be used for building green energy-conserving ventilation unit, includes energy-conserving ventilation unit main part (1), an air cylinder (2), an air inlet cylinder (3), exhaust siphunculus (4) and dustproof filter screen (18), its characterized in that: the top end of the energy-saving ventilation device main body (1) is fixedly connected with an exhaust barrel (2), the bottom end of the energy-saving ventilation device main body (1) is fixedly connected with an air inlet barrel (3), the periphery of the exhaust barrel (2) is fixedly connected with an exhaust through pipe (4), the other side of the exhaust barrel (2) is connected with a fixed fixture block (6) in an embedded manner, one side of the top end of the exhaust barrel (2) is fixedly connected with a solar electric plate (11), one end of the exhaust through pipe (4) is connected with an exhaust through groove (7) in an embedded manner, the other end of the exhaust through pipe (4) is connected with an air exhaust through groove (8) in an embedded manner, the periphery of the air inlet barrel (3) is fixedly connected with an air inlet through pipe (5), one end of the air inlet through pipe (5) is connected with an air inlet through groove (9) in an embedded manner, and the other end of the air inlet through pipe (5) is connected with a second air exhaust through groove (10) in an embedded manner, the energy-saving ventilating device is characterized in that a fan fixing frame (16) is fixedly connected to the middle of the inside of the exhaust through pipe (4), an exhaust fan (15) is movably connected to the middle of the fan fixing frame (16), an air filtering layer (17) is movably connected to the other side of the inside of the exhaust through pipe (4), a regulating and controlling platform (12) is connected to one end of the inside of the energy-saving ventilating device main body (1) in an embedded mode, an electricity storage box (13) is fixedly connected to one side of the inside of the energy-saving ventilating device main body (1), a second fan fixing frame (19) is fixedly connected to the middle of the inside of the air inlet through pipe (5), an air exhaust fan (20) is movably connected to the middle of the second fan fixing frame (19), a butt joint installation groove (24) is connected to the middle of the other end of the inside of the air inlet through pipe (5), and a dust removal filtering layer (21) is movably connected to the other side of the inside of the air inlet through pipe (5), and an active carbon filter plate (27) is fixedly connected to the inner side of the air filter layer (17).

2. A green energy-saving ventilating device for buildings according to claim 1, characterized in that: the two ends of the inner side of the dust-removing filter layer (21) are fixedly connected with filter cotton (23), the middle position in the dust-removing filter layer (21) is fixedly connected with a fiber cotton layer (22), the middle part inside the energy-saving ventilating device main body (1) is fixedly connected with a motor (25), the other side of the motor (25) is movably connected with a driving tooth (26), the other end of the motor (25) is movably connected with a driven tooth (29), the middle part of the driven tooth (29) is movably connected with a transmission crawler belt (28), the bottom of the driving gear (26) is movably connected with a transmission gear (30), the other side of the transmission gear (30) is movably connected with a second driven gear (31), the middle part of the second driven tooth (31) is movably connected with a second transmission crawler belt (32), the middle parts of the two sides of the dust removal filtering layer (21) are embedded and connected with spring chucks (33).

3. A green energy-saving ventilating device for buildings according to claim 1, characterized in that: the inner side of the exhaust through groove (7) is movably connected with an air guide shutter (14).

4. A green energy-saving ventilating device for buildings according to claim 1, characterized in that: the fan fixing frame (16) is composed of two disc structures with circular through holes penetrating through the middle parts.

5. A green energy-saving ventilating device for buildings according to claim 1, characterized in that: the air filter layer (17) is in a circular disc-shaped structure which is attached to the inner diameter of the air inlet through pipe (5).

6. A green energy-saving ventilating device for buildings according to claim 1, characterized in that: the dustproof filter screen (18) is of a disc-shaped structure which is attached to the inner diameter of the exhaust through pipe (4).

7. A green energy-saving ventilating device for buildings according to claim 2, characterized in that: the fiber cotton layer (22) is a breathable disc-shaped structure formed by weaving plant fibers.

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