CN112034739B - Remote control method and system for rice storage device, rice storage device and server - Google Patents

Abstract

The embodiment of the invention discloses a remote control method and a remote control system for a rice storage device, the rice storage device and a server, wherein the method is applied to the rice storage device and comprises the following steps: sending a communication link request to a server, wherein the communication link request comprises identification information corresponding to the rice storage device; receiving a channel establishing instruction from a server; when the identity identification information is used for representing that the rice storage device is a power supply type rice storage device, a bidirectional communication channel is established with the server; and sending first specified information to the server through the bidirectional communication channel, wherein the first specified information comprises the rice storage amount information of the rice storage device.

Description

Remote control method and system for rice storage device, rice storage device and server

Technical Field

The invention relates to the technical field of intelligent household appliances, in particular to a remote control method and system of a rice storage device, the rice storage device and a server.

Background

The intelligent rice bucket is a device used for storing grains and capable of discharging rice according to instructions, and the intelligent rice bucket can discharge rice according to the instructions, so that a user can take rice without opening the cover of the rice bucket. But the user still needs to wait in front of the intelligent rice bucket during the process of discharging rice from the intelligent rice bucket.

Disclosure of Invention

The embodiment of the invention provides a remote control method and system for a rice storage device, the rice storage device and a server, and has the effect of remotely controlling the specific rice storage device.

An embodiment of the present invention provides a remote control method of a rice storage device, the method being applied to the rice storage device, the method including: sending a communication link request to a server, wherein the communication link request comprises identification information corresponding to the rice storage device; receiving a channel establishing instruction from a server; when the identity identification information is used for representing that the rice storage device is a power supply type rice storage device, a bidirectional communication channel is established with the server; and sending first specified information to the server through the bidirectional communication channel, wherein the first specified information comprises the rice storage amount information of the rice storage device.

In an embodiment, the method further comprises: receiving a remote rice outlet instruction from a server through a bidirectional communication channel, wherein the remote rice outlet instruction comprises a specified rice outlet amount; carrying out rice discharging treatment according to the specified rice discharging amount to generate a feedback result corresponding to the rice discharging treatment; and sending a feedback result to the server through the bidirectional communication channel, wherein the feedback result is used for representing that the rice discharging state of the rice storage device is the finished rice discharging state or the unfinished rice discharging state.

In an embodiment, the method further comprises: when the identity identification information is used for representing that the rice storage device is a battery type rice storage device, a one-way communication channel is established with the server; and sending second specified information to the server through the one-way communication channel, wherein the second specified information comprises the rice storage amount information and the battery allowance information of the rice storage device.

In an embodiment, the method further comprises: judging whether the battery residual amount information meets a prompt threshold value; generating a prompt instruction under the condition that the battery residual capacity information is judged to meet a prompt threshold value; and sending a prompt instruction to a server through the one-way communication channel so as to indicate the server to prompt that the electric quantity is insufficient.

Another aspect of an embodiment of the present invention provides a method for remotely controlling a rice storage apparatus, the method being applied to a server, the method including: receiving a communication link request from a rice storage device, wherein the communication link request comprises identification information corresponding to the rice storage device; judging whether the rice storage device is a power supply type rice storage device or not according to the identity identification information; when the rice storage device is judged to be the power supply type rice storage device, a bidirectional communication channel is established with the rice storage device; receiving first specification information from the rice storage device through the bidirectional communication channel, wherein the first specification information contains rice storage amount information of the rice storage device.

In an embodiment, the server is further communicatively connected with a user terminal, and accordingly, the method further includes: receiving a remote rice outlet instruction from a user terminal, and forwarding the remote rice outlet instruction to the rice storage device through a bidirectional communication channel, wherein the remote rice outlet instruction comprises a specified rice outlet amount; receiving a feedback result sent by the rice storage device through the bidirectional communication channel, wherein the feedback result is used for representing that the rice discharging state of the rice storage device is the finished rice discharging state or the unfinished rice discharging state; and generating prompt information according to the feedback result, and sending the prompt information to a user terminal so as to prompt the user of the rice discharging state of the rice storage device.

In an embodiment, the method further comprises: establishing a communication channel with the rice storage device but to the rice storage device when the rice storage device is determined not to be the power supply type rice storage device; receiving second specified information from the rice storage device through the one-way communication channel, wherein the second specified information comprises rice storage amount information and battery allowance information of the rice storage device.

In an embodiment, the method further comprises: receiving a prompt instruction from a rice storage device through the one-way communication channel; and forwarding the prompt instruction to the user terminal to prompt that the electric quantity of the rice storage device is insufficient.

Still another aspect of the present invention provides a rice storage apparatus, comprising: the first sending module is used for sending a communication link request to a server, wherein the communication link request comprises identity identification information corresponding to the rice storage device; the first receiving module is used for receiving a channel establishing instruction from the server; the first establishing module is used for establishing a bidirectional communication channel with the server under the condition that the identity identification information is used for representing that the rice storage device is a power supply type rice storage device; the first sending module is further configured to send first specific information to the server through the bidirectional communication channel, where the first specific information includes information on the rice storage amount of the rice storage device.

In an implementation manner, the first receiving module is further configured to receive a remote rice outlet instruction from a server through a bidirectional communication channel, wherein the remote rice outlet instruction includes a specified rice outlet amount; the apparatus further comprises: the rice output feedback module is used for performing rice output treatment according to the specified rice output amount and generating a feedback result corresponding to the rice output treatment; the first sending module is further configured to send a feedback result to the server through the bidirectional communication channel, where the feedback result is used to indicate that the rice discharge state of the rice storage device is rice discharge completion or rice discharge incompletion.

In an implementation manner, the first establishing module is further configured to establish a one-way communication channel with the server when the identification information is used for characterizing that the rice storage device is a battery-type rice storage device; the first sending module is further configured to send second specifying information to the server through the unidirectional communication channel, where the second specifying information includes information on rice storage capacity of the rice storage device and information on remaining battery capacity.

In an embodiment, the rice storage device further comprises: the first judgment module is used for judging whether the battery residual amount information meets a prompt threshold value; the first generation module is used for generating a prompt instruction under the condition that the battery residual amount information is judged to meet a prompt threshold value; the first sending module is further configured to send a prompt instruction to a server through the unidirectional communication channel to indicate that the server prompts that the electric quantity is insufficient.

Another aspect of the present invention provides a server, including: the second receiving module is used for receiving a communication link request from the rice storage device, wherein the communication link request contains identity identification information corresponding to the rice storage device; the judging module is used for judging whether the rice storage device is a power supply type rice storage device or not according to the identity identification information; the second establishing module is used for establishing a bidirectional communication channel with the rice storage device under the condition that the rice storage device is judged to be the power supply type rice storage device; the second receiving module is further configured to receive first specifying information from the rice storage device through the bidirectional communication channel, where the first specifying information includes information on the amount of stored rice of the rice storage device.

In an implementation manner, the server is further communicatively connected with a user terminal, and correspondingly, the second receiving module is further configured to receive a remote rice-discharging instruction from the user terminal, and forward the remote rice-discharging instruction to the rice storage device through a bidirectional communication channel, where the remote rice-discharging instruction includes a specified rice-discharging amount; the second receiving module is further configured to receive a feedback result sent by the rice storage device through the bidirectional communication channel, where the feedback result is used to indicate that the rice discharge state of the rice storage device is rice discharge completion or rice discharge incompletion; the server also comprises a second generating module which is used for generating prompt information according to the feedback result and sending the prompt information to the user terminal so as to prompt the user of the rice discharging state of the rice storage device.

In an embodiment, the second establishing module is further configured to establish a communication channel with the rice storage device but to the communication channel when it is determined that the rice storage device is not a power-type rice storage device; the second receiving module is further configured to receive second specific information from the rice storage device through the unidirectional communication channel, where the second specific information includes information on rice storage capacity and information on remaining battery capacity of the rice storage device.

In an implementation manner, the second receiving module is further configured to receive a prompt instruction from the rice storage device through the unidirectional communication channel; the server also comprises a second sending module which is used for forwarding the prompting instruction to the user terminal so as to prompt that the electric quantity of the rice storage device is insufficient.

Another aspect of the present invention provides a remote control system of a rice storage apparatus, the system comprising a rice storage apparatus and a server; the rice storage device comprises: the first sending module is used for sending a communication link request to a server, wherein the communication link request comprises identity identification information corresponding to the rice storage device; the first receiving module is used for receiving a channel establishing instruction from the server; the first establishing module is used for establishing a bidirectional communication channel with the server under the condition that the identity identification information is used for representing that the rice storage device is a power supply type rice storage device; the first sending module is further configured to send first specific information to the server through the bidirectional communication channel, where the first specific information includes information on the rice storage amount of the rice storage device; the server includes: the second receiving module is used for receiving a communication link request from the rice storage device, wherein the communication link request contains identity identification information corresponding to the rice storage device; the judging module is used for judging whether the rice storage device is a power supply type rice storage device or not according to the identity identification information; the second establishing module is used for establishing a bidirectional communication channel with the rice storage device under the condition that the rice storage device is judged to be the power supply type rice storage device; the second receiving module is also used for receiving first specified information from the rice storage device through the bidirectional communication channel, and the first specified information comprises the rice storage amount information of the rice storage device

In one embodiment, the system further comprises a user terminal, the user terminal comprising: and the third sending module is used for sending a remote rice outlet instruction to the server.

The remote control method provided by the embodiment of the invention is used for establishing the bidirectional communication channel between the rice storage device with the power supply mode of power supply and the server, under the condition that the power supply mode of the rice storage device is power supply, the electric quantity consumed by the bidirectional communication channel cannot influence the performance of the rice storage device under the use condition, the bidirectional communication channel can be favorable for information interaction and convenient communication between the rice storage device and the server, and the transmission of various specific information can be realized through the bidirectional communication channel.

Drawings

The above and other objects, features and advantages of exemplary embodiments of the present invention will become readily apparent from the following detailed description read in conjunction with the accompanying drawings. Several embodiments of the invention are illustrated by way of example, and not by way of limitation, in the figures of the accompanying drawings and in which:

in the drawings, the same or corresponding reference numerals indicate the same or corresponding parts.

FIG. 1 is a schematic flow chart of a method for remotely controlling a rice storage device according to an embodiment of the present invention;

FIG. 2 is a schematic view of a process for remotely controlling a rice storage device to remotely discharge rice according to an embodiment of the present invention;

FIG. 3 is a schematic flow chart of another embodiment of the method for remotely controlling a rice storage device according to the present invention;

FIG. 4 is a schematic view showing a flow of implementing the electric quantity prompt of another remote control method of the rice storage device according to the embodiment of the present invention;

FIG. 5 is a schematic view of an implementation module of a rice storage device according to an embodiment of the present invention;

fig. 6 is a schematic diagram of an implementation module of a server according to an embodiment of the present invention;

fig. 7 is a schematic view of an implementation module of a remote control system of a rice storage device according to an embodiment of the present invention.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a schematic flow chart of a method for remotely controlling a rice storage device according to an embodiment of the present invention.

Referring to fig. 1, an aspect of the embodiments of the present invention provides a method for remotely controlling a rice storage apparatus, the method being applied to the rice storage apparatus, the method including: operation 101, sending a communication link request to a server, where the communication link request includes identification information corresponding to a rice storage device; an operation 102 of receiving a channel establishment instruction from a server; operation 103, establishing a bidirectional communication channel with the server when the identity identification information is used for representing that the rice storage device is a power supply type rice storage device; in operation 104, first specification information including rice storage amount information of the rice storage device is transmitted to the server through the bidirectional communication channel.

The remote control method provided by the embodiment of the invention is used for establishing the bidirectional communication channel between the power type rice storage device and the server after confirming that the power supply mode of the rice storage device is power supply, and under the condition that the power supply mode of the rice storage device is power supply, the electric quantity consumed by the bidirectional communication channel cannot influence the use state of the rice storage device. The bidirectional communication channel has the characteristic of convenient communication, and information can be transmitted from any end of the rice storage device and the server to the other end through the bidirectional communication channel, so that the information interaction is facilitated, the server and/or the rice storage device can realize the transmission of various specific information through the bidirectional communication channel, and the aim of remote control is fulfilled.

In operation 101, the method sends a communication link request to a server by a rice storage device to request a communication channel to be established between the server and the rice storage device, wherein the communication link request includes identification information corresponding to the rice storage device, the identification information includes but is not limited to power supply type information of the rice storage device, the power supply type includes a power supply type rice storage device and a battery type rice storage device, that is, the power supply type of the rice storage device is power supply by a power supply or power supply by a battery. When the plurality of rice storage devices are in communication connection with the server, the identification information can also comprise a specific number corresponding to each rice storage device, so that the server can distinguish different rice storage devices conveniently. The specific number can be numbered according to the power supply type of the rice storage device, and further can be any one of other number forms such as a two-dimensional code and a number.

In operation 102 of the method, the server determines the type of the communication channel established with the rice storage device according to the identification information of the rice storage device. And sending a channel establishing instruction according to the type of the established communication channel to indicate that a specific communication channel is established between the rice storage device and the server, wherein the channel establishing instruction is used for indicating the establishment of a bidirectional channel or indicating the establishment of a single channel.

In operation 103 of the method, when the identification information of the rice storage device indicates that the rice storage device is powered by the power supply, the rice storage device establishes a bidirectional communication channel with the server according to the channel establishment instruction. The bidirectional communication channel can be used for sending information to the server by the rice storage device and can also be used for sending information to the rice storage device by the server, and the arrangement is favorable for information interaction between the rice storage device and the server. The user can send a control instruction to the rice storage device through the server, and according to the specific control content of the control instruction, the server sends the control instruction to the rice storage device through the bidirectional communication channel, and the user can control the rice storage device to at least perform operations such as rice storage amount information inquiry and remote rice discharging.

In operation 104, the rice storage apparatus may transmit first specification information containing rice storage amount information of the rice storage apparatus to the server through the bidirectional communication channel. The first specification information may be consumed rice amount by the rice storage device, and may be date information corresponding to the stored rice amount information and the consumed rice amount. The server may store the first specific information for later use, may analyze the first specific information, and may further analyze the first specific information in combination with previously stored history specific information. Through different analysis methods, the server can perform targeted analysis on different rice storage devices according to different first specified information so as to obtain an analysis result with higher matching degree with the individual habits of the user. The first specific information may also be forwarded to the user terminal by the server, such as: the mobile phone is used for prompting the running state of the rice storage device for the user.

Fig. 2 is a schematic flow chart of a remote rice output implementation of a remote control method of a rice storage device according to an embodiment of the invention.

Referring to fig. 2, in an embodiment of the present invention, the method further comprises: operation 201, receiving a remote rice outlet instruction from a server through a bidirectional communication channel, wherein the remote rice outlet instruction comprises a specified rice outlet amount; operation 202, performing rice discharging processing according to the specified rice discharging amount, and generating a feedback result corresponding to the rice discharging processing; and operation 203, sending a feedback result to the server through the bidirectional communication channel, wherein the feedback result is used for representing that the rice discharging state of the rice storage device is the finished rice discharging state or the unfinished rice discharging state.

Under the condition that the rice storage device and the server establish a two-way communication channel, the running state of the rice storage device can be remotely controlled through the server, for example, the rice storage device is remotely controlled to discharge rice, the electric quantity of the rice storage device is remotely inquired, and therefore a user can conveniently discharge rice. The user can control the rice discharging device through the mobile phone to perform other remote control operations such as rice discharging, electricity quantity inquiry and the like under the condition that the user does not reach the front of the rice storage device.

In the method operation 201, the remote rice discharging instruction includes a designated rice discharging amount for instructing the rice storage device to discharge rice quantitatively according to the designated rice discharging amount. The remote rice-discharging instruction can be transmitted to the server by the user side, such as a user mobile phone, and then is forwarded to the rice storage device through the server, or the user side controls the server to generate the remote rice-discharging instruction, and then the remote rice-discharging instruction is transmitted to the rice storage device by the server, so that the rice storage device receives the remote rice-discharging instruction.

In the method operation 202, the rice storage device performs rice discharging processing according to the specified rice discharging amount after analyzing the remote rice discharging instruction, and generates a feedback result corresponding to the rice discharging processing result. It is understood that the rice discharging process results include completed rice discharging and incomplete rice discharging.

In the method operation 203, the rice storage device sends a feedback result to the server through the bidirectional communication channel to inform the server of the result of the rice storage device in the rice discharging process. When the rice discharging process is normally executed, the feedback result at least comprises the completed rice discharging, and when the rice discharging process is not completed, the feedback result at least comprises the incomplete rice discharging, and the possible reason for the incomplete rice discharging is that the rice storage device is in failure or the remaining amount of the rice stored in the rice storage device does not meet the rice discharging amount. Based on this, when the feedback result includes the incomplete rice discharging condition, the feedback result may further include the reason of the incomplete rice discharging, the reason of the incomplete rice discharging may be determined by a fault detection module arranged on the rice storage device, and the reason of the incomplete rice discharging includes that the rice storage quantity does not satisfy the rice discharging quantity, the device fault, and the like. The rice storage amount can be determined by arranging a margin detection module on the rice storage device. Device failure may be determined by a failure detection module.

Fig. 3 is a schematic flow chart of another method for remotely controlling a rice storage device according to an embodiment of the present invention.

Referring to fig. 3, in an embodiment of the present invention, the method further comprises: operation 301, when the identity identification information is used for representing that the rice storage device is a battery type rice storage device, establishing a one-way communication channel with the server; in operation 302, second specifying information including information on the amount of stored rice of the rice storage device and information on the remaining amount of the battery is transmitted to the server through the one-way communication channel.

The power supply mode of the rice storage device in the embodiment of the invention can be a battery mode besides a power supply mode, when the power supply mode of the rice storage device is the power supply mode through the battery, it can be understood that the battery can be gradually consumed along with the use of the rice storage device, at the moment, if the mode of establishing a bidirectional communication channel with the server for communication is adopted, the consumption of the battery is too high, so that the rice storage device needs to be frequently charged and is not beneficial to user experience. Similarly, the identity information sent by the rice storage device to the server carries the power supply mode of the rice storage device, and after the server judges the power supply mode, a one-way communication channel is established between the server and the rice storage device judged to be of the battery type. The one-way communication channel is used for the rice storage device to send information to the server, and the server cannot send information to the rice storage device, so that the information synchronization of the battery type rice storage device is facilitated.

The second specifying information transmitted from the rice storage device to the server includes the rice storage amount information of the rice storage device and the remaining battery amount information. Similarly, the rice storage amount of the rice storage device changes along with the use of the rice storage device, and the server can analyze the rice using habit of the user according to the rice storage amount, so that an analysis result aiming at the rice using habit of the user is obtained. The analysis result can be used for generating prompt information aiming at the rice habit of the user for the user, such as prompting the user to supplement rice in the rice storage device. Similarly, the server can analyze the battery remaining amount information to prompt the user to charge or replace the battery in time when the battery remaining amount is too low.

Fig. 4 is a schematic flow chart illustrating an implementation of electric quantity prompting by another remote control method of a rice storage device according to an embodiment of the present invention.

Referring to fig. 4, in an embodiment of the present invention, the method further comprises: operation 401, determining whether the battery remaining amount information meets a prompt threshold; in operation 402, when it is determined that the battery remaining amount information satisfies the prompt threshold, a prompt instruction is generated; in operation 403, a prompt instruction is sent to the server through the unidirectional communication channel to instruct the server to prompt the power shortage.

The method can prompt the user in time under the condition that the battery allowance is too low, so that the user can conveniently charge the rice storage device or replace the battery in time. The method comprises the steps that the rice storage device obtains battery residual amount information corresponding to the rice storage device, wherein the battery residual amount information can be obtained through detection of the electric quantity detection device. The prompting threshold is used for representing the lowest threshold of the electric quantity required by normal use of the rice storage device, namely when the battery allowance of the rice storage device meets the prompting threshold, the battery allowance of the rice storage device can be considered to be incapable of being used for subsequent operation of the rice storage device. In operation 402 of the method, when it is determined that the remaining battery level information satisfies the prompt threshold, a prompt instruction is generated to prompt that the battery level is insufficient, so that the user can charge or replace the battery in time. Specifically, the rice storage device sends a prompt instruction to the server through the one-way communication channel, and the server can forward the prompt instruction to the user terminal so as to achieve the purpose of timely users. In another embodiment, the analysis of the remaining battery level may be performed by the server, that is, the server may generate the prompt instruction when determining whether the remaining battery level information satisfies the prompt threshold value when receiving the remaining battery level information from the rice discharging device, and when determining that the remaining battery level information satisfies the prompt threshold value.

Another aspect of an embodiment of the present invention provides a method for remotely controlling a rice storage apparatus, the method being applied to a server, the method comprising: firstly, receiving a communication link request from a rice storage device, wherein the communication link request comprises identification information corresponding to the rice storage device; then, judging whether the rice storage device is a power supply type rice storage device or not according to the identity identification information; then, under the condition that the rice storage device is judged to be the power supply type rice storage device, a bidirectional communication channel is established with the rice storage device; thereafter, first specifying information containing information on the amount of rice stored in the rice storage device is received from the rice storage device through the bidirectional communication channel.

The remote control method provided by the embodiment of the invention is used for establishing the bidirectional communication channel between the power supply type rice storage device and the server after confirming that the power supply mode of the rice storage device is power supply, and under the condition that the power supply mode of the rice storage device is power supply, the electric quantity used for establishing the bidirectional communication channel does not influence the use state of the rice storage device. The bidirectional communication channel has the characteristic of convenient communication, information can be transmitted to the other end from any end of the rice storage device and the server through the bidirectional communication channel, the interaction of the information is facilitated, and therefore the transmission of various specific information can be realized through the bidirectional communication channel.

The method comprises the steps that a rice storage device sends a communication link request to a server to request for establishing a communication channel between the server and the rice storage device, wherein the communication link request comprises identification information corresponding to the rice storage device, and the identification information comprises but is not limited to the power supply type of the rice storage device, such as a power supply type rice storage device and a battery type rice storage device. When the plurality of rice storage devices are in communication connection with the server, the identification information can also comprise a specific number corresponding to each rice storage device, so that the server can distinguish different rice storage devices conveniently. The specific number can be numbered according to the power supply type of the rice storage device, and further can be any one of other number forms such as a two-dimensional code and a number.

The server judges the power supply type of the rice storage device according to the identification information of the rice storage device, and determines the type of a communication channel established between the server and the rice storage device according to the type of the construction site. And sending a channel establishing instruction according to the established communication channel type to instruct the rice storage device to establish a communication channel with the server.

When the rice storage device is judged to be the power supply type rice storage device, namely the server judges that the rice storage device supplies power to the power supply according to the identity identification information, the server and the rice storage device establish a bidirectional communication channel. The bidirectional communication channel can be used for the rice storage device to send information to the server and also can be used for the server to send information to the rice storage device, and information interaction between the rice storage device and the server is facilitated. The user can send a control instruction to the rice storage device through the server, and according to the specific control content of the control instruction, the user can control the rice storage device to at least perform operations such as rice storage amount information query, remote rice discharge and the like.

Also, the server may receive first specification information from the rice storage device through the bidirectional communication channel, the first specification information containing rice storage amount information of the rice storage device. The first specification information may be consumed rice amount by the rice storage device, and may be date information corresponding to the stored rice amount information and the consumed rice amount. The server may store the first specific information for later use, may analyze the first specific information, and may further analyze the first specific information in combination with previously stored history specific information. Through different analysis methods, the server can perform targeted analysis on different rice storage devices according to different first specified information so as to obtain an analysis result with higher matching degree with the individual habits of the user. The first specific information may also be forwarded to the user terminal by the server, such as: the mobile phone is used for prompting the running state of the rice storage device for the user. The server can also send a control instruction to the rice storage device through a bidirectional communication channel so as to realize the purpose of remotely controlling the rice storage device.

In the embodiment of the present invention, the server is further communicatively connected to a user terminal, and correspondingly, the method further includes: operation 501, receiving a remote rice outlet instruction from a user terminal, and forwarding the remote rice outlet instruction to a rice storage device through a bidirectional communication channel, wherein the remote rice outlet instruction comprises a specified rice outlet amount; operation 502, receiving a feedback result sent by the rice storage device through the bidirectional communication channel, wherein the feedback result is used for representing that the rice discharging state of the rice storage device is that rice discharging is finished or is not finished; and operation 503, generating a prompt message according to the feedback result, and sending the prompt message to the user terminal to prompt the user of the rice discharging state of the rice storage device.

The server is also in communication connection with a user terminal, so that three-party interaction among the rice storage device, the server and the user terminal is realized, and the user terminal can be a mobile phone. The user realizes the remote control to storing up the rice device through the software that corresponds with storing up the rice device in the control cell-phone, and is concrete, when the user need carry out remote control to storing up the rice device, user terminal gathers user's gesture or other instruction information, generates the long-range instruction of going out rice that corresponds, goes out the rice instruction with long-range sending to the server, then the server sends long-range instruction of going out rice to storing up the rice device through two-way communication channel with long-range instruction of going out rice to instruct to store up the rice device and go out rice. After the rice storage device receives the remote rice discharging instruction, rice discharging processing is carried out according to the specified rice discharging amount in the remote rice discharging instruction, and it can be understood that the rice discharging processing result comprises finished rice discharging and unfinished rice discharging.

The rice storage device sends a feedback result to the server through the bidirectional communication channel so as to inform the server of the rice storage device of the rice output processing result. When the rice discharging processing does not meet the fault, the finished rice corresponding to the result is fed back, and when the rice discharging processing result is that the rice discharging is not finished, the possible reason is that the rice storage device is in fault or the rice storage allowance in the rice storage device does not meet the rice discharging amount. Based on the above, when the rice discharging state of the rice storage device represented by the feedback result is the unfinished rice discharging state, the feedback result further comprises the reason of the unfinished rice discharging, the reason of the unfinished rice discharging can be determined through a fault detection module arranged on the rice storage device, and the reasons comprise that the rice storage amount does not meet the rice discharging amount, the device is in fault and the like. The rice storage amount can be determined by arranging a margin detection module on the rice storage device. Device failure may be determined by a failure detection module.

After the server obtains the feedback result, the feedback result can be directly forwarded to the user terminal, and the feedback result can also be processed to generate prompt information and send the prompt information to the user terminal so as to prompt the user of the operation result of the rice outlet operation. Further, when the rice discharging state is the incomplete rice discharging state, the prompt message generated by the server may include an alarm message to give an alarm to the user in time, so that the user can conveniently deal with the fault in time.

In an embodiment of the present invention, the method further comprises: firstly, under the condition that the rice storage device is judged not to be a power supply type rice storage device, a communication channel is established with the rice storage device but is communicated with the rice storage device; then, second specifying information containing information on the amount of stored rice and information on the remaining amount of the battery of the rice storage device is received from the rice storage device through the one-way communication channel.

When the server judges that the rice storage device is not a power supply type rice storage device, namely the rice storage device is of a battery type, the consumption of the battery is too high due to the adoption of a mode of establishing a bidirectional communication channel with the server for communication, so that the rice storage device needs to be charged frequently, and the user experience is not facilitated. When the power supply mode of the rice storage device is battery power supply, the method establishes a one-way communication channel with the server. The one-way communication channel is used for the rice storage device to send information to the server, and the server cannot send information like the rice storage device.

The server receives second specifying information from the rice storage device, the second specifying information including rice storage amount information and remaining battery amount information of the rice storage device. Similarly, the rice storage amount of the rice storage device changes along with the use of the rice storage device, and the server can analyze the rice using habit of the user according to the rice storage amount, so that an analysis result aiming at the rice using habit of the user is obtained. The analysis result can be used for generating prompt information aiming at the rice habit of the user for the user, such as prompting the user to supplement rice in the rice storage device. Similarly, the server can analyze the battery remaining amount information to prompt the user to charge or replace the battery in time when the battery remaining amount is too low.

In an embodiment of the present invention, the method further comprises: receiving a prompt instruction from the rice storage device through a one-way communication channel; and forwarding a prompt instruction to the user terminal to prompt that the electric quantity of the rice storage device is insufficient.

Fig. 5 is a schematic view of an implementation module of a rice storage device according to an embodiment of the invention.

Referring to fig. 5, another aspect of the embodiment of the present invention provides a rice storage device, including: a first sending module 501, configured to send a communication link request to a server, where the communication link request includes identity information corresponding to a rice storage device; a first receiving module 502, configured to receive a channel establishment instruction from a server; a first establishing module 503, configured to establish a bidirectional communication channel with the server when the identification information is used to represent that the rice storage device is a power-type rice storage device; the first sending module 501 is further configured to send first specifying information to the server through the bidirectional communication channel, where the first specifying information includes rice storage amount information of the rice storage device.

In this embodiment of the present invention, the first receiving module 502 is further configured to receive a remote rice-discharging instruction from the server through the bidirectional communication channel, where the remote rice-discharging instruction includes a specified rice-discharging amount; the apparatus further comprises: a rice output feedback module 504, configured to perform rice output processing according to the specified rice output amount, and generate a feedback result corresponding to the rice output processing; the first sending module 501 is further configured to send a feedback result to the server through the bidirectional communication channel, where the feedback result is used to indicate that the rice discharging status of the rice storage device is that rice discharging is completed or not completed.

In this embodiment of the present invention, the first establishing module 503 is further configured to establish a one-way communication channel with the server when the identification information is used to characterize the rice storage device as a battery-type rice storage device; the first sending module 504 is further configured to send second specifying information to the server through the unidirectional communication channel, where the second specifying information includes information on a rice storage amount of the rice storage device and information on remaining battery capacity.

In an embodiment of the present invention, the rice storage apparatus further comprises: a first determining module 505, configured to determine whether the battery remaining amount information meets a prompt threshold; a first generating module 506, configured to generate a prompt instruction when it is determined that the battery remaining amount information satisfies the prompt threshold; the first sending module 501 is further configured to send a prompt instruction to the server through the unidirectional communication channel to instruct the server to prompt the power shortage.

Fig. 6 is a schematic diagram of an implementation module of a server according to an embodiment of the present invention.

Referring to fig. 6, another aspect of the present invention provides a server, where the server includes: a second receiving module 601, configured to receive a communication link request from the rice storage device, where the communication link request includes identification information corresponding to the rice storage device; a judging module 602, configured to judge whether the rice storage device is a power-type rice storage device according to the identity information; a second establishing module 603 for establishing a two-way communication channel with the rice storage device when it is determined that the rice storage device is a power type rice storage device; the second receiving module 601 is further configured to receive first specific information from the rice storage device through the bidirectional communication channel, where the first specific information includes information on the amount of rice stored in the rice storage device. A second sending module 605, configured to send the remote control command to the rice storage device through the bidirectional communication channel.

In the embodiment of the present invention, the server is further communicatively connected to a user terminal, and correspondingly, the second receiving module 601 is further configured to receive a remote rice-discharging instruction from the user terminal, and forward the remote rice-discharging instruction to the rice storage device through the bidirectional communication channel, where the remote rice-discharging instruction includes a specified rice-discharging amount; the second receiving module 601 is further configured to receive a feedback result sent by the rice storage device through the bidirectional communication channel, where the feedback result is used to indicate that the rice discharge state of the rice storage device is rice discharge completion or rice discharge incompletion; the server further comprises a second generating module 604, configured to generate a prompt message according to the feedback result, and send the prompt message to the user terminal, so as to prompt the user of the rice output state of the rice storage device.

In the embodiment of the present invention, the second establishing module 603 is further configured to establish a communication channel with the rice storage device but to the communication channel when it is determined that the rice storage device is not the power-type rice storage device; the second receiving module 601 is further configured to receive second specific information from the rice storage device through the unidirectional communication channel, where the second specific information includes information on the rice storage amount of the rice storage device and information on the remaining amount of the battery.

In the embodiment of the present invention, the second receiving module 601 is further configured to receive a prompt instruction from the rice storage device through the unidirectional communication channel; the server further comprises a second sending module 605, configured to forward a prompt instruction to the user terminal to prompt that the power of the rice storage device is insufficient.

Fig. 7 is a schematic view of an implementation module of a remote control system of a rice storage device according to an embodiment of the present invention.

Another aspect of an embodiment of the present invention provides a remote control system for a rice storage device, the system including a rice storage device and a server; the rice storage device comprises: the first sending module is used for sending a communication link request to the server, wherein the communication link request comprises identity identification information corresponding to the rice storage device; the first receiving module is used for receiving a channel establishing instruction from the server; the first establishing module is used for establishing a bidirectional communication channel with the server under the condition that the identity identification information is used for representing that the rice storage device is a power supply type rice storage device; the first sending module is also used for sending first specified information to the server through the bidirectional communication channel, and the first specified information comprises the rice storage amount information of the rice storage device; the server includes: the second receiving module is used for receiving a communication link request from the rice storage device, and the communication link request contains identity identification information corresponding to the rice storage device; the judging module is used for judging whether the rice storage device is a power supply type rice storage device or not according to the identity identification information; the second establishing module is used for establishing a bidirectional communication channel with the rice storage device under the condition that the rice storage device is judged to be the power supply type rice storage device; the second receiving module is also used for receiving first specified information from the rice storage device through the bidirectional communication channel, and the first specified information contains the rice storage amount information of the rice storage device.

In the embodiment of the present invention, the system further includes a user terminal, and the user terminal includes: a third sending module 701, configured to send a remote rice output instruction to the server.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A remote control method of a rice storage device, the method being applied to a rice storage device, the method comprising:

sending a communication link request to a server, wherein the communication link request comprises identification information corresponding to the rice storage device;

receiving a channel establishing instruction from a server;

when the identity identification information is used for representing that the rice storage device is a power supply type rice storage device, a bidirectional communication channel is established with the server;

and sending first specified information to the server through the bidirectional communication channel, wherein the first specified information comprises the rice storage amount information of the rice storage device.

2. The method of claim 1, further comprising:

receiving a remote rice outlet instruction from a server through a bidirectional communication channel, wherein the remote rice outlet instruction comprises a specified rice outlet amount;

carrying out rice discharging treatment according to the specified rice discharging amount to generate a feedback result corresponding to the rice discharging treatment;

and sending a feedback result to the server through the bidirectional communication channel, wherein the feedback result is used for representing that the rice discharging state of the rice storage device is the finished rice discharging state or the unfinished rice discharging state.

3. The method of claim 1, further comprising:

when the identity identification information is used for representing that the rice storage device is a battery type rice storage device, a one-way communication channel is established with the server;

and sending second specified information to the server through the one-way communication channel, wherein the second specified information comprises the rice storage amount information and the battery allowance information of the rice storage device.

4. The method of claim 3, further comprising:

judging whether the battery residual amount information meets a prompt threshold value;

generating a prompt instruction under the condition that the battery residual capacity information is judged to meet a prompt threshold value;

and sending a prompt instruction to a server through the one-way communication channel so as to prompt that the electric quantity of the rice storage device is insufficient.

5. A remote control method of a rice storage device, wherein the method is applied to a server, and the method comprises the following steps:

receiving a communication link request from a rice storage device, wherein the communication link request comprises identification information corresponding to the rice storage device;

judging whether the rice storage device is a power supply type rice storage device or not according to the identity identification information;

when the rice storage device is judged to be the power supply type rice storage device, a bidirectional communication channel is established with the rice storage device;

receiving first specification information from the rice storage device through the bidirectional communication channel, wherein the first specification information contains rice storage amount information of the rice storage device.

6. The method of claim 5, further comprising:

when the rice storage device is judged not to be the power supply type rice storage device, a one-way communication channel is established with the rice storage device;

receiving second specified information from the rice storage device through the one-way communication channel, wherein the second specified information comprises rice storage amount information and battery allowance information of the rice storage device.

7. The method of claim 5, wherein the server is further communicatively connected with a user terminal,

correspondingly, the method further comprises the following steps:

receiving a remote rice outlet instruction from a user terminal, and forwarding the remote rice outlet instruction to the rice storage device through a bidirectional communication channel, wherein the remote rice outlet instruction comprises a specified rice outlet amount;

receiving a feedback result sent by the rice storage device through the bidirectional communication channel, wherein the feedback result is used for representing that the rice discharging state of the rice storage device is the finished rice discharging state or the unfinished rice discharging state;

and generating prompt information according to the feedback result, and sending the prompt information to a user terminal so as to prompt the user of the rice discharging state of the rice storage device.

8. A rice storage device, comprising:

the first sending module is used for sending a communication link request to a server, wherein the communication link request comprises identity identification information corresponding to the rice storage device;

the first receiving module is used for receiving a channel establishing instruction from the server;

the first establishing module is used for establishing a bidirectional communication channel with the server under the condition that the identity identification information is used for representing that the rice storage device is a power supply type rice storage device;

the first sending module is further configured to send first specific information to the server through the bidirectional communication channel, where the first specific information includes information on the rice storage amount of the rice storage device.

9. A server, the server comprising:

the second receiving module is used for receiving a communication link request from the rice storage device, wherein the communication link request contains identity identification information corresponding to the rice storage device;

the judging module is used for judging whether the rice storage device is a power supply type rice storage device or not according to the identity identification information;

the second establishing module is used for establishing a bidirectional communication channel with the rice storage device under the condition that the rice storage device is judged to be the power supply type rice storage device;

the second receiving module is further configured to receive first specifying information from the rice storage device through the bidirectional communication channel, where the first specifying information includes information on the amount of stored rice of the rice storage device.

10. A remote control system of a rice storage device, the system comprising a rice storage device and a server;

the rice storage device comprises:

the first sending module is used for sending a communication link request to a server, wherein the communication link request comprises identity identification information corresponding to the rice storage device;

the first receiving module is used for receiving a channel establishing instruction from the server;

the first establishing module is used for establishing a bidirectional communication channel with the server under the condition that the identity identification information is used for representing that the rice storage device is a power supply type rice storage device;

the first sending module is further configured to send first specific information to the server through the bidirectional communication channel, where the first specific information includes information on the rice storage amount of the rice storage device;

the server includes:

the second receiving module is used for receiving a communication link request from the rice storage device, wherein the communication link request contains identity identification information corresponding to the rice storage device;

the judging module is used for judging whether the rice storage device is a power supply type rice storage device or not according to the identity identification information;

the second establishing module is used for establishing a bidirectional communication channel with the rice storage device under the condition that the rice storage device is judged to be the power supply type rice storage device;

the second receiving module is further configured to receive first specifying information from the rice storage device through the bidirectional communication channel, where the first specifying information includes information on the amount of stored rice of the rice storage device.

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