Disclosure of Invention
The food material pipe clamping box and the refrigerator are connected with each other, and the intelligent degree is improved.
It is a further object of the invention to improve the accuracy and efficiency of determining the access status of the NFC pipe clamp.
Particularly, the invention provides a method for controlling linkage of a food material pipe clamp box and a refrigerator, wherein the food material pipe clamp box and the refrigerator are communicated with a server, the food material pipe clamp box comprises at least one food material pipe clamp accommodating groove, at least one antenna plate arranged close to the at least one food material pipe clamp accommodating groove, and an NFC sensing module for acquiring tag information in an analog signal form of a tag on a food material pipe clamp in the food material pipe clamp accommodating groove through the at least one antenna plate and converting the tag information into the tag information in a digital signal form, and the method for controlling linkage of the food material pipe clamp box and the refrigerator comprises the following steps: receiving first information uploaded by a food material pipe clamp box and second information uploaded by a refrigerator through a server, wherein the food material pipe clamp box uploads the first information to the server under the condition that a food material pipe clamp is taken out, and the refrigerator uploads the second information to the server under the condition that a door body of the refrigerator is opened; judging whether the time difference between the received first information and the received second information is smaller than a preset time threshold value or not; and if so, determining that the taken out food pipe clamp is put into the refrigerator.
Optionally, the first information comprises type information and removal time information of the food material pipe clamp to be removed.
Optionally, after the step of determining that the food pipe clamp is placed in the refrigerator, the method further comprises: and sending first information of the food material pipe clamp to the refrigerator so that the refrigerator can determine the set temperature of the storage space of the refrigerator according to the type information.
Optionally, each food material pipe clamp corresponds to one food material temperature, and in the case that the taken food material pipe clamps are multiple and different types, the lowest of the multiple food material temperatures is determined as the set temperature.
Optionally, the refrigerator is provided with a display device configured to update the first information showing the food pipe clamp.
Optionally, the control method further includes: and receiving third information uploaded by the food material pipe clamp box through the server, wherein the third information is uploaded to the server by the food material pipe clamp box under the condition that the food material pipe clamp is placed in, and the third information comprises type information and placing time information of the placed food material pipe clamp.
Optionally, judging whether the user starts a repurchase function or not under the condition that the food pipe clamp is put in; and if so, issuing logistics information of the food material repurchase to the refrigerator to determine the urban position of the food material repurchase.
Optionally, after the step of determining the real-time location of the food material re-purchased, the method further comprises: judging whether the urban position of the food material repurchase is consistent with the urban position of the refrigerator; if so, determining whether the temperature of the refrigerator needs to be adjusted according to the type of the food material repurchase, and controlling the refrigerator to operate according to the corresponding temperature of the food material repurchase and starting timing under the condition that the temperature is adjusted.
Optionally, after the step of starting timing, the method further includes: judging whether the food materials purchased repeatedly within a preset time period are put into a refrigerator or not; and if not, controlling the refrigerator to recover the operation mode before the temperature adjustment.
Optionally, before the step of receiving, by the server, the first information uploaded by the food pipe clamp box and the second information uploaded by the refrigerator, the method further includes: and acquiring the associated information of the food material tube clamp box bound by the user and the refrigerator.
According to the food material pipe clamp box and refrigerator linkage control method, a server receives first information uploaded by the food material pipe clamp box and second information uploaded by a refrigerator, wherein the first information is uploaded to the server by the food material pipe clamp box under the condition that a food material pipe clamp is taken out, and the second information is uploaded to the server by the refrigerator under the condition that a door body of the refrigerator is opened; judging whether the time difference between the received first information and the received second information is smaller than a preset time threshold value or not; and under the condition that the food material pipe clamp is taken out, the food material pipe clamp is placed into the refrigerator, so that the food material pipe clamp box and the refrigerator can be interconnected, the intelligent degree is effectively improved, and the use experience of a user is improved.
Further, the food material pipe clamp box and refrigerator linkage control method can accurately identify the states of the food material pipe clamp in and out of the food material pipe clamp box, realize the communication between the local module and the remote server, and improve the efficiency of determining the NFC pipe clamp access state; can realize the noninductive function of buying again, the refrigerator can acquire the logistics information of buys eating the material again, according to the goods condition, sets up suitable operating temperature in advance, further promotes intelligent degree.
The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.
Detailed Description
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. It should be noted that the technical features of the embodiments and alternative embodiments of the present invention may be combined with each other without conflict.
The embodiment provides a control method for linkage of a food material pipe clamp box and a refrigerator, which can realize interconnection of the food material pipe clamp box and the refrigerator, effectively improve the intelligent degree and improve the use experience of a user. Fig. 1 is a schematic structural diagram of a food material tube clip box 100 according to an embodiment of the invention; FIG. 2 is a schematic view of the control of the food product pinch box 100 of FIG. 1; fig. 3 is a schematic structural block diagram of the control board 170 in fig. 2, fig. 4 is a partially disassembled schematic view of the food material tube clip box 100 in fig. 1, fig. 5 is an overall structural schematic view of the refrigerator 300 according to an embodiment of the present invention, and fig. 6 is a communication schematic view of the food material tube clip box 100, the refrigerator 300 and the server 400 according to an embodiment of the present invention. The food material tube clamping box 100 and the refrigerator 300 are suitable for the food material tube clamping box and refrigerator linkage control method of the embodiment. Referring to fig. 1 to 4, the food material cartridge 100 may include: the food clamp receiving groove 1115, the antenna plate 120 arranged close to the food clamp receiving groove 1115, and the NFC sensing module 130 for acquiring tag information in the form of analog signals of tags on the food clamp 200 in the food clamp receiving groove 1115 through the antenna plate 120 and converting the tag information into tag information in the form of digital signals.
As shown in fig. 3, the food material tube cartridge 100 may include: the control board 170 includes a memory 172 and a processor 171, wherein a computer program is stored in the memory 172, and when the computer program is executed by the processor 171, the control method of the food material cartridge according to any one of the following embodiments is implemented.
In a specific embodiment, the food material tube cartridge 100 may comprise: a food pipe clamp main body 110 and an electric appliance element disposed in the food pipe clamp main body 110. The electrical components may include at least one antenna board 120, an NFC sensing module 130 for acquiring tag information in the form of analog signals of tags on the food pipe clamps 200 in the food pipe clamp box 100 through the at least one antenna board 120 and converting the tag information into tag information in the form of digital signals, an uncovering detection device 140 for detecting the opening and closing state of the food pipe clamp box 100, an alarm device 150 and a control board 170, and a power supply upgrade interface 160 for controlling the charging upgrade of the control board 170. The control panel 170 may be provided thereon with a wireless communication module 180, and the wireless communication module 180 includes, but is not limited to, a WiFi module, a ZigBee module, and a bluetooth module. Specifically, the communication between the food material clamping box 100 and the server 400 can be realized through the wireless communication module 180. The control board 170 is communicatively connected to other electrical components of the food material cartridge 100. The control board 170 may include a memory 172 and a processor 171, wherein a computer program 1721 is stored in the memory 172, and when the computer program 1721 is executed by the processor 171, the method for controlling the food material clamping box according to any one of the following embodiments is implemented.
Referring to fig. 4, the food clamp box body 110 includes a box body 111 and a box cover 112 for opening and closing the box body 111. The box body 111 comprises a shell 1111 and a containing piece 1112 arranged in the shell 1111, wherein the containing piece 1112 defines a plurality of grooves 1113 which are spaced in parallel, 4 grooves can be provided, each groove 1113 is internally provided with a plurality of clapboards 1114 which are integrally formed with the groove 1113, 4 clapboards can be provided, and the groove 1113 is divided into 5 food pipe clamp containing grooves 1115 by the 4 clapboards 1114 in the groove 1113, and the containing grooves 1115 are 20; a downward cavity 1116 is formed between any two adjacent grooves 1113, and 3 cavities 1116 are formed by 4 grooves 1113; at least one antenna board 120 is disposed in the spaced cavities 1116 near the food pipe clamp receiving groove 1115, and in case of 3 cavities 1116, 2 antenna boards 120 are disposed, and two antenna boards 120 are disposed in the first and third cavities 1116, respectively. The antenna board 120 may be disposed in the cavity 1116 by means of adhesive. The NFC sensing module 130 and the control board 170 may be disposed at the bottom of the case 111; the lid opening detection device 140 may include a hall sensor 142 and a magnetic element 141, the hall sensor 142 is disposed at the front side of the housing 1111, the magnetic element 141 is disposed at a position corresponding to the hall sensor 142 in the lid 112, and the opening of the food material tube clamping box 100 may be determined when a distance between the hall sensor 142 and the magnetic element 141 exceeds a preset distance value; the alarm device 150 may be disposed on a sidewall of the box 111, and the alarm device 150 includes, but is not limited to, an indicator light and a buzzer.
As shown in fig. 5, the refrigerator 300 may generally include: a cabinet 310 and a door 320. Wherein the cabinet 310 defines a storage space therein. The number and structure of the storage spaces can be configured as required, and fig. 5 shows the case of the first space, the second space and the third space which are arranged in sequence from top to bottom; the space can be configured into a refrigerating space, a freezing space, a temperature changing space or a fresh keeping space according to different purposes. Each storage space may be divided into a plurality of storage regions by a partition plate, and the articles may be stored by a rack or a drawer.
The door 320 is disposed on a front surface of the cabinet 110 to enclose the storage space. The door bodies 320 may be disposed corresponding to the storage spaces, that is, each storage space corresponds to one or more door bodies 320. The number of the storage spaces and the door 320 and the functions of the storage spaces can be actually selected according to specific conditions. The refrigerator 300 of this embodiment corresponds to the first space, the second space, and the third space that are sequentially arranged from top to bottom, and is respectively provided with the first door body, the second door body, and the third door body of the side-by-side combination door. The door body 320 may be pivotally disposed on the front surface of the box body 110, and may also be opened in a drawer type to realize a drawer type storage space, where the drawer type storage space is often provided with a metal slide rail, so as to ensure a soft effect during the opening and closing process of the drawer, and reduce noise.
Also, the refrigerator 300 may be provided with a door opening detection device for detecting an open/close state of the door. The door opening detection device also can comprise a Hall sensor and a magnetic element, the Hall sensor and the magnetic element are respectively arranged at the corresponding positions of the box body and the door body, and the door body can be determined to be opened when the distance between the Hall sensor and the magnetic element exceeds a preset distance value. In addition, the refrigerator 300 may also be provided with a wireless communication module including, but not limited to, a WiFi module, a ZigBee module, and a bluetooth module. The communication between the refrigerator 300 and the server 400 may be achieved through a wireless communication module.
As shown in fig. 6, the food material cartridge 100 and the refrigerator 300 are both in communication with the server 400. And, the food material clamping box 100 and the refrigerator 300 may communicate with the server 400 through wireless communication modules respectively provided. The food material clamping box 100 and the refrigerator 300 can upload the related information to the server 400 and receive the related information issued by the server 400, the intelligence degree of the information receiving and transmitting mode is high, and the working reliability is effectively improved.
Specifically, first information uploaded by the food material tube clamp box 100 and second information uploaded by the refrigerator 300 are received by the server 400, wherein the food material tube clamp box 100 uploads the first information to the server 400 when the food material tube clamp 200 is taken out, and the refrigerator 300 uploads the second information to the server 400 when the door 320 of the refrigerator is opened. In a preferred embodiment, the first information may include type information and removal time information of the ingredient pipe clamp 200 being removed. More preferably, as shown in fig. 5, the refrigerator 300 may be provided with a display device 321. The display device 321 may be configured to update the first information showing the food material pipe clamp 200. Specifically, the display device 321 may be disposed on an outer surface of the door body 320, so as to visually output and display various information to a user.
Fig. 7 is a schematic view of a method for controlling the food material tube clamping box to be linked with a refrigerator according to an embodiment of the invention. The food material tube clamping box and refrigerator linkage control method is suitable for being executed by the food material tube clamping box 100 and the refrigerator 300 in any embodiment. As shown in fig. 7, the method for controlling the food material pipe clamping box to be linked with the refrigerator may sequentially perform the following steps:
step S702, receiving, by the server 400, first information uploaded by the food material clamping box 100 and second information uploaded by the refrigerator 300;
step S704, determining whether a time difference between the received first information and the received second information is smaller than a preset time threshold, if so, executing step S706;
in step S706, it is determined that the taken-out food clamp 200 is put into the refrigerator 300.
In the above steps, the food clamp box 100 uploads the first information to the server 400 when the food clamp 200 is taken out, and the refrigerator 300 uploads the second information to the server 400 when the door 320 thereof is opened. Through the scanning of the NFC sensing module 130, the access state of the food material pipe clamp 200 can be accurately determined. As mentioned above, the antenna plate 120 obtains tag information in the form of an analog signal of the tag on the food pipe clamp 200 in the food pipe clamp receiving groove 1115, and the NFC sensing module 130 can obtain the tag information in the form of the analog signal and convert the tag information into tag information in the form of a digital signal. Specifically, the NFC sensing module 130 may determine the access state of the food pipe clamp 200 by acquiring the tag information. The tag information indicates that the food pipe clamp 200 is put in from nothing; the presence or absence of the tag information indicates that the food clamp 200 is removed.
In a preferred embodiment, it can be further determined that the food pipe clamp 200 not belonging to the food pipe clamp box 100 exists in the food pipe clamp box 100 by acquiring the tag information. Specifically, the tag information may also represent specific foods, such as pork, mutton, grapes, tofu, and the like. One food pipe clamp box 100 generally corresponds to a plurality of food pipe clamps 200 with different tag information. Therefore, when it is determined that the food tube clips 200 having the same tag information exist in the food tube clip box 100, it is determined that the food tube clips 200 not belonging to the food tube clip box 100 exist in the food tube clip box 100.
In addition, the determining whether the tag information that does not correspond to the food material clamping box 100 exists may include: determining label information corresponding to the food material clamping box 100; judging whether label information except all label information corresponding to the food material clamping box 100 exists or not; if yes, it is determined that there is label information that does not correspond to the food material clamping box 100.
The tag information may be a serial number, for example, 1 represents pork, 2 represents mutton, 3 represents beef, etc. The tag information corresponding to the food material tube clamping box 100 may be 1 to 20, and when it is determined that the food material tube clamp 200 which is not the tag information of 1 to 20 exists in the food material tube clamping box 100, it may be determined that the tag information which does not have a corresponding relationship with the food material tube clamping box 100 exists in the food material tube clamping box 100.
In a preferred embodiment, the first information comprises information of the type of the ingredient tube clamp 200 to be taken out and the taking-away time information. That is, in the case where the food pipe clamp 200 in the food pipe clamp box 100 is taken out, the food pipe clamp box 100 uploads the type information and the taking-out time information of the taken-out food pipe clamp 200 to the server 400.
After determining that the food clamp 200 is placed in the refrigerator 300 at step S706, the method may further include: the first information of the food material pipe clamp 200 is issued to the refrigerator 300, so that the refrigerator 300 can determine the set temperature of the storage space according to the type information. In a specific embodiment, each food material pipe clamp 200 corresponds to one food material temperature, and in the case that the food material pipe clamps 200 are taken out in multiple and different types, the lowest of the multiple food material temperatures is determined as the set temperature. Here, the plurality of food clamps 200 taken out are taken out of the food clamp box 100 and put in the same storage space of the refrigerator 300.
As mentioned above, the refrigerator 300 may be provided with a display 321 configured to update the first information displaying the food clamp 200. Therefore, the user can know the information of the food materials newly put into the refrigerator 300 through the display device 321 in time, the food materials are prevented from being forgotten to deteriorate due to long-time storage, and the use experience of the user is effectively improved.
The method for controlling the linkage of the food material pipe clamping box and the refrigerator in the embodiment further comprises the following steps: receiving, by the server 400, third information uploaded from the food material tube clamp box 100, wherein the food material tube clamp box 100 uploads the third information to the server 400 in a case where the food material tube clamp 200 is inserted, wherein the third information includes type information and insertion time information of the inserted food material tube clamp 200.
Judging whether the user starts a repurchase function or not under the condition that the food pipe clamp 200 is put in; if yes, logistics information of the food material repurchase is sent to the refrigerator 300 to determine the urban location of the food material repurchase. The method further comprises the following steps after the step of determining the real-time position of the food material repurchase: judging whether the urban position of the food material repurchase is consistent with the urban position of the refrigerator 300; if yes, determining whether the temperature of the refrigerator 300 needs to be adjusted according to the type of the repurchase food materials, and if so, controlling the refrigerator 300 to operate according to the corresponding temperature of the repurchase food materials and starting timing. After the step of starting timing, the method further comprises the following steps: judging whether the food materials purchased again within a preset time period are put into the refrigerator 300; and if not, controlling the refrigerator 300 to resume the operation mode before the temperature adjustment.
In a specific embodiment, before the step of receiving, by the server 400, the first information uploaded by the food material cartridge 100 and the second information uploaded by the refrigerator 300 in step S702, the method may further include: the associated information of the user binding the food material cartridge 100 and the refrigerator 300 is obtained. Specifically, the user can select whether to associate the food material clamping box 100 with the refrigerator 300 through application software of the mobile terminal, and if the user allows linkage, the next step is performed; the user binds the food material cartridge 100 and the refrigerator 300 to be associated on the application software. It should be noted that after the user binds the food material cartridge 100 and the refrigerator 300, the associated information of the user binding the food material cartridge 100 and the refrigerator 300 can be obtained. The control method for linkage of the food material pipe clamp box and the refrigerator in the embodiment can realize interconnection of the food material pipe clamp box 100 and the refrigerator 300, effectively improves the intelligent degree, and further improves the use experience of a user.
In some optional embodiments, the food material tube box 100 and the refrigerator 300 can achieve higher technical effects by further optimizing and configuring the above steps, and the detailed description of the method for controlling the linkage of the food material tube box and the refrigerator of the present embodiment is provided below with reference to an optional execution flow of the present embodiment. Fig. 8 is a detailed flowchart of a method for controlling linkage of a food material tube clamp box and a refrigerator according to an embodiment of the present invention, and the method for controlling linkage of a food material tube clamp box and a refrigerator includes the following steps:
step S802, acquiring the associated information of the food material tube clamping box 100 bound by the user and the refrigerator 300;
step S804, receiving, by the server 400, first information uploaded by the food material clamping box 100 and second information uploaded by the refrigerator 300;
step 806, determining whether the time difference between the received first information and the received second information is smaller than a preset time threshold, if so, executing step 808, otherwise, executing step 830;
step S808, determining that the taken-out food clamp 200 is put into the refrigerator 300;
step S810, issuing first information of the food material pipe clamp 200 to the refrigerator 300, so that the refrigerator 300 determines the set temperature of the storage space according to the type information;
step S812, determining whether the food pipe clamp 200 is placed in the food pipe clamp box, if yes, executing step S814, and if not, continuing to execute step S812;
step S814, determining whether the user starts the re-purchasing function, if yes, executing step S816, otherwise, returning to execute step S812;
step S816, issuing logistics information of the repurchase food materials to the refrigerator 300 to determine the urban location of the repurchase food materials;
step S818, determining whether the city location of the food material re-purchased is consistent with the city location of the refrigerator 300, if so, executing step S820, otherwise, continuing to execute step S818;
step S820, determining whether the temperature of the refrigerator 300 needs to be adjusted according to the type of the food material purchased again, if yes, executing step S824, and if no, executing step S822;
step S822, controlling the refrigerator 300 to maintain the current operation mode;
step S824, controlling the refrigerator 300 to operate according to the corresponding temperature of the purchased food materials;
step S826, determining whether the food material purchased again is put into the refrigerator 300 within a preset time period, if yes, performing step S824, and if not, performing step S828;
step S828, controlling the refrigerator 300 to resume the operation mode before the temperature adjustment;
and step S830, ending.
In the above steps, the food tube clamp box 100 uploads the first information to the server 400 when the food tube clamp 200 is taken out, the refrigerator 300 uploads the second information to the server 400 when the door 320 thereof is opened, and the food tube clamp box 100 uploads the third information to the server 400 when the food tube clamp 200 is put in. The first information includes type information and removal time information of the food material pipe clamp 200 that is removed. The third information includes type information and putting time information of the ingredient pipe clamp 200 to be put in.
In a specific embodiment, the preset time threshold may be 1 minute, and the preset time period may be 24 hours. The specific numerical values are only examples and do not limit the present invention. In other embodiments, other values may be set according to actual conditions.
In step S826, it is determined whether the food material purchased again is put into the refrigerator 300 within the preset time period, and a time may be counted before. That is, the time count may be started while the refrigerator 300 is controlled to operate at the corresponding temperature of the purchased food material at step S824. Step S826 determines whether a food material purchased again is put into the refrigerator 300 within a preset time period, and if yes, step S824 is executed: the refrigerator 300 is controlled to operate according to the corresponding temperature of the purchased food materials. In other embodiments, the end action may also be performed directly.
Some specific embodiments are described below: the user can select whether to associate the food material clamping box 100 with the refrigerator 300 through application software, and if the user allows linkage, the next step is performed; the user binds the food material cartridge 100 and the refrigerator 300 to be associated on the application software. The food material tube clamp box 100 determines whether the food material tube clamp 200 is taken out from the box, and if so, the food material tube clamp box 100 reports first information including type information and taking-out time information of the taken-out food material tube clamp 200 to the server 400. The server 400 judges whether the bound refrigerator 300 has door opening information, and if the refrigerator 300 has second information including the door opening information reported within 1 minute after the food material pipe clamp 200 is taken away, it is judged that the food material pipe clamp 200 is stored in the refrigerator 300.
The refrigerator 300 performs different temperature control according to different stored food material pipe clamps 200. The refrigeration space, the freezing space and the MSA fresh-keeping space are independently controlled, and if a plurality of food material pipe clamps 200 are stored in the same storage space, the food material pipe clamps 200 with the lowest temperature corresponding to the food materials run in the running mode. The information of the type and time of the stored food materials is synchronously updated on the display device 321 of the refrigerator 300. After the food pipe clamp 200 is replaced in the food pipe clamp box 100, the food pipe clamp box 100 uploads the sensed third information including the type information and the placing time information of the placed food pipe clamp 200 to the server 400.
And judging whether the user opens the re-purchasing function, if not, the server 400 controls the refrigerator 300 to exit from the corresponding mode, so that the temperature setting of the refrigerator 300 is restored to the original set value. If the repurchase function is turned on, the logistics information of the repurchase food materials is obtained from the server 400, and whether the food materials reach the city where the refrigerator 300 is located is judged. Judging whether the temperature of the refrigerator 300 needs to be adjusted in advance according to the type of the food materials, if so, adjusting the temperature of the refrigerator 300 in advance, and starting timing. Before the time length is judged to be longer than 24 hours, whether the food materials purchased again are stored in the refrigerator 300 or not is judged, if the food materials are stored, the food materials can be stored, and if the food materials are not stored, the operation mode before adjustment is recovered.
According to the control method for linkage of the food material pipe clamp box and the refrigerator, the food material pipe clamp box 100 and the refrigerator 300 can be interconnected, the intelligent degree is effectively improved, and the use experience of a user is improved; the states of storing and taking out the food pipe clamps 200 in the food pipe clamp box 100 can be accurately identified, the communication between the local module and the remote server 400 is realized, and the efficiency of determining the storing and taking states of the NFC food pipe clamps 200 is improved; the non-inductive repurchase function can be realized, the refrigerator 300 can acquire logistics information of the repurchase food materials, and proper working temperature is set in advance according to the arrival condition, so that the intelligent degree is further improved; the user can in time know the edible material information of newly putting into refrigerator 300 through display device 321, avoids eating the material and forgetting to lead to rotting for a long time to store, effectively promotes user's use and experiences.
In addition, the functional units in the embodiments of the present invention may be physically independent of each other, two or more functional units may be integrated together, or all the functional units may be integrated in one processing unit. The integrated functional units may be implemented in the form of hardware, or in the form of software or firmware.
Those of ordinary skill in the art will understand that: the integrated functional units, if implemented in software and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions, so that a computing device (for example, a personal computer, a server, or a network device) executes all or part of the steps of the method according to the embodiments of the present invention when the instructions are executed. And the aforementioned storage medium includes: u disk, removable hard disk, Read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disk, and other various media capable of storing program code.
Alternatively, all or part of the steps of implementing the foregoing method embodiments may be implemented by hardware (such as a personal computer, a server, or a network device) associated with program instructions, which may be stored in a computer-readable storage medium, and when the program instructions are executed by a processor of the computing device, the computing device executes all or part of the steps of the method according to the embodiments of the present invention.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments can be modified or some or all of the technical features can be equivalently replaced within the spirit and principle of the present invention; such modifications or substitutions do not depart from the scope of the present invention.