CN210685778U - Window is strained to haze of air-purifying room - Google Patents

Abstract

The utility model discloses a haze filter window for purifying indoor air, which comprises a window frame, a first sash, a second sash, a window screen, a left frame, a right frame, an upper frame and a lower frame, wherein the left frame and the right frame are parallel to each other, the upper frame and the lower frame are parallel to each other from top to bottom, the first sash, the second sash and the window screen are arranged on a first sash rail, a second sash rail and a window screen rail inside the window frame; the upper side surface of the water storage bin is provided with a water filling port; the left frame is internally provided with a vertical channel in a sealing manner, a grading water storage device is arranged in the vertical channel and comprises multistage independent sub water storage tanks uniformly distributed in the left vertical supporting pipe, the water supply pipe is communicated with the uppermost independent sub water storage tank, and the adjacent upper independent sub water storage tank is communicated with the lower independent sub water storage tank through an overflow pipe.

Description

Window is strained to haze of air-purifying room

Technical Field

The utility model relates to an environmental protection removes haze window technical field, concretely relates to can indoor air purifying remove haze window.

Background

With the rapid development of industrialization and urbanization processes, China faces a great challenge on the haze pollution problem. Haze weather not only affects economic development and human health, but also brings inconvenience to human life. With the advent of consumer upgrades, the willingness of consumers to invest in "healthy consumption" is very great. The consumer market has released a strong demand. Even for haze alone, haze control in los angeles in the united states takes over 50 years, and haze control in countries such as japan, london, germany, etc. takes over 30 years. Can ensure that the development of the haze removing industry in China can also keep the heat for a long time.

The haze is composed of particles of dust, sulfuric acid, nitric acid, organic hydrocarbons, and the like in the air. It can also make the atmosphere cloudy, obscure the field of vision and cause visibility deterioration, and if the horizontal visibility is less than 10000 meters, the visual process disorder caused by the aerosol system consisting of the non-aqueous components is called haze or dust haze. The carbon dioxide, the oxynitride and the inhalable particles are main components of haze, the first two are gaseous pollutants, and the last particle is the main culprit for aggravating haze weather pollution. They combine with fog to make the sky instantly grey. Particulate matter is abbreviated by the english abbreviation PM and what beijing monitors is PM2.5, i.e. pollutant particles having an aerodynamic equivalent diameter of 2.5 microns or less. Haze is harmful to human bodies after being inhaled into the respiratory tract of people, and if the haze is inhaled for a long time, serious people can die. As the diameter of fine powder-like floating particles in haze is generally below 0.01 micron, the fine powder-like floating particles can directly enter the bronchus and even the lung through a respiratory system. Therefore, the greatest effect of haze is the respiratory system of human, and the diseases are mainly concentrated on respiratory diseases, cerebrovascular diseases, nasal inflammation and other diseases, and then cardiovascular diseases, senile dementia, reproductive capacity influence, near-stratum ultraviolet ray attenuation, activity enhancement of infectious germs in the air, infectious diseases increase and the like. Meanwhile, in the dust-haze weather, the air pressure is reduced, the inhalable particles in the air are suddenly increased, the air flowability is poor, the speed of spreading harmful bacteria and viruses to the surroundings is slowed, the virus concentration in the air is increased, and the risk of disease transmission is high.

In the face of such severe situations, we have to raise vigilance to knock the alarm clock for our life health. The indoor environment is the place where people live for the longest time in daily life and the best place where people can avoid haze attack as far as possible, the window is the key point of outdoor air circulation, and the most frequently-taken action of people in haze weather is to wear a mask and tightly close a door and a window, however, the measures are not long-term, the place where air does not flow can generate a large amount of bacteria, dust and harmful gases, and in addition, people can generate a large amount of carbon dioxide in the place, especially rooms with more people in the space such as office and teaching, the carbon dioxide is too heavy, the memory of people can be reduced after the people stay in the environment for a long time, and heart diseases and chronic diseases are induced. Therefore, the idea of the anti-haze window is to be transported out under the premise, people hope to open the window comfortably in the haze weather, and through the extremely large space for purifying and circulating the window, healthier air flows in, so that the potential safety hazard that people cannot see is reduced.

The existing haze removal window is complex in structure and single in function, different haze degrees of different regions are processed in a unified mode, and the haze removal window cannot be suitable for popularization and use of all the regions.

SUMMERY OF THE UTILITY MODEL

To the defect and the problem that prior art exists, the utility model provides a simple structure, the installation is convenient with the dismantlement, can adjust the installation according to the haze condition of different regions moreover to satisfy different regions people's demand.

The utility model provides a scheme that its technical problem adopted is:

a haze filtering window for purifying indoor air comprises a window frame, a first window sash, a second window sash and window gauze, wherein the window frame comprises a left frame and a right frame which are parallel to each other, an upper frame and a lower frame which are parallel to each other from top to bottom, the left frame and the right frame are enclosed into a rectangular frame structure, the first window sash, the second window sash and the window gauze are installed on a first window sash rail, a second window sash rail and a window gauze rail inside the window frame, a sealed water storage bin is arranged in the lower frame, a water suction pump is installed inside the water storage bin and on the upper side of a bottom plate of the water storage bin, and a water outlet of the water suction pump is connected; the upper side surface of the water storage bin is provided with a water injection port, and the upper side of the water injection port is sleeved with a sealing cover; a vertical channel is hermetically arranged in the left frame, a grading water storage device is arranged in the vertical channel, the grading water storage device comprises multistage independent sub water storage tanks which are uniformly distributed in the left vertical supporting pipe and have different heights, the water supply pipe is communicated with the uppermost independent sub water storage tank, the adjacent upper independent sub water storage tank is communicated with the lower independent sub water storage tank through an overflow pipe, and the lowermost independent sub water storage tank is communicated with the water storage bin through a return pipe; the window screen is uniformly provided with transverse water drawing pipes matched with the independent sub water storage tanks, the end parts of the transverse water drawing pipes are communicated with one side of the bottom of the independent sub water storage tanks, two ends of each transverse water drawing pipe are respectively fixed with the frame of the window screen, each transverse water drawing pipe is a hollow pipe, side holes are uniformly distributed on the upper side and/or the lower side of each transverse water drawing pipe, and ceramic atomizing sheets with one side contacting with an inner cavity of each side hole are hermetically sleeved in the side holes; the water suction pump motor that is located the water storage storehouse is AC inverter motor or DC inverter motor, and the commercial power is connected to the input of transformer, and AC inverter motor's power end or the power end of connecting DC inverter motor after through the rectification is connected to the output of transformer, and the output of transformer passes through the connection director after the rectification, and inverter motor's control end is connected with the control end of controller install the velocity of flow detector on the back flow, the signal line of this velocity of flow detector is connected with the signal input part one of controller, is provided with level sensor in the water storage storehouse, and this level sensor's signal line is connected with the signal input part two of controller, and the signal output part of controller is connected with the alarm that lacks water, and the controller output passes through the power end of power cord connection each ceramic atomization piece.

Preferably, the transverse water drawing pipe is filled with water drawing cotton, through holes are uniformly distributed on the upper side and the lower side of the transverse water drawing pipe, the ceramic atomizing sheet is clamped inside the through holes, and the ceramic atomizing sheet is sealed and fixed with the transverse water drawing pipe through a rubber sealing gasket arranged on the outer side.

Preferably, the inner side of the left frame is provided with a first normally closed switch and a second normally closed switch at positions corresponding to the first window sash and the second window sash respectively, the first normally closed switch and the second normally closed switch are connected in series on the transformer output power bus, and the position corresponding to the first window sash or the second window sash can trigger the first normally closed switch or the second normally closed switch after contacting the left frame, so that the power supply is disconnected.

Preferably, the position that the inboard of right frame is located first casement and second casement and corresponds installs first normally open switch and second normally open switch respectively, first normally open switch and second normally open switch all concatenate on transformer output power bus, can trigger first normally open switch and second normally open switch behind the position contact right frame that first casement or second casement correspond, make the power switch-on.

Preferably, one side of the upper part of the independent sub-water storage tank is communicated with an overflow pipe, and the return pipe is communicated with one side of the upper part of the lowest independent sub-water storage tank.

Preferably, a water storage pipe is arranged inside the lower frame, water baffles are fixed at two ends of the water storage pipe respectively, a sealed water storage bin is formed between the two water baffles, and the water return pipe and the water supply pipe penetrate through the water baffles on the left side of the water storage pipe respectively and are connected with the water storage bin and a water storage opening of the water suction pump.

Preferably, the bottoms of the first window sash rail and the second window sash rail are provided with vertical through holes, one ends of the vertical through holes are communicated with the water storage bin, and the upper sides of the vertical through holes are provided with filter screens.

Preferably, the side of the upper frame, the lower frame, the left frame and the right frame, which are positioned indoors, is respectively provided with absorbent cotton, and one side of the absorbent cotton is fixedly attached to the side surfaces of the upper frame, the lower frame, the left frame and the right frame.

The utility model has the advantages that: 1. the utility model discloses inside all equipment all installed the window frame, need not reserve the installing port on near window wall body when installing this except that the haze window, can accomplish the installation under the prerequisite of not hindering near window wall body promptly, can all accomplish dustless construction in new and old house at the in-process that uses, make things convenient for some consumers to fail to install this product just before buying the room, then need prevent the haze, remove the user of haze and demolish old window and install this haze window that removes.

2. The utility model discloses a normally open pipe and/or first normally closed switch, second normally closed switch are normally opened to first normally open switch, second has, can be according to different area haze degree, and two normally open switches of consumer's demand installation and/or two normally closed switches of installation to the operating condition of suction pump and ceramic atomization piece when controlling two casement and being in different positions.

3. The utility model discloses a hierarchical water storage device uses with transversely drawing the cooperation of water pipe, and both equally divide do not cloth in the frame on the left side and on the perpendicular frame of window screening, can make water smoke cover whole window, and furthest's external haze that reduces gets into indoorly, and because window screening itself has certain effect that blocks water smoke, can prevent that water smoke from getting into indoorly at the in-process that uses, causes the too high problem of indoor humidity.

Drawings

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

FIG. 2 is one of the schematic cross-sectional views A-A of FIG. 1;

FIG. 3 is a second schematic sectional view taken along line A-A of FIG. 1;

FIG. 4 is a schematic view of the structure of FIG. 1 with the window screen removed;

FIG. 5 is one of the schematic views of FIG. 4 with the sash removed;

FIG. 6 is an enlarged view of the structure at B in FIG. 5;

FIG. 7 is an enlarged view of the structure of FIG. 5 at C;

FIG. 8 is a cross-sectional view of the horizontal water drawing pipe of the present invention;

FIG. 9 is a schematic view of the structure of the staged water storage device of the present invention;

fig. 10 is one of the circuit diagrams of the present invention;

fig. 11 is a second circuit diagram of the present invention;

FIG. 12 is a schematic view of the absorbent cotton of the present invention.

In the figure: 1-a window frame; 2-right frame; 3-lower frame; 4-upper frame; 5-left frame; 6-a first sash; 7-window screening; 8-transverse water drawing pipes; 9-a second sash; 10-a first window sash rail; 11-a second window sash rail; 12-window screen rail; 13-water injection port; 14-a first normally closed switch; 15-a second normally closed switch; 16-independent sub-reservoirs; 17-a water supply pipe; 18-an overflow pipe; 19-water pipe; 20-a water storage bin; 21-a water pump; 22-a water baffle; 23-a threading opening; 24-a power line; 25-a first normally open switch; 26 a second normally open switch; 27-absorbent cotton; 801-ceramic atomizing sheet; 802-water-drawing cotton; 803-rubber gasket.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example 1:

as shown in fig. 1 to 11, a window, which can purify indoor air, is mainly used for removing haze and preventing haze, and includes a window frame 4, a first sash 6, a second sash 9 and a window screen 7, the window frame 1 includes a left frame 5 and a right frame 2 which are parallel to each other, and an upper frame 4 and a lower frame 3 which are parallel to each other from top to bottom, and enclose a rectangular frame structure, the first sash 6, the second sash 9 and the window screen 7 are installed on a first sash rail 10 and a second sash rail 11 and a window screen rail 12 inside the window frame 1, a water storage bin 20 is installed inside the lower frame 3, a water suction pump 21 is installed inside the water storage bin 20 on the upper side of the bottom plate of the water storage bin, the water suction pump 21 includes a driving motor, the driving motor is installed on the upper side of a motor base, fixing bolts are installed at four corners of the motor base, and the driving motor is fixedly connected with the upper side of the bottom side; the water inlet pipe of the water pump 21 is arranged downwards, the end part of the water inlet pipe is provided with a filter screen, and the distance between the water inlet of the water inlet pipe and the bottom side surface of the water storage bin 20 is 0.5 cm.

As shown in fig. 6, 7 and 9, a water supply pipe 17 is connected to a water outlet of the suction pump 21; a water injection port 13 is formed in the upper side surface of the water storage bin 20, a sealing cover is sleeved on the upper side of the water injection port 13, and the water injection port 13 is communicated with the water storage bin 20; a grading water storage device is arranged in the left frame 5, the grading water storage device comprises independent sub water storage tanks 16 uniformly distributed in the left vertical supporting pipe, and each independent sub water storage tank 16 is connected with a water supply pipe 17; an overflow pipe 18 is connected to one side of the upper part of the independent sub-water storage tank 16, the tail end of the overflow pipe 18 is connected with the independent sub-water storage tank 16 adjacent to the bottom, a return pipe is connected to one side of the upper part of the independent sub-water storage tank 16 at the bottommost, the tail end of the return pipe is connected with the water storage bin 20, in the using process, water in the water storage bin 20 is pumped out by a water pump 21 and is guided into the independent sub-water storage tank 16 at the topmost end, when water in the independent sub-water storage tank 16 at the topmost end reaches a certain amount, namely the height of the joint of the overflow pipe 18 and the independent sub-water storage tank 16, the water in the independent sub-water storage tank 16 at the topmost end flows into the next independent sub-water storage tank 16 through the overflow pipe 18, a return pipe is arranged at one side of the independent sub-water storage tank 16 at the bottommost, the installation mode of the, thus, a water circulation process is completed.

The window screen 7 is uniformly provided with transverse water drawing pipes 8 matched with the independent sub water storage tanks 16, the end parts of the transverse water drawing pipes 8 are communicated with one side of the bottom of the independent sub water storage tanks 16, two ends of each transverse water drawing pipe 8 are respectively fixed with the frame of the window screen 7, each transverse water drawing pipe 16 is a hollow pipe for water circulation, and ceramic atomizing sheets 801 with one side in contact with an inner cavity of the transverse water drawing pipe 16 are uniformly distributed on the upper side and the lower side of the transverse water drawing pipe 16; in the water circulation process, water in each independent sub water storage tank 18 flows into the corresponding transverse water drawing pipe 16, and due to the connection relation of one end of each transverse water drawing pipe 16 and one side of the bottom of each independent sub water storage tank 18, the water level inside each independent sub water storage tank 18 is higher than the water level of each transverse water drawing pipe 16, so that the hollow channel of each transverse water drawing pipe 16 is filled with water, and the ceramic atomizing sheets atomize the water, so that the effects of preventing haze and removing haze are achieved.

Go up frame 4 and 2 inboards on the right frame and be equipped with the spool, open in the outside of right frame 2 and have threading mouth 23, the inside power cord 24 that has worn of threading mouth 3, power cord 24 divide into two sets ofly, and a set ofly is connected with power cord 24 electricity respectively through the side frame of the inside of right frame, the right half of last frame and suction pump 21 and ceramic atomization piece 801 through the side frame of window screening 7.

As shown in fig. 10-11, the water pump motor M located in the water storage bin 20 is an ac inverter motor or a dc inverter motor, the input end of the transformer is connected to the mains supply, i.e. 220v, and the output end of the transformer is connected to the power end of the ac inverter motor or to the power end of the dc inverter motor after rectification, in this process, the 220v mains supply, i.e. the ac power, is changed into 12v ac power through the transformer and transmitted to the ac inverter motor, or the 12v ac power is changed into 12v dc power through the rectifier and transmitted to the dc inverter motor.

The output end of the transformer is connected with the controller after rectification, the control end of the variable frequency motor is connected with the control end of the controller, the backflow pipe is provided with a flow rate detector, a signal line of the flow rate detector is connected with a signal input end I of the controller, a liquid level sensor is arranged in the water storage bin, a signal line of the liquid level sensor is connected with a signal input end II of the controller, a signal output end of the controller is connected with a water shortage alarm, the output end of the controller is connected with power ends of the ceramic atomization pieces through power lines, when the flow rate detector detects that the water flow rate of backflow in the backflow pipe is 0, the water in the water storage bin 20 is guided into the uppermost independent sub water storage tanks 18 through the controller, and flows into the independent sub water storage tanks through the backflow pipes one by one, and finally the water flow rate of backflow in the return pipe is larger; when the water level sensor detects that the water level in the water outlet bin 20 is insufficient, an alarm is given out through the water shortage alarm, and water is manually injected into the water storage bin 20 through the water injection port 13.

In this embodiment, atomizing water is graceful inside in order to reach the effect that removes the haze, prevent the haze at the window, and when the drop of water contacted the haze granule, partial drop of water received gravity to fall down on first window sash rail, second window sash rail and window screen rail, and in this embodiment, the bottom of lower frame is located and opens the outlet that has the slope on each orbital lug, makes the inside hydroenergy of each track arrange outdoors through the water conservancy diversion effect in outlet.

One side of window screening 7 and the inboard laminating of left side frame 5, and the recess card that the frame outside of window screening 7 was equipped with on the lug of left side frame 5, can be according to the different demands of user using the messenger, and the self-tapping is fixed on the frame of screen window 7 by oneself, reaches the effect of fixed window screening.

Example 2:

as shown in fig. 8, this embodiment is basically the same as embodiment 1, and the same parts are not repeated, but different from embodiment 1: transversely draw water pipe 16 intussuseption and be filled with and draw water cotton 802, draw the upside and/or the downside equipartition of water pipe 16 transversely and have the side opening, ceramic atomizing piece 16 clamps inside the through-hole, and ceramic atomizing piece 16 is equipped with rubber packing 803 through the outside and draws water pipe 16 sealed fixed transversely, specifically does with the adjustment according to the haze condition in user's place of living to change the power that the haze was removed promptly to water smoke concentration.

Example 3:

as shown in fig. 3, this embodiment is basically the same as embodiment 1, and the same parts are not repeated, but different from embodiment 1: the inner side of the left frame 5 is provided with a first normally closed switch 14 and a second normally closed switch 15 in the first window sash rail 10 and the second window sash rail 11 respectively, the first normally closed switch 14 and the second normally closed switch 15 are both connected in series with the water pump 21 and are both touch switches, through the normally closed switches arranged on the inner side of the left frame 5, the water pump 21 and the ceramic atomizing sheet 801 can be immediately closed when the side surfaces of the first window sash 6 and the second window sash 9 are attached to the inner side of the left frame 5, so that the water pump 21 and the ceramic atomizing sheet 801 stop working, and the water pump 21 and the ceramic atomizing sheet 801 work simultaneously when the first window sash 6 and the second window sash 9 are not attached to one side of the left frame 5.

In this embodiment, as long as one of the first window sash 6 and the second window sash 9 is attached to the inner side of the left frame, the water pump 21 and the ceramic atomizing sheet 801 are stopped to operate, and as long as the first window sash 6, the second window sash 9 and the inner side of the left frame 5 keep a distance from the first normally closed switch 15 to the second normally closed switch, the water pump 21 and the ceramic atomizing sheet 801 can continue to operate.

Example 4:

as shown in fig. 2, this embodiment is basically the same as embodiment 1, and the same parts are not repeated, but different from embodiment 1: the inboard of right frame 2 is located and installs first normally open switch 25 and second normally open switch 26 in first window sash rail 10 and the second window sash rail 11 respectively, first normally open switch 25 and the even suction pump 21 of second normally open switch 26 are established ties and are the touch switch, through set up two normally open switches in the inboard of right frame 2, only can make suction pump 21 and ceramic atomization piece simultaneous working when first casement 6 and second casement 9 simultaneously with the inboard contact of right frame 2, when first casement 6 and second casement 9 all with the inboard contact of right frame 2, suction pump 21 and ceramic atomization piece 801 all stop work.

In this embodiment, only when two casement contact with two contact switches on right side simultaneously, just can start suction pump 21 and ceramic atomizing piece, more be fit for the area that external haze pollution degree is lighter and use.

Example 5:

as shown in fig. 7, this embodiment is basically the same as embodiment 1, and the same parts are not repeated, but different from embodiment 1: the inside of lower frame is equipped with water storage pipe, and the both ends of water storage pipe are fixed with breakwater 22 respectively, form sealed water storage storehouse 20 between two breakwater 22, and back flow and delivery pipe 17 pass the left breakwater 22 of water storage pipe respectively and are connected with the water storage mouth of water storage storehouse 20 and suction pump 21, can reach the inside purpose that sets up sealed water storage storehouse 20 of lower frame equally, and reduced the loss of material.

Example 6:

this embodiment is basically the same as embodiment 1, and the same parts are not repeated, and is different from embodiment 1 in that: open the bottom of first window fan rail and second window fan rail has vertical through-hole, the one end and the reservoir intercommunication of vertical through-hole, upside at vertical through-hole is equipped with the filter screen, water smoke assembles after falling and is rivers can flow in reservoir 20 once more through vertical through-hole, the rivers that have contained the haze granule between them can be filtered by the filter screen, guarantee the cleanness of the inside water in reservoir 20, this embodiment more is fit for the severe area use of haze pollution, in the serious area of haze, need increase the power of ceramic atomization piece and the power of suction pump, water resource consumption is high, this embodiment can be with partial water smoke recycle again, reduce the waste of water resource.

Example 7:

as shown in fig. 12, this embodiment is basically the same as embodiment 1, and the same parts are not repeated, but different from embodiment 1: go up frame, lower frame, left side frame and right frame and be located indoor one side and be equipped with the cotton 27 that absorbs water respectively, the one side of the cotton 27 that absorbs water is fixed with the side laminating of last frame, lower frame, left side frame and right frame, and the in-process washing water cotton that uses can adsorb the indoor water smoke that gets into through the window screening, reduces the indoor content of water smoke entering to prevent to cause the too high problem of indoor humidity because the haze function that removes of opening this window screening of long-time high power.

Claims (7)

1. The utility model provides a window is strained to indoor air-purifying's haze, includes window frame, first casement and second casement and with the window screening, the window frame encloses into the rectangle frame structure including controlling parallel left side frame and right frame and parallel last frame and lower frame from top to bottom, first casement and second casement and window screening are installed on inside first window sash rail and second window sash rail and the window screening rail of window frame, its characterized in that: a sealed water storage bin is arranged in the lower frame, a water suction pump is arranged in the water storage bin and positioned on the upper side of the bottom plate of the water storage bin, and a water outlet of the water suction pump is connected with a water supply pipe; the upper side surface of the water storage bin is provided with a water injection port, and the upper side of the water injection port is sleeved with a sealing cover; a vertical channel is hermetically arranged in the left frame, a grading water storage device is arranged in the vertical channel, the grading water storage device comprises multistage independent sub water storage tanks which are uniformly distributed in the left vertical supporting pipe and have different heights, the water supply pipe is communicated with the uppermost independent sub water storage tank, the adjacent upper independent sub water storage tank is communicated with the lower independent sub water storage tank through an overflow pipe, and the lowermost independent sub water storage tank is communicated with the water storage bin through a return pipe; the window screen is uniformly provided with transverse water drawing pipes matched with the independent sub water storage tanks, the end parts of the transverse water drawing pipes are communicated with one side of the bottom of the independent sub water storage tanks, two ends of each transverse water drawing pipe are respectively fixed with the frame of the window screen, each transverse water drawing pipe is a hollow pipe, side holes are uniformly distributed on the upper side and/or the lower side of each transverse water drawing pipe, and ceramic atomizing sheets with one side contacting with an inner cavity of each side hole are hermetically sleeved in the side holes; the water pump motor positioned in the water storage bin is an alternating current variable frequency motor or a direct current variable frequency motor, the input end of a transformer is connected with commercial power, the output end of the transformer is connected with the power end of the alternating current variable frequency motor or the power end of the direct current variable frequency motor after rectification, the output end of the transformer is connected with a controller after rectification, the control end of the variable frequency motor is connected with the control end of the controller, a flow velocity detector is installed on the return pipe, a signal line of the flow velocity detector is connected with a signal input end I of the controller, a liquid level sensor is arranged in the water storage bin, a signal line of the liquid level sensor is connected with a signal input end II of the controller, the signal output end of the controller is connected with a water shortage alarm, and the output end of; the horizontal water drawing pipe is filled with water drawing cotton, through holes are uniformly distributed on the upper side and the lower side of the horizontal water drawing pipe, the ceramic atomizing sheet is clamped inside the through holes, and the ceramic atomizing sheet is sealed and fixed with the horizontal water drawing pipe through a rubber sealing gasket arranged on the outer side.

2. The haze filter window for purifying indoor air of claim 1, wherein: the inner side of the left frame is provided with a first normally closed switch and a second normally closed switch at positions corresponding to the first window sash and the second window sash respectively, the first normally closed switch and the second normally closed switch are connected in series on a transformer output power bus, and the position corresponding to the first window sash or the second window sash can trigger the first normally closed switch or the second normally closed switch after contacting the left frame to disconnect a power supply.

3. The haze filter window for purifying indoor air of claim 1, wherein: the position that the inboard of right frame is located first casement and second casement and corresponds installs first normally open switch and second normally open switch respectively, first normally open switch and second normally open switch all concatenate on transformer output power bus, can trigger first normally open switch and second normally open switch behind the position contact right frame that first casement or second casement correspond, make the switch-on.

4. The haze filter window for purifying indoor air of claim 1, wherein: one side of the upper part of the independent sub water storage tank is communicated with an overflow pipe, and the return pipe is communicated with one side of the upper part of the lowest independent sub water storage tank.

5. The haze filter window for purifying indoor air of claim 4, wherein: the water storage device is characterized in that a water storage pipe is arranged inside the lower frame, water baffles are fixed at two ends of the water storage pipe respectively, a sealed water storage bin is formed between the two water baffles, and the return pipe and the water supply pipe penetrate through the water baffles on the left side of the water storage pipe respectively to be connected with the water storage bin and a water storage opening of the water suction pump.

6. The haze filter window for purifying indoor air of claim 1, wherein: the bottom of the first window sash rail and the bottom of the second window sash rail are provided with vertical through holes, one ends of the vertical through holes are communicated with the water storage bin, and the upper sides of the vertical through holes are provided with filter screens.

7. The haze filter window for purifying indoor air of claim 1, wherein: and the side surfaces of the upper frame, the lower frame, the left frame and the right frame, which are positioned indoors, are attached and fixed.

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