CN213811022U - Energy-conserving window of ventilation based on green building - Google Patents
Energy-conserving window of ventilation based on green building Download PDFInfo
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- CN213811022U CN213811022U CN202022547229.0U CN202022547229U CN213811022U CN 213811022 U CN213811022 U CN 213811022U CN 202022547229 U CN202022547229 U CN 202022547229U CN 213811022 U CN213811022 U CN 213811022U
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- Disinfection, Sterilisation Or Deodorisation Of Air (AREA)
Abstract
The utility model provides a ventilating energy-saving window based on green buildings, which comprises a window body and three connected filtering energy-saving systems at the upper half part of the window, the filtering and energy-saving system consists of a filtering and sterilizing part, fan blades and a power distribution management system, wherein the filtering and sterilizing part comprises a dust removing net, a water-stop sheet, a filter layer, an active carbon adsorption layer, a molecular sieve layer, an ultraviolet sterilizing lamp and a ventilating light screen, an inward-opened lintel window is arranged at the rear part of the whole filtering energy-saving system to ensure the flow of air, this energy-conserving window of ventilating can realize ventilating indoor under the not good condition of air quality, can not open the window when can solving haze and various extreme weather effectively and ventilate the difficult problem, and the rotation of flabellum can provide the electric energy for sterilamp, still has the advantage that the operation is swift convenient, and the energy saving improves people's quality of life.
Description
Technical Field
The utility model relates to a door and window field among the green building, in particular to energy-conserving window of ventilating based on green building.
Background
The green building is a high-quality building which saves resources, protects the environment, reduces pollution, provides healthy, applicable and efficient use space for people and furthest realizes harmonious symbiosis between people and nature in the whole life cycle. The existing doors and windows of green buildings are simply and mechanically ventilated, but the problem of increasingly serious air pollution becomes a great trouble for people. With the advance of modern industry, more and more fine dust exists alone or in combination with liquid drops in the air, haze, PM2.5 and the like can be formed in the air, so that the health of people is affected, and the harm to human organs and the appearance of extreme climate are easily caused. And the circulation speed of the indoor air is seriously influenced by weather, so that the indoor air cannot be circulated with the external air at any time. Therefore, the utility model designs a window which can prevent micro particles in the air from entering the room and can save energy without being influenced by the external weather conditions, the window comprises a window body and three connected energy-saving filtering systems at the upper half part of the window, wherein the energy-saving filtering systems comprise a filtering and sterilizing part, fan blades and a power distribution management system, the filtering and sterilizing part comprises a dust removing net, a water-stop plate, a filter layer, an active carbon adsorption layer, a molecular sieve, an ultraviolet sterilizing lamp and a ventilating light screen, an inward opening transom is arranged at the rear part of the whole energy-saving filtering system to ensure the flow of air, the energy-saving ventilating window can realize the ventilation to the room under the condition of poor air quality, the difficult problem that the window cannot be opened for ventilation in the case of haze and various extreme weathers can be effectively solved, the rotation of the fan blades can provide electric energy for the ultraviolet sterilizing lamp, the operation is quick and convenient, the energy is saved, and the life quality of people is improved.
Disclosure of Invention
In order to solve the problem of not good and haze and extreme weather ventilation of windowing of air quality, the utility model provides a ventilation energy-saving window based on green building, this utility model discloses can not only open the window and ventilate under the not good condition of air condition, thereby can also let the flabellum rotate the circulation of air in the room with higher speed through distribution management system under the condition of no wind, when wind makes the flabellum rotate simultaneously, distribution management system can also get up the electric energy storage that its produced and supply sterilamp to use, can also improve people's quality of life greatly when having practiced thrift the electric energy.
The utility model adopts the following technical proposal:
a ventilation energy-saving window based on a green building comprises a window body structure and three connected energy-saving filtering systems on the upper half part of the window, and is characterized in that a dust removal net is arranged on the outermost side of the energy-saving filtering system on the upper half part of the ventilation energy-saving window, a water-stop plate, fan blades, a power distribution management system, a filter layer, an active carbon adsorption layer, a molecular sieve layer, an ultraviolet germicidal lamp and a ventilation light-shielding plate are respectively arranged on the dust removal net from outside to inside, the fan blades are arranged between the water-stop plate and the filter layer and are connected with the power distribution management system, the filter layer is arranged between the fan blades and the active adsorption layer and is clamped on the inner walls at the upper end and the lower end of the energy-saving filtering system through supports and is connected with the power distribution management system, the active carbon adsorption layer is arranged between the filter layer and the molecular sieve layer and is clamped on the inner walls at the upper end and the lower end of the energy-saving filtering system through supports and is connected with the power distribution management system, the molecular sieve layer is arranged between the active carbon adsorption layer and the ultraviolet germicidal lamp and clamped on the inner walls of the upper end and the lower end of the filtering energy-saving system through the support, the molecular sieve layer is connected with the power distribution management system, the ultraviolet germicidal lamp is clamped on the inner walls of the upper end and the lower end of the filtering energy-saving system through the support, the ventilating light shading plate is arranged on the inner side of the ultraviolet germicidal lamp and connected with the window frame, the power distribution management system extends to the interior of the window frame, the whole filtering energy-saving system is connected with the window frame into a whole, and the innermost side of the window is further provided with an inwards-opened transom window.
Preferably, the dust removal net is made of nylon, and the aperture is set to be 1.5 cm.
Preferably, the position of one fan blade is reserved in the middle of the water-stop sheet.
Preferably, the fan blades are connected with the power distribution management system to form a working part, and the fan blades can rotate forwards or backwards.
Preferably, the filter layer comprises a pre-filter, an antibacterial filter, a HEPA filter and a photocatalyst filter, which are tightly connected with each other and form a part.
Preferably, the ultraviolet germicidal lamp is connected with the power distribution management system through a wire inside the window frame.
Preferably, the power distribution management system supplies power to the fan blades through an external power supply to enable the fan blades to rotate, and the fan blades rotate to store electric energy for the ultraviolet germicidal lamp to illuminate.
Preferably, the transom is opened inwards, the opening angle is 0-120 degrees, and the transom can be fixed by the buckles at 30 degrees, 60 degrees, 90 degrees and 120 degrees respectively.
The utility model has the advantages that: (1) this energy-conserving window of ventilation based on green building, when air quality is poor, PM2.5 content is too high, close the lower part window, only open upper portion filter window, can realize the purification of air, block that outside contaminated air gets into indoor. (2) When no wind exists outside or indoor air is difficult to circulate, the fan blades can be powered by an external power supply to rotate, and outdoor fresh air is accelerated to circulate indoors. (3) When the fan blades are rotated by external wind, the power distribution management system can store the electric energy for the ultraviolet germicidal lamp to illuminate, and the electric energy is saved. (4) The operation is convenient and fast, and the life quality of people is improved.
Drawings
Fig. 1 is a plan view of a ventilation energy-saving window.
Fig. 2 is a cross-sectional view of a filter economizer system for a ventilation economizer window.
The device comprises a dust removal net 1, a water-stop sheet 2, fan blades 3, a power distribution management system 4, a filter layer 5, an active carbon adsorption layer 6, a molecular sieve layer 7, an ultraviolet germicidal lamp 8, a ventilating light screen 9, a lintel window 10 and a window body 11.
Detailed Description
The utility model is described in detail with the following figures:
a ventilation energy-saving window based on a green building comprises a window body structure 11 and three connected energy-saving filtering systems on the upper half part of the window, wherein a dust removing net 1 is arranged on the outermost side of the energy-saving filtering system on the upper half part of the ventilation energy-saving window, a water stop plate 2, fan blades 3, a power distribution management system 4, a filter layer 5, an active carbon adsorption layer 6, a molecular sieve layer 7, an ultraviolet germicidal lamp 8 and a ventilation light-shielding plate 9 are respectively arranged on the dust removing net 1 from outside to inside, the position of one fan blade 3 is reserved in the middle of the water stop plate 2, the fan blades 3 are arranged between the water stop plate 2 and the filter layer 5 and connected with the power distribution management system 4, the filter layer 5 is arranged between the fan blades 3 and the active adsorption layer 6 and clamped on the inner walls at the upper end and the lower end of the energy-saving filtering system through supports and connected with the power distribution management system 4, the active carbon adsorption layer 6 is arranged between the filter layer 5 and the molecular sieve layer 7 and clamped on the inner walls at the upper end and the lower end of the energy-saving filtering system through supports, it links to each other with distribution management system 4, molecular sieve layer 7 is blocked on the inner wall at energy-saving system upper and lower both ends through the support between active carbon adsorption layer 6 and sterilamp 8, it links to each other with distribution management system 4, sterilamp 8 passes through the support card on the inner wall at energy-saving system upper and lower both ends, ventilative light screen 9 sets up and is connected with the window frame at sterilamp 8 inboard, distribution management system 4 extends to inside the window frame, whole energy-saving system that filters is connected as a whole with the window frame, the innermost of window still is equipped with inside open lintel window 10.
The fan blade 3 and the power distribution management system 4 are connected into a working part, and the fan blade 3 can rotate forwards or backwards.
The filter layer 5 comprises a pre-filter screen, an antibacterial filter layer, a HEPA filter screen and a photocatalyst filter layer which are tightly connected with each other and form a part, and the pre-filter screen mainly filters dust particles with the particle size of more than 5 microns; the antibacterial filter layer can filter some bacteria and allergic substances; the HEPA filter screen is used for efficiently filtering PM2.5, dust mites, pollen and other ultrafine particulate matters; the photocatalyst filtering layer can oxidize and decompose formaldehyde, methylamine, benzene, xylene, TVOC and other harmful organic matters, pollutants, odor, bacteria and the like into harmless CO2 and H2O.
The molecular sieve in the molecular sieve layer 7 is a crystalline silicate or aluminosilicate formed by silica tetrahedrons or alumino-tetrahedrons linked through oxygen bridges, and has excellent water absorption properties for use in purification treatment of gases.
Ultraviolet germicidal lamp 8 is connected with distribution management system 4 through the wire inside the window frame, and ultraviolet germicidal lamp 8 can be through distribution management system 4 control, thereby can utilize to rotate through flabellum 3 and produce the electric energy in distribution management system 4 and provide the illumination, also can directly make its illumination by external power source through distribution management system 4's regulation and control.
The transom 10 is opened inwards, the opening angle is 0-120 degrees, the transom can be fixed at 30 degrees, 60 degrees, 90 degrees and 120 degrees through the buckles, various requirements of people under different conditions are facilitated, and the filtering layer 5, the activated carbon adsorption layer 6 and the molecular sieve layer 7 can be cleaned or replaced from the inside when the transom reaches 120 degrees.
During the use, if external wind-force can drive flabellum 3 and rotate enough, distribution management system 4 just can store the electric power that the rotation produced and get off and supply sterilamp 8 to use this moment, can set up display screen and switch on the inner wall, if the electric quantity that wind-force produced reaches the certain degree, can close external power supply, uses the electric energy of storage to make sterilamp 8 work.
When the fan is used, if external wind power is insufficient, people feel that indoor air is not good, and people want to ventilate urgently, the fan blades 3 can be rotated by using an external power supply, the inflow of outdoor air is accelerated, and the life quality of people is improved.
During the use, if the air quality is better, can open the normal window of lower part and ventilate.
If dust or impurities are found near the fan blades when the filtering energy-saving system is cleaned, the fan blades 3 can be reversely rotated through the power distribution management system 4 to blow out the dust or the impurities, and the cleaning workload is greatly reduced.
Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.
Claims (8)
1. A ventilation energy-saving window based on a green building comprises a window body structure and three connected energy-saving filtering systems on the upper half part of the window, and is characterized in that a dust removal net is arranged on the outermost side of the energy-saving filtering system on the upper half part of the ventilation energy-saving window, a water-stop plate, fan blades, a power distribution management system, a filter layer, an active carbon adsorption layer, a molecular sieve layer, an ultraviolet germicidal lamp and a ventilation light-shielding plate are respectively arranged on the dust removal net from outside to inside, the fan blades are arranged between the water-stop plate and the filter layer and are connected with the power distribution management system, the filter layer is arranged between the fan blades and the active adsorption layer and is clamped on the inner walls at the upper end and the lower end of the energy-saving filtering system through supports and is connected with the power distribution management system, the active carbon adsorption layer is arranged between the filter layer and the molecular sieve layer and is clamped on the inner walls at the upper end and the lower end of the energy-saving filtering system through supports and is connected with the power distribution management system, the molecular sieve layer is arranged between the active carbon adsorption layer and the ultraviolet germicidal lamp and clamped on the inner walls of the upper end and the lower end of the filtering energy-saving system through the support, the molecular sieve layer is connected with the power distribution management system, the ultraviolet germicidal lamp is clamped on the inner walls of the upper end and the lower end of the filtering energy-saving system through the support, the ventilating light shading plate is arranged on the inner side of the ultraviolet germicidal lamp and connected with the window frame, the power distribution management system extends to the interior of the window frame, the whole filtering energy-saving system is connected with the window frame into a whole, and the innermost side.
2. The green building-based ventilation energy-saving window as claimed in claim 1, wherein the dust-removing net is made of nylon and has a pore size of 1.5 cm.
3. The green building based ventilation energy-saving window as claimed in claim 1, wherein a position of the fan blade is left in the middle of the water-stop sheet.
4. The green building-based ventilation energy-saving window as claimed in claim 1, wherein the fan blades are connected with the power distribution management system as a working part, and the fan blades can rotate forwards or backwards.
5. The green building-based ventilation energy-saving window as claimed in claim 1, wherein the filtering layer comprises a pre-filtering screen, an antibacterial filtering layer, a HEPA filtering screen, and a photocatalyst filtering layer, which are tightly connected with each other and form a part.
6. The green building-based ventilation energy-saving window as claimed in claim 1, wherein the ultraviolet germicidal lamp is connected with the power distribution management system through a wire inside the window frame.
7. A green building based ventilation energy-saving window as claimed in claim 1, claim 2 and claim 6, wherein the power distribution management system supplies power to the fan blades to rotate by an external power source, and the fan blades rotate to store electric energy for the illumination of the ultraviolet germicidal lamp.
8. The green building-based ventilation energy-saving window as claimed in claim 1, wherein the lintel window is opened inwards, the opening angle is 0-120 degrees, and the lintel window is provided with buckles which can be fixed at 30 degrees, 60 degrees, 90 degrees and 120 degrees respectively.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022547229.0U CN213811022U (en) | 2020-11-06 | 2020-11-06 | Energy-conserving window of ventilation based on green building |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022547229.0U CN213811022U (en) | 2020-11-06 | 2020-11-06 | Energy-conserving window of ventilation based on green building |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN213811022U true CN213811022U (en) | 2021-07-27 |
Family
ID=76965646
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202022547229.0U Expired - Fee Related CN213811022U (en) | 2020-11-06 | 2020-11-06 | Energy-conserving window of ventilation based on green building |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN213811022U (en) |
-
2020
- 2020-11-06 CN CN202022547229.0U patent/CN213811022U/en not_active Expired - Fee Related
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| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20210727 |