CN207879214U - Intelligent multifunctional temperature air controlling of quality window - Google Patents

Abstract

The utility model provides an intelligent multifunctional temperature and air quality control window. The control window includes an equipment frame, outdoor equipment, indoor equipment, windows, fans, coils, electric heating equipment and a single-chip microcomputer. The equipment frame is installed on the inner side of the window on the outer wall. The equipment cabinet is installed on the right side, and safety nets, electric heating nets, filter nets and diffusers are installed inside. One end of the diffuser is connected to a fan, and a coil is placed inside, and the water inlet and outlet pipes of the coil are connected to the indoor heating pipeline. The opening and closing of the windows is driven by a window motor, and many equipment sensors are installed indoors and outdoors. The equipment sensors and the single-chip microcomputer have established information transmission, and the indoor and outdoor air quality and equipment operating conditions can be monitored in real time through computers or mobile phones. The effect of the utility model is to solve the problem of cold wind intrusion in winter, realize automatic opening and closing of windows, purify and heat indoor air, and control single-chip microcomputers through terminal equipment to control all indoor and outdoor equipment, thereby realizing smart home control.

Description

Intelligent multifunctional temperature and air quality control window

technical field

The utility model relates to the technical field of building energy saving and indoor air quality, in particular to an intelligent multifunctional temperature and air quality control window.

Background technique

At present, conventional fan coil units are mostly used in large-scale indoor air supply systems. This system is suitable for large shopping malls, supermarkets, hotels and other places with large building areas. For civil buildings, especially residential buildings in cold and severe cold areas in northern my country, large fan coil air supply systems are not suitable. Due to the low outdoor temperature and strong wind and sand in winter, especially the smog that has been raging in recent years, when there is heating indoors, the indoor windows are closed almost 24 hours a day. However, if the human body is in a sealed space with no air circulation for a long time, the turbidity and humidity of the air will aggravate the body's dizziness, nausea, and even fainting. However, when the windows are opened, the outdoor cold wind invades, which will not only increase the energy consumption of the building, but also put the human body in a smog environment, which will damage human health.

Most of the inventions at this stage are improving indoor air purifiers and humidifiers, mainly to improve the quality of indoor air and prevent fresh air from entering the room, without solving the problem from the source. For example, the Chinese patent with application number 201621154486.5 proposes a horizontal fan coil unit that can purify and humidify. There is a humidifier and an evolution device inside the air supply duct, but the cost is high and the device is not intelligent enough to be used by ordinary households. The Chinese patent application number 201710057740.2 discloses a self-adjusting multifunctional window, which combines shutters, cleaning devices and many sensors. Although the automatic opening and closing of the window is realized, it cannot be opened in heavy fog and haze weather, and the patent The structure is complex, the maintainability is poor, and the safety performance is low. With the rapid development of electronic technology and the entry of smart homes into thousands of households, it has brought great convenience to people's lives. Therefore, using smart home systems to connect indoor devices into the network, and to control home devices through terminal devices is becoming more and more a trend. In modern energy policies, building energy conservation and improving indoor air quality are becoming more and more important. Therefore, using smart home devices to solve indoor ventilation in winter and reduce building energy consumption has become a feasible way.

Combining the fan coil unit with the existing windows and installing a motor on the windows realizes the automatic opening and closing of the windows and ensures the precise opening. A lot of sensors are set up indoors and outdoors, and a data connection is established with the indoor single-chip microcomputer. The user can control the single-chip microcomputer through the terminal device and then control all indoor and outdoor equipment, which solves the intrusion of cold wind in winter and makes it possible to purify and heat fresh air and indoor air.

Contents of the invention

The purpose of this utility model is to provide an intelligent multifunctional temperature and air quality control window for the disadvantages of the existing technology, which solves the problem of cold wind intrusion in winter, realizes automatic opening and closing of the window, purification and heating of fresh air and indoor air , through the terminal equipment to control the single chip microcomputer and then control all indoor and outdoor equipment, realizing smart home control.

In order to achieve the above purpose, the technical solution adopted by the utility model is to provide an intelligent multifunctional temperature and air quality control window, wherein: the window includes equipment frame, outdoor equipment, indoor equipment, fan, coil, diffuser and single chip microcomputer; The equipment frame is installed on the inner side of the window of the outer wall and fixed on the wall with screws; from outdoor to indoor, filter screens, electric heating nets, safety nets and diffusers are sequentially installed inside the equipment frame. An equipment cabinet is provided on the right side of the equipment frame, and the equipment cabinet is provided with an openable equipment cabinet door. There are upper, middle and lower partitions inside. The uppermost layer is a control cabinet for placing a single-chip microcomputer; There is a main power supply; the lowest layer is the fan cabinet, where the fan is placed, and the bottom surface of the fan cabinet is perforated, which is the air inlet hole of the fan. The fan is connected to the diffuser by pipes; coils are placed inside the diffuser and connected to indoor heating pipelines. The outdoor equipment includes: an outdoor PM. sensor and a raindrop sensor, all installed on the outdoor window sill. The indoor equipment includes: an indoor PM. sensor installed on an indoor wall, an indoor humidity sensor, an indoor temperature sensor and a humidifier placed on an indoor table. The indoor and outdoor devices are connected with the single-chip microcomputer through data lines.

The beneficial effects of the utility model are:

1) The utility model provides an intelligent multifunctional temperature and air quality control window. A filter is set in the window, which can filter large particles of dust and PM2.5, and purify the fresh air entering the room, with a purification rate of over 90%.

2) The filter, electric heating net and safety net can be quickly disassembled, easy to install, replace and maintain. Users can choose according to outdoor weather, air quality and their own needs.

3) The electric heating network is equipped with a fuse and a circuit breaker in the power supply part to ensure the safe operation of the equipment; the temperature of the electric heating network is adjustable, and when the indoor temperature is too low, the coil and the electric heating network jointly heat the air to realize Fast heating is achieved, the heating efficiency is increased, and the heating time is shortened by more than 50%. During the transitional period, the electric heating network can be turned on, which solves the problem of no indoor heating during the transitional period.

4) The window is electrically opened and closed by the window motor, which controls the amount of fresh air entering, and is combined with the indoor temperature sensor to realize automatic control; in rainy days, combined with the indoor humidity sensor, the window is automatically closed to prevent rainwater from entering indoor.

5) The device and many sensors are connected with the single chip microcomputer, the intelligent control system is introduced, and controlled by the intelligent terminal, the intelligentization of household equipment is realized. Compared with ordinary homes, smart homes not only have traditional living functions, but also provide information interaction functions, so that people can view home information and control home related equipment externally, which is convenient for people to effectively arrange time and make home life safer and more comfortable. .

Description of drawings

Fig. 1 is a schematic cross-sectional view of the utility model;

Fig. 2 is a structural schematic diagram of a window device of the present invention;

Fig. 3 is a schematic diagram of the internal structure of the window device of the present invention;

Fig. 4 is a sectional view of the equipment frame of the present utility model;

Fig. 5 is a schematic diagram of the equipment frame structure of the present utility model;

Fig. 6a is the installation process diagram one of the utility model;

Fig. 6b is the second installation process diagram of the utility model;

Fig. 6c is the installation process Fig. 3 of the present utility model;

Fig. 7 is a schematic structural diagram of the electric heating network of the present invention;

Figure 8 is a partially enlarged view of the electric heating network of the present invention;

Fig. 9 is a schematic diagram of the internal structure of the electric heating network of the present invention;

Fig. 10 is a schematic diagram of the structure of the power supply line of the electric heating network of the present invention;

Fig. 11 is the structural representation of the filter screen of the present utility model;

Fig. 12 is a component diagram of the diffuser, the coil and the blower fan of the present utility model;

Fig. 13 is a schematic structural view of the diffuser cover of the present invention;

Fig. 14 is a combined schematic diagram of a diffuser, a coil and a fan of the present invention;

Fig. 15 is a structural schematic diagram of the automatic opening and closing window of the present invention;

Fig. 16 is a system connection diagram of the present utility model;

Fig. 17 is the physical connection diagram of the system of the present utility model;

Fig. 18 is a system work flowchart of the present utility model.

In the picture:

1. Equipment frame 2. Fan 3. Coil 4. Filter 5. Electric heating network 6. Safety net 7. Diffuser 8. Equipment cabinet 9. Equipment cabinet door 10. Control cabinet 11. Single-chip microcomputer 12. Power supply cabinet 13 .General power supply 14 fan cabinet 15. Indoor heating pipeline 16. Outdoor PM2.5 filter 17. Raindrop sensor 18. Indoor PM2.5 filter 19. Indoor humidity sensor 20. Indoor temperature sensor 21. Humidifier 22. Plug Slot 23. Frame 24. Electric heating grid 25. Horizontal heating wire array 26. Vertical heating wire array 27. Electric heating wire 28. Upper bus bar 29. Lower bus bar 30. Left bus bar 31. Right bus bar 32. Incoming bus bar 33 .Exit bus 34. Electric slot 35. Electric heating network power supply line 36. Electric plug 37. Fuse 38. Current gear switch 39. Primary filter 40. Haze filter 41. Diffuser cover 42. Diffuse tank 43. Diffuser air inlet hole 44. Diffuser hole 45. Anti-scalding plate 46. Secondary filter 47. Coil pipe hole 48. Water inlet pipe 49. Water outlet pipe 50. Water inlet pipe valve 51. Flow controller 52. Outlet Water pipe valve 53 Fan electric regulator 54. Window motor 55. Rack 56. Gear 57. Window frame 58. Data cable 59. Movable window 60. Window equipment 61. Side reserved hole 62. Bottom surface reserved hole 63 Window motor control device

Detailed ways

Provide the specific embodiment of the present utility model below. The specific embodiments are only used to further describe the present invention in detail, and do not limit the protection scope of the claims of the present application.

The intelligent multifunctional temperature and air quality control window of the present utility model, as shown in Figure 1 , includes: a system composed of outdoor equipment, indoor equipment and window equipment 60 . Described outdoor equipment comprises: outdoor PM2.5 sensor 16 and raindrop sensor 17, all are installed on the outdoor window sill. The indoor equipment includes: an indoor PM2.5 sensor 18 installed on the indoor wall, an indoor humidity sensor 19, an indoor temperature sensor 20 and a humidifier 21 placed on the indoor table. The indoor and outdoor devices are connected to the single-chip microcomputer 11 through the data line 58 .

As shown in FIG. 2 , the window device 60 is mainly composed of an equipment frame 1 installed on the inside of the window on the outer wall and fixed on the wall with screws, an equipment cabinet 8 on the right side and the equipment inside it.

Fig. 3 is the internal structure schematic diagram of window equipment, as shown in Fig. 3, described equipment cabinet 8 is provided with the equipment cabinet door 9 that can open, and interior has upper, middle and lower partitions, and the top floor is control cabinet 10, places single-chip microcomputer 11 ; The center is a power supply cabinet 12, which is provided with a total power supply 13;

The inside of the equipment frame 1 is mainly composed of a diffuser 7 and a multi-layer mesh plate. Turning to Figure 4, from outdoor to indoor, a filter screen 4, an electric heating net 5, a safety net are installed in sequence inside the equipment frame 1. Net 6 and diffuser 7.

As shown in Figure 5, there are slots 22 on the four sides inside the equipment frame 1, wherein the slot 1 on the left side of the equipment frame 1 completely penetrates the left wall of the equipment frame 1, and there are two side reserved holes 61 in the lower right corner A hole 62 is reserved on the bottom surface. There are three groups of the slots 22, the depth of the slots 22 is less than the thickness of the equipment frame 1, the thickness of the frame 23 of the filter screen 4, the electric heating net 5 and the safety net 6 is slightly smaller than the width of the slot 22, and the frame 23 all around are provided with sealant. The equipment frame 1 is preferably made of aluminum alloy.

In order to illustrate how the multi-layer mesh board is put into the equipment frame 1, see Fig. 6a - Fig. 6c. Now take how the safety net 6 is put into the equipment frame 1 as an example to describe, as shown in Fig. Slot 22 in the side wall. The placement method of filter screen 4 and electric heating net 5 is the same.

As shown in FIG. 7 , the electric heating grid 5 is mainly composed of an electric heating grid 24 , a frame 23 and an electric slot 34 at the upper right corner of the frame 23 .

As shown in Figure 8, the electric heating grid 24 is composed of a layer of transverse heating wire array 25 and a layer of longitudinal heating wire array 26, and is arranged in the frame 23 in a grid pattern; the horizontal heating wire array 25 and the The heating wires 27 of the longitudinal heating wire array 26 are arranged at equal intervals, and the horizontal heating wire array 25 and the longitudinal heating wire array 26 are placed in parallel with a certain distance between them.

As shown in FIG. 9 , the frame 23 of the electric heating grid 5 is hollow inside for internal wiring. The upper and lower ends of the longitudinal heating wire array 26 are respectively connected to the upper bus bar 28 inside the upper frame and the lower bus bar 29 of the lower frame, and the left and right ends of the horizontal heating wire array 25 are respectively connected to the left bus bar 30 inside the left frame. Connect with the right bus bar 31 of the right frame. Upper bus bar 28 and left bus bar 30 intersect at incoming bus bar 32 ; lower bus bar 29 and right bus bar 31 intersect at outgoing bus bar 33 . The incoming bus 32 and the outgoing bus 33 are arranged inside the frame 23 to connect the positive and negative poles of the electric slot 34 respectively.

As shown in FIG. 10 , the power supply cabinet 12 has an electric heating network power supply line 35 , and an electric plug 36 , a fuse 37 and a current gear switch 38 are sequentially arranged on the electric heating network power supply line 35 . The current gear switch 38 is connected with the single chip microcomputer 11 through the data line 58 . The electric heating network power supply line 35 is connected to the main power supply 13 in the power supply cabinet 12, and the electric plug 36 is inserted into the electric slot 34 of the electric heating network 5 to realize the power supply of the electric heating network 5.

As shown in FIG. 11 , the filter screen 4 includes a primary filter 39 and a haze filter 40 . The primary effect filter 39 is a fiber filter screen of 10 micron level, and the primary effect filter 39 first filters once before, and the larger particles and foreign matter are filtered out, such as leaves, convenience bags, paper scraps, etc.; Haze filter 40 is a HEPA filter with a pore size of 0.3 microns, which can remove PM2.5. Its characteristic is that air can pass through, but fine particles cannot pass through; double filtration can make the removal rate of particles reach more than 99%, which improves the Fresh air quality.

As shown in FIG. 12 , the diffuser 7 , the coil 3 and the blower 2 together form a heating device for heating air.

Described diffuser 7 is rectangular parallelepiped, is made up of diffuser cover 41 and diffuser groove 42, and described diffuser groove 42 and diffuser cover 41 are connected or welded by screw. The fan 2 is a brushless fan or an AC fan, equipped with a fan electric regulator 53 and connected to the single-chip microcomputer 11 in the control cabinet 10 through a data line 58 . The fan 2 is connected to the main power supply 13 of the power supply cabinet 12, and the fan 2 is filled with sound-absorbing thermal insulation cotton. The air outlet of the fan 2 passes through the side reserved hole 60 of the equipment frame and is connected with the diffuser air inlet 43 on the right side of the diffuser 7; there is an anti-scald plate 45 above the diffuser 7, and the anti-scald plate 45 is stuck on the On the diffuser 7, the anti-scald plate 45 is provided with an air outlet. A secondary filter 46 can be set between the diffuser cover 41 and the anti-scalding plate 45 for filtering air.

As shown in FIG. 13 , there are diffuser holes 44 on the diffuser cover 41 , and there are three rows of diffuser holes 45 , and the apertures of the diffuser holes 45 become smaller and smaller from the right side of the fan 2 to the left. The sizes of the diffuser holes 45, the diffuser 7 and the fan 2 are related to the indoor area, the air supply volume, and the indoor temperature setting, and can be calculated by relevant formulas.

The coiled pipe 3 is placed in the diffuser 7, and the two ends of the coiled pipe 3 pass through the coil hole 47 on the lower wall of the diffuser 7 and the reserved hole 62 on the bottom surface of the equipment frame 1, and are connected to the water inlet pipe 48 and the water outlet pipe respectively. 49 are connected.

Turning to Fig. 3, the coil hole 47 is sealed with a sealing ring. The water inlet pipe 48 and the water outlet pipe 49 of the coil 3 are connected to the indoor heating pipeline 15, and if there is no heating pipeline 15, it can be connected to indoor water heating equipment such as a gas wall-hung boiler. Water inlet pipe 48 is provided with water inlet pipe valve 50 and flow controller 51, and water outlet pipe 49 is provided with water outlet pipe valve 52; The single-chip microcomputer 11 is connected through a data line 58 .

As shown in FIG. 14 , the diffuser 7 , the coil 3 and the blower 2 together form a heating device for heating air at the position of the window device 60 .

As shown in Figure 15, the window is electrically opened and the opening degree can be adjusted. According to different types of windows, different electric opening and closing methods can be set. This patent only takes the casement window as an example, and the casement window is composed of a window motor 54 , a rack 55 and a gear 56 . The window motor 54 is fixed on the window frame 57, the transmission shaft of the window motor 54 is provided with a gear 56, and the rack 55 is fixed on the movable window 59, and the gear 56 and the rack 55 are meshed. The window motor controller 63 is connected to the main power supply 13 of the power supply cabinet 12 and connected to the single-chip microcomputer 11 through the data line 58; the window motor controller 63 controls the forward rotation, reverse rotation and start-stop of the window motor 54.

Figure 16, Figure 17, and Figure 18 show in detail the connection relationship between the various devices. The single-chip microcomputer 11 is connected to the single-chip microcomputer 11 through the data line 58 with various sensors, valves, flow meters and other equipment. Specifically, it mainly includes Six major parts. 1. Indoor equipment: indoor PM2.5 sensor 18, indoor humidity sensor 19, indoor temperature sensor 20 and humidifier 21 placed on the indoor table. 2. Outdoor equipment: outdoor PM2.5 sensor 16 and raindrop sensor 17. 3 . Window motor controller 63. 4. Water inlet valve 50, water outlet valve 52 and flow controller 51. 5. Fuse 37 and current gear switch 38. 6. Fan electric regulator 53.

The above devices perform data transmission through the Modbus-RTU communication protocol. The single-chip microcomputer 11 collects the data of each device and sends a signal to control each device; the single-chip microcomputer 11 can be connected to the indoor network, and the user can remotely control the single-chip microcomputer 11 to monitor indoor and outdoor air conditions and equipment in real time through terminal equipment such as computers and mobile phones. Operating conditions.

The working principle and working process of the intelligent multifunctional temperature and air quality control window provided by the utility model are:

The filter screen 4, the electric heating net 5, and the safety net 6 are all detachable, and can be disassembled voluntarily when not in use. If you don’t want to do manual operation, in winter and when the outdoor air quality is unstable, you can install the filter screen 4, the electric heating grid 5, and the safety net 6 first. The narration of heating net 5 and safety net 6 can be ignored. Although the indoor lighting is affected to a certain extent, the indoor air quality is guaranteed. The equipment for information transmission with the single-chip microcomputer 11 described in this article can be connected by wire or wireless, and the transmission of information is bidirectional; Operations such as these are all controlled by the single-chip microcomputer 11.

The mobile terminal and the computer terminal are set with four operating modes: 1. Heating mode in the transitional period, 2. Rapid heating mode in the heating period, 3. Normal heating mode in the heating period and 4. General mode in the non-heating period. Among them, the heating mode in the transition period is that the electric heating network 5 and the fan 2 work together. This mode is suitable for heating in the non-heating period, and it realizes that there is no heating but can heat fresh air; the rapid heating mode in the heating period is the electric heating network 5 and the fan 2. and coil 3 work, this mode is suitable for rapid heating during the heating period; the normal heating mode during the heating period is fan 2 and coil 3 work, this mode makes full use of the indoor heating and heating to heat the fresh air; the general mode during the non-heating period is fan 2 work, this mode is suitable for the non-heating period fan 2 circulates the indoor air, purifies the indoor air through the secondary filter 46 on the diffuser 7, and acts as an indoor purifier.

When the raindrop sensor 17 detects raindrops on the outdoor window sill, the raindrop sensor 17 transmits information to the single-chip microcomputer 11, and the single-chip microcomputer 11 judges that it is rainy outside this moment, and the output signal is given to the window motor controller 63, and the window motor 54 is driven to close the window. Otherwise, the window opens. When the outdoor PM2.5 sensor 18 on the outdoor window sill detects that the outdoor PM2.5 exceeds the standard, it transmits information to the single-chip microcomputer 11, and then the single-chip microcomputer 11 sends information to the mobile phone or computer terminal of the user, reminding to install the filter screen 4; if there is no response , the single-chip microcomputer 11 controls the window motor controller 63 to close the window.

In this implementation example, the single-chip microcomputer 11 is preferably an ATmegal6 single-chip microcomputer. The data throughput rate of ATmegal6 single-chip microcomputer is as high as 1M PS/MHz, and the data processing speed is fast, which can improve the processing efficiency. At the same time, the ATmegal6 microcontroller supports on-chip debugging and programming, and the related control functions can be realized by writing the existing program to the ATmegal6 microcontroller. Of course, other types of microcontrollers can also be used.

If filter screen 4 has been installed this moment, if indoor humidity sensor 19 detects whether indoor humidity is too low; If too low, then notify single-chip microcomputer 11 to open indoor humidifier 21; Otherwise, close humidifier 21.

If indoor PM2.5 sensor 18 detects that indoor PM2.5 is too high, then send information to computer or mobile phone terminal by single-chip microcomputer 11 and remind to check whether filter screen 4 is damaged, then replace; If there is no response, window is closed, The fan 2 continuously circulates the indoor air and purifies the indoor air through the secondary filter 46 on the diffuser 7; when the indoor air quality reaches the standard, the window is opened.

In the heating period, if the indoor temperature sensor 20 detects that the indoor temperature is lower than the threshold value set by the single-chip microcomputer 11, the mode 3 is turned on, and the single-chip microcomputer 11 drives the window motor 54 through the window motor controller 63 through logical judgment to reduce the window opening. , and open the blower fan 2, the coil pipe 3, the water inlet valve 50 and the water outlet valve 52, and appropriately increase the speed of the blower fan 2 through the fan electric regulator 53 to accelerate the heating of the air entering the room.

If indoor rapid heating is required, turn on mode 2, fan 2, coil 3 and electric heating network 5 are turned on simultaneously, and when the indoor temperature sensor 20 detects that the indoor temperature meets the conditions, then turn off the electric heating network 5. This device only takes the casement window as an example, and describes the control operation of the window part. This system is suitable for different types of windows, such as casement windows and top-hung windows, and has a wide range of applications.

If it is a transition period at this time and there is no heating supply in the room, turn on mode 1, turn on the switch of the electric heating network 5, the fan 2 is turned on, and the air entering from the outside is heated by the electric heating network 5 and then sent into the room, The heat is controlled by the current range switch 38 .

If it is a non-heating period and the indoor PM2.5 exceeds the standard, the mode 4 is turned on, the fan 2 circulates the indoor air, and the indoor air is purified by the secondary filter 46 on the diffuser 7 .

Those skilled in the art should understand that the embodiments of the present application may be provided as methods, apparatuses, or computer program products. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media, including but not limited to disk storage, CD-ROM, optical storage, etc., having computer-usable program code embodied therein.

The technical principles of the present utility model have been described above in conjunction with specific embodiments. These descriptions are only for explaining the principle of the utility model, and cannot be construed as limiting the protection scope of the utility model in any way. Based on the explanations herein, those skilled in the art can think of other specific implementations of the present utility model without creative work, and these forms will all fall within the protection scope of the present utility model.

Claims (10)

1. a kind of intelligent multifunctional temperature air controlling of quality window, it is characterized in that：The regulation and control window includes device framework (1), outdoor Equipment, indoor equipment, wind turbine (2), coil pipe (3), air diffuser (7) and microcontroller (11)；The device framework (1) is located at exterior wall The inside of window is simultaneously screwed on wall, is set gradually to indoor direction by outdoor inside the frame of device framework (1) There are filter screen (4), electrical heating net (5), safety net (6) and air diffuser (7), is set in the side of the device framework (1) Standby cabinet (8), the equipment cabinet (8) are equipped with openable equipment cabinet door (9), and the interior upper, middle and lower that are equipped with separate, and upper partition is in order to control Cabinet (10) places microcontroller (11)；Centre partition is powering shelf (12), is equipped with total charger (13)；Lower partition is fan cabinet (14), wind turbine (2) is placed, the fan cabinet (14) bottom surface is provided with air inlet hole, and the wind turbine (2) passes through pipe with air diffuser (7) Road connects；It is provided with coil pipe (3), and heat supply pipeline (15) in junction chamber in the air diffuser (7)；The outdoor equipment includes room Outer PM2.5 sensors (16) and Raindrop sensor (17), are arranged on outdoor windowsill；The indoor equipment includes being mounted on room Indoor PM2.5 sensors (18), indoor humidity sensor (19), indoor temperature transmitter (20) in interior walls and it is placed on room Humidifier (21) on interior desk, the indoor equipment, outdoor equipment are connected by data line (58) with microcontroller (11).

2. intelligent multifunctional temperature air controlling of quality window according to claim 1, it is characterized in that：The device framework (1) For aluminum alloy frame, there are the slot (22), the slot (22) of device framework (1) one side to be in internal four sides of device framework (1) Through device framework (1) straight slot, the slot (22) has three groups, and the depth of slot (22) is less than the thickness of device framework (1), institute Frame (23) thickness for stating filter screen (4), electrical heating net (5) and safety net (6) is slightly less than the width of slot (22), and frame (23) surrounding is equipped with sealing joint strip, and device framework side inferior horn sets that there are one side preformed hole (61) and two bottom surfaces are pre- It boxes out (62).

3. intelligent multifunctional temperature air controlling of quality window according to claim 1, it is characterized in that：The electrical heating net (5) Including electric heating grid (24) and frame (23), the electric heating grid (24) is by one layer of Transverse Heated silk array (25) and one layer of longitudinal direction Heater strip array (26) forms, and is arranged in frame (23) in lattice-shaped；The Transverse Heated silk array (25) and longitudinal direction add The heating wire (27) of heater array (26) is equidistantly arranged in parallel；For just inside the frame (23) of the electrical heating net (5) In the cavity of step line, described longitudinal direction heater strip array (26) upper and lower ends respectively with inside upper side frame upper busbar (28) and under The lower busbar (29) of frame connects, Transverse Heated silk array (25) left and right ends respectively with the left confluence inside left frame The right busbar (31) of item (30) and left frame connects, and upper busbar (28) and left busbar (30) are intersected at into bus (32)； Lower busbar (29) and right busbar (31) intersect at out bus (33), have electrical slot in the inside in the upper right corner of frame (23) (34), into bus (32) and go out the positive and negative anodes that bus (33) connects in the internal winding displacement of frame (23) electrical slot (34) respectively, the confession Have electrical heating net supply lines (35) in electric cabinet (12), set gradually on the electrical heating net supply lines (35) plug (36), Fuse (37) and electric current driving switch (38), the electric current driving switch (38) pass through data line (58) and microcontroller (11) phase Even, electrical heating net supply lines (35) connects total charger (13) in powering shelf (12), and plug (36) is inserted into electrical heating net (5) Electrical slot (34) realizes the power supply of electrical heating net (5).

4. intelligent multifunctional temperature air controlling of quality window according to claim 1, it is characterized in that：Filter screen (4) packet Include primary filter placed side by side (39) and haze filter (40).

5. intelligent multifunctional temperature air controlling of quality window according to claim 1, it is characterized in that：The air diffuser (7) is in Rectangular-shape, including diffusing lid (41) and diffusing slot (42), diffusing slot (42) and diffusing lid (41) are by screw connection or admittedly It connects, there is air diffuser air inlet hole (43) to be connected with wind turbine (2) on the right side of air diffuser (7), there is diffusing hole (44) on diffusing lid (41), it is described Totally three rows, the aperture of three dissipation discharge orifices (44) are successively decreased successively in diffusing hole (44), and anti-scald plate is equipped with above the air diffuser (7) (45), anti-scald plate (45) is stuck on air diffuser (7), and anti-scald plate (45) is equipped with air outlet, in diffusing lid (41) and anti-scald plate (45) aflter-fillter (46) is provided between.

6. intelligent multifunctional temperature air controlling of quality window according to claim 1, it is characterized in that：The coil pipe (3) is placed In air diffuser (7), coil pipe (3) both ends pass through the reserved coil pipe hole of the lower wall of air diffuser (7) and the lower wall of device framework (1) (47), it is connected respectively with water inlet pipe (48), outlet pipe (49), water inlet pipe (48), outlet pipe (49) and indoor heat supply pipeline (15) it is connected, if indoor without heat supply pipeline (15), selection is connected with indoor water heating apparatus, and water inlet pipe (48) is equipped with water inlet pipe Valve (50) and flow controller (51), outlet pipe (49) are equipped with water outlet pipe valve (52)；The water inlet pipe valve (50), water outlet pipe valve (52) and flow controller (51) is connected with the microcontroller (11) in switch board (10) by data line (58).

7. intelligent multifunctional temperature air controlling of quality window according to claim 1, it is characterized in that：The wind turbine (2) is nothing Brush wind turbine or AC blower fan, and equipped with fan motor adjuster (53) and pass through data with the microcontroller (11) in switch board (10) Line (58) is connected, and the wind turbine (2) connects total charger (13) of powering shelf (12), and noise elimination heat-preservation cotton is filled with around wind turbine (2).

8. intelligent multifunctional temperature air controlling of quality window according to claim 1, it is characterized in that：The regulation and control window is aperture Adjustable electric horizontal-opening window, the casement window include window motor (54), rack (55) and gear (56), and the window motor (54) is solid It is scheduled on window frame (57), gear (56) is set on window motor (54) transmission shaft, and rack (55) is fixed on active window (59), described Gear (56) and rack (55) engagement, total charger (13) of window electric machine controller (63) connection powering shelf (12) simultaneously pass through data Line (58) is connected with microcontroller (11).

9. intelligent multifunctional temperature air controlling of quality window according to claim 1, it is characterized in that：The microcontroller (11) is logical It crosses Modbus-RTU communication protocols to carry out data transmission, the microcontroller (11) accesses internal home network, and user passes through computer, mobile phone The air regime and equipment operating condition of terminal device control single chip computer (11) and then remote real time monitoring indoor and outdoor.

10. intelligent multifunctional temperature air controlling of quality window according to claim 1, it is characterized in that：On device framework (1) It is lightning-arrest to connect a piece-root grafting ground wire, device framework (1) the setting supporting rack supports.