CN111101814A

CN111101814A - A kind of household multifunctional smart window

Info

Publication number: CN111101814A
Application number: CN201911347287.4A
Authority: CN
Inventors: 杨楠; 李红双; 杨文康; 于望; 黄福瑶; 于晗; 李济腾; 党展鹏
Original assignee: Shenyang Aerospace University
Current assignee: Shenyang Aerospace University
Priority date: 2019-12-24
Filing date: 2019-12-24
Publication date: 2020-05-05

Abstract

A household multifunctional intelligent window comprises an intelligent window frame, an automatic window body opening and closing mechanism and a sunlight and natural wind dredging mechanism; the intelligent window frame is fixedly embedded in a window of a building wall, the automatic window opening and closing mechanism is located on one indoor side of the intelligent window frame, the sunlight and natural wind diversion mechanisms are located on one outdoor side of the intelligent window frame, the number of the sunlight and natural wind diversion mechanisms is a plurality, and the plurality of the sunlight and natural wind diversion mechanisms are uniformly distributed in the intelligent window frame. The household multifunctional intelligent window can realize automatic opening and closing of the window, can change the traditional shielding mode into the dredging mode, can dredge the sunlight to the indoor designated position for utilization, simultaneously ensures that the ventilation can be still effectively maintained in the sunlight dredging process, can dredge natural wind, and can dredge the natural wind to the indoor designated position, so that people at the designated position can continuously and stably enjoy the coolness brought by the natural wind.

Description

Domestic multi-functional intelligent window

Technical Field

The invention belongs to the technical field of intelligent home furnishing, and particularly relates to a household multifunctional intelligent window.

Background

The window is one of essential infrastructure in the house, but the degree of concern of window is not high all the time, and people seem that the window is except that the most main heat preservation and printing opacity effect, and what is more exactly again can realize the circulation of indoor and outdoor air through opening of window in summer to guarantee the freshness of indoor air.

However, in the case of the conventional window, the opening and closing of the window are basically manually completed, most families directly shade the sun by using curtains in summer to avoid direct sunlight at noon, and the ventilation and lighting effects are inevitably greatly reduced in the process of shading the sun.

In addition, when the window is opened in summer for ventilation, the randomness of the flowing direction of natural wind blown into the room is large, when people are at fixed positions, people cannot continuously and stably enjoy coolness brought by the natural wind, the experience effect is poor, at the moment, the window can only be closed, the air conditioner is adopted for cooling, the air conditioner needs to consume electric energy for cooling, and the comfort level cannot be compared with the natural wind.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a household multifunctional intelligent window which can realize automatic opening and closing of the window, change the traditional shielding mode into the dredging mode, can dredge the sunlight to the indoor designated position for utilization, simultaneously ensure that the ventilation can still be effectively maintained in the sunlight dredging process, can dredge the natural wind, and can dredge the natural wind to the indoor designated position so as to ensure that people at the designated position can continuously and stably enjoy the coolness brought by the natural wind.

In order to achieve the purpose, the invention adopts the following technical scheme: a household multifunctional intelligent window comprises an intelligent window frame, an automatic window body opening and closing mechanism and a sunlight and natural wind dredging mechanism; the intelligent window frame is fixedly embedded in a window of a building wall, the automatic opening and closing window body mechanism is located on one indoor side of the intelligent window frame, the sunlight and natural wind diversion mechanisms are located on one outdoor side of the intelligent window frame, the number of the sunlight and natural wind diversion mechanisms is a plurality, and the plurality of the sunlight and natural wind diversion mechanisms are uniformly distributed in the intelligent window frame.

The automatic window opening and closing mechanism comprises a left glass window, a right glass window, an upper guide rail, a lower guide rail, a glass window opening and closing steering engine, a left gear, a left crank, a left connecting rod, a first left lower sliding block, a second left lower sliding block, a left upper sliding block, a right gear, a right crank, a right connecting rod, a first right lower sliding block, a second right lower sliding block and a right upper sliding block; the upper guide rail is horizontally and fixedly arranged at the upper part of the intelligent window frame, the lower guide rail is horizontally and fixedly arranged at the lower part of the intelligent window frame, the top of the left glass window is connected onto the upper guide rail in a sliding way through the left upper sliding block, the bottom of the left glass window is connected onto the lower guide rail in a sliding way through the first left lower sliding block and the second left lower sliding block, and the left glass window can move linearly along the upper guide rail and the lower guide rail; the top of the right glass window is connected to the upper guide rail in a sliding mode through the right upper sliding block, the bottom of the right glass window is connected to the lower guide rail in a sliding mode through the first right lower sliding block and the second right lower sliding block, and the right glass window can move linearly along the upper guide rail and the lower guide rail; the glass window opening and closing steering engine is horizontally and fixedly arranged in the intelligent window frame, the right gear is fixedly arranged on a motor shaft of the glass window opening and closing steering engine, one end of a right crank is fixedly connected to the axial end face of the right gear, the other end of the right crank is hinged to one end of a right connecting rod, and the other end of the right connecting rod is hinged to a first right lower sliding block; the gear shaft of the left gear is horizontally connected to the intelligent window frame through a bearing, the left gear is meshed with the right gear, one end of the left crank is fixedly connected to the axial end face of the left gear, the other end of the left crank is hinged to one end of a left connecting rod, and the other end of the left connecting rod is hinged to the first left lower sliding block.

The sunlight and natural wind dredging mechanism comprises a dredging blade, a Z-direction blade rotating steering engine, a Z-direction blade rotating support, a Z-direction blade rotating joint, a Y-direction blade rotating steering engine, a Y-direction blade rotating swing rod, a Y-direction blade rotating connecting rod, a Y-direction blade rotating lever, an X-direction blade rotating steering engine, an X-direction blade rotating arm, an X-direction blade rotating pull rod and an X-direction blade rotating joint; the Z-direction blade rotating steering engine is vertically and fixedly arranged on the intelligent window frame, the Z-direction blade rotating support is fixedly connected to a motor shaft of the Z-direction blade rotating steering engine, one end of a Z-direction blade rotating joint is connected to the bottom of the Z-direction blade rotating support, and the other end of the Z-direction blade rotating joint is connected to the intelligent window frame; the Y-direction blade rotating steering engine is horizontally and fixedly arranged at the top of the Z-direction blade rotating support, one end of a Y-direction blade rotating swing rod is fixedly connected to a motor shaft of the Y-direction blade rotating steering engine, one end of a Y-direction blade rotating connecting rod is hinged to the other end of the Y-direction blade rotating swing rod, a fulcrum of a Y-direction blade rotating lever is positioned on the Z-direction blade rotating support between the Z-direction blade rotating steering engine and the Z-direction blade rotating joint, one end of the Y-direction blade rotating lever is hinged to a rod body of the Y-direction blade rotating connecting rod, the other end of the Y-direction blade rotating lever is connected with one end of the X-direction blade rotating joint, and the dredging blade is fixedly; the X-direction blade rotation steering engine is located right above the top of the Z-direction blade rotation support, the X-direction blade rotation steering engine is connected to the top of the Z-direction blade rotation support through a hinge, one end of the X-direction blade rotation arm is fixedly connected to a motor shaft of the X-direction blade rotation steering engine, the other end of the X-direction blade rotation arm is connected to one end of an X-direction blade rotation pull rod through a first universal joint, and the X-direction blade rotation joint is connected to the X-direction blade rotation pull rod through a second universal joint.

The Y-direction blade rotating levers are a plurality of in number and are uniformly distributed, each Y-direction blade rotating lever is connected with one dredging blade through an X-direction blade rotating joint, and the surfaces of all dredging blades are all reflecting mirror surfaces.

The invention has the beneficial effects that:

the household multifunctional intelligent window can realize automatic opening and closing of the window, can change the traditional shielding mode into the dredging mode, can dredge the sunlight to the indoor designated position for utilization, simultaneously ensures that the ventilation can be still effectively maintained in the sunlight dredging process, can dredge natural wind, and can dredge the natural wind to the indoor designated position, so that people at the designated position can continuously and stably enjoy the coolness brought by the natural wind.

Drawings

FIG. 1 is a perspective view of a home-use multi-functional smart window of the present invention;

FIG. 2 is a rear view of a home-use multifunction smart window of the present invention;

FIG. 3 is a rear perspective view of the solar and natural wind channeling mechanism of the present invention;

FIG. 4 is a front perspective view of the solar and natural wind channeling mechanism of the present invention;

in the figure, 1-intelligent window frame, 2-automatic window opening and closing body mechanism, 3-sunlight and natural wind guiding mechanism, 4-left glass window, 5-right glass window, 6-upper guide rail, 7-lower guide rail, 8-glass window opening and closing steering engine, 9-left gear, 10-left crank, 11-left connecting rod, 12-first left lower slide block, 13-second left lower slide block, 14-left upper slide block, 15-right gear, 16-right crank, 17-right connecting rod, 18-first right lower slide block, 19-second right lower slide block, 20-right upper slide block, 21-guiding blade, 22-Z blade rotating bracket, 23-Z blade rotating bracket, 24-Z blade rotating joint, 25-Y blade rotating steering engine, 26-Y blade rotating swing rod, 27-Y blade rotating connecting rod, 28-Y blade rotating lever, 29-X blade rotating steering engine, 30-X blade rotating arm, 31-X vane rotary pull rod, 32-X vane rotary joint, 33-hinge, 34-first universal joint and 35-second universal joint.

Detailed Description

The invention is described in further detail below with reference to the figures and the specific embodiments.

As shown in fig. 1 to 4, a household multifunctional intelligent window comprises an intelligent window frame 1, an automatic opening and closing window body mechanism 2 and a sunlight and natural wind dredging mechanism 3; the intelligent window frame 1 is fixedly embedded in a window of a building wall, the automatic opening and closing window body mechanism 2 is located on one indoor side of the intelligent window frame 1, the sunlight and natural wind diversion mechanisms 3 are located on one outdoor side of the intelligent window frame 1, the number of the sunlight and natural wind diversion mechanisms 3 is large, and the plurality of the sunlight and natural wind diversion mechanisms 3 are uniformly distributed in the intelligent window frame 1.

The automatic window opening and closing mechanism 2 comprises a left glass window 4, a right glass window 5, an upper guide rail 6, a lower guide rail 7, a glass window opening and closing steering engine 8, a left gear 9, a left crank 10, a left connecting rod 11, a first left lower slide block 12, a second left lower slide block 13, a left upper slide block 14, a right gear 15, a right crank 16, a right connecting rod 17, a first right lower slide block 18, a second right lower slide block 19 and a right upper slide block 20; the upper guide rail 6 is horizontally and fixedly arranged at the upper part of the intelligent window frame 1, the lower guide rail 7 is horizontally and fixedly arranged at the lower part of the intelligent window frame 1, the top of the left glass window 4 is connected onto the upper guide rail 6 in a sliding way through a left upper slide block 14, the bottom of the left glass window 4 is connected onto the lower guide rail 7 in a sliding way through a first left lower slide block 12 and a second left lower slide block 13, and the left glass window 4 can move linearly along the upper guide rail 6 and the lower guide rail 7; the top of the right glass window 5 is connected to the upper guide rail 6 in a sliding manner through a right upper sliding block 20, the bottom of the right glass window 5 is connected to the lower guide rail 7 in a sliding manner through a first right lower sliding block 18 and a second right lower sliding block 19, and the right glass window 5 can move linearly along the upper guide rail 6 and the lower guide rail 7; the glass window opening and closing steering engine 8 is horizontally and fixedly arranged in the intelligent window frame 1, the right gear 15 is fixedly arranged on a motor shaft of the glass window opening and closing steering engine 8, one end of the right crank 16 is fixedly connected to the axial end face of the right gear 15, the other end of the right crank 16 is hinged to one end of a right connecting rod 17, and the other end of the right connecting rod 17 is hinged to a first right lower sliding block 18; the gear shaft of left gear 9 passes through bearing horizontal connection on intelligent window frame 1, and left gear 9 meshes with right gear 15 mutually, left crank 10 one end links firmly on the axial terminal surface of left gear 9, and the left crank 10 other end is articulated mutually with left connecting rod 11 one end, and the left connecting rod 11 other end articulates on first left lower slider 12.

The sunlight and natural wind dredging mechanism 3 comprises a dredging blade 21, a Z-direction blade rotating steering engine 22, a Z-direction blade rotating support 23, a Z-direction blade rotating joint 24, a Y-direction blade rotating steering engine 25, a Y-direction blade rotating swing rod 26, a Y-direction blade rotating connecting rod 27, a Y-direction blade rotating lever 28, an X-direction blade rotating steering engine 29, an X-direction blade rotating arm 30, an X-direction blade rotating pull rod 31 and an X-direction blade rotating joint 32; the Z-direction blade rotating steering engine 22 is vertically and fixedly arranged on the intelligent window frame 1, the Z-direction blade rotating support 23 is fixedly connected to a motor shaft of the Z-direction blade rotating steering engine 22, one end of the Z-direction blade rotating joint 24 is connected to the bottom of the Z-direction blade rotating support 23, and the other end of the Z-direction blade rotating joint 24 is connected to the intelligent window frame 1; the Y-direction blade rotating steering engine 25 is horizontally and fixedly arranged at the top of the Z-direction blade rotating support 23, one end of a Y-direction blade rotating swing rod 26 is fixedly connected to a motor shaft of the Y-direction blade rotating steering engine 25, one end of a Y-direction blade rotating connecting rod 27 is hinged to the other end of the Y-direction blade rotating swing rod 26, a fulcrum of a Y-direction blade rotating lever 28 is positioned on the Z-direction blade rotating support 23 between the Z-direction blade rotating steering engine 22 and the Z-direction blade rotating joint 24, one end of the Y-direction blade rotating lever 28 is hinged to a rod body of the Y-direction blade rotating connecting rod 27, the other end of the Y-direction blade rotating lever 28 is connected with one end of an X-direction blade rotating joint 32, and the dredging blade 21 is fixedly; the X-direction blade rotation steering engine 29 is located right above the top of the Z-direction blade rotation support 23, the X-direction blade rotation steering engine 29 is connected to the top of the Z-direction blade rotation support 23 through a hinge 33, one end of the X-direction blade rotation arm 30 is fixedly connected to a motor shaft of the X-direction blade rotation steering engine 29, the other end of the X-direction blade rotation arm 30 is connected with one end of an X-direction blade rotation pull rod 31 through a first universal joint 34, and the X-direction blade rotation joint 32 is connected to the X-direction blade rotation pull rod 31 through a second universal joint 35.

The number of the Y-direction blade rotating levers 28 is a plurality, the Y-direction blade rotating levers 28 are uniformly distributed, each Y-direction blade rotating lever 28 is connected with one dredging blade 21 through an X-direction blade rotating joint 32, and the surfaces of all the dredging blades 21 adopt reflecting mirror surfaces.

The use process of the invention is described below with reference to the accompanying drawings:

in this embodiment, the number of the sunlight and natural wind guiding mechanisms 3 is eight, four are arranged on the upper half part of the intelligent window frame 1, four are arranged on the lower half part of the intelligent window frame 1, and four sunlight and natural wind guiding mechanisms 3 on the upper half part of the intelligent window frame 1 and four sunlight and natural wind guiding mechanisms 3 on the lower half part are distributed symmetrically relative to the center of the intelligent window frame 1. In each sunlight and natural wind leading mechanism 3, the number of the Y-direction blade turning levers 28 is three, that is, three leading blades 21 are synchronously linked in each sunlight and natural wind leading mechanism 3. Twenty-four dredging blades 21 are contained in the intelligent window.

When the window needs to be opened, the glass window opening and closing steering engine 8 can be controlled to start only by selecting a window opening instruction in the smart phone, the glass window opening and closing steering engine 8 drives the right gear 15 to rotate at first, and then drives the right crank 16 to synchronously swing, and because the right gear 15 is meshed with the left gear 9, the left gear 9 can be synchronously driven to reversely rotate through the right gear 15, and then the left crank 10 is driven to synchronously reversely swing. With the swinging rotation of the right crank 16, the right connecting rod 17 is driven to move, and further the first right lower slide block 18 is driven to move rightwards along the lower guide rail 7, and finally the right glass window 5 is driven to move rightwards along the lower guide rail 7, and the second right lower slide block 19 and the right upper slide block 20 follow the right glass window 5, so as to keep the stress balance of the right glass window 5. At the same time, along with the swinging of the left crank 10, the left connecting rod 11 is driven to move, so as to drive the first left lower slide block 12 to move leftwards along the lower guide rail 7, and finally drive the left glass window 4 to move leftwards along the lower guide rail 7, and the second left lower slide block 13 and the left upper slide block 14 follow the left glass window 4, so as to keep the stress balance of the left glass window 4.

Similarly, when the window needs to be closed, only the window closing instruction needs to be selected in the smart phone, the glass window opening and closing steering engine 8 is started reversely at the moment, and in the window closing process, the moving directions of all the components are opposite to those in the window opening process.

When twenty-four dredging blades 21 in the intelligent window are all perpendicular to the ground and parallel to the wall, the twenty-four dredging blades 21 can meet the traditional shading requirement.

When the sunlight needs to be guided to an indoor designated position for utilization, for example, the illumination is increased for green plants at indoor fixed positions, at the moment, the guide vane 21 can be manually controlled on the smart phone to perform three-axis linkage, and the three-axis linkage can be specifically decomposed into rotation around an X axis, rotation around a Y axis and rotation around a Z axis.

Taking rotation around the Z axis as an example, the Z-direction blade rotation steering engine 22 is started first, except that the Z-direction blade rotation steering engine 22 is stationary, all the other components rotate around the Z axis along with the Z-direction blade rotation support 23, and at this time, the dredging blade 21 rotates around the Z axis along with the Z-direction blade rotation support 23.

On the basis of rotating around the Z axis, the Y-direction blade rotation steering engine 25 is started again to drive the Y-direction blade rotation swing rod 26 to move, the Y-direction blade rotation swing rod 26 drives the Y-direction blade rotation connecting rod 27 to move in the vertical direction, at the moment, the vertical movement of the Y-direction blade rotation connecting rod 27 is synchronously converted into the swinging and rotating movement of the Y-direction blade rotation lever 28 around the fulcrum, and the rotation of the dredging blade 21 around the Y axis is realized through the swinging and rotating movement of the Y-direction blade rotation lever 28 around the fulcrum.

And further based on the rotation around the Y axis, the X-direction blade rotation steering engine 29 is started to drive the X-direction blade rotation arm 30 to synchronously rotate, at the moment, the rotation motion of the X-direction blade rotation arm 30 is converted into the vertical motion of the X-direction blade rotation pull rod 31, the vertical motion of the X-direction blade rotation pull rod 31 is converted into the rotation motion of the X-direction blade rotation joint 32, and the rotation of the dredging blade 21 around the X axis is realized through the rotation motion of the X-direction blade rotation joint 32.

When the Z-direction blade rotation steering engine 22, the Y-direction blade rotation steering engine 25 and the X-direction blade rotation steering engine 29 are synchronously started, the universal rotation of the dredging blade 21 on the space can be realized.

After the outdoor sunlight irradiates the reflecting mirror surface of the dredging blade 21, twenty-four dredging blades 21 are manually controlled to rotate in the synchronous space in the smart phone in order to accurately dredge the outdoor sunlight to the indoor green plant storage position until the sunlight irradiates the green plant by means of the reflection effect of the twenty-four dredging blades 21, so that the purpose of increasing the illumination of the green plant is achieved. If all need increase the illumination to green planting every day in a year, then can adopt the automatic adjustment mode, under this mode, can be earlier in the longitude and latitude coordinate input smart mobile phone of house, smart mobile phone then can acquire the sun annual movement track under this longitude and latitude coordinate through the high in the clouds server is automatic, again according to the change orbit of sun incident angle of sun annual movement track acquisition, the high in the clouds server can automatic adjustment dredge the space turned angle of blade 21 this moment, in order to guarantee that the sunshine of reflection can shine green planting storage department all the time, thereby need not artifical manual regulation.

When the natural wind needs to be guided to an indoor designated position for use, in particular, in order to enable people at the designated position to continuously and stably enjoy the cool brought by the natural wind, a manual adjustment mode or an automatic adjustment mode can be adopted. Taking a manual adjustment mode as an example, twenty-four dispersion blades 21 are divided into four regions, including an upper left region, a lower left region, an upper right region and a lower right region, each region has six dispersion blades 21, when adjustment is performed, the six dispersion blades 21 in the same region turn in the same direction, in order to accurately disperse natural wind to a specified position, the dispersion blades 21 in the four regions form a rectangular pyramid air guide structure together, the six dispersion blades 21 in each region form a pyramid surface of the rectangular pyramid air guide structure, and the specified position where a person is located is exactly the vertex of the rectangular pyramid air guide structure. If adopt the automatic adjustment mode, then need set up three LED lamp at indoor roof center, open the leading camera of smart mobile phone this moment, then keep flat and leading camera up with the smart mobile phone, receive the light source information of three LED lamp transmission on the roof through leading camera, later the high in the clouds server can be according to the automatic mobile phone position of confirming of light source information, and regard as the summit of rectangular pyramid air guide structure with the cell-phone automatically, the leading blade 21 turned angle in four regions of high in the clouds server meeting automatic adjustment this moment, until forming rectangular pyramid air guide structure, the user is as long as be in the position after the cell-phone just accomplished the location this moment, just can accurately dredge to the user position with natural wind.

Moreover, the cloud server can automatically open and close the window according to the local real-time weather forecast, for example, the window is not easy to open under outdoor weather conditions when the user leaves home, the window is suitable to open within two hours after leaving home, and the window can be automatically opened by the cloud server when the weather turns fine and is suitable to open. If the weather is clear when the user leaves home, the window is opened, but rain is expected to occur after two hours, and the cloud server can automatically close the window before the user rains.

The embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications without departing from the scope of the present invention are intended to be included in the scope of the present invention.

Claims

1. The utility model provides a domestic multi-functional intelligent window which characterized in that: comprises an intelligent window frame, an automatic window opening and closing mechanism and a sunlight and natural wind dredging mechanism; the intelligent window frame is fixedly embedded in a window of a building wall, the automatic opening and closing window body mechanism is located on one indoor side of the intelligent window frame, the sunlight and natural wind diversion mechanisms are located on one outdoor side of the intelligent window frame, the number of the sunlight and natural wind diversion mechanisms is a plurality, and the plurality of the sunlight and natural wind diversion mechanisms are uniformly distributed in the intelligent window frame.

2. A home multifunctional smart window according to claim 1, characterized in that: the automatic window opening and closing mechanism comprises a left glass window, a right glass window, an upper guide rail, a lower guide rail, a glass window opening and closing steering engine, a left gear, a left crank, a left connecting rod, a first left lower sliding block, a second left lower sliding block, a left upper sliding block, a right gear, a right crank, a right connecting rod, a first right lower sliding block, a second right lower sliding block and a right upper sliding block; the upper guide rail is horizontally and fixedly arranged at the upper part of the intelligent window frame, the lower guide rail is horizontally and fixedly arranged at the lower part of the intelligent window frame, the top of the left glass window is connected onto the upper guide rail in a sliding way through the left upper sliding block, the bottom of the left glass window is connected onto the lower guide rail in a sliding way through the first left lower sliding block and the second left lower sliding block, and the left glass window can move linearly along the upper guide rail and the lower guide rail; the top of the right glass window is connected to the upper guide rail in a sliding mode through the right upper sliding block, the bottom of the right glass window is connected to the lower guide rail in a sliding mode through the first right lower sliding block and the second right lower sliding block, and the right glass window can move linearly along the upper guide rail and the lower guide rail; the glass window opening and closing steering engine is horizontally and fixedly arranged in the intelligent window frame, the right gear is fixedly arranged on a motor shaft of the glass window opening and closing steering engine, one end of a right crank is fixedly connected to the axial end face of the right gear, the other end of the right crank is hinged to one end of a right connecting rod, and the other end of the right connecting rod is hinged to a first right lower sliding block; the gear shaft of the left gear is horizontally connected to the intelligent window frame through a bearing, the left gear is meshed with the right gear, one end of the left crank is fixedly connected to the axial end face of the left gear, the other end of the left crank is hinged to one end of a left connecting rod, and the other end of the left connecting rod is hinged to the first left lower sliding block.

3. A home multifunctional smart window according to claim 1, characterized in that: the sunlight and natural wind dredging mechanism comprises a dredging blade, a Z-direction blade rotating steering engine, a Z-direction blade rotating support, a Z-direction blade rotating joint, a Y-direction blade rotating steering engine, a Y-direction blade rotating swing rod, a Y-direction blade rotating connecting rod, a Y-direction blade rotating lever, an X-direction blade rotating steering engine, an X-direction blade rotating arm, an X-direction blade rotating pull rod and an X-direction blade rotating joint; the Z-direction blade rotating steering engine is vertically and fixedly arranged on the intelligent window frame, the Z-direction blade rotating support is fixedly connected to a motor shaft of the Z-direction blade rotating steering engine, one end of a Z-direction blade rotating joint is connected to the bottom of the Z-direction blade rotating support, and the other end of the Z-direction blade rotating joint is connected to the intelligent window frame; the Y-direction blade rotating steering engine is horizontally and fixedly arranged at the top of the Z-direction blade rotating support, one end of a Y-direction blade rotating swing rod is fixedly connected to a motor shaft of the Y-direction blade rotating steering engine, one end of a Y-direction blade rotating connecting rod is hinged to the other end of the Y-direction blade rotating swing rod, a fulcrum of a Y-direction blade rotating lever is positioned on the Z-direction blade rotating support between the Z-direction blade rotating steering engine and the Z-direction blade rotating joint, one end of the Y-direction blade rotating lever is hinged to a rod body of the Y-direction blade rotating connecting rod, the other end of the Y-direction blade rotating lever is connected with one end of the X-direction blade rotating joint, and the dredging blade is fixedly; the X-direction blade rotation steering engine is located right above the top of the Z-direction blade rotation support, the X-direction blade rotation steering engine is connected to the top of the Z-direction blade rotation support through a hinge, one end of the X-direction blade rotation arm is fixedly connected to a motor shaft of the X-direction blade rotation steering engine, the other end of the X-direction blade rotation arm is connected to one end of an X-direction blade rotation pull rod through a first universal joint, and the X-direction blade rotation joint is connected to the X-direction blade rotation pull rod through a second universal joint.

4. A home multifunctional smart window according to claim 3, characterized in that: the Y-direction blade rotating levers are a plurality of in number and are uniformly distributed, each Y-direction blade rotating lever is connected with one dredging blade through an X-direction blade rotating joint, and the surfaces of all dredging blades are all reflecting mirror surfaces.