CN110260438B - Smart window and control method for smart window - Google Patents

Abstract

The invention belongs to the technical field of intelligent equipment, and specifically provides a smart window and a control method for the smart window. The smart window includes a body, a window assembly and a driving mechanism arranged on the body, an opening is arranged on the body, and the window assembly includes The glass layer structure, the humidification layer structure and the power layer structure, the driving mechanism is respectively connected with the glass layer structure, the humidification layer structure and the power layer structure, and the driving mechanism is arranged to be able to drive the glass layer structure, the humidification layer structure and the power layer structure independently of each other, The smart window is configured to selectively cover the opening with the glass layer structure, the humidification layer structure, and the power layer structure according to the indoor humidity and the outdoor humidity. When the indoor humidity is low, the power layer structure can suck the outdoor air into the room, and the humidification layer structure can humidify the air entering the room, so as to improve the indoor humidity.

Description

Smart window and control method for smart window

Technical Field

The invention belongs to the technical field of intelligent equipment, and particularly provides an intelligent window and a control method for the intelligent window.

Background

The indoor humidity is between 40% and 60%, when the indoor humidity is low, people feel uncomfortable, even people have dry mouth, cracked lips or nosebleed, the indoor humidity can be improved by opening the window for ventilation, however, when the outdoor humidity is also low, the indoor humidity cannot be obviously improved.

Accordingly, there is a need in the art for a smart window and a control method for the smart window to solve the above-mentioned problems.

Disclosure of Invention

In order to solve the above-mentioned problems of the prior art, that is, to solve the problem that ventilation through the existing window may not effectively improve the indoor humidity when the indoor humidity is low, the present invention provides a smart window, the intelligent window comprises a body, a window body assembly and a driving mechanism, wherein the window body assembly and the driving mechanism are arranged on the body, an opening is arranged on the body, the window body component comprises a glass layer structure, a humidifying layer structure and a power layer structure, the driving mechanism is respectively connected with the glass layer structure, the humidifying layer structure and the power layer structure, the drive mechanism is arranged to be able to drive the glass layer structure, the humidifying layer structure and the power layer structure independently of each other, the intelligent window is set to be capable of selectively enabling the glass layer structure, the humidifying layer structure and the power layer structure to cover the opening according to indoor humidity and outdoor humidity.

In a preferred technical solution of the above-mentioned smart window, the window assembly further includes a filter layer structure, the driving mechanism is connected to the filter layer structure and can independently drive the filter layer structure, and the smart window is further configured to selectively cover the opening with the filter layer structure according to outdoor particulate contamination concentration.

In another aspect, the present invention further provides a control method for an intelligent window, where the intelligent window includes a body, and a window assembly and a driving mechanism that are disposed on the body, the body is provided with an opening, the window assembly includes a glass layer structure, a humidifying layer structure, and a power layer structure, the driving mechanism is respectively connected to the glass layer structure, the humidifying layer structure, and the power layer structure, and the driving mechanism is configured to be able to drive the glass layer structure, the humidifying layer structure, and the power layer structure independently of each other, and the control method includes: acquiring indoor humidity; acquiring outdoor humidity; selectively covering the opening with the glass layer structure, the humidifying layer structure and the power layer structure according to the indoor humidity and the outdoor humidity.

In a preferred embodiment of the above control method, the step of selectively covering the opening with the glass layer structure, the humidifying layer structure, and the power layer structure according to the indoor humidity and the outdoor humidity specifically includes: if indoor humidity is less than first preset humidity, and outdoor humidity is less than or equal to second preset humidity, then make power layer structure with humidification layer structure covers the opening, and do not make glass layer structure covers the opening, wherein, first preset humidity is less than or equal to second preset humidity.

In a preferred embodiment of the above control method, the step of selectively covering the opening with the glass layer structure, the humidification layer structure, and the power layer structure according to the indoor humidity and the outdoor humidity further includes: if the indoor humidity and the outdoor humidity are both smaller than the first preset humidity, and the difference value between the first preset humidity and the outdoor humidity is larger than a first preset value, the power layer structure and the humidifying layer structure are enabled to cover the opening, the glass layer structure is not enabled to cover the opening, and the power layer structure is enabled to operate at a first preset suction intensity and/or the humidifying layer structure is enabled to operate at a first humidifying intensity.

In a preferred embodiment of the above control method, the step of selectively covering the opening with the glass layer structure, the humidification layer structure, and the power layer structure according to the indoor humidity and the outdoor humidity further includes: if indoor humidity is less than first predetermined humidity just outdoor humidity is less than or equal to first predetermined humidity, and first predetermined humidity with the difference of outdoor humidity is less than or equal to first predetermined value, make power layer structure with humidification layer structure covers the opening, and does not make glass layer structure covers the opening, and makes power layer structure predetermines with the second and breathes in the intensity operation and/or makes humidification layer structure operates with second humidification intensity, wherein, first predetermined strength of breathing in is greater than the second is predetermine and is breathed in the intensity, first predetermined humidification intensity is greater than the second is predetermine and is humidified intensity.

In a preferred embodiment of the above control method, the step of selectively covering the opening with the glass layer structure, the humidification layer structure, and the power layer structure according to the indoor humidity and the outdoor humidity further includes: if indoor humidity is less than first predetermined humidity, and outdoor humidity is greater than first predetermined humidity and be less than or equal to humidity is predetermine to the second, makes power layer structure with humidification layer structure covers the opening, and does not make glass layer structure covers the opening, and makes power layer structure predetermines with the third and breathes in the intensity operation and/or makes humidification layer structure operates with third humidification intensity, wherein, first predetermined temperature is less than the temperature is predetermine to the second, the second is predetermine and is breathed in the intensity and be greater than the intensity is predetermine to the third, humidification intensity is predetermine to the second and is greater than the third is predetermine and is humidified intensity.

In a preferred embodiment of the above control method, the step of selectively covering the opening with the glass layer structure, the humidification layer structure, and the power layer structure according to the indoor humidity and the outdoor humidity further includes: if the indoor humidity is less than a first preset humidity and the outdoor humidity is greater than a second preset humidity, the power layer structure is enabled to cover the opening, and the glass layer structure and the humidifying layer structure are not enabled to cover the opening.

In a preferred embodiment of the above control method, the step of selectively covering the opening with the glass layer structure, the humidifying layer structure, and the power layer structure according to the indoor humidity and the outdoor humidity specifically includes: and if the humidity in the chamber is greater than or equal to the first preset humidity, only enabling the glass layer structure to cover the opening.

In a preferred technical solution of the above control method, the window assembly further includes a filter layer structure, the driving mechanism is connected to the filter layer structure and can independently drive the filter layer structure, and the control method further includes: acquiring the concentration of outdoor particle pollutants; when the dynamic layer structure covers the opening, if the concentration of the outdoor granular pollutants is greater than a second preset value, the filtering layer structure covers the opening.

It can be understood by those skilled in the art that in a preferred technical solution of the present invention, the smart window includes a body, and a window assembly and a driving mechanism that are disposed on the body, the body is provided with an opening, the window assembly includes a glass layer structure, a humidifying layer structure and a power layer structure, the driving mechanism is respectively connected with the glass layer structure, the humidifying layer structure and the power layer structure, the driving mechanism can independently drive the glass layer structure, the humidifying layer structure and the power layer structure, and the smart window can selectively cover the opening according to indoor humidity and outdoor humidity. The window body assembly of the intelligent window is provided with a humidifying layer structure and a power layer structure besides the traditional glass layer structure, when the indoor humidity is low, the power layer structure can be driven by a driving mechanism to move to cover an opening (at the moment, the glass layer structure does not cover the opening), outdoor air is sucked into the room by the power layer structure, if the outdoor humidity is high, the air can directly enter the room to improve the indoor humidity, if the outdoor humidity is low, the humidifying layer structure can be driven by the driving mechanism to move to cover the opening, and the air entering the room is humidified by the humidifying layer structure to improve the indoor humidity. Through such setting, no matter outdoor humidity height, can both improve indoor humidity through the intelligence window, promote user experience.

Further, the window body assembly further comprises a filter layer structure, the driving mechanism is connected with the filter layer structure and can independently drive the filter layer structure, and the intelligent window can selectively enable the filter layer structure to cover the opening according to outdoor particle pollution concentration. When indoor granule class pollutant concentration exceeds standard promptly, remove so that it covers the opening through actuating mechanism drive filter layer structure, filter the indoor air of entering through filter layer structure to prevent that outdoor granule class pollutant from getting into indoorly, thereby can keep indoor clean environment, promote user experience.

On the other hand, when the indoor humidity is less than the preset humidity, the intelligent window can select whether to cover the opening only by the power layer structure or to cover the opening by the power layer structure and the humidification layer structure together according to the outdoor humidity, and can adjust the air suction strength of the power layer and the humidification strength of the humidification layer according to the outdoor humidity, specifically, when the outdoor humidity is high, only the power layer structure can be moved to the opening to cover the opening (namely, the glass layer structure and the humidification layer structure do not cover the opening), the power layer structure sucks the air with very high outdoor humidity into the room, energy can be saved on the basis of improving the indoor humidity, when the outdoor humidity is low, both the power layer structure and the humidification layer structure need to be moved to the opening to cover the opening, and when the power layer structure sucks the outdoor air into the room, the humidification layer structure humidifies the air entering the room, in order to improve indoor humidity, when outdoor humidity is very little, all remove the opening part and cover under the open-ended prerequisite with power layer structure and humidification layer structure, still need to improve the intensity of breathing in of power layer and the humidification intensity of humidification layer to the speed of guarantee improvement indoor humidity.

Drawings

FIG. 1 is a schematic view of the structure of a smart window of the present invention;

FIG. 2 is a schematic structural view of one embodiment of the drive mechanism of the present invention;

FIG. 3 is a flow chart of a first embodiment of a control method for a smart window of the present invention;

fig. 4 is a flowchart of a second embodiment of the control method for a smart window according to the present invention.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms "upper", "lower", "left", "right", "inner", "outer", etc. indicating directions or positional relationships are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may include, for example, a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Based on the problem that the indoor humidity cannot be effectively improved by ventilating through the existing window when the indoor humidity is low as pointed out by the background art, the invention provides the intelligent window and the control method for the intelligent window, aiming at effectively improving the indoor humidity through the intelligent window when the indoor humidity is low.

Specifically, as shown in fig. 1, the smart window of the present invention includes a control system, a body, and a window assembly and a driving mechanism 5 that are disposed on the body, where the body is provided with an opening 1, the window assembly includes a glass layer structure 2, a humidifying layer structure 3, and a power layer structure 4, the driving mechanism 5 is respectively connected with the glass layer structure 2, the humidifying layer structure 3, and the power layer structure 4, the driving mechanism 5 is configured to be able to drive the glass layer structure 2, the humidifying layer structure 3, and the power layer structure 4 independently of each other, and the smart window is configured to be able to selectively enable the glass layer structure 2, the humidifying layer structure 3, and the power layer structure 4 to cover the opening 1 according to indoor humidity and outdoor humidity. Wherein, glass layer structure 2 can realize indoor and outdoor separation, humidification layer structure 3 can be with air humidifying, power layer structure 4 can be with outdoor air suction indoor, wherein, humidification layer structure 3 can adopt the humidification membrane structure, perhaps adopt the humidification net structure, power layer structure 4 can adopt the platelike structure that has the fan, perhaps adopt the strip structure that has the fan, technical personnel in the art can set up humidification layer structure 3 and power layer structure 4's concrete structure in practical application in a flexible way, as long as can be with air humidifying through humidification layer structure 3, can be with outdoor air suction indoor through power layer structure 4 can. In addition, the humidifying layer structure 3 can be arranged between the glass layer structure 2 and the power layer structure 4, or the glass layer structure 2 is arranged between the humidifying layer structure 3 and the power layer structure 4, or the power layer structure 4 is arranged between the glass layer structure 2 and the humidifying layer structure 3, and in summary, the arrangement sequence of the glass layer structure 2, the humidifying layer structure 3 and the power layer structure 4 can be flexibly adjusted by a person skilled in the art in practical application.

It should be noted that the driving mechanism 5 may communicate with the control system of the smart window, and the communication mode may be wired connection or wireless connection (e.g. bluetooth, wifi, etc.), in addition, the driving mechanism 5 may adopt an integrated structure, such as an integrated pneumatic cylinder structure or an integrated hydraulic cylinder structure, of course, the driving mechanism 5 may also adopt a split structure, for example, the driving mechanism 5 includes a first driving member, a second driving member and a third driving member, the first driving member is connected with the glass layer structure 2, the second driving member is connected with the humidifying layer structure 3, and the third driving member is connected with the power layer structure 4. The first driving member, the second driving member and the third driving member can adopt a structure matched with a motor and a gear rack, and can also adopt a structure of a linear motor, and a person skilled in the art can flexibly set specific structures of the first driving member, the second driving member and the third driving member in practical application, as long as the first driving member can drive the glass layer structure 2 to move, the second driving member can drive the humidifying layer structure 3 to move, and the third driving member can drive the power layer structure 4 to move.

In one possible case, as shown in fig. 2, the driving mechanism 5 is an integrated hydraulic cylinder structure, the integrated hydraulic cylinder includes a first cylinder 512 having a first piston rod 511, a second cylinder 522 having a second piston rod 521, a third cylinder 532 having a third piston rod 531, a pump a, a pump B and an oil tank, the pump a and the pump B are both connected to the oil tank, a left chamber of the first cylinder 512 is connected to the pump a through a first oil pipe, a left chamber of the second cylinder 522 is connected to the pump a through a second oil pipe, a left chamber of the third cylinder 532 is connected to the pump a through a third oil pipe, the first oil pipe is provided with a first solenoid valve 513, the second oil pipe is provided with a second solenoid valve 523, the third oil pipe is provided with a third solenoid valve 533, a right chamber of the first cylinder 512 is connected to the pump B through a fourth oil pipe, a right chamber of the second cylinder 522 is connected to the pump B through a fifth oil pipe, the right cavity of the third cylinder 532 is connected to the pump body B through a sixth oil pipe, a fourth electromagnetic valve 514 is disposed on the fourth oil pipe, a fifth electromagnetic valve 524 is disposed on the fifth oil pipe, and a sixth electromagnetic valve 534 is disposed on the sixth oil pipe, it should be noted that the right cavity and the left cavity of the first cylinder 512, the second cylinder 522, and the third cylinder 532 are all demarcated by the piston of the piston rod, in the structure shown in fig. 2, taking the first cylinder 512 as an example, the left part of the piston rod in the first cylinder 512 is the left cavity, and the right part of the piston is the right cavity. The pump body a, the pump body B, the first solenoid valve 513, the second solenoid valve 523, the third solenoid valve 533, the fourth solenoid valve 514, the fifth solenoid valve 524, and the sixth solenoid valve 534 are all in communication with the control system of the smart window. The first piston rod 511 is connected with the glass layer structure 2, the second piston rod 521 is connected with the humidifying layer structure 3, and the third piston rod 531 is connected with the power layer structure 4. When a user only needs to move the glass layer structure 2 to the right, the first electromagnetic valve 513 and the fourth electromagnetic valve 514 are opened, all the other electromagnetic valves are closed, the pump body A sucks oil in the oil tank and conveys the oil to the left cavity of the first cylinder body 512, the pump body B sucks oil in the right cavity of the first cylinder body 512 and conveys the oil to the oil tank, and the first piston rod 511 is moved to the right under the action of the oil, so that the glass layer structure 2 is pushed to move to the right; on the contrary, when the user only needs to move the glass layer structure 2 to the left, the first solenoid valve 513 and the fourth solenoid valve 514 are opened, all the other solenoid valves are closed, the pump body B sucks the oil in the oil tank and conveys the oil to the right cavity of the first cylinder body 512, the pump body a sucks the oil in the left cavity of the first cylinder body 512 and conveys the oil to the oil tank, and the first piston rod 511 is moved to the left under the action of the oil, so that the glass layer structure 2 is pushed to move to the left. Similarly, when the user only needs to move the humidification layer structure 3 to the right, the second electromagnetic valve 523 and the fifth electromagnetic valve 524 are opened, all the other electromagnetic valves are closed, the pump body a sucks the oil in the oil tank and conveys the oil to the left cavity of the second cylinder 522, the pump body B sucks the oil in the right cavity of the second cylinder 522 and conveys the oil to the oil tank, and the second piston rod 521 is moved to the right under the action of the oil, so that the humidification layer structure 3 is pushed to move to the right; on the contrary, when the user only needs to move the humidifying layer structure 3 to the left, the second electromagnetic valve 523 and the fifth electromagnetic valve 524 are opened, all the other electromagnetic valves are closed, the pump body B sucks the oil in the oil tank and conveys the oil to the right cavity of the second cylinder 522, the pump body a sucks the oil in the left cavity of the second cylinder 522 and conveys the oil to the oil tank, and the second piston rod 521 is moved to the left under the action of the oil, so that the humidifying layer structure 3 is pushed to move to the left. When a user only needs to move the power layer structure 4 to the right, the third electromagnetic valve 533 and the sixth electromagnetic valve 534 corresponding to the first power layer structure 4 are opened, all the other electromagnetic valves are closed at the moment, the pump body A sucks oil in the oil tank and conveys the oil to the left cavity of the third cylinder 532, the pump body B sucks oil in the right cavity of the third cylinder 532 and conveys the oil to the oil tank, and then the third piston rod 531 moves to the right under the action of the oil, so that the power layer structure 4 is pushed to move to the right; on the contrary, when the user only needs to move the power layer 4 to the left, the third solenoid valve 533 and the sixth solenoid valve 534 are opened, all the other solenoid valves are closed, the pump body B sucks the oil in the oil tank and conveys the oil to the right cavity of the third cylinder 532, the pump body a sucks the oil in the left cavity of the third cylinder 532 and conveys the oil to the oil tank, and then the third piston rod 531 moves to the left under the action of the oil, so that the power layer 4 moves to the left. The above-described suction action of the pump a, the suction action of the pump B, and the opening and closing of the first solenoid valve 513, the second solenoid valve 523, the third solenoid valve 533, the fourth solenoid valve 514, the fifth solenoid valve 524, and the sixth solenoid valve 534 are controlled by the control system of the smart window. The pump body A pumps oil from the oil tank to the outside and to the oil tank in carry can be through the pump body A in the impeller positive and negative rotation realize, and like the same, pump body B pumps oil from the oil tank to the outside and to the oil tank in carry can realize through pump body B in the impeller positive and negative rotation, just no longer describe here.

In another possible situation, the driving mechanism 5 includes a first driving member, a second driving member and a third driving member, where the first driving member includes a first motor, a first gear and a first rack that are disposed in the body, the first motor communicates with the control system of the smart window, an output shaft of the first motor is connected to the first gear and can drive the first gear to rotate, the first gear is engaged with the first rack, the first rack is connected to the glass layer structure 2, when the first motor drives the first gear to rotate, the first motor can move the first rack under the engagement action of the first gear and the first rack, and the first rack drives the glass layer structure 2 to move during the movement process; the second driving component comprises a second motor, a second gear and a second rack which are arranged in the body, the second motor is communicated with the control system of the intelligent window, an output shaft of the second motor is connected with the second gear and can drive the second gear to rotate, the second gear is meshed with the second rack, the second rack is connected with the humidifying layer structure 3, the second motor can drive the second rack to move under the meshing action of the second gear and the second rack when driving the second gear to rotate, and the humidifying layer structure 3 is driven to move in the moving process of the second rack; the third driving component comprises a third motor, a third gear and a third rack which are arranged in the body, the third motor is communicated with a control system of the intelligent window, an output shaft of the third motor is connected with the third gear and can drive the third gear to rotate, the third gear is meshed with the third rack, the third rack is connected with the power layer structure 4, when the third motor drives the third gear to rotate, the third rack can be moved under the meshing action of the third gear and the third rack, and the third rack drives the power layer structure 4 to move in the moving process.

In addition, it should be noted that the smart window being configured to selectively cover the opening 1 with the glass layer structure 2, the humidifying layer structure 3, and the power layer structure 4 according to the indoor humidity and the outdoor humidity means that: the intelligent window can make glass layer structure 2 cover opening 1 according to indoor humidity and outdoor humidity, also can not make glass layer structure 2 cover opening 1, and the same reason, intelligent window can also make humidification layer structure 3 cover opening 1 according to indoor humidity and outdoor humidity, also can not make humidification layer structure 3 cover opening 1, makes power layer structure 4 cover opening 1, also can not make power layer structure 4 cover opening 1. It can be understood that a smart window comprises two zones: storage area and workspace (opening 1 promptly), intelligent window can judge which floor structure work of needs according to indoor humidity and outdoor humidity, makes this floor structure remove opening 1 and covers opening 1, even this floor structure gets into the workspace and carries out work, does not need the structure of work then to stop in the storage area, wherein, the storage area sets up in the wall body to reduce the space that intelligent window occupy.

Preferably, as shown in fig. 1, the window assembly further comprises a filter layer structure 6, the driving mechanism 5 is connected with the filter layer structure 6 and the driving mechanism 5 can independently drive the filter layer structure 6, and the smart window is further configured to selectively enable the filter layer structure 6 to cover the opening 1 according to the outdoor particle pollution concentration. That is, the smart window can cover the opening 1 with the filter layer structure 6 according to the concentration of outdoor particulate pollutants, or does not cover the opening 1 with the filter layer structure 6. Wherein, the filter layer structure 6 can be set as a filter screen or a filter membrane structure, and the principle that the driving mechanism 5 drives the filter layer structure 6 to move is similar to the glass layer structure 2, the humidifying layer structure 3 and the power layer structure 4, which is not repeated here. In addition, the arrangement position of the filter layer structure 6 relative to the glass layer structure 2, the humidifying layer structure 3 and the power layer structure 4 can be flexibly set.

Preferably, the humidifying layer structure 3 comprises a water storage tank, a water pump and a capillary tube, wherein the water pump can convey water in the water storage tank into the capillary tube, the capillary tube is provided with a plurality of micropores so that water can seep out of the capillary tube, and when air flows through the humidifying layer structure 3, the water seeping out of the capillary tube can be brought into a room. Of course, the capillary tube can be connected to the indoor water supply line, and such flexible adjustment and change can be made without departing from the principle and scope of the present invention, and should be limited within the protection scope of the present invention.

Preferably, the power layer structure 4 comprises a stationary member and at least one fan arranged on the stationary member. The fixing member may be a glass plate, or a plastic plate, etc., and meanwhile, the fixing member may be an integral member, or may also be a splicing member, and those skilled in the art may flexibly set the material and specific structure of the fixing member in practical application, and in addition, the fixing member is preferably a transparent member in order not to affect the observation of the user. The number of the fans can be one or more, and the number of the fans can be flexibly adjusted by a person skilled in the art in practical application. In addition, it should be noted that, in the present invention, the fan includes a motor and fan blades, the motor is connected to the control system of the smart window, and the control system can control the motor to drive the fan blades to rotate. In addition, it should be noted that when the motor controls the fan blades to rotate, the fan can suck outdoor air into the room.

In another aspect, the present invention further provides a control method for an intelligent window, taking the example that the window assembly of the intelligent window includes a glass layer structure 2, a humidifying layer structure 3 and a power layer structure 4, the control method of the present invention includes: acquiring indoor humidity; acquiring outdoor humidity; the opening 1 is selectively covered with the glass layer structure 2, the humidification layer structure 3, and the power layer structure 4 according to the indoor humidity and the outdoor humidity. In practical application, according to indoor humidity and outdoor humidity, only the glass layer structure 2 can cover the opening 1, only the power layer structure 4 can cover the opening 1, and the power layer structure 4 and the humidification layer structure 3 can cover the opening 1 together.

It should be noted that the steps of "acquiring the indoor humidity" and "acquiring the outdoor humidity" may be performed simultaneously, or the steps of "acquiring the indoor humidity" and then "acquiring the outdoor humidity" are performed first, and then the steps of "acquiring the outdoor humidity" and then "acquiring the indoor humidity" are performed first, and such flexible adjustment and change do not depart from the principle and scope of the present invention, and should be limited within the protection scope of the present invention.

Preferably, the step of selectively covering the opening 1 with the glass layer structure 2, the humidification layer structure 3, and the power layer structure 4 according to the indoor humidity and the outdoor humidity specifically includes: if the indoor humidity is less than the first preset humidity and the outdoor humidity is less than or equal to the second preset humidity, the power layer structure 4 and the humidification layer structure 3 are enabled to cover the opening 1, and the glass layer structure 2 is not enabled to cover the opening 1, wherein the first preset humidity can be less than the second preset humidity, or the first preset humidity can also be equal to the second preset humidity, and the technical personnel in the field can flexibly set in practical application. In a preferred case, the first predetermined humidity is less than the second predetermined humidity, for example, the first predetermined humidity is set to 40%, the second predetermined humidity is set to 45%, and when the detected indoor humidity is less than 40%, it indicates that the indoor humidity is lower than the set humidity, and the indoor humidity needs to be increased, at this time, if the detected outdoor humidity is 43%, although the detected outdoor humidity is greater than the first predetermined humidity by 40% but less than the second predetermined humidity by 45%, the indoor humidity can be increased by the outdoor air, but the speed is slow, so it is necessary to make both the power layer structure 4 and the humidification layer structure 3 cover the opening 1, suck the outdoor air into the room through the power layer structure 4, and humidify the air entering the room through the humidification layer structure 3. In another possible case, the first predetermined humidity is equal to the second predetermined humidity, for example, the first predetermined humidity and the second predetermined humidity are both set to 40%, and when the detected indoor humidity is less than 40%, it indicates that the indoor humidity is lower than the set humidity, and the indoor humidity needs to be increased, at this time, if the detected outdoor humidity is 40%, although the detected outdoor humidity is equal to the first predetermined humidity 40%, the speed of increasing the indoor humidity is slow, so it is necessary to make both the power layer structure 4 and the humidification layer structure 3 cover the opening 1, suck the outdoor air into the room through the power layer structure 4, and humidify the air entering the room through the humidification layer structure 3. Of course, the specific values of the first preset humidity and the second preset humidity are not limited to the above values, and those skilled in the art can flexibly set the values in practical application, and can also set the values according to their own preferences. The technical solution of the present invention is described below with reference to specific examples.

Example one

It should be noted that the present embodiment is described with reference to the case where the first preset humidity is equal to the second preset humidity. I.e. in this embodiment only the first predetermined humidity.

As shown in fig. 3, the control method of the present invention includes: acquiring indoor humidity; acquiring outdoor humidity; if the indoor humidity and the outdoor humidity are both smaller than a first preset humidity, and the difference between the first preset humidity and the outdoor humidity is larger than a first preset value, enabling the power layer structure 4 and the humidifying layer structure 3 to cover the opening 1, not enabling the glass layer structure 2 to cover the opening 1, and enabling the power layer structure 4 to operate at a first preset suction intensity and/or enabling the humidifying layer structure 3 to operate at a first humidifying intensity; if the indoor humidity is less than the first preset humidity and the outdoor humidity is less than or equal to the first preset humidity, and the difference value between the first preset humidity and the outdoor humidity is less than or equal to the first preset value, enabling the power layer structure 4 and the humidifying layer structure 3 to cover the opening 1, not enabling the glass layer structure 2 to cover the opening 1, and enabling the power layer structure 4 to operate at a second preset suction intensity and/or enabling the humidifying layer structure 3 to operate at a second humidifying intensity, wherein the first preset suction intensity is greater than the second preset suction intensity, and the first preset humidifying intensity is greater than the second preset humidifying intensity; if the humidity in the room is greater than or equal to a first preset humidity, only the glass layer structure 2 is made to cover the opening 1.

When the indoor humidity is less than the first preset humidity, the indoor humidity needs to be increased at this time, the power layer structure 4 is made to cover the opening 1, the outdoor air is sucked into the room through the power layer structure 4, and because the outdoor humidity is less than or equal to the first preset humidity, the humidifying layer structure 3 is also made to cover the opening 1, the air entering the room is humidified through the humidifying layer structure 3, when the difference value between the first preset humidity and the outdoor humidity is greater than the first preset value, it is described that the outdoor humidity is very low, the difference between the outdoor humidity and the first preset humidity is very large, in order to increase the indoor humidity as soon as possible, the power layer structure 4 can be made to operate with the first suction strength (the maximum suction strength of the power layer structure 4), or the humidifying layer structure 3 can be made to operate with the first humidifying strength (the maximum humidifying strength of the humidifying layer structure 3), preferably, the power layer structure 4 is made to operate with the first suction strength while the humidifying layer structure 3 is made to operate with the first humidifying strength When the difference between the first preset humidity and the outdoor humidity is less than or equal to the first preset value, it indicates that the outdoor humidity is not very low, and the difference between the outdoor humidity and the first preset humidity is not very large, and in order to save energy, the power layer structure 4 may be operated at the second suction strength (the second suction strength is less than the first suction strength) or the humidification layer structure 3 may be operated at the second humidification strength (the second humidification strength is less than the first humidification strength) relative to the case where the difference between the first preset humidity and the outdoor humidity is greater than the first preset value, and preferably, the power layer structure 4 is operated at the second suction strength while the humidification layer structure 3 is operated at the second humidification strength, that is, the suction strength of the power layer structure 4 and the humidification strength of the humidification layer structure 3 are reduced at the same time; when the indoor humidity is greater than or equal to the first preset humidity, the indoor humidity does not need to be increased, and only the glass layer structure 2 covers the opening 1.

It should be noted that, if the outdoor humidity is greater than the first preset humidity, only the power layer structure 4 is needed to suck the outdoor air into the room, and the humidifying layer structure 3 may not be needed to humidify the air entering the room, that is, the humidifying layer structure 3 may not cover the opening 1.

In addition, it should be noted that, taking the power layer structure 4 described in the paragraph 0032 as an example, the first suction strength may be greater than the second suction strength by: when the power layer structure 4 operates at a first preset suction intensity, the fan on the power layer structure 4 is rotated at a first preset rotating speed, and when the power layer structure 4 operates at a second preset suction intensity, the fan on the power layer structure 4 is rotated at a second preset rotating speed, wherein the first preset rotating speed is greater than the second preset rotating speed, and the larger the rotating speed of the fan is, the larger the suction intensity of the power layer structure 4 is.

In addition, it should be noted that, taking the humidifying layer structure 3 described in paragraph 0031 in the foregoing as an example, the first humidifying intensity may be greater than the second humidifying intensity by: when the humidifying layer structure 3 operates at a first preset humidifying strength, the impeller in the water pump on the humidifying layer structure 3 rotates at a first preset rotating speed, and when the humidifying layer structure 3 operates at a second preset humidifying strength, the impeller in the water pump on the humidifying layer structure 3 rotates at a second preset rotating speed, wherein the first preset rotating speed is greater than the second preset rotating speed, the greater the rotating speed of the impeller is, the greater the suction force of the water pump is, the more the water quantity is conveyed into the capillary tube, and the greater the humidifying strength of the humidifying layer structure 3 is.

Example two

It should be noted that the present embodiment is described with reference to the case that the first preset humidity is smaller than the second preset humidity.

As shown in fig. 4, the control method of the present invention includes: acquiring indoor humidity; acquiring outdoor humidity; if the indoor humidity and the outdoor humidity are both smaller than a first preset humidity, and the difference between the first preset humidity and the outdoor humidity is larger than a first preset value, enabling the power layer structure 4 and the humidifying layer structure 3 to cover the opening 1, not enabling the glass layer structure 2 to cover the opening 1, and enabling the power layer structure 4 to operate at a first preset suction intensity and/or enabling the humidifying layer structure 3 to operate at a first humidifying intensity; if the indoor humidity is less than the first preset humidity and the outdoor humidity is less than or equal to the first preset humidity, and the difference value between the first preset humidity and the outdoor humidity is less than or equal to the first preset value, enabling the power layer structure 4 and the humidifying layer structure 3 to cover the opening 1, not enabling the glass layer structure 2 to cover the opening 1, and enabling the power layer structure 4 to operate at a second preset suction intensity and/or enabling the humidifying layer structure 3 to operate at a second humidifying intensity, wherein the first preset suction intensity is greater than the second preset suction intensity, and the first preset humidifying intensity is greater than the second preset humidifying intensity; if the indoor humidity is less than the first preset humidity and the outdoor humidity is greater than the first preset humidity and less than or equal to the second preset humidity, enabling the power layer structure 4 and the humidifying layer structure 3 to cover the opening 1, not enabling the glass layer structure 2 to cover the opening 1, and enabling the power layer structure 4 to operate at a third preset suction intensity and/or enabling the humidifying layer structure 3 to operate at a third humidifying intensity, wherein the second preset suction intensity is greater than the third preset suction intensity, and the second preset humidifying intensity is greater than the third preset humidifying intensity; if the indoor humidity is less than the first preset humidity and the outdoor humidity is greater than the second preset humidity, enabling the power layer structure 4 to cover the opening 1 and not enabling the glass layer structure 2 and the humidifying layer structure 3 to cover the opening 1; if the humidity in the room is greater than or equal to a first preset humidity, only the glass layer structure 2 is made to cover the opening 1.

When the indoor humidity is less than the first preset humidity, the indoor humidity needs to be increased at this time, the power layer structure 4 is made to cover the opening 1, the outdoor air is sucked into the room through the power layer structure 4, and because the outdoor humidity is less than or equal to the first preset humidity, the humidifying layer structure 3 is also made to cover the opening 1, the air entering the room is humidified through the humidifying layer structure 3, when the difference value between the first preset humidity and the outdoor humidity is greater than the first preset value, it is described that the outdoor humidity is very low, the difference between the outdoor humidity and the first preset humidity is very large, in order to increase the indoor humidity as soon as possible, the power layer structure 4 can be made to operate with the first suction strength (the maximum suction strength of the power layer structure 4), or the humidifying layer structure 3 can be made to operate with the first humidifying strength (the maximum humidifying strength of the humidifying layer structure 3), preferably, the power layer structure 4 is made to operate with the first suction strength while the humidifying layer structure 3 is made to operate with the first humidifying strength When the difference between the first preset humidity and the outdoor humidity is less than or equal to the first preset value, it indicates that the outdoor humidity is not very low and the difference between the outdoor humidity and the first preset humidity is not very large, and compared with the case that the difference between the first preset humidity and the outdoor humidity is greater than the first preset value, in order to save energy, the power layer structure 4 may be operated at the second suction strength (the second suction strength is less than the first suction strength), or the humidification layer structure 3 may be operated at the second humidification strength (the second humidification strength is less than the first humidification strength), preferably, the power layer structure 4 is operated at the second suction strength while the humidification layer structure 3 is operated at the second humidification strength, that is, the suction strength of the power layer structure 4 and the humidification strength of the humidification layer structure 3 are simultaneously reduced, when the outdoor humidity is greater than the first preset humidity and less than or equal to the second preset humidity, explaining that the outdoor humidity is slightly larger than the first preset humidity, and compared with the situation that the difference value between the first preset humidity and the outdoor humidity is smaller than or equal to the first preset value, in order to save energy, the power layer structure 4 can be operated with a third suction strength (the third suction strength is smaller than the second suction strength) or the humidifying layer structure 3 can be operated with a third humidifying strength (the third humidifying strength is smaller than the second humidifying strength), preferably, the power layer structure 4 is operated with the third suction strength while the humidifying layer structure 3 is operated with the third humidifying strength, namely, the suction strength of the power layer structure 4 and the humidifying strength of the humidifying layer structure 3 are further reduced simultaneously, when the outdoor humidity is larger than the second preset humidity, the outdoor humidity is large, and at the moment, the outdoor air is sucked into the room through the power layer structure 4 without humidifying through the humidifying layer structure 3, i.e. without the humidifying layer structure 3 covering the opening 1; when the indoor humidity is greater than or equal to the first preset humidity, the indoor humidity does not need to be increased, and only the glass layer structure 2 covers the opening 1.

It should be noted that, similarly to the embodiment, if the outdoor humidity is greater than the first preset humidity, only the power layer structure 4 is required to suck the outdoor air into the room, and the humidifying layer structure 3 may not be required to humidify the air entering the room, that is, the humidifying layer structure 3 may not cover the opening 1.

In addition, similarly to the embodiment, taking the power layer structure 4 described in paragraph 0032 as an example, the first suction strength greater than the second suction strength may be: when power layer structure 4 with first predetermineeing when breathing in the intensity operation, make the fan on power layer structure 4 rotate with first predetermined rotational speed, when power layer structure 4 predetermines with the second when breathing in the intensity operation, make the fan on power layer structure 4 predetermine the rotational speed with the second and rotate, wherein, first predetermined rotational speed is greater than the second and predetermines the rotational speed, the rotational speed of fan is big more, power layer structure 4's the intensity of breathing in is big more, and the same reason, the second intensity of breathing in is greater than the third intensity of breathing in and can be for: when the power layer structure 4 operates at the second preset suction intensity, the fan on the power layer structure 4 is rotated at the second preset rotating speed, and when the power layer structure 4 operates at the third preset suction intensity, the fan on the power layer structure 4 is rotated at the third preset rotating speed, wherein the second preset rotating speed is greater than the third preset rotating speed.

In addition, similarly to the embodiment, taking the humidifying layer structure 3 described in paragraph 0031 as an example, the first humidifying intensity may be greater than the second humidifying intensity by: when humidification layer structure 3 moves with first predetermined humidification intensity, make the impeller in the water pump on humidification layer structure 3 rotate with first predetermined rotational speed, when humidification layer structure 3 moves with second predetermined humidification intensity, make the impeller in the water pump on humidification layer structure 3 rotate with second predetermined rotational speed, wherein, first predetermined rotational speed is greater than the second predetermined rotational speed, the rotational speed of impeller is big more, the suction of water pump is big more, carry the water yield in the capillary more, humidification layer structure 3's humidification intensity is big more, and the same reason, second humidification intensity is greater than third humidification intensity and can be: when the humidifying layer structure 3 operates at a third preset humidifying intensity, the impeller in the water pump on the humidifying layer structure 3 rotates at a third preset rotating speed, and when the humidifying layer structure 3 operates at a second preset humidifying intensity, the impeller in the water pump on the humidifying layer structure 3 rotates at a second preset rotating speed, wherein the second preset rotating speed is greater than the third preset rotating speed.

In addition, it should be noted that, in order to detect the indoor humidity and the outdoor humidity, a humidity detector may be respectively disposed on the indoor side and the outdoor side of the smart window, and both the two humidity detectors may communicate with the control system of the smart window (the communication mode may be wired connection, or wireless connection such as bluetooth or wifi), so as to timely feed back the indoor humidity and the outdoor humidity to the control system of the smart window.

Preferably, in an embodiment where the window assembly further comprises a filter layer structure 6, the drive mechanism 5 is connected to the filter layer structure 6 and the drive mechanism 5 is capable of independently driving the filter layer structure 6, the control method of the present invention further comprises: acquiring the concentration of outdoor particle pollutants; when the dynamic layer structure 4 covers the opening 1, if the concentration of outdoor particulate pollutants is greater than a second preset value, the filtering layer structure 6 is made to cover the opening 1. According to the control method, when the indoor humidity is smaller than the first preset value, the power layer structure 4 is made to cover the opening 1, outdoor air is sucked into the room through the power layer structure 4, at the moment, if the outdoor particle pollution concentration is larger than the second preset value, the outdoor particle pollution concentration exceeds the standard, in order to avoid polluting the indoor environment, the filter layer structure 6 is made to cover the opening 1 to filter the air entering the room, and the particle pollutants in the air are prevented from entering the room.

It should be noted that if the outdoor particle contamination concentration is not greater than the second preset value, the filter layer structure 6 may not be made to cover the opening 1. The particulate pollutants may include dust, PM2.5, and the like.

In addition, it should be noted that, a person skilled in the art may flexibly set the second preset value in practical applications, as long as the boundary value of the concentrations of the outdoor particulate pollutants can be determined by the second preset value to determine whether the concentrations of the outdoor particulate pollutants exceed the standard or not. In addition, in order to realize the detection of particulate pollutant concentration, can set up particulate pollutant concentration detector in the outdoor side of intelligence window to make particulate pollutant concentration detector and the control system communication of intelligence window (communication mode can adopt wired connection, or wireless connection such as bluetooth, wifi etc.), thereby in time feed back outdoor particulate pollutant concentration index to the control system of intelligence window.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims (3)

1. The utility model provides a control method for intelligence window, its characterized in that, intelligence window includes the body and sets up window form subassembly and actuating mechanism on the body, be provided with the opening on the body, the window form subassembly includes glass layer structure, humidification layer structure and power layer structure, actuating mechanism respectively with glass layer structure humidification layer structure and power layer structure connects, actuating mechanism sets up to drive each other glass layer structure humidification layer structure and power layer structure independently, humidification layer structure includes storage water tank, water pump and capillary, the water pump can with the water in the storage water tank carry in the capillary, be provided with a plurality of micropores on the capillary so that water can follow ooze out in the capillary, control method includes:

acquiring indoor humidity;

acquiring outdoor humidity;

selectively covering the opening with the glass layer structure, the humidifying layer structure and the power layer structure according to the indoor humidity and the outdoor humidity;

the step of selectively covering the opening with the glass layer structure, the humidifying layer structure, and the power layer structure according to the indoor humidity and the outdoor humidity specifically includes:

if the indoor humidity and the outdoor humidity are both smaller than a first preset humidity and the difference between the first preset humidity and the outdoor humidity is larger than a first preset value, enabling the power layer structure and the humidifying layer structure to cover the opening, not enabling the glass layer structure to cover the opening, and enabling the power layer structure to operate at a first preset suction intensity and/or enabling the humidifying layer structure to operate at a first humidifying intensity;

if the indoor humidity is less than the first preset humidity and the outdoor humidity is less than or equal to the first preset humidity, and the difference between the first preset humidity and the outdoor humidity is less than or equal to the first preset value, enabling the power layer structure and the humidifying layer structure to cover the opening, not enabling the glass layer structure to cover the opening, and enabling the power layer structure to operate at a second preset suction intensity and/or enabling the humidifying layer structure to operate at a second humidifying intensity;

if the indoor humidity is less than the first preset humidity and the outdoor humidity is greater than the first preset humidity and less than or equal to the second preset humidity, enabling the power layer structure and the humidifying layer structure to cover the opening, not enabling the glass layer structure to cover the opening, and enabling the power layer structure to operate at a third preset suction intensity and/or enabling the humidifying layer structure to operate at a third humidifying intensity;

if the indoor humidity is less than the first preset humidity and the outdoor humidity is greater than the second preset humidity, enabling the power layer structure to cover the opening, and not enabling the glass layer structure and the humidifying layer structure to cover the opening;

wherein the first preset humidity is less than the second preset humidity; the first preset inspiratory intensity is greater than the second preset inspiratory intensity, and the first preset humidification intensity is greater than the second preset humidification intensity; the second preset air suction intensity is greater than the third preset air suction intensity, and the second preset humidification intensity is greater than the third preset humidification intensity.

2. The control method according to claim 1, wherein the step of selectively covering the opening with the glass layer structure, the humidifying layer structure, and the power layer structure according to the indoor humidity and the outdoor humidity further comprises:

and if the humidity in the chamber is greater than or equal to the first preset humidity, only enabling the glass layer structure to cover the opening.

3. The control method of claim 1 or 2, wherein the window assembly further comprises a filter layer structure, the drive mechanism is coupled to the filter layer structure and the drive mechanism is capable of independently driving the filter layer structure, the control method further comprising:

acquiring the concentration of outdoor particle pollutants;

when the dynamic layer structure covers the opening, if the concentration of the outdoor granular pollutants is greater than a second preset value, the filtering layer structure covers the opening.

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