CN112540543B - Remote control method, terminal equipment, container cover assembly and container - Google Patents

Abstract

The embodiment of the application provides a remote control method, terminal equipment, a container cover assembly and a container. In the embodiment of the application, an intelligent container cover assembly is provided, in a scene that a plurality of objects need to be put in, a plurality of container cover assemblies are respectively covered on containers provided with different objects, and the plurality of container cover assemblies are matched with terminal equipment, a user can be sequentially prompted to put in corresponding objects according to object putting parameters according to instructions sent by the terminal equipment, so that the user can finish object putting in proper putting time according to a correct putting sequence, putting errors are avoided, and intelligent object putting is realized.

Description

Remote control method, terminal equipment, container cover assembly and container

Technical Field

The application relates to the technical field of internet of things, in particular to a remote control method, terminal equipment, a container cover assembly and a container.

Background

Along with the rapid development of intelligent kitchen ware products, more and more intelligent kitchen ware products are applied to people's life, especially to the user who is not good at the culinary art, can utilize intelligent kitchen ware products study culinary art skill, make the food that oneself wanted. For example, quantitative oilcan utilizes the silica gel sealing washer, and the measurement is pressed in collocation, can be with the use amount ration of culinary art in-process oil, can assist the nimble oil consumption of controlling the culinary art in-process of user. However, the intelligent degree of the current intelligent kitchen ware product can not meet the requirement of the user on intelligent cooking.

Disclosure of Invention

A plurality of aspects of the application provide a remote control method, terminal equipment, container lid subassembly and container to richen the function of intelligent kitchen utensils and appliances product, satisfy the more culinary art demands of user.

The embodiment of the application provides a remote control method, which comprises the following steps: acquiring structured data, wherein the structured data comprises release parameters of at least one object; responding to a first configuration operation of a user, configuring at least one container cover component corresponding to the at least one object, wherein each container cover component is detachably covered on a container containing the corresponding object; and sending a first instruction to at least one container cover assembly according to the release parameters of at least one object, so that a user can release at least one object according to first prompt information sent by at least one container cover assembly.

The embodiment of the application also provides a remote control method which is suitable for a container cover assembly, the container cover assembly is detachably covered on a container, and the container cover assembly comprises an outlet, a prompting module, a first sensor and a display screen; the method comprises the following steps: receiving a first instruction of a throwing object sent by a terminal device; controlling the prompt module to send out first prompt information according to a first instruction so as to prompt a user to put in an object in a container with a container cover assembly; collecting the amount of the object thrown through the outlet through the first sensor in response to the operation of throwing the object by a user; and displaying the delivered object quantity on the display screen to prompt the user of the delivered object quantity.

An embodiment of the present application further provides a terminal device, including: a processor and a memory storing a computer program; the processor to execute the computer program to: acquiring structured data, wherein the structured data comprises release parameters of at least one object; responding to a first configuration operation of a user, configuring at least one container cover component corresponding to the at least one object, wherein each container cover component is detachably covered on a container containing the corresponding object; and sending a first instruction to at least one container cover assembly according to the putting sequence among the at least one object, so that a user puts the at least one object according to first prompt information sent by the at least one container cover assembly.

Embodiments of the present application also provide a container lid assembly, include: the container cover body is detachably covered on the container; the container cover body is provided with an outlet and a first sensor; when the container cover body is covered on the container, the outlet is communicated with the cavity of the container and used for throwing the object in the container outwards; the first sensor is used for measuring the amount of the object thrown through the outlet; the container cover body is also provided with a microprocessor, a communication assembly, a prompt module and a display screen; the microprocessor is used for receiving a first instruction of a throwing object sent by the terminal equipment through the communication component; controlling the prompt module to send out first prompt information according to the first instruction so as to prompt a user to put an object in the container; and displaying the amount of the object dropped through the outlet, which is measured by the first sensor, on the display screen.

An embodiment of the present application further provides a container, including: a container body and a container lid assembly; the container cover assembly comprises a container cover body which is detachably covered on the container; the container cover body is provided with an outlet and a first sensor, and the outlet is communicated with the cavity of the container when the container cover body is covered on the container and used for throwing the object in the container outwards; the first sensor is used for measuring the amount of the object thrown through the outlet; the container cover body is also provided with a microprocessor, a communication assembly, a prompt module and a display screen; the microprocessor is used for receiving a first instruction of a throwing object sent by the terminal equipment through the communication component; controlling the prompt module to send out first prompt information according to the first instruction so as to prompt a user to put an object in the container; and displaying the amount of the object dropped through the outlet, which is measured by the first sensor, on the display screen.

In the embodiment of the application, an intelligent container cover assembly is provided, a plurality of container cover assemblies are respectively covered on containers filled with different objects, the container cover assemblies can be matched with terminal equipment in a scene needing various objects, in the process of putting the objects by a user, the user is prompted to put corresponding objects according to instructions sent by the terminal equipment and object putting parameters, putting errors are avoided, and intelligent object putting is realized.

Furthermore, the container cover assembly of the embodiment of the application can be matched with terminal equipment capable of providing structured data, and sequentially informs a user of putting objects with standard putting quantities at proper putting time according to a correct putting sequence, so that the requirement of the user on intelligent object putting is met.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1a is a schematic structural diagram of an object delivery control system according to an embodiment of the present application;

fig. 1b is a schematic structural diagram of another object delivery control system according to an embodiment of the present application;

FIG. 1c is a schematic view of a display screen of a cover assembly according to an embodiment of the present disclosure;

fig. 2a is a flowchart of a remote control method according to an embodiment of the present application;

FIG. 2b is a flow chart of another remote control method provided by the embodiments of the present application;

fig. 3 is a schematic structural diagram of a terminal device according to an embodiment of the present application;

FIG. 4a is a schematic structural diagram of a container lid assembly according to an embodiment of the present disclosure;

FIG. 4b is a schematic structural diagram of a container according to an embodiment of the present disclosure;

FIG. 4c is a schematic diagram of a container lid assembly for covering a container according to an embodiment of the present disclosure;

fig. 4d is a schematic structural view of another container cap assembly covering a container according to an embodiment of the present disclosure.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, 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 application.

An embodiment of the present application provides an object delivery control system, and fig. 1a is a schematic structural diagram of the object delivery control system provided in the embodiment of the present application, and as shown in fig. 1a, an object delivery control system 100 includes a cloud server 10, a container cover assembly 20, a container 30, a terminal device 10, and other terminal devices 50. The terminal device 40 and the other terminal devices 50 may be any terminal devices capable of providing a human-computer interaction interface and supporting human-computer interaction operations, and may be, for example, a mobile phone, a tablet computer, a notebook computer, a desktop computer, or the like. A data configuration interface may be provided in the terminal device 40 and the other terminal devices 50, as shown in fig. 1a, the terminal device 40 may obtain structured data configured by the user through the data interface, where the structured data includes delivery parameters of at least one object, where the at least one object is an object contained in the container 30 and is an object that the user needs to deliver according to the delivery parameters in the structured data.

Further, the terminal device 40 can also obtain at least one container cover assembly 20 corresponding to at least one object configured by the user when configuring the structured data, wherein each container cover assembly is detachably covered on the container 30 containing the corresponding object. Further, in the case of acquiring the data, as shown in fig. 1a, the terminal device 40 may send a first instruction to the at least one container cover assembly 20 according to the delivery parameter of the at least one object, so that the user delivers the at least one object according to the first prompt information sent by the at least one container cover assembly 20.

As shown in FIG. 1a, the container lid assembly 20 removably covers the container 30 and includes an outlet 22, a reminder module 26, a first sensor 23, and a display screen 27. When the container cover assembly 20 receives the first instruction for releasing the object sent by the terminal device 40, the prompting module 26 can be controlled to send out a first prompting message according to the first instruction so as to prompt the user to release the object in the container 30 where the container cover assembly 20 is located. Further, when the container cover assembly 20 responds to the user performing the operation of dispensing the object according to the first prompt message, the amount of the object dispensed through the outlet 22 may be collected by the first sensor 23 and displayed on the display screen 27 to prompt the user of the amount of the object dispensed.

In an optional embodiment of the present application, the terminal device 40 may further obtain a delivery parameter of at least one object configured by the user, and generate the structured data according to the delivery parameter of the at least one object. The releasing parameters comprise at least one of releasing sequence among at least one object, releasing time points, releasing time intervals and standard releasing quantity corresponding to each object. When the terminal device 40 sends the first instruction to the at least one container cover assembly 20 according to the release parameter of the at least one object, if the release parameter includes a release sequence between the at least one object, the terminal device 40 may send the first instruction to the at least one container cover assembly 20 in sequence according to the release sequence between the at least one object, so that the user releases the at least one object according to the first prompt information sent by the at least one container cover assembly 20; if the release parameters include release time points or release time intervals between at least one object, the terminal device 40 may sequentially send a first instruction to the at least one container cover assembly 20 according to the release time points or release time intervals between at least one object, so that the user releases the at least one object according to a first prompt message sent by the at least one container cover assembly; if the delivery parameters include the standard delivery amount corresponding to at least one object, the first instruction sent by the terminal device 40 to the at least one container lid assembly 20 may include the standard delivery amount corresponding to the object, so that the container lid assembly 20 corresponding to the object displays the standard delivery amount to the user.

Further, as shown in fig. 1a, for the object currently being placed by the user, the container cover assembly 20 may send the amount of the object placed by the user to the terminal device 40, so that the terminal device 40 sends a second instruction indicating to stop the placing according to the amount of the object placed. After the terminal device 40 receives the delivered object amount returned by the container cover assembly 20, when it can be determined that the delivered object amount reaches the standard delivery amount corresponding to the object according to the delivered object amount, as shown in fig. 1a, the terminal device 40 can also send a second instruction to the container cover assembly 20 corresponding to the object, so that the user can stop the delivery of the object according to a second prompt message sent by the container cover assembly 20 corresponding to the object.

Further optionally, as shown in fig. 1a, the container cover assembly 20 further includes a second sensor 28, and for an object currently being delivered by the user, the container cover assembly 20 may further acquire the use state of the container cover assembly 20 through the second sensor 28, as shown in fig. 1a, the container cover assembly 20 may further transmit the use state to the terminal device 40, so that the terminal device 40 transmits a second instruction indicating to stop the delivery according to the use state. After the terminal device 40 receives the container cover assembly 20 and returns to the use state, when it is determined that the container cover assembly 20 corresponding to the object is in the release stop state according to the use state, as shown in fig. 1a, the terminal device 40 may send a second instruction to the container cover assembly 20 corresponding to the object, so that the user stops releasing the object according to a second prompt message sent by the container cover assembly 20 corresponding to the object.

The object delivery control system 100 of the present embodiment may vary in the structured data and the container lid assembly 20 and the container 30 depending on the application scenario. For example, the object delivery control system 100 of the present embodiment may be applied to a cooking scenario, in which the container 30 may hold a seasoning container, and the container cover assembly 20 may be a seasoning cover covering the container 30; accordingly, the structured data may be an electronic recipe and the object may be a seasoning.

In order to solve the problem faced in the cooking scenario, the object delivery control system provided by the embodiment of the present application may be applied to the cooking scenario. In the cooking process of a user, the intelligent container cover assembly can be matched with a terminal device provided with an electronic menu, the user is sequentially prompted to put corresponding seasonings according to putting parameters of the seasonings contained in the electronic menu according to instructions sent by the terminal device, the user can put seasonings corresponding to standard putting quantities in proper putting time according to a correct putting sequence, putting errors are avoided, and the user is guided to master cooking skills. How the embodiments of the present application solve the technical problem in the cooking scenario is described in detail below with reference to the accompanying drawings.

Fig. 1b is a schematic structural diagram of an object delivery control system according to an embodiment of the present application, and as shown in fig. 1b, the object delivery control system 100 includes: cloud server 10, container lid assembly 20, container 30, terminal device 40, and other terminal devices 50.

In a cooking scenario, an object for putting in may be a seasoning for cooking, for example, when a user cooks a food, a user often needs to put in various seasonings such as oil, salt, chicken essence, soy sauce, vinegar, cooking wine, etc., and the system 100 provided by this embodiment may assist the user to reasonably put in the seasonings to cook delicious and healthy dishes. The operation principle of the object delivery control system 100 according to the embodiment of the present application applied to the cooking scenario will be described in detail below.

In a cooking scenario where multiple seasonings are dispensed, the seasonings may be contained in different containers 30, i.e., the container 30 is primarily used to contain seasonings. To facilitate the pouring of the seasoning, the container 30 is provided with a seasoning outlet, which can be closed by the container cap assembly 20 in case that the seasoning is not used, in order to prevent the seasoning from scattering. In the object delivery control system 100, at least one container 30 and one container cover assembly 20 are included; the number of container lid assemblies 20 and containers 30 is related to the amount of seasoning to be dispensed. The container lid assembly 20 of this embodiment functions to seal the seasoning outlet of the container 30, and in addition, is an intelligent container lid, including some intelligent components, as described below.

As shown in fig. 1b, each container cover assembly 20 includes a container cover body 21, and the container cover body 21 can be detachably covered on one container 30; the container cover body 21 is provided with an outlet 22, and the outlet 22 is communicated with the cavity of the container 30 when the container cover body 21 is covered on the container 30, and is used for throwing the seasonings in the container 30 outwards. In addition, the container cover body 21 is provided with a first sensor 23 for detecting the amount of the seasoning to be put in, a communication component 25 for communicating with other devices, a prompting module 26 for prompting a user to put in the seasoning, a display screen 27 capable of displaying the amount of the seasoning to be put in, and a microprocessor 24 for intelligently controlling the container cover component 20.

The container cover assembly 20 can communicate with the terminal device 40 through the communication assembly 25, the terminal device 40 can send a control instruction to the container cover assembly 20, the container cover assembly 20 can receive the control instruction of the terminal device 40, and a user is prompted to put seasonings according to the control instruction, so that intelligent seasoning putting is achieved.

The cloud server 10 is configured to store an electronic recipe required in a cooking scene, where the electronic recipe includes at least one seasoning to be dispensed. Optionally, the cloud server 10 may also provide the stored electronic menu to the terminal device 40 and the other terminal devices 50. After the terminal device 40 acquires the electronic menu from the cloud server 10, the container cover assembly 20 can be controlled to release the seasonings in the electronic menu. It should be noted that the electronic menu may be generated in real time by the user through the terminal device 40, in addition to being acquired from the cloud server 10 by the terminal device 40, and the manner of generating the electronic menu is described in detail in the following embodiments. The following description focuses on the process of intelligent seasoning delivery by the terminal device 40 and the container lid assembly 20.

After the terminal device 40 obtains the electronic recipes, the user can detachably cover the at least one container cover assembly 20 on the containers 30 containing the at least one seasoning, respectively, according to the electronic recipes. Each container cover assembly 20 has a unique identifier, such as the serial number, name, or factory ID of the container cover assembly 20. It should be noted that each container lid assembly 20 can have a unique factory ID, number or name, but need not have a unique identifier. The number or name of each container lid assembly 20 may be factory default or may be flexibly configured by the user as desired during use. For example, when a user closes one of the container lid assemblies 20 onto a container 30 carrying peanut oil, the container lid assembly 20 may be designated as an arachis oil cap; when a user closes a container cover assembly 20 on a container 30 for chicken essence, the container cover assembly 20 may be named a chicken essence bottle cover, and so on. It is also known to the user which container 30 contains which seasoning and which container cover assembly 20 is closed over the container 30 containing which seasoning.

Thereafter, the user configures the at least one flavoring with the at least one container lid assembly 20 on the terminal device 40 by means of the configuration function provided by the terminal device 40. In this embodiment, the terminal device 40 is provided with a configuration function, such as providing a configuration interface to the user, where at least one seasoning is displayed with at least one container lid assembly 20, and the user can configure the unique identifier of each container lid assembly 20 in the terminal device 40 and correspond the container lid assembly 20 to the seasoning according to the correspondence between the container lid assembly 20 and the container 30 and the correspondence between the container 30 and the seasoning. The terminal device 40 is operable to configure at least one container lid assembly 20 corresponding to at least one flavoring in response to a first configuration operation by a user. Thus, according to the feeding parameters of at least one seasoning, when a certain seasoning needs to be fed, the terminal device 40 can send a first instruction to the corresponding container cover assembly 20 according to the corresponding relation, so that the container cover assembly 20 prompts a user to feed the seasoning according to the first instruction; the first instruction is an instruction for instructing a user to dispense a seasoning.

After the terminal device 40 sends a first instruction to a certain container cover assembly 20, the communication assembly 25 of the container cover assembly 20 receives the first instruction for putting in the seasoning sent by the terminal device 40 and reports the first instruction to the microprocessor 24; the microprocessor 24 controls the prompt module 26 to send a first prompt message according to the first instruction, and prompts the user to start dispensing the seasoning in the container 30 to which the container cover assembly 20 belongs. The microprocessor 24 of the container cover assembly 20 may be a Central Processing Unit (CPU), a Graphics Processing Unit (CPU), a Micro Controller Unit (MCU), or the like. Reminder module 26 may be any module or device capable of outputting reminder information to a user. For example, if the prompting module 26 is a voice broadcasting device, the user may be prompted in a voice manner. For another example, if the prompting module 26 is a buzzer, the user may be prompted by a whistle. For another example, the prompting module 26 may be an LED lamp, and may prompt the user in a lighting manner, wherein the LED lamp may be one, may be an LED lamp array, or may be an annular LED lamp, and fig. 1b illustrates an annular LED lamp surrounding the container cover assembly 20, and in a specific embodiment, the annular LED lamp may be replaced by another form. In alternative embodiments, the manner of the prompting message is not limited, and the light prompting message may be from no light to light, or may be long light, or may be continuously flashed for several times, and so on. The sound prompt information may be from silent to sound, or long sound, or intermittent sound prompt for several times, or a combination of sound and light, as long as the sound prompt function is provided.

After receiving the first prompt message sent by the container cover assembly 20, the user can select the container 30 in which the container cover assembly 20 sending the first prompt message is positioned, and the seasoning in the container 30 is thrown outwards. During the process of dispensing seasoning according to the first prompt, seasoning enters the outlet 22 of the container cover assembly 20 from the seasoning outlet of the container 30 and is finally dispensed to a designated seasoning dispensing location, such as a cooking pot. In this process, the first sensor 23 may measure the amount of seasoning that has been dosed via the outlet 22. Alternatively, the first sensor 23 may be positioned at the outlet 22 or at the engagement of the container cover assembly 20 with the container 20. In addition, the first sensor 23 may vary depending on the flavor type. For example, if the flavoring is a liquid, the first sensor 23 may be a flow sensor, a level sensor, or a laser detector that measures the number of milliliters of liquid flavoring that has been dispensed; if the seasoning is solid or powdered, the sensor may be a weighing sensor that measures the grams of solid seasoning dispensed. Further, the first sensor 23 can report the measured amount of the seasoning to the microprocessor 24, and the microprocessor 24 displays the amount of the seasoning measured by the first sensor 23 to the user through the display 27, so that the user can see the amount of the seasoning through the display 27 to flexibly grasp the amount of the seasoning. Wherein the display 27 may be a circular, rectangular, or other shaped microdisplay positioned at or about the top of the container lid assembly 20, as shown in FIG. 1b for example where the display 27 is at the top of the container lid assembly 20.

In an embodiment of the present application, the release parameters may include at least one of a release sequence between at least one type of seasoning, a release time point, a release time interval, and a standard release amount for each type of seasoning. Based on this, the terminal device 40 can send a first instruction to the corresponding container lid assembly 20 according to at least one parameter of the order of release between the at least one seasoning, the point in time of release, the interval of release time, and the corresponding standard release amount for each seasoning. The standard adding amount refers to the amount of the seasonings which are added at most or the optimal adding amount of the seasonings. The standard input material may be expressed differently according to different seasoning properties, for example, the standard input amount of liquid seasoning is milliliters, and the standard input amount of solid or powder seasoning is grams.

For example, in an alternative embodiment, the dispensing parameters include a dispensing sequence between the at least one flavoring, the terminal device 40 may sequentially send a first instruction to the at least one container lid assembly 20 according to the dispensing sequence between the at least one flavoring, and the at least one container lid assembly 20 may sequentially receive the sent first instruction and issue a first prompt message to the user according to the received first instruction, so that the user can sequentially complete the dispensing of the at least one flavoring when prompted.

For another example, in another alternative embodiment, the dispensing parameters include a dispensing time point or a dispensing time interval between at least one seasoning, and the terminal device 40 may sequentially send a first instruction to the at least one container lid assembly 20 according to the dispensing time point or the dispensing time interval between the at least one seasoning, so that the user can dispense the at least one seasoning according to the first prompt message sent by the at least one container lid assembly 20. For example, the seasoning included in the electronic menu is at least one of oil, salt, sauce, vinegar, monosodium glutamate, cooking wine, and the like. Suppose that a user needs to use 5 seasonings when cooking a dish, one seasoning is required to be dispensed every 5 minutes on average during cooking, and the first seasoning is dispensed 20 minutes after the user starts cooking. After the user confirms on the terminal device 40 that the cooking is started, the terminal device starts timing, and when the time for putting the first seasoning is reached, that is, when the cooking is confirmed to be started by the user for 20 minutes, the terminal device 40 can send a first instruction to the container cover component 20 corresponding to the first seasoning to be put in, so that the user puts in the first seasoning according to a first prompt message sent by the container cover component 20 corresponding to the first seasoning. Further, the terminal device 40 may send the first instruction to the container lid assemblies 20 corresponding to the other 4 kinds of seasonings in sequence every 5 minutes, so that the users can put in the corresponding seasonings in sequence according to the sequence of the first prompt messages sent by the container lid assemblies 20 corresponding to the other 4 kinds of seasonings.

For another example, in another alternative embodiment, the dosing parameters include a standard dosing amount corresponding to at least one type of seasoning, and the terminal device 40 sends the standard dosing amount containing the corresponding type of seasoning to at least one container lid assembly 20, so that the corresponding container lid assembly 20 displays the standard dosing amount to the user. As shown by the interaction of the terminal device 40 with the container lid assembly 20 in fig. 1b, the terminal device 40 can send a standard shot size for the currently-being-dosed seasoning to the container lid assembly 20 corresponding to the seasoning, and the container lid assembly 20 corresponding to the seasoning receives the standard shot size for the seasoning sent by the terminal device 40 and displays the standard shot size to the user through its display screen 27.

For another example, in yet another alternative embodiment, where the dosing parameters include both a dosing sequence and a standard dosing amount, the terminal device 40 may send the first instructions to the at least one container lid assembly 20 in sequence based on the dosing sequence and the standard dosing amount between the at least one seasoning. The at least one container cover assembly 20 can sequentially receive the transmitted first instruction, send a first prompt message to the user according to the received first instruction, and display the standard input amount corresponding to the seasonings to the user, so that the user can sequentially complete the input of the at least one seasoning according to the standard input amount of each seasoning when prompted.

For another example, in yet another alternative embodiment, the dosing parameters include a dosing sequence, a time interval, and a standard dosing amount, and the terminal device 40 may send the first instructions to the at least one container lid assembly 20 in sequence according to the dosing sequence between the at least one flavoring, the time interval, and the standard dosing amount for each flavoring when the dosing time for each flavoring is reached. The at least one container cover assembly 20 can sequentially receive the transmitted first instructions, sequentially send first prompt information to the user according to the received first instructions and the putting sequence of the at least one seasoning, and display the standard putting amount corresponding to the seasoning to the user, so that the user can sequentially finish putting the at least one seasoning according to the standard putting amount of each seasoning when being prompted.

In the embodiment of the present application, the time when the terminal device 40 sends the standard input amount to the container lid unit 20 is not limited, and the terminal device 40 may send the first command to the container lid unit 20 corresponding to the seasoning, and may send the standard input amount corresponding to the seasoning to the container lid unit 20 corresponding to the seasoning together with the first command, or may send the standard input amount corresponding to the seasoning to the container lid unit 20 corresponding to the seasoning alone. If the terminal device 40 carries the standard input amount corresponding to the seasoning in the first instruction and sends the first instruction to the container cover assembly 20 corresponding to the seasoning, the container cover assembly 20 can analyze the standard input amount corresponding to the seasoning from the first instruction when receiving the first instruction, and the standard input amount corresponding to the seasoning is displayed on the display screen 27 while the control prompt module 26 sends the first prompt information to the user. If the terminal device 40 sends the first instruction and the standard input amount of the seasoning to the container cover assembly 20 corresponding to the seasoning through different communication processes, when the container cover assembly 20 corresponding to the seasoning receives the first instruction, the control module 26 sends the first prompt message to the user, when the standard input amount of the seasoning is received, and when the standard input amount of the seasoning is displayed on the display screen 27. In any way, the standard adding amount of the seasonings is displayed to the user through the display screen 27, and the user can know the maximum or optimal adding amount of each seasoning before adding the seasonings, so that the seasoning can be reasonably added by the user.

From the perspective of the container cover assembly 20, in case of receiving the first instruction and the standard dispensing amount of the seasoning transmitted from the terminal device 40 through the communication assembly 25, the microprocessor 24 may control the prompting module 26 to emit a first prompting message in the form of sound and/or light to the user according to the first instruction to prompt the user to dispense the seasoning in the corresponding container 30, and control the display 27 to display the standard dispensing amount of the seasoning to the user to prompt the user of the maximum or best dispensable seasoning amount. The user, hearing the first prompt from the prompt module 26, can know which container 30 should be filled with seasoning, and, by viewing the standard amount of filling shown on the display screen 27, can know how much seasoning can be filled at most or optimally.

Since the first sensor 23 can measure the amount of seasoning dispensed by the user during the dispensing of seasoning by the user, the container cover assembly 20 can send the dispensed amount of seasoning to the terminal device 40 through the communication assembly 25 for the terminal device 40 to send a second instruction indicating to stop dispensing according to the dispensed amount of seasoning, as shown by the interaction of the container cover assembly 20 with the terminal device in fig. 1 b. Further, the terminal device 40 may receive the amount of the seasoning dispensed by the user, which is returned by the container cover assembly 20 corresponding to the seasoning currently being dispensed, and determine whether the amount of the seasoning dispensed by the user reaches the corresponding standard dispensing amount according to the dispensed physical amount. If the terminal device 40 judges that the amount of the seasoning which is put in reaches the standard putting amount of the seasoning which is put in at present, the terminal device 40 needs to prompt the user to stop putting in the seasoning, and when the amount of the seasoning which is put in reaches the standard putting amount corresponding to the seasoning, the terminal device 40 sends a second instruction to the container cover component 20 corresponding to the seasoning, so that the user stops putting in the seasoning according to second prompt information sent by the container cover component 20 corresponding to the seasoning. The container cover assembly 20 can also receive a second instruction sent by the terminal device 40 through the communication assembly 25, and the microprocessor 24 controls the prompting module 26 to send a second prompting message according to the second instruction to prompt the user to stop dispensing the seasoning, wherein the second prompting message may be the same as or different from the first prompting message. For example, if the first prompt message is a light prompt and is long-bright, the second prompt message may be that the light is turned off when the terminal device 40 receives the second instruction. For another example, the first prompt message is a light prompt and flashes several times in a short time, the second prompt message may flash several times in the same manner when the terminal device 40 receives the second instruction, and a specific implementation manner is not limited.

In some optional embodiments of the present application, the container lid assembly 20 further comprises a second sensor 28, as shown in fig. 1b by the interaction between the container lid assembly 20 and the terminal device 40, the container lid assembly 20 can acquire the use status of the container lid assembly 20 by using the second sensor 28 and transmit the use status to the terminal device 40, so that the terminal device 40 transmits a second instruction indicating to stop the administration according to the use status of the container lid assembly 20. The use state can be a state that the container 30 corresponding to the container cover assembly 20 is taken up, suspended or put down during the process of putting the seasoning. For example, a container 30 corresponding to the container lid assembly 20 that is in a picked up or suspended state by a user indicates that the user may be dispensing seasoning, while a container 30 corresponding to the container lid assembly 20 that is in a suspended state to a dropped or dropped state indicates that the user may have stopped dispensing seasoning. Accordingly, the second sensor 28 may be a gravity sensor, an accelerometer, a gyroscope, or an IMU, among other sensors, capable of detecting the use status of the container lid assembly 20. Since the state of the container cover assembly 20 detected by the second sensor 28 can determine the state of seasoning dispensing by the user, the terminal device 40 receives the use state returned from the container cover assembly 20 corresponding to seasoning currently being dispensed, and if it is recognized that the container cover assembly 20 corresponding to seasoning is in the dispensing-stopped state according to the use state, transmits a second instruction to the corresponding container cover assembly 20 to stop dispensing seasoning by the user according to second prompt information transmitted from the container cover assembly 20 corresponding to seasoning. For the process of receiving the second instruction by the cover assembly 20 and sending the second prompt message to the user, reference is made to the above embodiments, and details are not repeated here.

Further, when the terminal device 40 determines the usage state of the container cover assembly 20, it may also determine whether the actual amount of seasoning dispensed by the user when the container cover assembly 20 is being lowered is the same as the corresponding standard amount of seasoning dispensed according to the amount of seasoning dispensed corresponding to the seasoning currently dispensed by the user. If the container cover component 20 is different from the standard input quantity corresponding to the seasoning, the standard input quantity corresponding to the seasoning is updated to be the actually input seasoning quantity, so that the corresponding seasoning can be input according to the updated standard input quantity when the user inputs the seasoning next time. Wherein the actual amount of seasoning dispensed is the amount of dispensed seasoning returned by the container lid assembly 20 that was last received by the terminal device 40 before sending the second instruction to the container lid assembly 20.

The above-mentioned embodiment is a process for realizing intelligent seasoning delivery by the terminal device 40 and the container cover assembly 20 cooperating with each other, and a specific exemplary description will be described in the following scenario embodiment. The following describes a manner in which a user generates an electronic menu through a terminal device in the embodiment of the present application with reference to the drawings.

In some optional embodiments of the present application, the terminal device 40 is provided with a configuration function, and the user can generate the electronic menu by himself/herself through the configuration function of the terminal device 40. Based on this, one way to generate an electronic menu is:

as shown in fig. 1b by the interaction of the user with the terminal device 40, the terminal device 40 may obtain the electronic menu configured on the terminal device 40 by the user. For example, an application program for configuring an electronic menu is run on the terminal device 40, and the application program is provided with a seasoning data configuration function, so that a user can configure the electronic menu required by the user. And when configuring the electronic menu, the user can also configure corresponding standard putting quantity, putting sequence, putting time point, putting time interval and other putting parameters for at least one seasoning respectively. When acquiring the electronic menu configured by the user, the terminal device 40 may respond to the configuration operation of the user to acquire at least one seasoning configured by the user and a standard putting amount thereof, and an putting sequence, a putting time point and a putting time interval of the at least one seasoning, and generate the electronic menu according to the putting parameters of the at least one seasoning. In the implementation form, the implementation form of the seasoning data configuration function is not limited, for example, the terminal device 40 may present an interactive interface with an information editing or selecting function to a user, the user may edit the required seasoning data information on the interactive interface and store the information in the local terminal device 40 after the editing is determined, and in the case that the terminal device 40 obtains the electronic menu configured by the user, the user may put in the seasoning according to the configured electronic menu.

In some optional embodiments of the present application, the terminal device 40 may perform data interaction with the cloud server 10, and therefore, another electronic menu obtaining method is as follows:

as shown in fig. 1b, the terminal device 40 may obtain the electronic menu from the cloud server 10 by the interaction between the cloud server 10 and the terminal device 40. Accordingly, the application program of the electronic menu running on the terminal device 40 may further include a downloading function, and the user may download the desired electronic menu from the cloud server 10 to the local terminal device 40 and perform seasoning dispensing according to the downloaded electronic menu. Further, as shown in fig. 1b, the other terminal devices 50 may upload the electronic menu to the cloud server 10, and thus, the electronic menu acquired by the terminal device 40 from the cloud server 10 may be the electronic menu uploaded to the cloud server 10 by the other terminal devices 50. Accordingly, the application program of the electronic menu running on the terminal device 40 may further include an uploading function, and the user may also upload the configured electronic menu to the cloud server 10 when the terminal device 40 configures the electronic menu. Or, in the case that the terminal device 40 updates the original electronic menu, the updated electronic menu is uploaded to the cloud server 10 again. Furthermore, the other terminal devices 50 may download the electronic menu uploaded by the user from the cloud server 10, and allow the other users to put seasonings according to the downloaded sub-menu.

When the system embodiment of this application is used in intelligent culinary art scene, condiment can be for condiment such as oil, salt, sauce, vinegar, cooking wine, chicken essence, pepper powder, and container lid subassembly 20 can be for installing the intelligent condiment lid on the apothecary jar, and terminal equipment 40 can be intelligent equipment such as intelligent cooking machine, smart mobile phone or flat board. The following describes embodiments of the system in detail with reference to a cooking scenario:

scenario example 1:

a user configures an electronic menu through a cooking application program running on the smart phone, and cooks the food according to the configured electronic menu. When a user wants to cook a good food, 4 kinds of seasonings are needed, for example, oil, salt, chicken essence, and vinegar, respectively. Before cooking, a user can cover 4 intelligent seasoning covers on a seasoning bottle containing oil, salt, chicken essence and vinegar respectively, and configures the corresponding relation between the seasonings such as the oil, the salt, the chicken essence, the vinegar and the like in an electronic menu and the 4 intelligent seasoning covers on a smart phone, and configures the putting sequence, the putting time point, the putting time interval and the standard putting amount of each seasoning. Wherein, the corresponding relation between each flavoring and the intelligent flavoring cover corresponds to the flavoring in the flavoring bottle in which the intelligent flavoring cover is positioned.

After the user configures the electronic menu and the corresponding relation between each seasoning and the intelligent seasoning cover, the user can execute the operation of starting cooking in the cooking application program. When the putting time of each seasoning is reached, the smart phone sends a first instruction to the intelligent seasoning cover corresponding to the seasoning. The corresponding intelligent seasoning cover is lighted up according to the received first instruction, and the user is prompted to start to put in the corresponding seasoning. For example, the putting sequence is oil, vinegar, chicken essence and salt, and the putting time interval of each seasoning is 30 seconds, the smart phone sends a first instruction to the intelligent seasoning cover every 30 seconds after sending and receiving the first instruction for the first time. Correspondingly, the intelligent condiment lid that corresponds with the condiment bottle that holds oil will light the LED lamp at first, and the suggestion user pours oil into the culinary art pot, and after 30 seconds, the intelligent condiment lid that corresponds with the condiment bottle that holds vinegar will light the LED lamp, and the suggestion user pours vinegar into the culinary art pot. Further, after 30 seconds and 1 minute, the intelligent seasoning caps corresponding to the seasoning bottles containing the chicken essence and the salt respectively will light up the LED lamps respectively, prompting the user to pour the chicken essence and the salt into the cooking pot.

In order to guide healthy diet of the user, the smart phone can also respectively send the standard putting amount corresponding to each seasoning to the corresponding intelligent seasoning cover. The intelligent seasoning cover can display the standard putting amount corresponding to each seasoning on the display screen of the intelligent seasoning cover so as to prompt a user that too much seasoning is not put in the seasoning putting process and the taste and the body health of the food are influenced. For example, the standard input amounts corresponding to the oil, the vinegar, the chicken essence and the salt are respectively 10ml, 5ml, 10g and 15g, 10ml, 5ml, 10g and 15g are respectively displayed on the display screen of the intelligent seasoning cover corresponding to the oil, the vinegar, the chicken essence and the salt, and a user can know the maximum input amount of each seasoning by seeing the standard input amount on the display screen. For example, as shown in fig. 1b (a), the information displayed on the display screen of the intelligent seasoning cover is that the standard input amount corresponding to the oil is 10 ml. In addition, in the throwing process, the intelligent seasoning cover can measure the amount of the seasoning thrown by the user and report the amount of the thrown seasoning to the smart phone. The intelligent mobile phone can judge whether the amount of the seasoning put in by the user reaches the standard putting amount according to the amount of the put-in seasoning, and if the amount of the put-in seasoning reaches the standard putting amount, second prompt information is sent to the corresponding intelligent seasoning cover. And the LED lamp is turned off when the intelligent seasoning cover receives the second instruction, and the user is prompted to stop throwing the currently-thrown seasoning. When the user sees that the LED lamp on the intelligent seasoning cover corresponding to the seasoning being thrown in is turned off, the seasoning bottle can be put down, and the throwing in of the seasoning is stopped.

Furthermore, in the process of seasoning throwing by a user, the intelligent seasoning cover can display the measured amount of thrown seasoning on the display screen of the intelligent seasoning cover, and the user can flexibly control the amount of thrown seasoning according to the amount of thrown seasoning displayed on the display screen. For example, if the taste of the user is light, before the amount of the seasoning to be dispensed does not reach the corresponding standard dispensing amount, the user considers that the amount of the dispensed seasoning can meet the taste requirement of the user, and then the seasoning bottle can be put down to stop dispensing the seasoning. For example, as shown in fig. 1c (b), the information displayed on the display screen of the intelligent seasoning cover is that the amount of the seasoning which has been put in and corresponds to the oil is 8ml, and if the user thinks that 8ml can meet the taste requirement, the putting of the seasoning can be stopped. When the intelligent seasoning cover detects the action of putting down the seasoning bottle by the user, the corresponding use state can be reported to the smart phone. And the smart phone can determine that the user stops throwing the seasonings according to the fact that the received use state of the intelligent seasoning cover is the put-down state, and then sends a second instruction to the corresponding intelligent seasoning cover. The intelligent seasoning cover can control the LED lamp to be turned off according to the received second instruction, and prompts a user that the current seasoning is put in. And when recognizing that the received using state of the intelligent seasoning cover is the put-down state, the smart phone can also judge whether the amount of the seasoning put in by the user when putting down the seasoning bottle is the same as the corresponding standard put-in amount. If the judgment is different, the standard adding amount of the seasonings is updated to the actually added seasoning amount when the user puts down the seasoning bottle, namely, the electronic menu configured by the user is updated to the electronic menu according with the actual taste of the user, and when the user cooks the same delicious food next time, the seasonings can be directly added according to the updated electronic menu.

Scenario example 2:

and the user cooks the gourmet according to the configured electronic menu through the electronic menu configured by the cooking application program running on the intelligent cooker. When a user wants to cook a food, 5 kinds of seasonings are required, for example, oil, salt, soy sauce, chicken essence, and vinegar, respectively. Before cooking, 5 intelligent seasoning covers are respectively covered on 5 seasoning boxes, the corresponding relation between seasonings such as oil, salt, soy sauce, chicken essence, vinegar and the like in an electronic menu and the 5 intelligent seasoning covers is configured on an intelligent cooking machine, and the putting sequence, the putting time point, the putting time interval and the standard putting quantity of each seasoning are configured. Wherein, the corresponding relation between each flavoring and the intelligent flavoring cover corresponds to the flavoring in the flavoring box where the intelligent flavoring cover is positioned one by one.

After the user configures the electronic menu and the corresponding relation between each seasoning and the intelligent seasoning cover, the user can execute the operation of starting cooking in the cooking application program. When the putting time of each seasoning is reached, the intelligent dish frying machine sends a first instruction to the intelligent seasoning cover corresponding to the seasoning. And the corresponding intelligent seasoning cover opens the seasoning cover according to the received first instruction, and starts to throw in the corresponding seasoning. For example, the putting sequence is oil, vinegar, soy sauce, chicken essence and salt respectively, and the putting time interval of each seasoning is 10 seconds, the intelligent cooker sends a first instruction to the intelligent seasoning cover every 10 seconds after sending and receiving the first instruction for the first time. Correspondingly, the intelligent seasoning cover corresponding to the seasoning box containing oil is firstly opened, oil is poured into the cooking pot, and after 10 seconds, the intelligent seasoning cover corresponding to the seasoning box containing vinegar is opened, and vinegar is poured into the cooking pot. Further, after 10 seconds, 20 seconds, and 30 seconds, the intelligent seasoning lids respectively corresponding to the seasoning boxes containing soy sauce, chicken essence, and salt are opened, and the soy sauce, chicken essence, and salt are poured into the cooking pot.

In order to guide healthy diet of the user, the intelligent cooker can also respectively send the standard putting amount corresponding to each seasoning to the corresponding intelligent seasoning cover. The intelligent seasoning cover can display the standard putting amount corresponding to each seasoning on the display screen of the intelligent seasoning cover so as to prompt a user that too much seasoning is not put in the seasoning putting process and the taste and the body health of the food are influenced. For example, the standard input amounts of oil, vinegar, soy sauce, chicken essence and salt are respectively 10ml, 5ml, 10g and 15g, 10ml, 5ml, 10g and 15g are respectively displayed on the display screen of the intelligent seasoning cover corresponding to the oil, vinegar, soy sauce, chicken essence and salt, and a user can know the maximum input amount of each seasoning by seeing the standard input amount on the display screen. For example, as shown in fig. 1c (a), the information displayed on the display screen of the intelligent seasoning cover is that the standard input amount corresponding to the oil is 10 ml. In addition, in the throwing process, the intelligent seasoning cover can measure the amount of the seasoning thrown by the user and report the amount of the thrown seasoning to the intelligent cooker. The intelligent cooker can judge whether the amount of the seasoning put in by the user reaches the standard putting amount according to the amount of the seasoning put in, and if the amount of the seasoning put in is judged to reach the standard putting amount, second prompt information is sent to the corresponding intelligent seasoning cover. And stopping throwing the currently thrown seasoning when the intelligent seasoning cover receives a second instruction.

Scenario example 3:

the user downloads the electronic menu to the smart phone locally through the cloud server, and cooks the food according to the downloaded electronic menu. Similarly, before cooking the gourmet, the user needs to cover the intelligent seasoning covers on the seasoning bottles containing the seasonings in the electronic menu, and the corresponding relation between each seasoning and the intelligent seasoning covers is configured on the smart phone, so that the gourmet can be cooked according to the downloaded electronic menu. For the process of remotely controlling the intelligent seasoning cover by the smartphone to prompt the user to put in the seasoning, see scenario embodiment 1 above, and no further description is given here.

In this embodiment, the user can download the required electronic menu from the cloud server, and can also upload the electronic menu configured on the smart phone to the cloud server for other users to download and cook the same food. If the user adjusts the adding amount of the seasonings according to the taste of the user in the cooking process to generate a new electronic menu, the user can upload the updated electronic menu to the cloud server for downloading the electronic menu for the user with similar taste, and the user cooks the food according to the electronic menu.

It should be noted that the container cover assembly in the embodiment of the present application is not limited to be used on a container for containing cooking seasonings, and in other seasoning dispensing scenarios, the container cover assembly in the embodiment of the present application may also be used to instruct a user to intelligently dispense seasonings in a remote control manner through a terminal device. Also, the shape and size of the container lid assembly of the embodiments of the present application may be different depending on the different states of the seasoning to be dispensed and the different shapes of the containers to contain the seasoning.

Scenario example 4:

and the user downloads the electronic menu to the intelligent cooking machine through the cloud server and cooks the gourmet food according to the downloaded electronic menu. Similarly, before cooking the gourmet, the user needs to cover the intelligent seasoning covers on the seasoning boxes containing the seasonings in the electronic menu, and the corresponding relation between each seasoning and the intelligent seasoning covers is configured on the intelligent cooking machine, so that the gourmet can be cooked according to the downloaded electronic menu. For the process of controlling the intelligent seasoning lid to put in the seasoning by the intelligent cooker, refer to the above scenario embodiment 2, and are not described herein again.

In this embodiment, the user can download the required electronic menu from the cloud server, and can also go up the electronic menu of oneself configuration on intelligent cooking machine to the cloud server, supplies other users to download and cook the same food. If the user adjusts the adding amount of the seasonings according to the taste of the user in the cooking process to generate a new electronic menu, the user can upload the updated electronic menu to the cloud server for downloading the electronic menu for the user with similar taste, and cooks the gourmet food according to the electronic menu.

The container cover assembly according to the embodiment of the present invention is not limited to be used in a container for containing cooking seasonings, and in other situations, the container cover assembly according to the embodiment of the present invention may be used to intelligently place objects. Also, the shape and size of the container lid assembly of embodiments of the present application may also vary depending on the different states of the object being dropped and the different shapes of the containers holding the object. In view of this, an embodiment of the present application further provides a remote control method, which is applicable to the object delivery control system in the embodiment of the present application, and the remote control method implemented by the present application is described in detail below with reference to a specific object delivery scenario.

Scenario example 5:

in the cultivation of pollution-free green vegetables, different kinds of vegetables may be planted in different areas of a vegetable greenhouse, but each kind of vegetables may need to be irrigated at different times, and the amount of water required for irrigation of the different kinds of vegetables may be different, and the desired effect may not be achieved if the vegetables are distinguished and controlled by only manual work. Therefore, the cover assembly of the container provided by the embodiment of the application is matched with the terminal equipment, so that the functions of timing, quantifying and classified irrigation can be realized.

For example, there are 4 vegetable fields in a vegetable greenhouse, and the vegetables corresponding to the 4 vegetable fields need to be irrigated at 7 am, 10 am, 2 pm and 6 pm respectively, and each vegetable field needs to be irrigated for 1 hour every day, and the water consumption is 1000ml per minute, 2000ml per minute, 3000ml per minute and 2000ml per minute respectively. Before irrigating the vegetable field, the vegetable grower can install the container cover component of the embodiment of the application on the irrigation appliances corresponding to the 4 vegetable fields respectively, and set the irrigation sequence, the interval duration and the standard irrigation quantity of the 4 container cover components corresponding to the irrigation appliances through the terminal equipment.

When the vegetable grower sets the corresponding relation, the terminal equipment can send a first instruction to the corresponding container cover component when the irrigation time of each vegetable field is reached according to the irrigation sequence and the interval duration of the irrigation appliance corresponding to the 4 container cover components, so that the container cover components are controlled to send first prompt information to the user, the vegetable grower is prompted to open the valve of the irrigation appliance, and the vegetable field begins to be irrigated. And the terminal equipment can also send the standard irrigation quantity corresponding to each vegetable field to the corresponding container cover assembly, so that the container cover assembly can display the corresponding standard irrigation quantity to vegetable farmers. Vegetable growers can adjust the irrigation flow of the irrigation appliance according to the standard irrigation amount displayed by the container cover assembly, so that the waste of water resources is avoided, and the growth of vegetables is influenced due to overlarge or undersize flow. During the irrigation process, the sensor of the cover assembly can detect the amount of irrigation and return the detected amount of irrigation to the end device. Further, when the terminal equipment judges that the irrigation quantity of the current vegetable field reaches the standard irrigation quantity according to the irrigation quantity returned by the container cover component, a second instruction can be sent to the container cover component to control the container cover component to send second prompt information to a vegetable grower, and the vegetable grower is prompted to close an irrigation appliance valve corresponding to the container cover component to stop irrigation. And, in vegetable grower irrigation process, the container lid subassembly can show the volume of having irrigated that the sensor detected on the display screen of container lid subassembly, and vegetable grower can adjust the volume of irrigating according to actual conditions is nimble. For example, in summer, rainwater is sufficient, normal growth of vegetables can be guaranteed even if standard irrigation quantity is not achieved timely, and then a vegetable grower can stop irrigation according to actual irrigation conditions under the condition of meeting irrigation requirements.

Scenario example 6:

in the poultry farming industry, the feeding time, the feeding amount and the types of food and feed of the same kind of poultry in different growth stages need to be distinguished, and for example, feeding broiler chickens one month, three months and half a year after birth needs to be fed respectively. For example, a chicken born a month may not be able to eat feed and need to be fed small pellets of food such as powder or millet; chicks born for three months can eat food with larger particles, and a small amount of feed can be properly added in the feeding process; adult chickens born half a year can eat larger-grained foods and need to be added with sufficient feed during the feeding process. Therefore, before feeding broiler chickens in different growth stages, a breeder can firstly fix the intelligent container cover assemblies at the discharge openings of the feeding grooves corresponding to the broiler chickens in different growth stages respectively, and sets the corresponding relation between each container cover assembly and feeding time, standard feeding amount and food types at the terminal equipment.

When the breeder sets the corresponding relation, the terminal equipment can send a first instruction to the corresponding container cover component when the broiler chicken reaches the feeding time in each stage according to the feeding time, the standard feeding amount, the food type and other information corresponding to each container cover component, so that the container cover component is controlled to send first prompt information to the breeder, the breeder is prompted to open the discharge hole of the corresponding feeding groove, and feeding starts. And the terminal equipment can also send the standard feeding amount corresponding to the broiler in each stage to the corresponding container cover assembly, so that the container cover assembly can display the corresponding standard feeding amount to the breeder. The breeder can feed the corresponding broiler according to the standard feeding amount displayed by the container cover assembly, so that the growth of the broiler is prevented from being influenced by too much or too little feeding. During feeding, the sensor of the container lid assembly detects the amount of feed and returns the detected amount of feed to the terminal device. Further, the terminal equipment judges that the fed amount reaches the standard fed amount according to the fed amount returned by the container cover assembly, and can send a second instruction to the container cover assembly to control the container cover assembly to send second prompt information to a feeder, and the feeder is prompted to close a discharge hole of the container cover assembly corresponding to the feeding groove and stop feeding.

Accordingly, the feeding time, feeding amount and food type of different kinds of poultry in the same growth stage need to be distinguished, and for example, chickens, ducks and geese which are fed at the same time, chickens, ducks and geese which are grown at the same time need to be fed respectively. For example, for adult chickens, food 1 and feed 1 need to be fed, and the feed amount is a; for adult ducks, the feed 2 and the feed 2 are required to be fed, and the feeding amount is B; for adult geese, food 3 and feed 3 are fed, and the feed amount is C. Therefore, before the chickens, ducks and geese in the same growth stage are fed, the breeder can firstly fix the intelligent container cover assemblies at the discharge outlets of the corresponding feeding grooves of the chickens, the ducks and the geese respectively, and set the feeding time, the standard feeding amount and the corresponding relation between the food types and the container cover assemblies corresponding to the chickens, the ducks and the geese respectively at the terminal equipment.

When the breeder sets up the condition of above-mentioned corresponding relation, terminal equipment can be according to the feeding time that every container lid subassembly corresponds, information such as standard feed volume and food kind, respectively reach the feeding time at chicken, duck, goose and send first instruction to the container lid subassembly that corresponds to control the container lid subassembly and send first suggestion information to the breeder, the suggestion breeder opens the discharge gate that corresponds the feeding groove, begins to feed. And the terminal equipment can also send the standard feeding amount corresponding to the chickens, the ducks and the geese to the corresponding container cover assemblies, so that the container cover assemblies can display the corresponding standard feeding amount to the breeders. The breeder can feed the corresponding chickens, ducks and geese according to the feeding amount displayed by the container cover assembly, so that the growth of the chickens, the ducks and the geese is prevented from being influenced by too much or too little feeding. During feeding, the sensor of the container lid assembly detects the amount of feed and returns the detected amount of feed to the terminal device. Further, the terminal equipment judges that the fed amount reaches the standard fed amount according to the fed amount returned by the container cover assembly, and can send a second instruction to the container cover assembly to control the container cover assembly to send second prompt information to a feeder, and the feeder is prompted to close a discharge hole of the container cover assembly corresponding to the feeding groove and stop feeding.

In the above embodiments, in consideration of different application scenarios, the functional module of the container lid assembly can be flexibly set according to the requirements of different scenarios. For example, in an environment with a large space such as a vegetable greenhouse and a poultry farm, when a worker needs to be prompted, the worker may not be prompted in time by using only a light-emitting form as a prompt message. Therefore, the sounding body such as the buzzer alarm can be used as a prompting module for the container cover assembly to prompt a worker to start or stop working. Further, the implementation form of the container cover assembly and the implementation forms of other modules, and the working mode of the terminal device for controlling the container cover assembly, may also be adjusted according to specific real-time scenarios and requirements, and are not limited herein. For example, the shape, size, mouthpiece shape and size, etc. of the container lid assembly may vary depending on the container to be docked.

In the embodiment of the application, the intelligent container cover assembly is matched with the terminal equipment provided with the structured data, so that in a scene where various objects need to be put in, the terminal equipment can respectively send a control instruction for instructing to start to put in the objects to the container cover assembly covering the containers filled with different objects according to the putting sequence, the putting time point, the putting time interval and the standard putting amount of the objects in the structured data. And respectively sending a control instruction for instructing to stop throwing the object to a container cover assembly covered on the container filled with different objects according to the standard throwing amount and the thrown amount of the object. The container cover assembly can send prompt information to a user according to the control instruction, prompt the user to finish object putting at a proper putting time according to a correct putting sequence, and stop object putting when the object is not required to be put continuously. The user only needs to put in the corresponding object according to the suggestion of container lid subassembly in proper order according to the suggestion step, easy operation is difficult for makeing mistakes. In addition, the user can flexibly adjust the putting amount of the object according to the own requirements in the putting process, new object structured data meeting the own requirements are formed, and the requirement of the user on intelligent object putting is met.

The embodiment of the application also provides a remote control method which is suitable for the terminal equipment in the system embodiment. Fig. 2a is a remote control method according to an embodiment of the present application, and as shown in fig. 2a, the method includes:

s1a, obtaining structured data, wherein the structured data comprises at least one object release parameter.

And S2a, responding to the first configuration operation of the user, configuring at least one container cover component corresponding to at least one object, wherein each container cover component can be detachably covered on the container containing the corresponding object.

And S3a, sending a first instruction to the at least one container cover assembly according to the release parameters among the at least one object, so that the user can release the at least one object according to the first prompt message sent by the at least one container cover assembly.

In an embodiment of the present application, the terminal device may obtain structured data including at least one object before the user delivers the object using the container lid assembly. And, the terminal device is provided with a configuration function capable of configuring at least one cover assembly corresponding to at least one object in response to a first configuration operation by a user, wherein each cover assembly is detachably fitted to a container in which the corresponding object is accommodated, and at least one object corresponding to the cover assembly is accommodated in each container. Under the condition that the user configures the corresponding relationship between the at least one object and the at least one container cover assembly, the terminal device can send a first instruction to the at least one container cover assembly according to the delivery parameters between the at least one object, so that the user can deliver the at least one object according to a first prompt message sent by the at least one container cover assembly.

In an alternative embodiment, the delivery parameters include at least one of a delivery sequence between at least one object, a delivery time point, a delivery time interval, and a standard delivery amount corresponding to each object, and the terminal device may transmit the first instruction to the at least one cover assembly according to the content of the delivery parameters.

In an alternative embodiment, the delivery parameters include a delivery sequence among the at least one object, and the terminal device may sequentially send a first instruction to the at least one container cover assembly according to the delivery sequence among the at least one object, so that the user can deliver the at least one object according to a first prompt message sent by the at least one container cover assembly.

In an alternative embodiment, the delivery parameters include a delivery time point or a delivery time interval between at least one object, and the terminal device may sequentially send a first instruction to the at least one container cover assembly according to the delivery time point or the delivery time interval between at least one object, so that the user can deliver the at least one object according to a first prompt message sent by the at least one container cover assembly.

In an alternative embodiment, the delivery parameters include a standard delivery amount corresponding to at least one object, and the terminal device may include the standard delivery amount corresponding to the object when the first instruction is sent to the at least one container cover assembly, so that the container cover assembly corresponding to the object can display the standard delivery amount to the user. The standard putting amount refers to the maximum object amount that can be put in each object, a user can know the maximum number of the currently put objects according to the displayed standard putting amount, and in the process of putting the objects by the user, the objects can be put in according to the standard putting amount, so that the excessive objects can be avoided.

In an optional embodiment, the terminal device may further receive, for the object currently being released, a released object amount of the user returned by the container lid assembly corresponding to the object, and may determine whether the object currently being released by the user reaches the corresponding standard released amount according to the released object amount. If the amount of the objects put in by the user reaches the standard putting amount, the user needs to be prompted to stop putting, which indicates that the continuous putting may cause bad influence. Therefore, when the delivered object amount reaches the standard delivery amount corresponding to the object, a second instruction is sent to the container cover assembly corresponding to the object, so that the user stops delivering the object according to second prompt information sent by the container cover assembly corresponding to the object.

In an alternative embodiment, during the process of releasing the object, the container cover assembly can detect the corresponding use state and return to the terminal device, for example, the container corresponding to the container cover assembly is taken up and suspended to be in the releasing state, or the container corresponding to the container cover assembly is put down to be in the releasing state. The terminal equipment receives the use state of the object returned by the container cover assembly corresponding to the object aiming at the object currently being released, judges whether the user releases the object or not by identifying the use state, and indicates that the user stops releasing the object if the user releases the container corresponding to the container cover assembly. Therefore, if the object-corresponding container cover assembly is identified to be in the release stopping state according to the use state, a second instruction is sent to the object-corresponding container cover assembly, so that the user can stop releasing the object according to second prompt information sent by the object-corresponding container cover assembly.

Further optionally, for the currently released object, when it is identified that the container lid assembly corresponding to the object is in the release stopping state according to the usage state, it may also be determined whether the amount of the object actually released by the user is the same as the standard release amount corresponding to the object when the container lid assembly is in the release stopping state. If the actual put-in object quantity of the user is different from the standard put-in quantity corresponding to the object when the container cover assembly corresponding to the object is in the put-in stop state, the put-in quantity of the object is adjusted according to actual requirements by the user in the process of putting the object, and the standard put-in quantity corresponding to the object is updated to be the actual put-in object quantity, so that the corresponding object can be put in according to the updated standard put-in quantity when the user puts in the object next time.

In an optional embodiment, the terminal device may further provide a function for configuring the structured data for the user, and the terminal device may obtain the structured data by obtaining object information configured by the user. Optionally, the terminal device may respond to a configuration operation of a user, obtain the delivery parameters of at least one object configured by the user, and generate the object structured data according to the delivery parameters of the at least one object. After the structured data is generated, the user can configure the corresponding relation between the container cover assembly and the user according to the object in the structured data, and the terminal device can send a first instruction to the container cover assembly corresponding to at least one object according to the release parameter of at least one object in the structured data, so that the user can release at least one object according to first prompt information sent by at least one container cover assembly.

In an optional embodiment, the terminal device may perform data interaction with the cloud server, and the terminal device may send the generated structured data to the cloud server, so that other users can download the structured data from the cloud server. Further optionally, the terminal device may also obtain the structured data by downloading the structured data uploaded by other users from the cloud server, and upload the updated structured data to the cloud server again under the condition that the structured data is updated, so that the other users can download the updated structured data from the cloud server.

In an optional embodiment of the present application, the structured data includes release parameters of at least one object, where at least one object may have release parameters such as a certain release sequence, a release time point, a release time interval, and a standard release amount corresponding to each object, and the terminal device may send a first instruction to at least one container cover assembly according to the release parameters of at least one object, and may send a first instruction to at least one container cover assembly according to the release sequence, the release time point, the release time interval, and the standard release amount corresponding to each object, so that a user may release at least one object according to first prompt information sent by at least one container cover assembly. Through at least one container lid subassembly is orderly sends out the reminder information, can guide the user correctly to put in corresponding object, avoids putting in the mistake.

In the embodiment of the application, through the matching of the terminal device and the container cover assembly, in a scene where multiple objects need to be put in, the terminal device can remotely control the container cover assembly corresponding to at least one object to sequentially remind a user of putting in the objects according to the putting sequence, the putting time point, the putting time interval, the standard putting amount and other putting parameters of the at least one object in the structured data, so that the user can be prevented from putting in errors. In the process of putting the objects by the user, when the amount of the put objects reaches the standard putting amount, the container cover assembly corresponding to at least one object is remotely controlled to prompt the user to stop putting the objects, so that the user is prevented from putting too many objects. And the user can flexibly adjust the amount of the objects to be released according to the actual demand, and under the condition that the amount of the objects to be released when the user stops releasing is determined to not reach the standard release amount, the original structured data can be updated into the structured data meeting the actual demand of the user, so that the follow-up user can release the objects according to the own demand, and the demand of the user on the intelligent release objects is met.

The embodiment of the application also provides a remote control method, which is suitable for the container cover assembly in the system embodiment, the container cover assembly is detachably covered on the container, and the container cover assembly comprises an outlet, a prompting module, a first sensor and a display screen.

Fig. 2b is a remote control method according to an embodiment of the present application, and as shown in fig. 2b, the method includes:

s1b, receiving a first instruction of the object to be delivered sent by the terminal equipment.

S2b, controlling the prompting module to send out first prompting information according to the first instruction so as to prompt a user to throw an object in the container with the container cover assembly.

And S3b, responding to the operation of the user for throwing the object, and collecting the quantity of the object thrown through the outlet through the first sensor.

And S4b, displaying the delivered object quantity on the display screen to prompt the user of the delivered object quantity.

In the embodiment of the application, the container cover assembly can receive a first instruction of releasing an object sent by the terminal device, and control the prompting module to send out first prompting information according to the first instruction so as to prompt a user to release the object in the container where the container cover assembly is located. The user can know which kind of object should be put according to the first prompt message sent by the prompt module, and put the object. During the releasing process, the container cover assembly can respond to the operation of releasing the object by the user, collect the released object quantity through the outlet by the first sensor, and display the released object quantity on the display screen to prompt the user of the released object quantity. The user can judge whether the thrown objects are within the allowed throwing amount according to the thrown object amount displayed on the display screen, so that the thrown object amount is flexibly controlled, and excessive throwing objects are avoided.

In an alternative embodiment, the first sensor may measure an amount of the object dispensed by the user during dispensing of the object, and the container cover assembly may send the amount of the object dispensed to the terminal device for the terminal device to send a second instruction indicating to stop dispensing according to the amount of the object dispensed. When the amount of the objects put in reaches the corresponding standard putting amount, the container cover assembly can receive a second instruction sent by the terminal equipment and control the prompting module to send out second prompting information according to the second instruction to prompt the user to stop putting the objects in the container. The user sees or hears second prompt message, can know need not to continue to put in current object, then stops to put in the object, cooperatees with terminal equipment through the container lid subassembly, can effectively avoid putting in too much object.

In another optional embodiment, the container cover assembly further comprises a second sensor, and during the process of delivering the object by the user, the container cover assembly can acquire the use state of the container cover assembly by using the second sensor and send the use state to the terminal device, so that the terminal device sends a second instruction indicating to stop delivering according to the use state. For example, when the user puts down the container corresponding to the container cover assembly, which indicates that the user stops putting the object, the container cover assembly may receive a second instruction sent by the terminal device, and control the prompting module to send out second prompting information according to the second instruction, so as to prompt the user to finish putting the object.

In an optional embodiment of the application, the container cover assembly may further receive a standard putting amount of the object sent by the terminal device, and display the standard putting amount of the object on the display screen to prompt a user of the maximum putting amount of each object, and when the user puts the object, the user may put the object according to the corresponding standard putting amount to avoid putting too many objects.

In the embodiment of the application, the user can be sequentially reminded to release the corresponding objects according to the release sequence and the release time interval of at least one object in the structured data according to the control instruction sent by the terminal device, so that the release error of the user is avoided. In the process of putting the objects by the user, the amount of the objects put by the user and the use state of the container cover assembly can be measured, and when the amount of the objects put by the user reaches the corresponding standard putting amount, the user can be prompted to stop putting the objects according to a control instruction sent by the terminal equipment, so that the situation that too many objects are put is avoided. And moreover, the standard putting amount and the put object amount can be displayed to the user, and the user can adjust the actually put object amount according to the displayed information and the requirement of the user on the intelligent put object can be met.

Fig. 3 is a schematic structural diagram of a terminal device according to an embodiment of the present application, and as shown in fig. 3, the terminal device 10 includes: a processor 11 and a memory 12 in which a computer program is stored; the processor 11 and the memory 12 may be one or more.

The memory 12 is mainly used for storing computer programs, and these computer programs can be executed by the processor 11, so that the processor 11 controls the terminal device 10 to implement corresponding functions, and complete corresponding actions or tasks. In addition to storing computer programs, the memory 12 may be configured to store other various data to support operations on the terminal device 10. Examples of such data include instructions for any application or method operating on terminal device 10.

The memory 12, which may be implemented by any type of volatile or non-volatile memory device or combination thereof, may include, for example, a Static Random Access Memory (SRAM), an electrically erasable programmable read-only memory (EEPROM), an erasable programmable read-only memory (EPROM), a programmable read-only memory (PROM), a read-only memory (ROM), a magnetic memory, a flash memory, a magnetic disk, or an optical disk.

In the embodiment of the present application, the implementation form of the processor 11 is not limited, and may be, for example, but not limited to, a CPU, a GPU, an MCU, or the like. The processor 11 may be regarded as a control system of the terminal device 10 and may be configured to execute a computer program stored in the memory 12 to control the terminal device 10 to implement the corresponding functions and to perform the corresponding actions or tasks. It should be noted that, depending on the implementation form and the scene where the terminal device 10 is located, the functions, actions or tasks required to be implemented may be different; accordingly, the computer programs stored in the memory 12 may be different, and the execution of different computer programs by the processor 11 may control the terminal device 10 to implement different functions, perform different actions or tasks.

In some optional embodiments, as shown in fig. 3, the terminal device 10 may further include: power supply 13, communication 14 and display 15 and audio 16. Only some components are schematically shown in fig. 3, which does not mean that the terminal device 10 includes only the components shown in fig. 3, and the terminal device 10 may further include other components according to different application requirements, depending on the product form of the terminal device 10.

In the embodiment of the present application, when the processor 11 executes the computer program in the memory 12, it is configured to: acquiring structured data, wherein the structured data comprises release parameters of at least one object; responding to a first configuration operation of a user, configuring at least one container cover component corresponding to at least one object, wherein each container cover component is detachably covered on a container containing the corresponding object; and sending a first instruction to the at least one container cover assembly according to the release parameters among the at least one object, so that the user can release the at least one object according to a first prompt message sent by the at least one container cover assembly.

In an alternative embodiment, the structured data further comprises at least one standard placement corresponding to the object, and the processor 11 is further configured to: and aiming at the currently released object, sending the standard release amount corresponding to the object to the container cover assembly corresponding to the object, so that the container cover assembly corresponding to the object displays the standard release amount to the user.

In an alternative embodiment, the release parameters include at least one of a release sequence between at least one object, a release time point, a release time interval, and a standard release amount corresponding to each object.

For example, the delivery parameters comprise a delivery sequence between the at least one object, the processor 11, when sending the first instruction to the at least one container lid assembly according to the delivery parameters of the at least one object, is configured to: and according to the releasing sequence among the at least one object, sequentially sending a first instruction to the at least one container cover assembly so as to enable a user to release the at least one object according to a first prompt message sent by the at least one container cover assembly.

For another example, the delivery parameters include a delivery time point or a delivery time interval between at least one object, and the processor 11, when sending the first instruction to the at least one container lid assembly according to the delivery parameters of the at least one object, is configured to: and sequentially sending first instructions to the at least one container cover assembly according to the release time point or release time interval between the at least one object, so that the user releases the at least one object according to first prompt information sent by the at least one container cover assembly.

For another example, the release parameter includes a standard release amount corresponding to at least one object, and when the processor 11 sends a first instruction to at least one container cover assembly, the first instruction includes the standard release amount corresponding to the object, so that the container cover assembly corresponding to the object displays the standard release amount to the user.

In an alternative embodiment, the processor 11 is further configured to: aiming at the currently released object, receiving the use state of the object returned by the corresponding container cover assembly; and if the container cover assembly corresponding to the object is placed down according to the use state, sending a second instruction to the container cover assembly corresponding to the object so that the user stops the object from being placed according to second prompt information sent by the container cover assembly corresponding to the object.

In an alternative embodiment, the processor 11 is further configured to: and if the target amount actually thrown by the user when the user stops throwing the target is different from the standard throwing amount corresponding to the target, updating the standard throwing amount corresponding to the target to be the actually thrown target amount.

In an alternative embodiment, the processor 11, when obtaining the structured data, is configured to: responding to the configuration operation of a user, and acquiring the release parameters of at least one object configured by the user; and generating object structured data according to the release parameters of at least one object.

In an alternative embodiment, the processor 11 is further configured to: and sending the structured data to a cloud server for other users to download the structured data from the cloud server.

In an alternative embodiment, the processor 11, when obtaining the structured data, is configured to: downloading the structured data uploaded by other users from the cloud server; and further for: and under the condition of updating the structured data, uploading the updated structured data to the cloud server again.

Accordingly, the present application also provides a computer readable storage medium storing a computer program, which when executed by a processor causes the processor to implement the steps in the method embodiments of the present application.

Fig. 4a is a schematic structural diagram of a container cover assembly according to an embodiment of the present disclosure, and as shown in fig. 4a, the container cover assembly 20 includes: a container cover body 21 detachably covering the container; the container cover body 21 is provided with an outlet 22 and a first sensor 23, when the container cover body 21 is covered on the container, the outlet 22 is communicated with the cavity of the container and used for putting objects in the container outwards; a first sensor 23 for measuring the amount of objects that have been delivered through the outlet 22; the container cover body 21 is also provided with a microprocessor 24, a communication assembly 25, a prompt module 26 and a display screen 27; the microprocessor 24 is used for receiving a first instruction of a target to be delivered sent by the terminal equipment through the communication component 25; controlling the prompt module 26 to send out first prompt information according to the first instruction so as to prompt a user to put an object in the container; and displaying the amount of the object that has been delivered through the outlet 22 as measured by the first sensor 23 on the display screen 27.

In an alternative embodiment, the microprocessor 24 is further configured to: the delivered object quantity is sent to the terminal device through the communication component 25, so that the terminal device sends a second instruction indicating to stop delivering according to the delivered object quantity.

In an alternative embodiment, the container cover body 21 is further provided with a second sensor 28 for detecting the use state of the container cover assembly 20; the microprocessor 24 is also operable to: the use state of the container cover assembly 20 detected by the second sensor 28 is transmitted to the terminal device through the communication assembly 25, so that the terminal device transmits a second instruction indicating to stop the dosing according to the use state.

In an alternative embodiment, the microprocessor 24 is further configured to: receiving a second instruction sent by the terminal device through the communication component 25, and controlling the prompting module 26 to send a second prompting message according to the second instruction to prompt the user to stop throwing the object in the container.

In an alternative embodiment, the microprocessor 24 is further configured to: the standard placement amount of the object transmitted by the terminal device is received through the communication component 25, and the standard placement amount of the object is displayed on the display screen 27.

In an alternative embodiment, the second sensor 28 is a gravity sensor, accelerometer, gyroscope, or IMU; the prompting module 26 is a diaphragm, a buzzer or a prompting lamp arranged on the container cover assembly 20; the first sensor 23 is a flow sensor, a level sensor or a laser detector.

In an alternative embodiment, the container cover body 21 further comprises a top cover and a side wall, and the top cover and the side wall form a containing cavity, and the containing cavity contains the container mouth of the container; or the container cover body 21 can be fixed with the container mouth through an adapter assembly, and the adapter assembly is communicated with the accommodating cavity; or the container cover body 21 is an insertion structure that can be inserted into the container mouth, and the outlet 22 is opened on the insertion interface of the container cover body 21 and the container mouth and penetrates through the insertion structure from top to bottom.

The present embodiment does not limit the appearance of the container cover assembly 20, and may be, for example, the form shown in fig. 4b, and the appearance of the container cover assembly 20 may be different according to the form of the container 30, for example, the forms shown in fig. 4c and 4d, but is not limited thereto. Further, the prompting module 26 provided on the container cover assembly 20 may be implemented differently according to the container cover assembly 20 of different forms, and may be provided on the container cover assembly 20. In an alternative embodiment, as shown in fig. 4 b-4 d, the indication module 26 is a ring-shaped indication lamp, and the ring-shaped indication lamp is disposed outside the container cover body 21.

Fig. 4b is a schematic structural diagram of a container provided in the embodiment of the present application, and as shown in fig. 4b, the container 30 includes; a container body 31 and a container lid assembly 20; the container cover assembly 20 includes a container cover body 21 detachably covering the container 30; the container cover body 20 is provided with an outlet 22 and a first sensor 23, when the container cover body 21 is covered on the container 30, the outlet 22 is communicated with the cavity of the container 30 and used for throwing the object in the container 30 outwards; a first sensor 23 for measuring the amount of objects that have been delivered through the outlet 22; the container cover body 21 is also provided with a microprocessor 24, a communication assembly 25, a prompt module 26 and a display screen 27; the microprocessor 24 is used for receiving a first instruction of object delivery sent by the terminal equipment through the communication component 25; controlling the prompt module 26 to send a first prompt message according to the first instruction to prompt the user to release the object in the container 30; and displaying the amount of the object that has been delivered through the outlet 22 as measured by the first sensor 23 on the display screen 27. For the functions and working principles of each component or module included in the container cover assembly 20, reference may be made to the foregoing embodiments, which are not described herein again.

The communication component of fig. 3 described above is configured to facilitate communication between the device in which the communication component is located and other devices in a wired or wireless manner. The device where the communication component is located can access a wireless network based on a communication standard, such as a WiFi, a 2G, 3G, 4G/LTE, 5G and other mobile communication networks, or a combination thereof. In an exemplary embodiment, the communication component receives a broadcast signal or broadcast related information from an external broadcast management system via a broadcast channel. In an exemplary embodiment, the communication component may further include a Near Field Communication (NFC) module, Radio Frequency Identification (RFID) technology, infrared data association (IrDA) technology, Ultra Wideband (UWB) technology, Bluetooth (BT) technology, and the like.

The display in fig. 3 described above includes a screen, which may include a Liquid Crystal Display (LCD) and a Touch Panel (TP). If the screen includes a touch panel, the screen may be implemented as a touch screen to receive an input signal from a user. The touch panel includes one or more touch sensors to sense touch, slide, and gestures on the touch panel. The touch sensor may not only sense the boundary of a touch or slide action, but also detect the duration and pressure associated with the touch or slide operation.

The power supply assembly of fig. 3 described above provides power to the various components of the device in which the power supply assembly is located. The power components may include a power management system, one or more power supplies, and other components associated with generating, managing, and distributing power for the device in which the power component is located.

The audio component of fig. 3 described above may be configured to output and/or input an audio signal. For example, the audio component includes a Microphone (MIC) configured to receive an external audio signal when the device in which the audio component is located is in an operational mode, such as a call mode, a recording mode, and a voice recognition mode. The received audio signal may further be stored in a memory or transmitted via a communication component. In some embodiments, the audio assembly further comprises a speaker for outputting audio signals.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

In a typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include forms of volatile memory in a computer readable medium, Random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of a computer-readable medium.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, a computer readable medium does not include a transitory computer readable medium such as a modulated data signal and a carrier wave.

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

The above are merely examples of the present application and are not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (17)

1. A remote control method, comprising:

acquiring structured data, wherein the structured data comprises release parameters of at least one object;

responding to a first configuration operation of a user, configuring at least one container cover component corresponding to the at least one object, wherein each container cover component is detachably covered on a container containing the corresponding object;

and sending a first instruction to at least one container cover assembly according to the release parameters of at least one object, so that a user can release at least one object according to first prompt information sent by at least one container cover assembly.

2. The method of claim 1, wherein the placement parameters comprise at least one of placement order among the at least one object, placement time points, placement time intervals, and standard placement amounts for each object.

3. The method of claim 2, wherein sending a first instruction to at least one container lid assembly based on the delivery parameters of the at least one object comprises:

if the releasing parameters comprise releasing sequences among at least one object, sequentially sending a first instruction to at least one container cover assembly according to the releasing sequences among the at least one object so that a user can release the at least one object according to first prompt information sent by the at least one container cover assembly;

if the release parameters comprise release time points or release time intervals among at least one object, sequentially sending a first instruction to at least one container cover assembly according to the release time points or the release time intervals among the at least one object, so that a user can release the at least one object according to first prompt information sent by the at least one container cover assembly;

and if the release parameters comprise the standard release amount corresponding to at least one object, sending a first instruction to at least one container cover assembly, wherein the first instruction comprises the standard release amount corresponding to the object, so that the container cover assembly corresponding to the object can display the standard release amount to a user.

4. The method of claim 3, further comprising:

aiming at a currently released object, receiving the amount of the released object returned by a user corresponding to a container cover assembly by the object; and

and when the delivered object amount reaches the standard delivery amount corresponding to the object, sending a second instruction to the container cover assembly corresponding to the object so that the user stops delivering the object according to second prompt information sent by the container cover assembly corresponding to the object.

5. The method of claim 4, further comprising:

aiming at a currently released object, receiving the use state of the object returned by the container cover component corresponding to the object;

and if the container cover assembly corresponding to the object is identified to be in the release stopping state according to the use state, sending a second instruction to the container cover assembly corresponding to the object so that the user stops releasing the object according to second prompt information sent by the container cover assembly corresponding to the object.

6. The method of any one of claims 1-5, wherein obtaining structured data comprises:

responding to the configuration operation of a user, and acquiring the release parameters of at least one object configured by the user;

and generating structured data according to the release parameters of the at least one object.

7. A remote control method is characterized in that the remote control method is suitable for a container cover assembly, the container cover assembly is detachably covered on a container, and the container cover assembly comprises an outlet, a prompt module, a first sensor and a display screen; the method comprises the following steps:

receiving a first instruction of a throwing object sent by a terminal device;

controlling the prompt module to send out first prompt information according to a first instruction so as to prompt a user to put in an object in a container with a container cover assembly;

collecting the amount of the object thrown through the outlet through the first sensor in response to the operation of throwing the object by a user;

and displaying the delivered object quantity on the display screen to prompt the user of the delivered object quantity.

8. The method of claim 7, further comprising:

and sending the delivered object quantity to the terminal equipment, so that the terminal equipment sends a second instruction for indicating to stop delivery according to the delivered object quantity.

9. The method of claim 7, wherein the container lid assembly further comprises a second sensor, the method further comprising:

and acquiring the use state of the container cover assembly by using the second sensor, and sending the use state to the terminal equipment so that the terminal equipment sends a second instruction for indicating to stop putting according to the use state.

10. A terminal device, comprising: a processor and a memory storing a computer program;

the processor to execute the computer program to:

acquiring structured data, wherein the structured data comprises release parameters of at least one object;

responding to a first configuration operation of a user, configuring at least one container cover component corresponding to the at least one object, wherein each container cover component is detachably covered on a container containing the corresponding object;

and sending a first instruction to at least one container cover assembly according to the release parameters among the at least one object, so that a user can release the at least one object according to first prompt information sent by the at least one container cover assembly.

11. A container lid assembly, comprising: the container cover body is detachably covered on the container; the container cover body is provided with an outlet and a first sensor; when the container cover body is covered on the container, the outlet is communicated with the cavity of the container and used for throwing the object in the container outwards; the first sensor is used for measuring the amount of the object thrown through the outlet;

the container cover body is also provided with a microprocessor, a communication assembly, a prompt module and a display screen; the microprocessor is used for receiving a first instruction of a throwing object sent by the terminal equipment through the communication component; controlling the prompt module to send out first prompt information according to the first instruction so as to prompt a user to put an object in the container; and displaying the amount of the object dropped through the outlet, which is measured by the first sensor, on the display screen.

12. The container lid assembly of claim 11, wherein the microprocessor is further configured to: and sending the delivered object quantity to the terminal equipment through a communication component so that the terminal equipment sends a second instruction for indicating to stop delivery according to the delivered object quantity.

13. The container lid assembly of claim 12, wherein the container lid body further comprises a second sensor for detecting a use status of the container lid assembly; the microprocessor is further configured to: and sending the use state of the container cover assembly detected by the second sensor to a terminal device through a communication assembly, so that the terminal device sends a second instruction indicating to stop putting according to the use state.

14. The container lid assembly of claim 12 or 13, wherein the microprocessor is further configured to: and receiving a second instruction sent by the terminal equipment through a communication component, and controlling the prompting module to send out second prompting information according to the second instruction so as to prompt a user to stop throwing the object in the container.

15. The container lid assembly of claim 14, wherein the microprocessor is further configured to: and receiving the standard putting amount of the object sent by the terminal equipment through a communication component, and displaying the standard putting amount of the object on the display screen.

16. The container lid assembly according to any one of claims 11-13, wherein the notification module is an annular notification light, and the annular notification light is disposed outside the container lid body.

17. A container, comprising: a container body and a container lid assembly; the container cover assembly comprises a container cover body which is detachably covered on the container; the container cover body is provided with an outlet and a first sensor, and when the container cover body is covered on the container, the outlet is communicated with the cavity of the container and used for throwing the object in the container outwards; the first sensor is used for measuring the amount of the object thrown through the outlet;

the container cover body is also provided with a microprocessor, a communication assembly, a prompt module and a display screen; the microprocessor is used for receiving a first instruction of a throwing object sent by the terminal equipment through the communication component; controlling the prompt module to send out first prompt information according to the first instruction so as to prompt a user to put an object in the container; and displaying the amount of the object dropped through the outlet, which is measured by the first sensor, on the display screen.

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