CN112327640A

CN112327640A - Single-product equipment control method, device and equipment based on two-dimensional code and storage medium

Info

Publication number: CN112327640A
Application number: CN202010893039.6A
Authority: CN
Inventors: 李瑶
Original assignee: Shenzhen TCL New Technology Co Ltd
Current assignee: Shenzhen TCL New Technology Co Ltd
Priority date: 2020-08-28
Filing date: 2020-08-28
Publication date: 2021-02-05

Abstract

The invention discloses a single-product equipment control method, a device, equipment and a storage medium based on two-dimensional codes, wherein the two-dimensional codes comprising a plurality of control menus are generated according to equipment parameter information groups, equipment coordinate information groups and equipment numbers of a plurality of single-product equipment, and the two-dimensional codes are output; the control instruction sent by the control menu after the user scans the two-dimensional code is received, and the check control instruction is the same as the standard control instruction, corresponding control is carried out on the target single-product equipment according to the control instruction, because the two-dimensional code containing a plurality of control menus is automatically generated according to the equipment parameter information group and the equipment coordinate information group of the plurality of single-product equipment and the equipment number, when the user does not have a remote controller, the two-dimensional code containing the control menus is scanned, the control instruction is triggered through the control keys of the control menus, the non-intelligent single-product equipment is rapidly controlled, and the use convenience of the non-intelligent infrared single-product equipment is improved.

Description

Single-product equipment control method, device and equipment based on two-dimensional code and storage medium

Technical Field

The invention relates to the technical field of intelligent control, in particular to a method, a device, equipment and a storage medium for controlling single-product equipment based on two-dimension codes.

Background

With the rapid development of electronic technology, various intelligent device technologies are developed rapidly, and various intelligent single-product devices are produced. The intelligent single-product equipment is a single intelligent consumer electronics product which adopts wireless communication technologies such as WIFI (wireless Internet access) and Bluetooth to realize simple functions, such as an intelligent bulb, a WIFI camera, an intelligent air purifier, an intelligent air conditioner and the like.

However, many non-intelligent infrared single-product devices such as a common household air conditioner, an infrared display, a common air purifier, and the like exist at present, and the non-intelligent infrared single-product devices can only be controlled through a remote controller. Under the condition that no remote controller is arranged, the non-intelligent infrared single-product equipment cannot be controlled to work, and the convenience of the non-intelligent infrared single-product equipment is low.

Disclosure of Invention

The invention mainly aims to provide a method, a device, equipment and a storage medium for controlling single-product equipment based on a two-dimensional code, and aims to solve the technical problem of low convenience in using non-intelligent infrared single-product equipment under the condition of no remote controller.

In order to achieve the above object, an embodiment of the present invention provides a method for controlling a single-product device based on a two-dimensional code, where the method for controlling a single-product device based on a two-dimensional code includes:

acquiring an equipment parameter information group and an equipment coordinate information group of a plurality of single-product equipment, setting equipment numbers for the plurality of single-product equipment respectively, and generating and outputting a two-dimensional code containing a plurality of control menus based on the equipment parameter information group, the equipment coordinate information group and the plurality of equipment numbers;

when a control instruction sent based on the two-dimensional code is received, determining a target device coordinate corresponding to the control instruction, and acquiring a standard control instruction of the target single-product device according to the target device coordinate;

and checking whether the control instruction is the same as the standard control instruction or not, and if the control instruction is the same as the standard control instruction, controlling the target single-product equipment according to the control instruction.

Preferably, the step of verifying whether the control instruction is the same as the standard control instruction, and if the control instruction is the same as the standard control instruction, controlling the target single-product device according to the control instruction includes:

comparing the key control code of the control instruction with the standard key control code of the standard control instruction, and checking whether the control instruction is the same as the standard control instruction;

if the key control code is the same as the standard key control code, judging that the control instruction is the same as the standard control instruction;

and sending the control instruction to the target single-product equipment, and controlling the target single-product equipment to execute the operation corresponding to the control instruction.

Preferably, when a control instruction sent based on the two-dimensional code is received, the step of determining the target device coordinate corresponding to the control instruction and acquiring the standard control instruction of the target single-product device according to the target device coordinate includes:

when a control instruction sent based on the two-dimensional code is received, determining a target control menu corresponding to the control instruction in the control menus;

extracting target equipment coordinates from the target control menu, and determining the single-item equipment corresponding to the target equipment coordinates as target single-item equipment;

and acquiring a standard control instruction containing a standard key control code from the target single-product device.

Preferably, the step of acquiring the device parameter information group and the device coordinate information group of the plurality of single devices, setting device numbers for the plurality of single devices, and generating and outputting a two-dimensional code including a plurality of control menus based on the device parameter information group, the device coordinate information group, and the plurality of device numbers includes:

acquiring multiple groups of equipment parameters of multiple single-product equipment in a preset range to form an equipment parameter information group, acquiring multiple groups of equipment coordinates of the multiple single-product equipment to form an equipment coordinate information group, and setting equipment numbers for the multiple single-product equipment respectively;

generating control menus respectively corresponding to the plurality of single-product devices according to the device parameter information group, the device coordinate information group and the plurality of device numbers;

and inputting a plurality of control menus into a preset two-dimensional code generator, generating a two-dimensional code according to a two-dimensional code generation rule of the preset two-dimensional code generator, and outputting the two-dimensional code.

Preferably, the step of generating a control menu corresponding to each of the plurality of single devices according to the device parameter information group, the device coordinate information group, and the plurality of device numbers includes:

for a plurality of sets of device parameters of the device parameter information set, a plurality of sets of device coordinates of the device coordinate information set, and a plurality of device numbers, respectively performing the following steps:

inputting the equipment parameters into a preset menu generating program, and generating a key menu comprising a plurality of control keys according to the preset menu generating program;

and binding a plurality of control keys in the key menu with the equipment coordinates respectively, and adding the equipment numbers to the plurality of control keys after binding to form the control menu of the single-item equipment.

Preferably, the step of inputting the device parameters into a preset menu generating program and generating a key menu including a plurality of control keys according to the preset menu generating program includes:

acquiring a preset key coding rule, and inputting the preset key coding rule and the equipment parameters into the preset menu generating program;

executing the preset menu generating program, and forming a plurality of control keys by the equipment parameters according to the preset key control coding rule;

and combining and sequencing the control keys to generate a key menu.

Preferably, the step of controlling the target single-product device according to the control instruction is followed by:

monitoring the control state of the target single-product equipment after being controlled, comparing the control state with the initial state before being controlled, and determining whether the control of the target single-product equipment is finished;

if the control state is inconsistent with the initial state, judging that the control on the target single-product equipment is finished, and displaying the equipment number and the control state of the target single-product equipment;

and if the control state is consistent with the initial state, judging that the control on the target single-product equipment fails, and displaying prompt information of the control failure.

In order to achieve the above object, the present invention further provides a two-dimensional code-based single item of equipment control device, including:

the acquisition module is used for acquiring an equipment parameter information group and an equipment coordinate information group of a plurality of single-product equipment, setting equipment numbers for the plurality of single-product equipment respectively, and generating and outputting a two-dimensional code containing a plurality of control menus based on the equipment parameter information group, the equipment coordinate information group and the plurality of equipment numbers;

the determining module is used for determining the coordinates of the target equipment corresponding to the control instruction when the control instruction sent based on the two-dimensional code is received, and acquiring the standard control instruction of the target single-product equipment according to the coordinates of the target equipment;

and the checking module is used for checking whether the control instruction is the same as the standard control instruction or not, and controlling the target single-product equipment according to the control instruction if the control instruction is the same as the standard control instruction.

Further, in order to achieve the above object, the present invention further provides a two-dimension code-based single-product device control device, where the two-dimension code-based single-product device control device includes a memory, a processor, and a two-dimension code-based single-product device control program stored in the memory and executable on the processor, and when the two-dimension code-based single-product device control program is executed by the processor, the steps of the two-dimension code-based single-product device control method are implemented.

Further, in order to achieve the above object, the present invention further provides a storage medium, where a two-dimensional code-based single item of equipment control program is stored on the storage medium, and the two-dimensional code-based single item of equipment control program implements the steps of the two-dimensional code-based single item of equipment control method when executed by a processor.

The embodiment of the invention provides a single-product equipment control method, a device, equipment and a storage medium based on two-dimensional codes, which are characterized in that firstly, the two-dimensional codes containing a plurality of control menus are generated according to equipment parameter information groups, equipment coordinate information groups and equipment numbers of a plurality of single-product equipment, and then the generated two-dimensional codes are output; when a control instruction sent by a user through a control menu in a scanning mode is received, a standard control instruction of target single-product equipment is obtained according to a target equipment coordinate corresponding to the control instruction, and when a verification control instruction is the same as the standard control instruction, the target single-product equipment is correspondingly controlled according to the control instruction.

Drawings

Fig. 1 is a schematic structural diagram of a hardware operating environment related to a scheme of a two-dimensional code-based single-product device control method according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a first embodiment of a two-dimensional code-based single-product device control method according to the present invention;

FIG. 3 is a schematic flow chart of a control method for single-product devices based on two-dimensional codes according to a second embodiment of the present invention;

fig. 4 is a functional block diagram of a preferred embodiment of the single-product device control apparatus based on two-dimensional codes according to the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, fig. 1 is a schematic structural diagram of a two-dimensional code-based single-product device control device in a hardware operating environment according to an embodiment of the present invention.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in itself. Thus, "module", "component" or "unit" may be used mixedly.

The single-product equipment control equipment based on the two-dimensional code can be a PC (personal computer), and can also be mobile terminal equipment such as a tablet personal computer and a portable computer.

As shown in fig. 1, the single-product device control device based on the two-dimensional code may include: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the two-dimensional code based single item device control device configuration shown in fig. 1 does not constitute a limitation of the two-dimensional code based single item device control device, and may include more or fewer components than those shown, or some components in combination, or a different arrangement of components.

As shown in fig. 1, a memory 1005, which is a storage medium, may include therein an operating system, a network communication module, a user interface module, and a one-product device control program based on a two-dimensional code.

In the device shown in fig. 1, the network interface 1004 is mainly used for connecting to a backend server and performing data communication with the backend server; the user interface 1003 is mainly used for connecting a client (user side) and performing data communication with the client; and the processor 1001 may be configured to call the two-dimensional code-based single-product device control program stored in the memory 1005, and perform the following operations:

Further, the step of verifying whether the control instruction is the same as the standard control instruction, and if the control instruction is the same as the standard control instruction, controlling the target single-product device according to the control instruction includes:

Further, when a control instruction sent based on the two-dimensional code is received, determining a target device coordinate corresponding to the control instruction, and acquiring a standard control instruction of the target single-product device according to the target device coordinate includes:

Further, the step of acquiring the device parameter information group and the device coordinate information group of the plurality of single devices, setting device numbers for the plurality of single devices, and generating and outputting a two-dimensional code including a plurality of control menus based on the device parameter information group, the device coordinate information group, and the plurality of device numbers includes:

Further, the step of generating a control menu corresponding to each of the plurality of single devices according to the device parameter information group, the device coordinate information group, and the plurality of device numbers includes:

Further, the step of inputting the device parameters into a preset menu generating program and generating a key menu including a plurality of control keys according to the preset menu generating program includes:

and combining and sequencing the control keys to generate a key menu.

Further, after the step of controlling the target single-product device according to the control instruction, the processor 1001 may be configured to call a single-product device control program based on a two-dimensional code stored in the memory 1005, and perform the following operations:

For a better understanding of the above technical solutions, exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Referring to fig. 2, a first embodiment of the present invention provides a flowchart of a method for controlling a single-product device based on a two-dimensional code. In this embodiment, the method for controlling a single-product device based on a two-dimensional code includes the following steps:

step S10, acquiring an equipment parameter information group and an equipment coordinate information group of a plurality of single-product equipment, setting equipment numbers for the plurality of single-product equipment respectively, and generating and outputting a two-dimensional code containing a plurality of control menus based on the equipment parameter information group, the equipment coordinate information group and the plurality of equipment numbers;

the single-product device control method based on the two-dimensional code in the embodiment is applied to a single-product device control system based on the two-dimensional code, the single-product device control system based on the two-dimensional code is used for controlling non-intelligent infrared single-product devices, and the system at least comprises a display and an intelligent control terminal, wherein the display is in communication connection with the intelligent control terminal through a wireless network or a connecting line and is used for receiving control information transmitted by the intelligent control terminal and displaying the control information in a display screen, and the intelligent control terminal is in communication connection with the non-intelligent single-product devices and controls the single-product devices and transmits the control information to the display.

Furthermore, the intelligent control terminal is provided with an infrared detection module, and the infrared detection module is used for detecting infrared single-item equipment existing in a certain range and detecting the coordinates of the infrared single-item equipment. Further, when detecting that one or more single-item devices exist in the infrared signal range of the infrared detection module in the intelligent control terminal, the system calls the intelligent control terminal, the intelligent control terminal is connected with the detected single-item devices to control the single-item devices, wherein the single-item devices can send device parameters to the intelligent control terminal after being connected with the intelligent control terminal, and the device parameters at least comprise parameters such as device adjusting parameters, device function parameters and device types. Furthermore, the system calls the intelligent control terminal to receive the equipment parameters sent by the plurality of single-product equipment connected with the intelligent control terminal, and integrates the received multiple groups of equipment parameters of the plurality of single-product equipment into an equipment parameter information group. Furthermore, the system calls the intelligent control terminal, acquires the device coordinates of a plurality of single devices in a preset range through an infrared detection module in the intelligent control terminal, and integrates the acquired device coordinates into a device coordinate information set, wherein the preset range can be a signal range of the infrared detection module or a range set by a user according to needs. Further, the system sets equipment numbers for the plurality of single-product equipment respectively, wherein the equipment numbers are used for marking the equipment. Furthermore, the system is also provided with a preset menu generating program, the preset menu generating program is obtained by inputting the quantity and arrangement requirements of the control keys into the program for the user, and different menus can be generated according to different information input by the user. Further, the system inputs the equipment parameter information group, the equipment coordinate information group and the plurality of equipment numbers into a preset menu generating program, and generates control menus respectively corresponding to the plurality of single-item equipment through the preset menu generating program. Further, the system inputs a plurality of control menus into a preset two-dimensional code generator, generates the plurality of control menus into a two-dimensional code, and outputs the two-dimensional code to a display, wherein the preset two-dimensional code generator may be a two-dimensional code generator developed by a user, or a universal two-dimensional code generator, a connection relationship between the system and the preset two-dimensional code generator may be internal connection or external connection, the two-dimensional code is preferably a QR (Quick Response) two-dimensional code in this embodiment, and the QR two-dimensional code is a matrix two-dimensional code symbol invented and used by Denso Wave of toyota, japan in 1994.

Step S20, when a control instruction sent based on the two-dimensional code is received, determining the target equipment coordinate corresponding to the control instruction, and acquiring a standard control instruction of the target single-item equipment according to the target equipment coordinate;

it can be understood that, after the system outputs the generated two-dimensional code to the display, the user may scan the two-dimensional code displayed in the display through a camera of a smart device such as a smart phone, a tablet computer, and the like to read a plurality of control menus in the two-dimensional code, and after selecting a desired control menu from the plurality of control menus, click or touch a target control key in the control menu, and send a control instruction corresponding to the target control key to the smart control terminal. Further, when a control instruction sent by a user after scanning the two-dimensional code through the intelligent device is received, the system identifies the control instruction to obtain a key control code and a target device coordinate contained in the control instruction, wherein the key control code is a channel code for communication between devices. Further, the system determines the target single-product equipment corresponding to the target equipment coordinate from the plurality of single-product equipment through the target equipment coordinate. Further, the system searches whether an instruction with the same attribute as the control instruction exists in the target single-product equipment, and if the instruction with the same attribute as the control instruction exists, the instruction is determined to be a standard control instruction of the target single-product equipment, wherein the standard control instruction is an instruction which is set for controlling the target single-product equipment when the target single-product equipment is produced.

step S21, when a control instruction sent based on the two-dimensional code is received, determining a target control menu corresponding to the control instruction in a plurality of control menus;

step S22, extracting target device coordinates from the target control menu, and determining the single-product device corresponding to the target device coordinates as the target single-product device;

and step S23, obtaining a standard control instruction containing a standard key control code from the target single-product device.

Further, when a control instruction sent by a user through clicking or touching a control key in a selected target control menu after scanning the two-dimensional code through the intelligent device is received, the system analyzes the control instruction to obtain a target device number, and searches out the target control menu corresponding to the control instruction from the plurality of control menus according to the target device number. Further, the system extracts the device coordinates bound with the target control key from the searched target control menu, and determines the device coordinates as the target device coordinates. Further, the system searches target single-product equipment which represents that the user needs to control from the plurality of single-product equipment through the target equipment coordinates. Further, the system acquires production information of the target single-product device, and extracts a standard control instruction containing a standard key control code from the production information.

And step S30, checking whether the control instruction is the same as the standard control instruction, and if the control instruction is the same as the standard control instruction, controlling the target single-product equipment according to the control instruction.

Further, the system checks whether the control instruction is the same as the standard control instruction, specifically, the system compares the key control code in the control instruction with the standard key control code in the standard control instruction, and if the key control code in the control instruction is determined to be the same as the standard key control code in the standard control instruction after comparison, the control instruction is sent to the target single-product device, so that the target single-product device is correspondingly controlled through the control instruction. It can be understood that if it is determined after the comparison that the key control code in the control instruction is different from the standard key control code in the standard control instruction, the indication that the target single-product device cannot be controlled is represented, and the system calls the display to display the prompt information of control failure in the display.

Further, the step of controlling the target singleton device according to the control instruction comprises:

step S40, monitoring the control state of the target single-product device after being controlled, comparing the control state with the initial state before being controlled, and determining whether the control of the target single-product device is finished;

step S50, if the control state is not consistent with the initial state, the control of the target single-product equipment is judged to be finished, and the equipment number and the control state of the target single-product equipment are displayed;

and step S60, if the control state is consistent with the initial state, determining that the control of the target single-product equipment fails, and displaying prompt information of the control failure.

As can be appreciated, to determine whether control of the target single-product device is achieved, the system monitors a current operating state that characterizes a pre-control state of the target single-product device and records the current operating state as an initial state prior to sending a control instruction to the target single-product device. Further, after the system sends the control instruction, whether the control of the target single-product device is finished or not is monitored, specifically, the control state of the controlled state of the target single-product device is represented after the control instruction is sent, and the control state is compared with the initial state. Further, if the control state is the same as the initial state after comparison, it is determined that the control state of the target single-product device after receiving the control instruction is not changed from the initial state before receiving the control instruction, which indicates that the target single-product device does not successfully execute corresponding operations according to the control instruction, and the system calls the display to display a prompt message of control failure in the display to prompt the user to perform troubleshooting on the target single-product device. If the control state is different from the initial state through comparison, the control state of the target single-product device after receiving the control instruction is judged to be changed compared with the initial state before receiving the control instruction, the target single-product device successfully executes corresponding operation according to the control instruction, the system calls the display, and the device number of the target single-product device and the current control state of the target single-product device are displayed on a display screen of the display, so that a user can visually know the control condition of the target single-product device.

The embodiment provides a method, a device, equipment and a storage medium for controlling single-product equipment based on two-dimensional codes, which are characterized in that firstly, the two-dimensional codes containing a plurality of control menus are generated according to equipment parameter information groups, equipment coordinate information groups and equipment numbers of a plurality of single-product equipment, and then the generated two-dimensional codes are output; when a control instruction sent by a user through a control menu in a scanning mode is received, a standard control instruction of target single-product equipment is obtained according to a target equipment coordinate corresponding to the control instruction, and when a verification control instruction is the same as the standard control instruction, the target single-product equipment is correspondingly controlled according to the control instruction.

Further, referring to fig. 3, a second embodiment of the method for controlling a single-product device based on a two-dimension code according to the present invention is provided based on the first embodiment of the method for controlling a single-product device based on a two-dimension code according to the present invention, in the second embodiment, the checking whether the control instruction is the same as the standard control instruction, and if the control instruction is the same as the standard control instruction, the step of controlling the target single-product device according to the control instruction includes:

step S31, comparing the key control code of the control instruction with the standard key control code of the standard control instruction, and checking whether the control instruction is the same as the standard control instruction;

step S32, if the key control code is the same as the standard key control code, the control instruction is judged to be the same as the standard control instruction;

and step S33, sending the control instruction to the target single-product device, and controlling the target single-product device to execute the operation corresponding to the control instruction.

Further, after acquiring the standard control instruction of the target single-product device, the system verifies the received control instruction and the standard control instruction of the target single-product device, specifically, the system analyzes the control instruction to obtain the key control code of the control instruction, and analyzes the standard control instruction to obtain the standard key control code in the standard control instruction. Further, the system compares the analyzed key control code with the standard key control code to determine whether the key control code is the same as the standard key control code. If the key control code is determined to be the same as the standard key control code after comparison, the control instruction is determined to be the same as the standard control instruction, the target single-product equipment can be controlled through the control instruction, and the system sends the control instruction to the target single-product equipment so as to correspondingly control the target single-product equipment through the control instruction. Further, if the key control code is determined to be different from the standard key control code after comparison, the control instruction is determined to be different from the standard control instruction, the target single-product device cannot recognize the control instruction and execute corresponding control operation, the system calls the display, and prompt information of control failure is displayed through a display screen of the display so as to inform a user that the target single-product device cannot be controlled through the control key of the control menu.

In the embodiment, the control instruction is sent to the target single-product equipment to control the target single-product equipment by checking whether the control instruction is the same as the standard control instruction or not and when the check control instruction is the same as the standard control instruction; and when the check control instruction is different from the standard control instruction, outputting prompt information of control failure to a user. Through the verification of the control command and the standard control command, the safety of controlling the target single-product equipment can be improved.

Further, based on the first embodiment of the method for controlling a single-product device based on a two-dimensional code of the present invention, a third embodiment of the method for controlling a single-product device based on a two-dimensional code of the present invention is provided, where in the third embodiment, the step of obtaining a device parameter information group and a device coordinate information group of a plurality of single-product devices, setting device numbers for the plurality of single-product devices, respectively, and generating and outputting a two-dimensional code including a plurality of control menus based on the device parameter information group, the device coordinate information group, and the plurality of device numbers includes:

step S11, acquiring multiple sets of device parameters of multiple single-product devices existing in a preset range to form a device parameter information set, acquiring multiple sets of device coordinates of the multiple single-product devices to form a device coordinate information set, and setting device numbers for the multiple single-product devices respectively;

step S12, generating control menus respectively corresponding to the plurality of single devices according to the device parameter information group, the device coordinate information group, and the plurality of device numbers;

and step S13, inputting a plurality of control menus into a preset two-dimensional code generator, generating a two-dimensional code according to a two-dimensional code generation rule of the preset two-dimensional code generator, and outputting the two-dimensional code.

Furthermore, after the intelligent control terminal is connected with the plurality of single-product devices within the preset range, the system calls the intelligent control terminal, respectively receives the device parameters sent by the plurality of single-product devices, and after the device parameters of the plurality of single-product devices are received, adds the plurality of groups of device parameters into the same set to form a device parameter information group. Furthermore, the system calls an intelligent control terminal, equipment coordinates of a plurality of single-product equipment connected with the intelligent control terminal in a preset range are respectively obtained through an infrared monitoring module in the intelligent control terminal, and after a plurality of groups of equipment coordinates of the plurality of single-product equipment are obtained, the system adds the plurality of groups of equipment coordinates into the same set to form an equipment coordinate information group. Further, the system sets corresponding equipment numbers for a plurality of single-product equipment connected with the intelligent control terminal respectively. Further, the system inputs the obtained device parameter information group, the device coordinate information group and the plurality of device numbers into a preset menu generating program respectively, executes the preset menu generating program after the device parameter information group, the device coordinate information group and the plurality of device numbers are input, and generates a plurality of control menus corresponding to the plurality of single devices one to one. Further, the system inputs the control menus into a preset two-dimensional code generator which is connected with the system in an internal or external mode, the preset two-dimensional code generator is started, the control menus are processed according to two-dimensional code generation rules stored in the preset two-dimensional code generator, and the control menus are generated into the two-dimensional code. Further, the system calls a display, the two-dimensional code is output through a display screen of the display, so that a user can scan the intelligent device, a plurality of control menus in the two-dimensional code are identified, a control instruction is sent, and the designated single-product device is controlled.

step S121, for a plurality of sets of device parameters of the device parameter information set, a plurality of sets of device coordinates of the device coordinate information set, and a plurality of device numbers, respectively executing the following steps:

step S122, inputting the equipment parameters into a preset menu generating program, and generating a key menu comprising a plurality of control keys according to the preset menu generating program;

and S123, binding the plurality of control keys in the key menu with the equipment coordinates respectively, and adding the equipment numbers to the plurality of bound control keys to form the control menu of the single-item equipment.

Further, the system generates control menus respectively corresponding to the plurality of single-item devices through a preset menu generating program according to the device numbers respectively corresponding to the plurality of groups of device parameters in the device parameter information group, the plurality of groups of device parameters in the device coordinate information group and the plurality of single-item devices. Specifically, the system extracts a group of device parameters from the device parameter information group, inputs the device parameters into a preset menu generating program, executes the preset menu generating program after the device parameters are input, and generates the device parameters into a key menu including a plurality of control keys through the preset menu generating program. Furthermore, the system extracts a group of device coordinates corresponding to the group of device parameters from the device coordinate information group, and binds the group of device coordinates to control instructions contained in a plurality of control keys in the key menu respectively. Further, after the device coordinates are bound to the control commands of the control keys, the system respectively adds the device numbers corresponding to the group of device coordinates to the control commands of the plurality of control keys to form a control menu of the single-item device until the control menus of all the single-item devices connected with the intelligent control are generated.

step S1221, acquiring a preset key coding rule, and inputting the preset key coding rule and the equipment parameter into the preset menu generating program;

step S1222, executing the preset menu generating program, and forming a plurality of control keys according to the preset key control coding rule for the device parameters;

and step S1223, combining and sequencing the control keys to generate a key menu.

Further, after the system inputs the device parameters to the preset menu generating program, the system obtains a preset key coding rule of the code generation control key from a local database or through a network, where the preset key coding rule is a coding rule formulated by a manufacturer of the single-item device in this embodiment. Further, the system inputs the acquired preset key coding rule and the equipment parameters of the single-item equipment into a preset menu generating program, and fuses the equipment parameters into the preset key coding rule. Further, the system executes a preset menu generating program which fuses the equipment parameters to preset key coding rules, and generates a plurality of control keys according to the equipment parameters according to the preset key coding rules. Further, the system performs combination sorting on the generated multiple control keys, specifically, the multiple control keys may be sorted by referring to a key sorting method of a single-product device in remote control, or the multiple control keys may be sorted by acquiring frequency information of a user of the single-product device on each control key to generate a key menu.

This embodiment passes through equipment parameter information group, equipment coordinate information group and a plurality of equipment serial numbers, generate a plurality of control menu and generate the two-dimensional code and export, so that the user passes through the scanning two-dimensional code, acquire and select the control menu, control command is sent through the control button of control menu, the realization is to the control of single item equipment, be favorable to the user when not having the remote controller, control the single item equipment of non-intelligence fast, the improvement is to the infrared single item equipment's of non-intelligence use convenience.

Furthermore, the invention also provides a single-product equipment control device based on the two-dimensional code.

Referring to fig. 4, fig. 4 is a functional module schematic diagram of a single-product device control apparatus based on two-dimensional code according to a first embodiment of the present invention.

The single-product equipment control device based on the two-dimensional code comprises:

the acquiring module 10 is configured to acquire an equipment parameter information group and an equipment coordinate information group of a plurality of pieces of equipment, set equipment numbers for the plurality of pieces of equipment, and generate and output a two-dimensional code including a plurality of control menus based on the equipment parameter information group, the equipment coordinate information group, and the plurality of equipment numbers;

the determining module 20 is used for determining the coordinates of the target equipment corresponding to the control instruction when receiving the control instruction sent based on the two-dimensional code, and acquiring the standard control instruction of the target single-product equipment according to the coordinates of the target equipment;

and the checking module 30 is used for checking whether the control instruction is the same as the standard control instruction or not, and controlling the target single-product equipment according to the control instruction if the control instruction is the same as the standard control instruction.

Further, the obtaining module 10 includes:

the device comprises a first acquisition unit, a second acquisition unit and a third acquisition unit, wherein the first acquisition unit is used for acquiring multiple groups of device parameters of multiple single-product devices in a preset range to form a device parameter information group, acquiring multiple groups of device coordinates of the multiple single-product devices to form a device coordinate information group, and setting device numbers for the multiple single-product devices respectively;

a generating unit, configured to generate control menus corresponding to the plurality of single devices according to the device parameter information group, the device coordinate information group, and the plurality of device numbers;

and the output unit is used for inputting the control menus into a preset two-dimensional code generator, generating a two-dimensional code according to a two-dimensional code generation rule of the preset two-dimensional code generator and outputting the two-dimensional code.

Further, the obtaining module 10 further includes:

a first executing unit, configured to execute steps S122-S123 for multiple sets of device parameters of the device parameter information set, multiple sets of device coordinates of the device coordinate information set, and multiple device numbers, respectively;

the input unit is used for inputting the equipment parameters into a preset menu generating program and generating a key menu comprising a plurality of control keys according to the preset menu generating program;

and the binding unit is used for binding the plurality of control keys in the key menu with the equipment coordinates respectively, and adding the equipment numbers to the plurality of control keys after binding to form the control menu of the single-item equipment.

Further, the obtaining module 10 further includes:

the second acquisition unit is used for acquiring a preset key coding rule and inputting the preset key coding rule and the equipment parameters into the preset menu generation program;

the second execution unit is used for executing the preset menu generating program and forming a plurality of control keys according to the equipment parameters according to the preset key control coding rule;

and the sequencing unit is used for combining and sequencing the control keys to generate a key menu.

Further, the determining module 20 includes:

the determining unit is used for determining a target control menu corresponding to the control instruction in the plurality of control menus when the control instruction sent based on the two-dimensional code is received;

the extracting unit is used for extracting the coordinates of the target equipment from the target control menu and determining the single-item equipment corresponding to the coordinates of the target equipment as the target single-item equipment;

and the third acquisition unit is used for acquiring a standard control instruction containing a standard key control code from the target single-product device.

Further, the verification module 30 includes:

the checking unit is used for comparing the key control code of the control instruction with the standard key control code of the standard control instruction and checking whether the control instruction is the same as the standard control instruction or not;

the judging unit is used for judging that the control instruction is the same as the standard control instruction if the key control code is the same as the standard key control code;

and the sending unit is used for sending the control instruction to the target single-product equipment and controlling the target single-product equipment to execute the operation corresponding to the control instruction.

Further, the verification module 30 further includes:

the monitoring unit is used for monitoring the control state of the target single-product equipment after being controlled, comparing the control state with the initial state before being controlled and determining whether the control of the target single-product equipment is finished or not;

the second display unit is used for judging that the control of the target single-product equipment is finished and displaying the equipment number and the control state of the target single-product equipment if the control state is inconsistent with the initial state;

and the second display unit is used for judging that the control of the target single-product equipment fails and displaying prompt information of the control failure if the control state is consistent with the initial state.

In addition, the present invention also provides a storage medium, which is preferably a computer-readable storage medium, and on which a two-dimensional code-based single-product device control program is stored, where the two-dimensional code-based single-product device control program, when executed by a processor, implements the steps of the embodiments of the two-dimensional code-based single-product device control method.

In the embodiments of the two-dimension code-based single-item device control apparatus and the computer-readable medium of the present invention, all technical features of the embodiments of the two-dimension code-based single-item device control method are included, and the description and explanation contents are basically the same as those of the embodiments of the two-dimension code-based single-item device control method, and are not repeated herein.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention or a part contributing to the prior art may be embodied in the form of a software product, where the computer software product is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk), and includes a plurality of instructions for enabling a terminal device (which may be a fixed terminal, such as an internet of things smart device including smart homes, such as a smart air conditioner, a smart lamp, a smart power supply, a smart router, etc., or a mobile terminal, including a smart phone, a wearable networked AR/VR device, a smart sound box, an autonomous driving automobile, etc.) to execute the method according to each embodiment of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A single-product equipment control method based on two-dimension codes is characterized by comprising the following steps:

2. The single-product device control method based on the two-dimensional code as claimed in claim 1, wherein the step of verifying whether the control command is the same as the standard control command, and if the control command is the same as the standard control command, controlling the target single-product device according to the control command comprises:

3. The method for controlling the one-piece device based on the two-dimensional code according to claim 1, wherein the step of determining the target device coordinate corresponding to the control command and obtaining the standard control command of the target one-piece device according to the target device coordinate when receiving the control command sent based on the two-dimensional code comprises:

4. The single-product device control method based on the two-dimensional code according to claim 1, wherein the step of obtaining the device parameter information group and the device coordinate information group of the plurality of single-product devices, setting device numbers for the plurality of single-product devices, respectively, and generating and outputting the two-dimensional code including the plurality of control menus based on the device parameter information group, the device coordinate information group, and the plurality of device numbers includes:

5. The method for controlling the single-product device based on the two-dimensional code according to claim 4, wherein the step of generating the control menus respectively corresponding to the plurality of single-product devices according to the device parameter information group, the device coordinate information group, and the plurality of device numbers comprises:

6. The single-product device control method based on two-dimensional code according to claim 5, wherein the step of inputting the device parameters into a preset menu generating program and generating a key menu including a plurality of control keys according to the preset menu generating program comprises:

and combining and sequencing the control keys to generate a key menu.

7. The single-product device control method based on the two-dimensional code as claimed in claim 1, wherein the step of controlling the target single-product device according to the control instruction comprises the following steps:

8. The utility model provides a single item of equipment controlling means based on two-dimensional code which characterized in that, single item of equipment controlling means based on two-dimensional code includes:

9. A two-dimensional code-based single-product device control device, characterized in that the two-dimensional code-based single-product device control device comprises a memory, a processor and a two-dimensional code-based single-product device control program stored on the memory and operable on the processor, and when executed by the processor, the two-dimensional code-based single-product device control program implements the steps of the two-dimensional code-based single-product device control method according to any one of claims 1 to 7.

10. A storage medium having stored thereon a two-dimensional code-based single-item device control program that, when executed by a processor, implements the steps of the two-dimensional code-based single-item device control method according to any one of claims 1 to 7.