CN109855266B - Method for independently designing air direction of air conditioner by user - Google Patents

Abstract

The utility model provides a method that user independently designed air conditioner wind direction, through virtual setting air conditioner position in cell-phone APP, according to the room size, customer DIY designs air conditioner wind type, direction and time, and the mode of rethread high in the clouds conveying, with the built-in WIFI module of instruction transfer to the air conditioner, realize the swing angle or the fixed position of air conditioner pendulum wind device. The most fundamental benefit of the invention is that the wind sweeping or wind fixing angle can meet the DIY customization requirements of users. The method for the user to independently design the air direction of the air conditioner is different from the mode of remotely controlling the air conditioner by the mobile phone in the prior art, the air conditioner does not need to be monitored by infrared rays, the WIFI module is arranged in the air conditioner, and the air blowing mode and the air blowing area of the air conditioner are set in a cloud transmission mode.

Description

Method for independently designing air direction of air conditioner by user

Technical Field

The invention belongs to the technical field of air conditioners, and particularly relates to a method for a user to design air conditioner wind direction independently.

Background

In hot summer, a user just enters a room and feels very hot, some users hope to sit on the sofa comfortably and the air conditioner can keep the running state of blowing air towards the user, and after the user feels cool, some users hope to blow air towards the user or far away from the user at intervals in order to avoid cold. Some users want the air conditioner not to blow people at two different locations in the room at all times, some users want the air conditioner to blow themselves every 5 minutes, and so on. The requirements of users are equivalent to the requirement of DIY customization of the air-conditioner air swing function, and the traditional setting method at present is to set the air-conditioner air swing angle through a remote controller or to set the internal program of the air conditioner through some special methods to realize some simple changes. The setting method only preliminarily realizes the wind direction adjusting functions, is complex to operate, cannot be clear at a glance, is poor in experience feeling, and cannot necessarily meet the customization requirements of users.

Generally, the air conditioning wind direction is programmed before the factory shipment, and cannot be changed greatly according to the user's demand. The problem involved here is mainly three points, 1, where the user's needs are submitted? 2. How is the air conditioner aware of the location of the air conditioner in the room? 3. How do the air-conditioning air-sweeping strips control to meet the user's requirements? In view of the above problems, the prior art mainly considers the third problem, how to control the air-sweeping strips to meet the needs of users, so patent applications for setting the wind direction of an air conditioner, which are disclosed in the prior art, are shown in the following comparison documents:

compared with the document 1, the chinese patent application with publication number CN106871333A discloses a method for controlling an air conditioner according to scenes in a virtual world, which includes the steps of, step 1, presetting at least one self-defined scene in the virtual world, each scene corresponding to a trigger condition thereof; step 2, collecting current environment information of virtual roles in the virtual world; step 3, comparing the current environment information with conditions triggered by each scene to obtain the current scene where the virtual role is located; step 4, generating a control command corresponding to the current scene; and 5, sending the control command to an air conditioner controller in the real world, and outputting by the air conditioner according to the control command. The method for controlling the air conditioner in the virtual world disclosed in the reference document is different in technical points, specifically relating to air conditioner placement, air outlet setting and the like.

In contrast to document 2, chinese patent application publication No. CN105627494B discloses a method for controlling operation of an air conditioner, the method comprising: the method comprises the following steps that firstly, a client control device sends the type of an air conditioner and the space parameters of an air conditioning acting space to a cloud server; secondly, the cloud server sends the swing mode of the fan blades at the air outlet of the air conditioner to the client control device according to the type of the air conditioner; thirdly, the client control device divides the air conditioning action space into a plurality of areas according to the swing mode of fan blades at an air outlet of the air conditioner and sets area parameters of the areas, wherein the area parameters comprise the size, the direction and the temperature of each area; step four, the client control device sends the area parameters to the cloud server; step five, the cloud server acquires the output power of a corresponding compressor according to the type of the air conditioner, and determines the air outlet parameters of each region according to the output power of the compressor and the region parameters; and step six, the cloud server sends an air outlet control instruction to the client control device according to the air outlet parameter of the air outlet, so that the client control device sends the air outlet control instruction to the air conditioner to control the air conditioner to operate according to the air outlet control instruction. The mode that thereby open in this comparison document is the model through high in the clouds server collection air conditioner and sets for air conditioner air outlet flabellum and put, and it does not have the form that specific worker opened APP and sets for the mode of putting of air outlet.

In contrast to document 3, chinese patent application publication No. CN105465965B discloses an air supply control method for an air conditioner, which includes the steps of: when the air conditioner enters an operation mode corresponding to the mode selection instruction, controlling the horizontal air guide strips to supply air in the horizontal direction; starting a camera device to collect an image in a space acted by the air conditioner to serve as a first image, and simultaneously starting an infrared device to collect a heat source image in the space acted by the air conditioner to serve as a second image; acquiring a target air guide angle of the vertical air guide strip blowing to a user according to the first image and the second image; adjusting the air guide angle of the vertical air guide strip according to the target air guide angle so as to control the air conditioner to aim at the air supply of a user; the step of acquiring a target wind guide angle of the vertical wind guide strip blowing to the user according to the first image and the second image comprises the following steps: identifying the first image to obtain the number, the position and the distance from the air conditioner to users in the space acted by the air conditioner, determining a first air supply range blown to the users by the vertical air guide strips of the air conditioner according to the number, the position and the distance from the air conditioner, which are obtained by the first image identification, and obtaining an air guide angle corresponding to the first air supply range blown to the users as a first air guide angle; identifying the second image to obtain the number, the position and the distance from the air conditioner to users in the space acted by the air conditioner, determining a second air supply range blown to the users by the vertical air guide strips of the air conditioner according to the number, the position and the distance from the air conditioner, which are obtained by the second image identification, obtaining an air guide angle corresponding to the second air supply range blown to the users, and taking the air guide angle as the second air guide angle; and acquiring a target air guide angle of the vertical air guide strip blowing to a user according to the first air guide angle and the second air guide angle. The comparison file adopts a camera device to collect the space acted by the air conditioner, and the air outlet placing mode is set instead of the APP virtual mode setting air conditioner placing mode provided by the invention.

In reference 4, chinese patent application publication No. CN106403229A discloses a wind direction control device, which includes a first wind guide device and a second wind guide device stacked together; the first air guide device is used for controlling the wind direction in the vertical direction; the second air guiding device is used for controlling the wind direction in the horizontal direction; the first air guiding device and the second air guiding device are matched with each other to adjust the air outlet direction of the air outlet, so that air flows in different areas. The comparison document is different from the invention point in that the air outlet direction of the air outlet is considered from the angle of structural arrangement.

And for the first point problem where the user's needs are submitted, and how the second point problem how the air conditioner knows the location of the air conditioner in the room, the technical solutions disclosed in the prior art are few, even none. The inventor of the present application is to make an effort to meet such a demand for the air conditioning wind direction DIY of the user through a technical method.

Therefore, through continuous experimental research, the inventor of the invention carries out optimization and improvement on the basis of the prior art, and provides a method for a user to design the air direction of an air conditioner independently, so as to solve the problems in the prior art.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a method for a user to design the air direction of an air conditioner independently, which enables the user to conveniently set the placing position of the air conditioner and intelligently control the air direction of the air conditioner after determining the requirement of swinging air or fixing air.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a method that user independently designed air conditioner wind direction, through virtual setting air conditioner position in cell-phone APP, according to the room size, customer DIY designs air conditioner wind type, direction and time, and the mode of rethread high in the clouds conveying, with the built-in WIFI module of instruction transfer to the air conditioner, realize the swing angle or the fixed position of air conditioner pendulum wind device.

Further, the method of user's autonomic design air conditioner wind direction, during data such as the room size (length and width), the position of air conditioner, the operation mode (pendulum wind or fixed wind) that cell-phone APP end 2 set up the user transmitted to server 3, server 3 handled after receiving data, utilized the built-in WIFI function of air conditioner, the operation condition that will the user wants converts air conditioner control command into through router 4 and air conditioner WIFI module 1 and sends for the air conditioner, the air conditioner is after receiving the instruction to sweep the wind device and control.

Further, the method for the user to design the air direction of the air conditioner independently comprises the steps that firstly, a simulation air conditioner setting interface in a mobile phone APP is opened, then length and width data of a house are input, the range of the simulation air conditioner blowing is displayed in a mobile phone screen, and then the user selects the placement or installation position of the air conditioner according to the requirement; then, the second task is executed, programs are continuously set in the mobile phone APP end 2, the air conditioner air is set to be a fixed air or swing air instruction and is sent to the server 3, the server 3 receives the instruction and then calculates the fixed angle or swing angle of the air outlet, the server 3 sends the instruction to the air conditioner 1 with the built-in WIFI module through the router 4, the air conditioner 1 with the built-in WIFI module sends the instruction to the air conditioner air sweeping bar after receiving the instruction, the fixed air or swing program is executed according to the requirements of users, the cloud end directly sends the fixed angle required by the air conditioner to the WIFI module through calculation, the WIFI module communicates with the main control board, the required fixed angle is sent to the main control board, or the swing instruction is sent to the main control board, and the position of the swing rod of the air outlet is controlled by the main control board.

Further, the user independently designs the method of air conditioner wind direction, the user is in simulation air conditioner in the cell-phone APP set up the interface and when setting up, can set up each time quantum of air conditioner operation DIY wind direction, can set up the air conditioner and still swing the wind operation according to fixed wind in different time quantums, can set up the fixed position of fixed wind, can also set up the angle when swinging the wind operation.

Further, in the method for the user to design the air direction of the air conditioner independently, the server 3 calculates the fixed angle or the swing angle of the air outlet after receiving the instruction, the server 3 sends the instruction to the air conditioner 1 with the built-in WIFI module through the router 4 in a cloud mode, the air conditioner 1 with the built-in WIFI module sends the instruction to the air conditioner air sweeping bar after receiving the instruction, and the fixed wind or the swing wind is executed according to the requirements of the user.

Further, in the method for the user to design the air direction of the air conditioner autonomously, the control flow of the air conditioner air sweeping device is as follows:

s1 the wind sweeping device is started,

s2 acquires and counts a time period set by the user,

s3 judges whether the air conditioner wind sweeping device operates according to the fixed wind in the current operation time period, if yes, the step S4 is executed, if not, the step S5 is executed,

s4 whether the sweep is operating to a fixed angle calculated by the server, if so, performs step S6, if not, returns to step S2,

s5 whether the wind sweeping device operates according to the swing angle calculated by the server, if so, executing the step S7, if not, returning to the step 42,

the S6 sweep stops operating at a fixed angle,

and S7 the wind sweeping device operates at the set wind swinging angle.

Further, in the method for the user to design the air-conditioning wind direction autonomously, the server 3 calculates the transverse distance a from the center of the air-conditioner to the position set by the user according to the air-conditioning position set by the user and the room size, calculates the longitudinal distance B from the center of the air-conditioner to the position set by the user, and calculates the swing angle of the corresponding air-conditioner through a formula of tanA being the opposite side/adjacent side.

Furthermore, the value range of the method for the user to independently design the air direction of the air conditioner is the range of 0-180 degrees of the full angle of the direction which the air conditioner faces.

The beneficial effects of the invention are as follows: the most fundamental benefit of the invention is that the wind sweeping or wind fixing angle can meet the DIY customization requirements of users. The method for the user to independently design the air direction of the air conditioner is different from the mode of remotely controlling the air conditioner by the mobile phone in the prior art, the air conditioner does not need to be monitored by infrared rays, the WIFI module is arranged in the air conditioner, and the air blowing mode and the air blowing area of the air conditioner are set in a cloud transmission mode.

Drawings

Fig. 1 is a schematic diagram of a WIFI connection for a user-designed air conditioner wind direction according to the present invention;

FIG. 2 is a schematic diagram of the design of the mobile phone interface of the present invention;

FIG. 3 is a schematic diagram of the mobile phone APP setup of the present invention;

FIG. 4 is a control flow chart of the air conditioner air sweeping device of the invention;

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 shows, for the WIFI connection schematic diagram, data transmission such as the room size (length, width) that cell-phone APP end 2 set up the user, the position of air conditioner, the operation mode (pendulum wind or fixed wind) to server 3, server 3 handles after receiving data, utilizes the built-in WIFI function of air conditioner, converts the behavior that the user wants into air conditioner control command through router 4 and air conditioner WIFI module 1 and sends for the air conditioner, and the air conditioner is controlled the device of sweeping the wind after receiving the instruction.

As shown in fig. 2, the user gets into the wind direction setting interface of cell-phone end APP, sets up the size (length, width) in room, and cell-phone end APP can generate corresponding virtual room interface, and the user sets up the position of air conditioner in virtual room to the desired operation mode of DIY, the user can set up the parameter and have following 4 kinds:

1. each time period of the air conditioner operating in the DIY wind direction, for example: starting to execute the DIY program at 10 am, starting to execute the DIY program at 3 pm, and the like;

2. the air conditioner operates according to fixed wind or swing wind in different time periods, for example: fixed wind is executed from 10 am to 10 am and 30 am, and swing wind is executed from 10 am to 30 am to 11 am;

3. fixed position (angle) of fixed wind, for example: setting the angle between the swing blade and the upper panel of the air conditioner to be 30 degrees;

4. and inputting the length and width data of the room, calculating the position area of the windbreak operation by the server, and displaying the position area on the APP at the mobile phone terminal.

As shown in fig. 3, for the schematic diagram of the setting of the mobile phone terminal APP, the user enters the mobile phone terminal APP wind direction DIY interface in step S31, the size (length and width) of the room is set in step S32, then step S33 is executed, the mobile phone terminal APP generates a virtual room interface, the user sets the position of the air conditioner in the virtual interface in step S34, then step S35 is executed, the user enters the DIY wind direction interface for setting, and when the DIY wind direction interface is set, the user can further execute the following steps: step S351 sets each time period of the air conditioner operation DIY wind direction, step S352 sets whether the air conditioner operates according to the fixed wind or the swing wind in different time periods, step S353 sets the fixed position of the fixed wind, and step S354 sets the position region of the swing wind operation. The initial DIY requirement of the user is finished through the input determination of the steps, the data are sent to the server again, after the server receives the data, the server obtains the area of the pendulum wind and feeds the area back to the APP of the mobile phone terminal through calculation, the area of the pendulum wind or the area of the pendulum wind is displayed, so that the user can further determine whether the area of the pendulum wind is proper or not, and if the user is not satisfied with the area of the pendulum wind or the area of the pendulum wind, the data can be adjusted again, for example, the angle of the fixed wind is increased or reduced, the time of the fixed wind or the pendulum wind is adjusted, and. After confirming above-mentioned DIY data for the user, the server is handled after receiving definite data, converts the behavior that the user wants into air conditioner control command through router and WIFI module and sends for the air conditioner, and the air conditioner is controlled the device of sweeping the wind after receiving the instruction.

As shown in fig. 4, as a control flowchart of the air-conditioning wind sweeping device, step S1 starts the air-conditioning wind sweeping device, step S2 acquires and counts a time period set by a user, step S3 determines whether the air-conditioning wind sweeping device operates at a fixed wind in the current operating time period, if so, step S4 is executed, if not, step S5 is executed, step S4 operates at a fixed angle calculated by a server, if so, step S6 is executed, if not, step S2 is returned, step S5 operates at a yaw angle calculated by the server, if so, step S7 is executed, if not, step S2 is returned, step S6 stops operating at the fixed angle, and step S7 operates at the set yaw angle.

It is explained here that the angle is calculated in the server 3 as follows: according to the air conditioner position and the room size set by the user, the transverse distance A from the center of the air conditioner to the position set by the user is calculated, the longitudinal distance B from the center of the air conditioner to the position set by the user is calculated, and the swing angle of the corresponding air conditioner is calculated through a formula of tanA (opposite side/adjacent side). For example, if the air conditioner is at the most corner and the user needs to blow to the middle of the room, the angle formula is tan X2/3, and X34 degrees (if the windward angle is 180-34 from the other side, 146 degrees).

Example one

The method includes that a user needs to open a wind direction DIY interface in a room with the length of 7 meters and the width of 4 meters, firstly, a wind direction DIY interface in a mobile phone end APP is opened, length and width data of the room are input, the mobile phone end APP produces a virtual room interface, the user sets the position of the air conditioner in the virtual interface, then the air conditioner enters the DIY wind direction interface to be set, the user sets the DIY wind direction between 10 am and 11 am and between 2 pm and 3 pm, the fixed wind is executed in 10 am to 10 pm 30 minutes, the swinging wind is executed in 10 am to 11 pm 30 minutes, the fixed wind is executed in 2 pm to 2 pm 30 minutes, the swinging wind is executed in 2 pm 30 to 3 pm, the user inputs the angle of the fixed wind to be 30 degrees, according to the length and width data of the room, the server calculates the position area where the swinging wind is operated, the feedback is displayed on the mobile phone end APP, the APP sets 30 degrees according to the user, the air conditioner is shifted by 30 degrees as the horizontal angle, (if the swinging wind angle is 180-30 degrees from the other side to 150 degrees) so that the user can further determine the swinging If the wind area is proper, if the user is not satisfied with the fixed area, the angle data can be adjusted, for example, the swing angle is increased or decreased, and the fixed wind or the time of the swing can be adjusted. After confirming above-mentioned DIY data for the user, server 3 handles after receiving definite data, converts the behavior that the user wants into air conditioner control command through router 4 and air conditioner WIFI module 1 and sends for the air conditioner, and the air conditioner is controlled the device of sweeping the wind after receiving the instruction.

The user gets into the wind direction setting interface of cell-phone APP end 2, set up the size (length, width) in room, cell-phone APP end 2 can generate corresponding virtual room interface, the user independently designs the air conditioner wind direction through the demonstration of cell-phone APP end 2, cell-phone APP end 2 can show corresponding air conditioner and blow the region, the user sets up the position of air conditioner in virtual room, feed back to server 3, calculation through server 3, the user can the operation mode that DIY wanted (fixed or pendulum wind), the user can set up the parameter at present and have following 4: 1. each time period of the air conditioner running in the DIY wind direction; 2. the air conditioner operates according to fixed wind or swing wind at different time periods; 3. fixing the wind fixing position; 4. the location area of the windbreak operation. The set parameters in the mobile phone APP are calculated through the server to generate an instruction, the instruction is received through the router 4 and the WIFI module 1 in the air conditioner, and meanwhile the instruction is sent to the air sweeping device of the air conditioner to start working. When the user needs to change the air supply mode, the air supply mode can be changed through the APP end of the mobile phone.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Those skilled in the art can make numerous possible variations and modifications to the described embodiments, or modify equivalent embodiments, without departing from the scope of the invention. Therefore, any modification, equivalent change and modification made to the above embodiments according to the technology of the present invention are within the protection scope of the present invention, unless the content of the technical solution of the present invention is departed from.

Claims (2)

1. A method for a user to design air conditioner wind direction independently is characterized by comprising the following steps:

s1: opening a DIY wind direction interface in a mobile phone APP;

s2: inputting the size of a room on a wind direction DIY interface to complete the setting of the size of the room;

s3: generating a virtual room interface on a wind direction DIY interface in a mobile phone APP, and setting the position of an air conditioner in the virtual room interface by a user;

s4: entering a DIY wind direction interface, and setting an air conditioner operation mode and an operation time period;

s5: sending the user setting information of room size, air conditioner position, air conditioner operation mode and operation time interval to a server;

s6: the server calculates a fixed wind or swing wind area of the air conditioner wind sweeping device and sends the information to the mobile phone APP terminal;

s7: a DIY wind direction interface in the mobile phone APP displays a fixed wind or a swing wind area;

s8: the user further determines whether the fixed wind or the swing wind area is proper, if the user is not satisfied with the fixed wind or the swing wind area, the step is returned to S4, and the user adjusts the air conditioner operation mode and the operation period data;

s9: after the user determines the data, the server (3) processes the data after receiving the determined data, converts the operation condition desired by the user into an air conditioner control instruction, sends the instruction to the air conditioner (1) with the built-in WIFI module through the router (4), after the air conditioner (1) with the built-in WIFI module receives the instruction, the WIFI module communicates with the air conditioner main control board, the main control board controls the corresponding air sweeping device,

the air conditioner air sweeping device comprises the following control processes:

s91, starting the wind sweeping device,

s92, acquiring the time period set by the user and timing,

s93, judging whether the air conditioner wind sweeping device operates according to the fixed wind in the current operation time period, if so, executing the step S94, if not, executing the step S95,

s94, whether the wind sweeping device runs to the fixed angle calculated by the server, if yes, executing the step S96, if not, returning to the step S92,

s95, whether the wind sweeping device operates according to the wind swinging angle calculated by the server, if so, executing the step S97, if not, returning to the step S92,

s96, stopping the wind sweeping device to operate at a fixed angle,

s97, the wind sweeping device operates at the set wind swinging angle;

in the server (3), according to the air conditioner position and the room size set by the user, the transverse distance A from the center of the air conditioner to the position set by the user is calculated, the longitudinal distance B from the center of the air conditioner to the position set by the user is calculated, the swing angle of the corresponding air conditioner is calculated through a formula of tanA (opposite side/adjacent side), and the value range is the range of 0-180 degrees of the total angle of the direction opposite to the air conditioner.

2. The method for the user-independent design of the wind direction of the air conditioner according to claim 1, wherein: the user is in simulation air conditioner in the cell-phone APP when setting up the interface, can set up each time quantum of air conditioner operation DIY wind direction, can set up the air conditioner different time quantum and according to fixed wind still swing the wind operation, can set up the fixed position of fixed wind, can also set up the angle when swinging the wind operation.

Images