CN220226661U - Combined multifunctional window - Google Patents

Abstract

The utility model provides a combined type multifunctional window, which relates to the technical field of multifunctional windows and solves the problems of high installation difficulty and poor shading and sound insulation effects of the conventional multifunctional window.

Description

Combined multifunctional window

Technical Field

The utility model relates to the technical field of window design, in particular to a combined multifunctional window.

Background

The window is an opening built on a wall or a roof of a resident house, is used for enabling light or air to enter indoor components, plays a role in light transmission and ventilation, and various types of windows appear in the market along with the continuous improvement of the needs of residents, and the design of the window meeting the needs of the residents has important significance for the residents.

The traditional window mainly comprises a window frame and a window sash with simple structures, plays roles of ventilation and lighting, is mostly installed in old houses, but in terms of functions, the traditional window on the market can only complete some simple tasks of market consumers, such as opening and closing the window, and has a single function; in the aspect of practicality, the switch of the traditional window needs manual operation, and is time-consuming, labor-consuming and low in practicality, so that new housing residents generally do not choose to install the traditional window, but choose a multifunctional window; the utility model discloses a multifunctional window in the prior art, including window frame, motor, drive shaft, a plurality of horizontal pole and glass piece, a plurality of horizontal poles insert window frame internal fixation, every horizontal pole corresponds the glass piece that sets up the linkage, motor drive horizontal pole rotates and drives glass piece and open and close, but the horizontal pole belongs to hard material, inflexible, when the window frame is fixed, the installer need consume a large amount of efforts with the horizontal pole insert in the window frame on both sides, the installation degree of difficulty is big, lead to the installer to take place the building problem easily, and simply rely on the glass piece of fixing on the horizontal pole to carry out shading and sound insulation, shading and sound insulation effect are not good.

Disclosure of Invention

In order to solve the problems of high installation difficulty and poor shading and sound insulation effects of the conventional multifunctional window, the utility model provides the combined multifunctional window which is simple in structure, easy to install, effectively reduces potential safety hazards and improves shading and sound insulation effects.

In order to achieve the technical effects, the technical scheme of the utility model is as follows:

the utility model provides a multi-functional window of combination formula, includes, main window body, three window leaf, support piece and shading subassembly, be equipped with the window leaf frame on the main window body, three window leaf sets gradually from top to bottom in the window leaf frame, support piece sets up on the both sides frame wall of window leaf frame, still be equipped with first transmission on the window leaf frame, the output of first transmission is rotated with the one end of support piece on each side frame wall and is connected, the other end of support piece on each side frame wall welds with the one end of every window leaf, still second transmission on the main window body, shading subassembly is located the outside of window leaf, and shading subassembly's top is connected with second transmission's output, and shading subassembly's bottom slides and sets up on the main window body.

In this technical scheme, the problem that the current multi-functional window has the installation degree of difficulty big, shading and sound insulation effect are poor is considered, improve traditional multi-functional window, at first, including the main window body, three window leaf, support piece and shading subassembly, be equipped with the window leaf frame on the main window body, still transversely be equipped with first transmission on the window leaf frame, be equipped with on the both sides frame wall of window leaf frame with each both ends welded support piece that is located the window leaf in the window leaf frame, during the window leaf installation, installer can easily weld the one end of support piece on window leaf and each side frame wall, the degree of difficulty of window leaf installation has been reduced, the life safety of installer has been guaranteed, when the first transmission rotates the window leaf of opening through support piece, the effect of ventilation printing opacity has been played when the first transmission rotates the closed window leaf, further, be equipped with second transmission on the main window body, second transmission is connected with the top of the shading subassembly that is located the window leaf outside, drive the shading subassembly in the window leaf outside, the window is easy to remove, the window leaf and the window has reached, the window has simple structure, the sound insulation effect has been guaranteed, the multiple function of window has been installed, and has improved the safety in the technical scheme.

Preferably, the first transmission device comprises a transmission part and a steering engine, wherein the output end of the steering engine is rotationally connected with the transmission part, and the transmission part is rotationally connected with one end of the supporting part.

Here, after the steering wheel circular telegram starts, the steering wheel drives the driving medium that is connected with the output of steering wheel and rotates, because the driving medium rotates the connecting support piece, drives the support piece and rotates on the window leaf frame when the driving medium rotates, has realized the effect of automatic opening and closing of window leaf.

Preferably, the second transmission device comprises a transmission motor, a gear, a first transmission bar and a second transmission bar, wherein the first transmission bar and the second transmission bar are arranged in parallel up and down, the gear is arranged between the first transmission bar and the second transmission bar, the gear is respectively meshed with the first transmission bar and the second transmission bar, the output end of the transmission motor is connected with the gear, and the bottom ends of the first transmission bar and the second transmission bar are both connected with the shading component.

After the transmission motor is electrified and started, the output end of the transmission motor starts to drive the gear to rotate

The first transmission bar and the second transmission bar are respectively meshed, the rotating gears drive the first transmission bar and the second transmission bar to move, the bottom ends of the first transmission bar and the second transmission bar are connected with the shading component, the first transmission bar, the second transmission bar and the shading component are combined into a whole, and when the first transmission bar and the second transmission bar move, the shading component is synchronously driven to move.

Preferably, the shading component comprises a first connecting piece, a first shading baffle, a second connecting piece and a second shading baffle, wherein the top end of the first shading baffle is connected with the first connecting piece, the top end of the first connecting piece is connected with a first transmission bar, and the first transmission bar drives the first shading baffle to slide on the main window; the top of the second shading baffle is connected with a second connecting piece, the top of the second connecting piece is connected with a second transmission bar, and the second transmission bar drives the second shading baffle to slide on the main window body.

Preferably, baffle handles are arranged on the first shading baffle and the second shading baffle.

Here, when the second transmission device is abnormal, the first light shielding baffle plate and the second light shielding baffle plate cannot be automatically moved, and the first light shielding baffle plate and the second light shielding baffle plate can be manually moved conveniently through the baffle plate handles arranged on the first light shielding baffle plate and the second light shielding baffle plate.

Preferably, the intelligent control device further comprises a power module, a sound sensor, a photosensitive sensor, a pressure sensor, a microcontroller and a relay, wherein the sound sensor, the power module, the microcontroller and the relay are arranged in the main window, the photosensitive sensor and the pressure sensor are arranged on the window vane, the output end of the power module is respectively connected with the input ends of the sound sensor, the photosensitive sensor, the pressure sensor, the microcontroller and the relay, the output ends of the sound sensor, the photosensitive sensor and the pressure sensor are respectively connected with the input end of the microcontroller, the output end of the microcontroller is connected with the input end of the relay, and the output end of the relay is respectively connected with the input ends of the first transmission device and the second transmission device.

The power supply module is used for respectively supplying power to the sound sensor, the photosensitive sensor, the pressure sensor, the microcontroller and the relay, and the sound sensor senses the external sound decibel after being electrified and started and converts the sound signal into an electric signal to be transmitted to the microcontroller; after the photosensitive sensor is electrified and started, the intensity of illumination is sensed, and an optical signal is converted into an electric signal and transmitted to the microcontroller; after the pressure sensor is electrified and started, the pressure on the surface of the window leaf is sensed, and a pressure signal is converted into an electric signal and transmitted to the microcontroller; the microcontroller processes and analyzes the received electric signals, adjusts the working states of the first transmission device and the second transmission device through the relay, controls the switch window leaf according to the working state of the first transmission device, and controls the shading component to move according to the working state of the second transmission device.

Preferably, the power module comprises a photovoltaic power generation plate, a voltage stabilizing sub-module, a charging protection sub-module and a lithium battery, wherein the output end of the photovoltaic power generation plate is connected with the input end of the voltage stabilizing sub-module, the output end of the voltage stabilizing sub-module is connected with the input end of the charging protection sub-module, and the output end of the charging protection sub-module is connected with the input end of the lithium battery.

Preferably, the output end of the relay is also connected with an alarm device, and the alarm device is arranged on the main window body.

Preferably, the main window body and the window leaf frame are both made of aluminum alloy structures.

Preferably, the louver is rectangular.

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

the utility model provides a combined multifunctional window, which comprises a main window body, three window leaves, supporting pieces and a shading component, wherein a window leaf frame is arranged on the main window body, a first transmission device is transversely arranged on the window leaf frame, supporting pieces welded with two ends of each window leaf positioned in the window leaf frame are arranged on two side frame walls of the window leaf frame, when the window leaf is installed, an installer can easily weld the window leaf with one end of the supporting piece on each side frame wall, the difficulty of installing the window leaf is reduced, the life safety of the installer is ensured, when the first transmission device rotates to open the window leaf through the supporting pieces, the ventilation and light transmission effects are realized, when the first transmission device rotates to close the window leaf through the supporting pieces, the wind prevention and sound insulation effects are realized, and further, a second transmission device is arranged on the main window body and connected with the top end of the shading component positioned on the outer side of the window leaf, the shading component is driven to move on the outer side of the window leaf, and the aim of shading is achieved.

Drawings

Fig. 1 is a block diagram of a combination type multifunctional window according to an embodiment of the present utility model;

FIG. 2 is a block diagram of a vane according to an embodiment of the present utility model;

FIG. 3 is a block diagram of a first transmission according to an embodiment of the present utility model;

FIG. 4 shows a cross-sectional view of a combination type multifunctional window according to an embodiment of the present utility model;

fig. 5 shows a block diagram of structural connection of a combination type multifunctional window according to an embodiment of the present utility model.

1. A main window; 101. a window leaf frame; 2. a window leaf; 3. a support; 4. a shade assembly; 401. a first connector; 402. a first light shielding plate; 403. a second connector; 404. a second light shielding plate; 5. a first transmission; 501. a transmission member; 502. steering engine; 6. a second transmission; 601. a gear; 602. a first transmission bar; 603. a second transmission bar; 7. a power module; 701. a photovoltaic power generation panel; 702. a voltage stabilizing sub-module; 703. a charge protection sub-module; 704. a lithium battery; 8. a sound sensor; 9. a photosensitive sensor; 10. a pressure sensor; 11. a microcontroller; 12. a relay; 13. an alarm device; 14. and an upper computer.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the present patent;

for better illustrating the present embodiment, some parts of the drawings may be omitted, enlarged or reduced, and do not represent actual dimensions, and the description of the directions of the parts such as "up" and "down" is not limiting of the present patent;

it will be appreciated by those skilled in the art that some well known descriptions in the figures may be omitted;

the positional relationship depicted in the drawings is for illustrative purposes only and is not to be construed as limiting the present patent;

the technical scheme of the utility model is further described below with reference to the accompanying drawings and examples.

Example 1

As shown in fig. 1, this embodiment provides a multifunctional window with a combination structure, which comprises a main window body 1, three window leaves 2, a supporting member 3 and a shading component 4, wherein a window leaf frame 101 is arranged on the main window body 1, see fig. 1 and 2, the three window leaves 2 are sequentially arranged in the window leaf frame 101 from top to bottom, the supporting member 3 is arranged on two side frame walls of the window leaf frame 101, a first transmission device 5 is further arranged on the window leaf frame 101, the output end of the first transmission device 5 is rotationally connected with one end of the supporting member 3 on each side frame wall, the other end of the supporting member 3 on each side frame wall is welded with one end of each window leaf 2, a second transmission device 6 is further arranged on the main window body 1, the shading component 4 is positioned on the outer side of the window leaf 2, the top end of the shading component 4 is connected with the output end of the second transmission device 6, and the bottom end of the shading component 4 is slidingly arranged on the main window body 1.

Referring to fig. 1 and fig. 3, the first transmission device 5 includes a transmission member 501 and a steering engine 502, the output end of the steering engine 502 is rotationally connected with the transmission member 501, the transmission member 501 is rotationally connected with one end of the support member 3, after the steering engine 502 is electrified and started, the steering engine 502 drives the transmission member 501 connected with the output end of the steering engine 502 to rotate, and the transmission member 501 rotates to connect with the support member 3, and simultaneously drives the support member 3 to rotate on the window vane frame 101, so that the automatic opening and closing functions of the window vane 2 are realized; one end of the supporting piece 3 is welded with the window leaf 2, and when the window leaf 2 is installed, one end of the supporting piece 3 is connected with the window leaf 2 in a welding mode, so that the effect of fixing the window leaf 2 on the window leaf frame 101 is realized, the window leaf 2 is conveniently connected with the supporting piece 3 by an installer, the difficulty of connecting the window leaf 2 with the supporting piece 3 is reduced, and the life safety of the installer is ensured; the main window body 1 and the window leaf frame 101 are both made of aluminum alloy structures, and the window leaf 2 is rectangular.

In this embodiment, the problem that the installation degree of difficulty is big, shading and sound insulation effect are poor is considered to present multi-functional window, improve traditional multi-functional window, at first including main window body 1, 3 window leaves 2, support piece 3 and shading subassembly 4, be equipped with window leaf frame 101 on the main window body 1, still transversely be equipped with first transmission 5 on the window leaf frame 101, be equipped with on the both sides frame wall of window leaf frame 101 with each both ends welded support piece 3 that are located window leaf 2 in window leaf frame 101, during window leaf 2 installs, installer can easily with window leaf 2 and the one end welding of support piece 3 on each side frame wall, the degree of difficulty of window leaf 2 installation has been reduced, the life safety of installer has been guaranteed, when first transmission 5 rotates the open window leaf through support piece 3, the effect of ventilation printing opacity has been played when first transmission 5 rotates closed window leaf 2, further, be equipped with second transmission 6 on the main window body 1, second transmission 6 and the shading subassembly is located the window leaf 2 outside the side of being connected, the window 4 has realized the effect of being easy, the technological scheme has been reached, the hidden danger of the window is easy to remove, the technological scheme has been reached, the window is easy to remove, the window is easy to install, the technological scheme has been reached, the window is easy to remove the top end 4.

Example 2

Referring to fig. 1, the second transmission device 6 includes a transmission motor, a gear 601, a first transmission bar 602 and a second transmission bar 603, where the first transmission bar 602 and the second transmission bar 603 are arranged in parallel up and down, the gear 601 is disposed between the first transmission bar 602 and the second transmission bar 603, the gear 601 is meshed with the first transmission bar 602 and the second transmission bar 603 respectively, an output end of the transmission motor is connected with the gear 601, bottom ends of the first transmission bar 602 and the second transmission bar 603 are connected with the shading component 4, after the transmission motor is powered on and started, the output end of the transmission motor starts to drive the gear 601 to rotate, the gear 601 is meshed with the first transmission bar 603 and the first transmission bar 603 respectively, the rotating gear 601 drives the first transmission bar 603 and the first transmission bar 603 to move, and the first transmission bar 603 are connected with the shading component 4, so that the first transmission bar 603, the first transmission bar 603 and the shading component 4 are combined into a whole, and when the first transmission bar 603 and the first transmission bar 603 move, the shading component 4 are synchronously driven to move;

referring to fig. 3, the light shielding assembly 4 includes a first connecting member 401, a first light shielding plate 402, a second connecting member 403, and a second light shielding plate 404, where the top end of the first light shielding plate 402 is connected to the first connecting member 401, the top end of the first connecting member 401 is connected to a first transmission bar 602, and the first transmission bar 602 drives the first transmission bar 602 to slide on the main window 1; the top end of the second shading baffle 404 is connected with a second connecting piece 403, the top end of the second connecting piece 403 is connected with a second transmission bar 603, and the second transmission bar 603 drives the main window body 1 to slide; the first light shielding baffle 402 and the second light shielding baffle 404 are provided with baffle handles, and when the second transmission device 6 is abnormal, the first light shielding baffle 402 and the second light shielding baffle 404 cannot be automatically moved, and the first light shielding baffle 402 and the second light shielding baffle 404 can be manually moved conveniently through the baffle handles arranged on the first light shielding baffle 402 and the second light shielding baffle 404.

Example 3

Referring to fig. 1 and 5, the device further comprises a power module 7, a sound sensor 8, a photosensitive sensor 9, a pressure sensor 10, a microcontroller 11 and a relay 12, wherein the sound sensor 8, the power module 7, the microcontroller 11 and the relay 12 are arranged in the main window 1, the photosensitive sensor 9 and the pressure sensor 10 are arranged on the window 2, the output end of the power module 7 is respectively connected with the input ends of the sound sensor 8, the photosensitive sensor 9, the pressure sensor 10, the power module 7 and the microcontroller 11, the output ends of the sound sensor 8, the photosensitive sensor 9, the pressure sensor 10 and the power module 7 are respectively connected with the input end of the microcontroller 11, the output end of the microcontroller 11 is connected with the input end of the relay 12, the output end of the relay is respectively connected with the input ends of the first transmission device 5 and the second transmission device 6, the power module 7 is respectively provided with the sound sensor 8, the photosensitive sensor 9, the pressure sensor 10, the microcontroller 11 and the relay 12, the model number of the selected sound sensor 8 is Waveshare Sound Sensor V, the photosensitive sensor 9 is the model number 5516 of the photosensitive sensor is the model number 103 of the pressure sensor is the model number 5516, the model number of the pressure sensor is the model number 32 of the microcontroller is the strain sensor, and the model number 32 is the microcontroller is the model number 103, and the model number is the strain sensor is the model number 32, and is the strain sensor is the model number is the strain;

after the sound sensor 8 is electrified and started, the external sound decibel is sensed, a sound early warning threshold value suitable for sleeping of a human body is arranged on the sound sensor, if the sound sensor 8 senses that the external sound decibel is larger than the sound early warning threshold value, the sound sensor 8 converts sound signals into electric signals and transmits the electric signals to the STM32F103 singlechip, an AD conversion module is arranged in the STM32F103 singlechip, the STM32F103 singlechip processes the data after receiving the sound electric signals, a driving signal is sent to the relay 12, after the relay 12 receives the driving signal, the steering engine 502 is driven to drive a transmission part 501 connected with the output end of the steering engine 502 to rotate, and the transmission part 501 is connected with the support part 3 to drive the support part 3 to rotate on the window leaf frame 101, so that the effect of automatically opening and closing the window leaf 2 is realized, and the windproof and soundproof effects are achieved;

after the photosensor 9 is electrified and started, the intensity of illumination is sensed, a light intensity early warning threshold value suitable for sleeping of a human body is arranged on the photosensor 9, if the intensity of illumination sensed by the photosensor 9 is larger than the light intensity early warning threshold value, the photosensor 9 converts a light signal into an electric signal and transmits the electric signal to the STM32F103 singlechip, the STM32F103 singlechip receives the electric signal of the light intensity, then processes data through an AD conversion module and sends a driving signal to the relay 12, after the relay 12 receives the driving signal, the driving motor starts to drive the gear 601 to rotate, the gear 601 is respectively connected with the first transmission rod 603 and the first transmission rod 603, the rotating gear 601 drives the first transmission rod 603 and the first transmission rod 603 to move, and the first transmission rod 603 are connected with the shading component 4 to form a whole, and when the first transmission rod 603 and the first transmission rod 603 move, the first transmission rod 603 and the shading component 4 are synchronously driven to move, and the shading effect is achieved;

after the pressure sensor 10 is electrified and started, the pressure on the surface of the window leaf 2 is sensed, a pressure early warning threshold value is arranged on the pressure sensor 10, if the pressure on the surface of the window leaf 2 is sensed by the pressure sensor 10 and is larger than the pressure early warning threshold value, the pressure sensor 10 converts a pressure signal into an electric signal and transmits the electric signal to the STM32F103 singlechip, the STM32F103 singlechip receives the electric signal of light intensity, then the data is processed through the AD conversion module and sends a driving signal to the relay 12, the output end of the relay 12 is connected with the alarm device 13, the alarm device 13 adopts a buzzer, and the buzzer is driven to alarm after the relay 12 receives the driving signal, so that the anti-theft effect is achieved.

The microcontroller 11 processes and analyzes the received electric signals, adjusts the working states of the first transmission device 5 and the second transmission device 6 through the relay 12, controls the switch window vane 2 according to the working state of the first transmission device 5, and controls the shading component 4 to move according to the working state of the second transmission device 6; the power module 7 comprises a photovoltaic power generation plate 701, a voltage stabilizing sub-module 702, a charging protection sub-module 703 and a lithium battery 704, wherein the output end of the photovoltaic power generation plate 701 is connected with the input end of the voltage stabilizing sub-module 702, the output end of the voltage stabilizing sub-module 702 is connected with the input end of the charging protection sub-module 703, the output end of the charging protection sub-module 703 is connected with the input end of the lithium battery 704, the photovoltaic power generation plate 701 converts received solar energy into electric energy, a part of the electric energy output by the photovoltaic power generation plate 701 is directly used for supplying power to the sound sensor 8, the photosensitive sensor 9, the pressure sensor 10, the microcontroller 11 and the relay 12, the other part of the electric energy is directly input to the voltage stabilizing sub-module 702 for stabilizing voltage, then the electric energy output by the voltage stabilizing sub-module 702 is input to the charging protection sub-module 703, the charging protection sub-module 703 controls the charging and discharging states of the lithium battery 704, the effect of protecting the circuit of the lithium battery 704 is avoided, and when the photovoltaic power generation plate 701 cannot be used for the sound sensor, the pressure sensor, the microcontroller and the photosensitive relay 12 are used as energy sources for storing the sound sensor, the electric energy, the microcontroller and the microcontroller 12; the voltage stabilizing submodule 702 is provided with a DC voltage stabilizing circuit, the charging protection submodule 703 is provided with a lithium battery charging protection circuit, the sound sensor is provided with a sound sensing circuit, the light sensor is provided with a light sensing circuit, the microcontroller is provided with a driving circuit, the circuits are all concentrated on a PCB, the functions of the circuits can be realized on the premise of not increasing the whole size of the project, in addition, the PCB is also provided with an RTC clock, the RTC timer can be interrupted, the microcontroller is awakened regularly, the microcontroller is in a dormant state when not processing data, and the collected data is awakened regularly, so that the power consumption is reduced.

It is to be understood that the above examples of the present utility model are provided by way of illustration only and are not intended to limit the scope of the utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. The utility model provides a multi-functional window of combination formula, its characterized in that includes, main window body (1), three window leaf (2), support piece (3) and shading subassembly (4), be equipped with window leaf frame (101) on main window body (1), three window leaf (2) set gradually from last in window leaf frame (101) downwards, support piece (3) set up on the both sides frame wall of window leaf frame (101), still be equipped with first transmission (5) on window leaf frame (101), the output of first transmission (5) rotates with the one end of support piece (3) on each side frame wall to be connected, the other end of support piece (3) on each side frame wall welds with the one end of each window leaf (2), still second transmission (6) on main window body (1), shading subassembly (4) are located the outside of window leaf (2), and the top of shading subassembly (4) is connected with the output of second transmission (6), and the bottom of shading subassembly (4) is slided and is set up on main window body (1).

2. The combined type multifunctional window according to claim 1, wherein the first transmission device (5) comprises a transmission part (501) and a steering engine (502), the output end of the steering engine (502) is rotationally connected with the transmission part (501), and the transmission part (501) is rotationally connected with one end of the supporting part (3).

3. The combined multifunctional window according to claim 1, wherein the second transmission device (6) comprises a transmission motor, a gear (601), a first transmission bar (602) and a second transmission bar (603), the first transmission bar (602) and the second transmission bar (603) are arranged up and down in parallel, the gear (601) is arranged between the first transmission bar (602) and the second transmission bar (603), the gear (601) is meshed with the first transmission bar (602) and the second transmission bar (603) respectively, the output end of the transmission motor is connected with the gear (601), and the bottom ends of the first transmission bar (602) and the second transmission bar (603) are connected with the shading component (4).

4. A combination type multifunctional window according to claim 3, characterized in that the shading component (4) comprises a first connecting piece (401), a first shading baffle plate (402), a second connecting piece (403) and a second shading baffle plate (404), the top end of the first shading baffle plate (402) is connected with the first connecting piece (401), the top end of the first connecting piece (401) is connected with a first transmission bar (602), and the first transmission bar (602) drives the main window body (1) to slide; the top end of the second shading baffle plate (404) is connected with a second connecting piece (403), the top end of the second connecting piece (403) is connected with a second transmission bar (603), and the second transmission bar (603) drives the main window body (1) to slide.

5. The combination window of claim 4, wherein the first shade screen (402) and the second shade screen (404) are each provided with a screen handle.

6. The combined multifunctional window according to claim 1, further comprising a power module (7), a sound sensor (8), a photosensitive sensor (9), a pressure sensor (10), a microcontroller (11) and a relay (12), wherein the sound sensor (8), the power module (7), the microcontroller (11) and the relay (12) are arranged in the main window body (1), the photosensitive sensor (9) and the pressure sensor (10) are arranged on the window leaf (2), the output end of the power module (7) is respectively connected with the input ends of the sound sensor (8), the photosensitive sensor (9), the pressure sensor (10), the microcontroller (11) and the relay (12), the output ends of the sound sensor (8), the photosensitive sensor (9) and the pressure sensor (10) are respectively connected with the input ends of the microcontroller (11), the output ends of the microcontroller (11) are connected with the input ends of the relay (12), and the output ends of the relay are respectively connected with the input ends of the first transmission device (5) and the second transmission device (6).

7. The multifunctional window according to claim 6, wherein the power module (7) comprises a photovoltaic power generation plate (701), a voltage stabilizing sub-module (702), a charging protection sub-module (703) and a lithium battery (704), the output end of the photovoltaic power generation plate (701) is connected with the input end of the voltage stabilizing sub-module (702), the output end of the voltage stabilizing sub-module (702) is connected with the input end of the charging protection sub-module (703), and the output end of the charging protection sub-module (703) is connected with the input end of the lithium battery (704).

8. The combined type multifunctional window according to claim 7, wherein the output end of the relay (12) is further connected with an alarm device (13), and the alarm device (13) is arranged on the main window body (1).

9. The combination type multifunctional window according to claim 1, wherein the main window body (1) and the window leaf frame (101) are made of aluminum alloy structures.

10. A combination window according to any of claims 1-9, characterized in that the louver (2) is rectangular.