CN113065741B - Automatic detergent dispensing system, automatic detergent dispensing method, and automatic detergent dispensing apparatus - Google Patents
Automatic detergent dispensing system, automatic detergent dispensing method, and automatic detergent dispensing apparatus Download PDFInfo
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- 239000003599 detergent Substances 0.000 title claims abstract description 645
- 238000000034 method Methods 0.000 title claims abstract description 59
- 238000005406 washing Methods 0.000 claims abstract description 77
- 239000013589 supplement Substances 0.000 claims abstract description 68
- 238000012545 processing Methods 0.000 claims description 21
- 238000012544 monitoring process Methods 0.000 claims description 11
- 238000004458 analytical method Methods 0.000 claims description 5
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- 230000000694 effects Effects 0.000 description 4
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Abstract
The present specification provides an automatic detergent dispensing system, a detergent dispensing method, and a detergent dispensing apparatus. The matched target detergent can be automatically thrown into the connected washing equipment through the detergent throwing equipment so as to assist the washing equipment to complete specific washing tasks; meanwhile, the residual quantity of the stored target detergent can be automatically monitored, and when the residual quantity of the stored target detergent is monitored to be insufficient, first prompt information carrying at least the identification information of the detergent throwing device and the detergent parameters of the target detergent is generated; further, the detergent delivery device can automatically send the first prompt information to the server of the network platform through the gateway device, so that the server of the network platform can respond to the supplement for timely and accurately delivering the proper target detergent to the user according to the first prompt information. Therefore, the operation of the user can be simplified, and the use experience of the user is improved.
Description
Technical Field
The specification belongs to the technical field of the Internet of things, and particularly relates to an automatic detergent distribution system, a detergent distribution method and detergent throwing equipment.
Background
With the development of technology and the improvement of living standard, users have increasingly high demands on washing equipment (e.g., washing machines, etc.).
Based on the existing method, users often need to pay attention to the use condition of the stored detergent when using common washing equipment to perform washing operation. In addition, when the stored detergent is found to be insufficient, the user also needs to purchase new detergent for replenishment in time. The above-described process increases the operational burden and inconvenience to the user. Especially in application scenarios where the consumption of detergent is high (e.g. hotels, etc.), the amount of new detergent that the user needs to purchase for replenishment is often large, resulting in the above process becoming more cumbersome and complex. In addition, the process is also unfavorable for environmental protection and emission reduction.
In view of the above problems, no effective solution has been proposed at present.
Disclosure of Invention
The specification provides an automatic detergent delivery system, a detergent delivery method and a detergent delivery device, so that the defect of target detergent stored by the detergent delivery device can be automatically detected, and supplements for a user to deliver a proper target detergent for the detergent delivery device in time and accurately, thereby simplifying user operation and improving user experience.
The present specification provides an automatic detergent dispensing system comprising at least: detergent input equipment, washing equipment, server, wherein:
the detergent delivery device stores a target detergent; the detergent delivery device is connected with the washing device and is used for automatically delivering matched target detergent to the washing device; the washing equipment is arranged in a target area and is used for responding to the instruction of a user to finish a washing task by using the target detergent;
the detergent delivery device is also used for monitoring the residual quantity of the stored target detergent;
the detergent delivery device generates first prompt information according to a preset processing rule under the condition that the stored residual quantity of the target detergent is monitored to be smaller than or equal to a preset residual quantity threshold value; the first prompt information is sent to a server; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent;
the server receives the first prompt message and distributes the supplement of the target detergent to the detergent delivery device according to the first prompt message.
In some embodiments, the detergent comprises a laundry detergent; accordingly, the washing apparatus includes a washing machine; the detergent delivery device comprises a laundry detergent delivery device.
The specification also provides a detergent delivery device comprising at least: the system comprises a processor, a storage tank, a detergent detector and an Internet of things module; wherein,
the detergent detector is used for monitoring the residual quantity of the target detergent stored in the storage tank;
the processor generates first prompt information under the condition that the residual amount of the target detergent in the storage tank is monitored to be smaller than or equal to a preset residual amount threshold value; the first prompt information at least carries an equipment identifier corresponding to the detergent throwing equipment and a detergent parameter related to the target detergent;
and the processor sends the first prompt information to a server by calling an Internet of things module.
The present specification also provides a detergent dispensing method comprising:
monitoring a remaining amount of a target detergent stored in the detergent dispensing device;
generating first prompt information under the condition that the residual quantity of the target detergent is monitored to be smaller than or equal to a preset residual quantity threshold value according to a preset processing rule; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent;
The first prompt information is sent to a server; the server is used for distributing the supplement of the target detergent to the detergent delivery equipment according to the first prompt message.
In some embodiments, the detergent parameters include at least one of: the type of detergent, the brand of the detergent, the make-up amount of the detergent.
In some embodiments, the method further comprises:
collecting a characteristic mark of a storage tank arranged in the detergent delivery equipment; wherein the reservoir is for storing a target detergent;
and acquiring the detergent parameters related to the target detergent according to the characteristic identifiers.
In some embodiments, in the event that the residual amount of the target detergent is monitored to be less than or equal to a preset residual amount threshold, the method further comprises:
generating second prompt information; the second prompt message is used for prompting a user to supplement the target detergent;
sending the second prompt information to a user terminal; the user terminal is used for displaying the second prompt information to a user and generating feedback information of the user aiming at the second prompt information; the user terminal sends the feedback information to a server; the feedback information carries at least indication information of the supplement to the user for dispensing the target detergent.
In some embodiments, the feedback information also carries user-defined dispensing times and/or user-defined detergent parameters.
The present specification also provides a detergent dispensing method comprising:
receiving first prompt information sent by detergent delivery equipment; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent;
inquiring a user database according to the equipment identifier of the detergent delivery equipment to determine the position information of a target area where the detergent delivery equipment is positioned;
and delivering the supplement of the target detergent to the detergent delivery device according to the position information of the target area and the detergent parameters related to the target detergent.
The present specification also provides a computer readable storage medium having stored thereon computer instructions which when executed perform the relevant steps of the detergent dispensing method.
According to the automatic detergent distribution system, the automatic detergent distribution method and the automatic detergent distribution device, the matched target detergent can be automatically distributed to the connected washing device through the automatic detergent distribution device, so that the washing device can be assisted to complete a specific washing task; meanwhile, the residual amount of the stored target detergent can be automatically monitored through the detergent delivery device, and when the deficiency of the stored target detergent is monitored, first prompt information carrying at least the identification information of the detergent delivery device and the detergent parameters of the target detergent can be generated; further, the detergent delivery device can automatically send the first prompt information to the server of the network platform, so that the server of the network platform can timely and accurately supplement the supplement for the user to deliver the proper target detergent aiming at the detergent delivery device according to the first prompt information. Therefore, the operation of the user can be simplified, and the use experience of the user is improved. In addition, through the detergent throwing equipment, the automatic detergent distribution system and the automatic detergent distribution method, the conventional detergent supplementing and distribution mode of users is changed, and consumption of detergent packaging can be effectively reduced, so that the effects of reducing cost and contributing to environmental protection and emission reduction can be achieved.
Drawings
In order to more clearly illustrate the embodiments of the present disclosure, the drawings that are required for the embodiments will be briefly described below, in which the drawings are only some of the embodiments described in the present disclosure, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic view showing the structural composition of an automatic detergent dispensing system according to one embodiment of the present disclosure;
FIG. 2 is a schematic structural view of a detergent dispensing device according to one embodiment of the present disclosure;
FIG. 3 is a flow chart of a detergent dispensing method according to one embodiment of the present disclosure;
FIG. 4 is a schematic diagram of one embodiment of a detergent dispensing method according to the embodiments of the present disclosure, in one example of a scenario;
FIG. 5 is a schematic view of an embodiment of a detergent dispensing method according to the embodiments of the present disclosure, in one example of a scenario;
FIG. 6 is a flow chart of a detergent dispensing method according to one embodiment of the present disclosure;
FIG. 7 is a schematic diagram of the structural composition of a server according to one embodiment of the present disclosure;
FIG. 8 is a schematic view showing the structural composition of a detergent dispenser according to one embodiment of the present disclosure;
FIG. 9 is a schematic view showing the structural composition of a detergent dispenser according to one embodiment of the present disclosure;
fig. 10 is a schematic view of an embodiment of a detergent dispensing method according to the embodiment of the present disclosure, in one example of a scenario.
Detailed Description
In order to make the technical solutions in the present specification better understood by those skilled in the art, the technical solutions in the embodiments of the present specification will be clearly and completely described below with reference to the drawings in the embodiments of the present specification, and it is obvious that the described embodiments are only some embodiments of the present specification, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are intended to be within the scope of the present disclosure.
Considering that a user needs to pay attention to the remaining amount of detergent stored by himself in general when performing a washing operation using the washing apparatus; and, when the user finds that the remaining amount of the stored detergent is insufficient, the user also needs to timely purchase new detergent for replenishment. Therefore, a great deal of time and energy are occupied by the user, the operation burden of the user is increased, and the use experience of the user is further affected. The above problems are more remarkable especially when facing application scenes where the consumption of detergents is large, such as schools, hotels, etc. In addition, in the process, the user needs to purchase new detergent for replenishment, so that the consumption of the detergent package is increased, the purchase cost of the detergent is increased, and the environment protection and emission reduction are also not facilitated.
For the root cause of the above problem, the present specification contemplates that the technology of internet of things may be introduced, and a set of at least comprising: detergent delivery equipment, washing equipment and a server. Based on the system, the matched target detergent can be automatically thrown into the connected washing equipment through the detergent throwing equipment, so that the washing equipment is automatically assisted to complete a washing task required by a user; meanwhile, the residual quantity of the stored target detergent can be monitored through the detergent delivery device, and when the defect of the stored target detergent is monitored, identification information carrying the detergent delivery device and first prompt information of detergent parameters of the target detergent are automatically generated and sent to the server, so that the server can timely and accurately distribute a proper supplement of the target detergent to the detergent delivery device according to the first prompt information.
Based on the foregoing, embodiments of the present disclosure provide an automatic detergent dispensing system. Referring to fig. 1, the automatic detergent dispensing system includes at least: detergent delivery equipment, washing equipment, server and other structures. The washing device is connected with the server through a network (for example, a mobile phone network, the Internet of things and the like).
Wherein: the detergent delivery device stores a target detergent; the detergent delivery device can be connected with the washing device specifically, and can be used for automatically delivering matched target detergent to the washing device; the washing equipment is arranged in a target area and is used for responding to the instruction of a user to finish a washing task by using the target detergent;
the detergent delivery device is also used for monitoring the residual quantity of the stored target detergent;
the detergent delivery device generates first prompt information according to a preset processing rule under the condition that the stored residual quantity of the target detergent is monitored to be smaller than or equal to a preset residual quantity threshold value; the first prompt information is sent to a server; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent;
the server receives the first prompt message and distributes the supplement of the target detergent to the detergent delivery device according to the first prompt message.
In some embodiments, the above-described washing device may be understood in particular as an electronic device for performing washing tasks. In particular, the washing apparatus may be a washing machine which is disposed in a target area (e.g., a user's home, etc.) by a user for performing a washing task. For example, it may be a home washing machine deployed in a user's home; the washing machine can also be a public washing machine and the like which are arranged in a washing room of application scenes such as hotels, schools and the like. Correspondingly, the detergent can be specifically a laundry detergent, and the detergent delivery device can be specifically a laundry detergent delivery device.
It should be noted, of course, that the above-listed washing apparatus is only a schematic illustration. In particular, the washing apparatus may include washing apparatuses for performing other types of washing tasks in addition to the washing machine, according to specific situations and processing requirements. For example, a dishwasher or the like for performing dishwashing tasks is also possible. Accordingly, the detergent dispensing device may further comprise a detergent dispensing device for assisting in performing other types of washing tasks, which is compatible with the washing device.
In some embodiments, the above-mentioned detergent dispensing device may be specifically understood as an electronic device that stores detergent and can automatically dispense the detergent to an associated washing device to assist the washing device to perform a specific washing task.
In this embodiment, the detergent dispensing device may be independent of the washing device, for example, an external device provided with a connection interface. Wherein the connection interface is matched with at least one self-contained interface of the washing equipment. Therefore, when a user uses the washing machine, the detergent throwing device can be connected with the washing machine through the connecting interface, and then the detergent throwing device can be used for automatically throwing detergent into the washing machine to assist in completing a washing task.
In some embodiments, the above-mentioned detergent dispensing device may be provided with a sensor in particular. In particular, the detergent dispensing device may detect that a user dispenses an object to be washed (e.g., laundry) to the washing device through the above-described sensor. Further, the detergent dispensing device may collect data through the above-mentioned sensor to determine the number of objects to be washed, and may estimate the amount of detergent to be used according to the number of objects to be washed. Furthermore, the matched detergent can be automatically weighed out of the stored detergents and put into the washing device through the connection interface. Thereby realizing automatic feeding of matched detergent to the connected washing equipment.
In some embodiments, the above-mentioned detergent dispensing device may further automatically monitor the remaining amount of the stored detergent (which may be recorded as a target detergent), and automatically generate and send a corresponding first prompt message to the server when the target detergent is found to be insufficient, so as to prompt the server to timely schedule the supplement for dispensing the target detergent to supplement the target detergent stored in the detergent dispensing device.
In order to achieve the above functions, referring to fig. 2, the detergent dispensing device may at least include: processor, storage tank, detergent detector, and Internet of things module; wherein the above structures may be connected by an internal cable. Specific:
The detergent detector may be used in particular for monitoring the remaining amount of target detergent stored in the reservoir;
the processor generates first prompt information under the condition that the residual amount of the target detergent in the storage tank is monitored to be smaller than or equal to a preset residual amount threshold value; the first prompt information at least carries an equipment identifier corresponding to the detergent throwing equipment and a detergent parameter related to the target detergent;
and the processor sends the first prompt information to a server by calling an Internet of things module.
In this embodiment, the above-described storage tank is used to store a target detergent. Specifically, the storage tank can be detachably arranged on the detergent delivery device, so that the target detergent can be conveniently replenished later.
In this embodiment, the above-described detergent detector may be specifically used to detect the remaining amount of the target detergent stored in the tank. Specifically, the detergent detector may be a liquid level detector disposed in the storage tank, and first collect a liquid level parameter of a target detergent in the storage tank; and then converting the residual quantity of the target detergent in the storage tank according to the acquired liquid level parameters and combining with a liquid level-based algorithm model. The detergent detector can also be a gravity sensor arranged at the bottom of the storage tank, and the gravity parameter of the target detergent in the storage tank is collected firstly; and then converting the residual quantity of the target detergent in the storage tank and the like according to the acquired gravity parameters and combining a gravity-based algorithm model. Of course, the above-described detergent detector may be other types of instrument devices capable of detecting the remaining amount of the target detergent in the tank according to the specific circumstances and processing requirements.
In this embodiment, the above-mentioned module of the internet of things may be specifically understood as a signal identifying and transmitting device. Through the physical network module, the detergent delivery device can be connected with the server through a network by connecting gateway equipment (such as WIFI equipment and the like) of a target area or a user terminal (such as mobile phone APP and the like) used by a user, so that specific data interaction is conveniently carried out by the server.
In some embodiments, the detergent dispensing device may further comprise a feature identifier. Accordingly, the detergent dispensing device may acquire detergent parameters related to the target detergent stored in the storage tank by means of the feature identifier and according to the feature identifier preset in the storage tank.
In some embodiments, the above-described detergent parameters may specifically include at least one of: the type of detergent (e.g., the fragrance of the detergent, etc.), the brand of the detergent, the supplemental amount of the detergent, etc. It should be understood, of course, that the above list of detergent parameters is illustrative only. In particular, the above-mentioned detergent parameters may also include other parameter information capable of reflecting the attribute characteristics of the target detergent stored in the storage tank, for example, the appearance of the detergent, the composition of the detergent, the additional functions of the detergent, etc., according to the specific situation and the processing requirement.
In some embodiments, a corresponding NFC tag may be provided on the tank in advance as a feature identifier. The NFC tag may specifically record a detergent parameter of the target detergent stored in the storage tank. Correspondingly, the feature identifier may be an NFC tag reader. Thus, the detergent dispensing device can recognize and read the NFC tag arranged on the storage tank through the NFC tag reader so as to acquire the detergent parameters of target washing.
In some embodiments, a shaped interface texture may also be provided as a feature at the interface location between the reservoir and the detergent delivery device. Wherein, the shape of the interface lines specifically corresponds to the washing parameters. Accordingly, the feature identifier may specifically be a texture detector. Thus, the detergent delivery device can identify and determine the corresponding washing parameters according to the shape of the interface grain of the storage tank through the grain shape detector.
Specifically, for example, according to a preset rule of correspondence between the texture shape and the washing parameter, when the texture shape detector detects that the interface texture of the storage tank is the concave texture shape, the odor type of the target detergent stored in the storage tank can be determined to be the odor type 1; when the interface texture is detected to be in the convex texture shape by the texture detector, the fragrance type of the target detergent stored in the storage tank can be determined to be a No. 2 fragrance type and the like.
In some embodiments, the automatic detergent dispensing system may further comprise a user terminal. The user terminal specifically may include a front-end electronic device applied to a user side and capable of implementing functions such as data acquisition and data transmission. Specifically, the user terminal may be, for example, a desktop computer, a tablet computer, a notebook computer, a smart phone, etc. Alternatively, the user terminal may be a software application capable of running in the electronic device. For example, it may be some detergent service APP running on a smart phone, etc.
In some embodiments, the detergent delivery device may establish a connection with a user terminal for data interaction. The detergent delivery device can also interact data with the server through the connection established with the user terminal by using the network of the user terminal.
In some embodiments, the server may specifically include a cloud server applied to a network platform side of a detergent delivery service (for example, a detergent delivery center, a detergent delivery store, etc.), and a background server capable of implementing functions of data transmission, data processing, etc. Specifically, the server may be, for example, an electronic device having data operation, storage function and network interaction function. Alternatively, the server may be a software program running in the electronic device that provides support for data processing, storage, and network interactions. In the present embodiment, the number of servers is not particularly limited. The server may be one server, several servers, or a server cluster formed by several servers.
In some embodiments, the automatic detergent dispensing system may further comprise a dispensing terminal. The distribution terminal may specifically include an electronic device disposed at a distribution side and capable of displaying a distribution instruction sent by the server to a distributor. Specifically, the distribution terminal may be, for example, a desktop computer, a tablet computer, a notebook computer, a smart phone, etc. Alternatively, the delivery terminal may be a software application capable of running in the electronic device.
Specifically, after receiving the first instruction, and determining that the user confirms that the target detergent stored in the detergent delivery device is to be replenished, the server may generate a corresponding delivery instruction, and send the delivery instruction to the delivery terminal. The dispensing instruction at least can carry address information of a target area where the detergent dispensing device is located and detergent parameters of target detergent.
Accordingly, the delivery terminal may present the delivery indication to the delivery person. The dispenser may prepare a matched supplement of the target detergent according to the detergent parameters of the target detergent; and then, according to the address information of the target area, the user goes to the target area and goes to the gate to dispense and supplement the target detergent. Thus, the user can conveniently realize the supplement of the target detergent without purchasing a new detergent by himself. Meanwhile, as new detergents do not need to be purchased, the packaging consumption of the detergents is reduced, the cost can be reduced to a certain extent, and the effects of environmental protection and emission reduction are achieved.
Based on the above-mentioned automatic detergent dispensing system, referring to fig. 3, an embodiment of the present disclosure provides a detergent dispensing method. Wherein the method is particularly applicable to one side of a detergent delivery device. In particular implementations, the method may include the following.
S301: monitoring a remaining amount of a target detergent stored in the detergent dispensing device;
s302: generating first prompt information under the condition that the residual quantity of the target detergent is monitored to be smaller than or equal to a preset residual quantity threshold value according to a preset processing rule; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent;
s303: the first prompt information is sent to a server; the server is used for distributing the supplement of the target detergent to the detergent delivery equipment according to the first prompt message.
In some embodiments, the user connects the detergent delivery device to the washing device in a target area (e.g., user's home), and after the layout of the detergent delivery device is completed, the user may perform a binding operation.
Specifically, the user may use a user terminal (for example, an APP installed on a smart phone used by the user) to scan a two-dimensional code preset in the detergent delivery device, so as to trigger entering the binding boundary surface, which may be shown in fig. 4. The user can complete the binding operation by using the user terminal through the binding interface.
When the binding operation is specifically performed, the user terminal can automatically extract the equipment identifier contained in the two-dimensional code by analyzing the acquired two-dimensional code.
Wherein, the device identifiers are in one-to-one correspondence with the detergent delivery devices. In particular, the device identifier may be a factory number of the detergent dispensing device, e.g. No.01021. But also the physical address of the detergent dispensing device, etc.
Further, the user terminal may display a binding interface for the user, and guide the user to perform corresponding operations in the binding interface, so as to input user information such as a user account, location information of a target area where the user is located, a mobile phone number of the user, and the like in the binding interface.
Correspondingly, the user terminal can acquire user information input by a user through the binding boundary surface; and then a corresponding binding request can be generated based on the user information and the equipment identifier; and transmitting the binding request to a server through a network.
The server receives and responds to the binding request, establishes the corresponding relation between the equipment identifier and the user information, and stores the equipment identifier and the user information corresponding to the equipment identifier in a database. Thereby completing the binding operation.
In some embodiments, the detergent dispensing device may detect the remaining amount of the target detergent stored in the storage tank through the detergent detector every predetermined period of time (e.g., every one hour).
Of course, in a specific implementation, the detergent delivery device may also be arranged to trigger detection of the remaining amount of the target detergent stored in the reservoir each time the detergent delivery device assists the washing device in completing a washing task.
In some embodiments, the processor of the detergent delivery device may compare the detected remaining amount of the target detergent with a preset remaining amount threshold, and when it is determined that the remaining amount of the target detergent is greater than the preset remaining amount threshold, may determine that the target detergent in the current storage tank is sufficient, and does not need to be replenished. When the residual amount of the target detergent is determined to be less than or equal to the preset residual amount threshold value, the situation that the target detergent in the current storage tank is less and needs to be replenished can be judged.
In some embodiments, the detergent delivery device may trigger the collection of a detergent parameter related to the target detergent in case it is monitored that the remaining amount of the target detergent is less than or equal to a preset remaining amount threshold.
And the detergent delivery device can generate first indication information according to preset processing rules by combining the device identification and the acquired detergent parameters. Wherein, the first indication information at least carries the equipment identification and the detergent parameter. The first indication information is used for indicating that the target detergent stored in the detergent delivery device is insufficient and needs to be replenished.
In some embodiments, the detergent delivery device may send the first indication information to the server through the internet of things module. When the method is specifically transmitted, the detergent delivery device can detect gateway devices (for example, WIFI devices and the like) which are connected with the detergent delivery device at present through the Internet of things module; the first indication information may be further sent to a server through a network provided by the gateway device.
In some embodiments, the detergent delivery device may also detect, through the internet of things module, that there is a user terminal (e.g., a smartphone used by a user) currently connected with the detergent delivery device; the first instruction information may be transmitted to a server or the like via a network used by the user terminal.
In some embodiments, after receiving the first prompt information, the server may respond to the first prompt information and extract the device identifier from the first prompt information; inquiring a user database according to the equipment identifier to find user information corresponding to the equipment identifier; furthermore, according to the user information, the position information of the target area where the detergent delivery device is positioned and the detergent parameters related to the target detergent stored before the detergent delivery device can be determined; further, the server may perform corresponding data processing based on the above-mentioned location information, as well as the detergent parameters, and timely arrange for the detergent delivery device to deliver a suitable supplement of the target detergent.
In some embodiments, the detergent parameters may specifically include at least one of: the type of detergent, the brand of the detergent, the replenishment amount of the detergent, etc.
In some embodiments, the method may further include the following when implemented: collecting a characteristic mark of a storage tank arranged in the detergent delivery equipment; wherein the reservoir is for storing a target detergent; and acquiring the detergent parameters related to the target detergent according to the characteristic identifiers.
In this embodiment, each storage tank may be provided with a feature identifier, and information such as a detergent parameter related to the target detergent stored in the storage tank is written in advance in the feature identifier.
Specifically, the detergent delivery device may identify and acquire a feature identifier (e.g., NFC tag, grain shape, etc.) preset in the storage tank through the feature identifier; further, the detergent parameters related to the target detergent can be obtained according to the characteristic identifiers.
In some embodiments, the server may generate a delivery instruction carrying the location information and the detergent parameters when performing corresponding data processing according to the location information and the detergent parameters; and transmitting the delivery instruction to the delivery terminal. The dispensing terminal may present the dispensing indication to a dispenser of the detergent dispensing service.
Further, the dispenser may prepare a supplement of the appropriate target detergent based on the detergent parameters included in the dispensing instructions. For example, a detergent is prepared that is the same as the type of detergent in the detergent parameters, the brand of the detergent, and meets the supplemental amount of the detergent as a suitable target detergent supplement.
Further, the dispenser may dispense the supplement of the target detergent to the target area where the detergent dispensing device is disposed, based on the position information included in the dispensing instruction. Therefore, the delivery of the supplement of the target detergent can be completed in time, the operation of a user is simplified, and the use experience of the user is improved.
In some embodiments, the detergent delivery device may further include the following when the method is specifically implemented in a case where the monitored residual amount of the target detergent is less than or equal to a preset residual amount threshold: generating second prompt information; the second prompt message is used for prompting a user to supplement the target detergent; sending the second prompt information to a user terminal; the user terminal is used for displaying the second prompt information to a user and generating feedback information of the user aiming at the second prompt information; the user terminal sends the feedback information to a server; the feedback information carries at least indication information of the supplement to the user for dispensing the target detergent.
In some embodiments, the detergent delivery device generates and transmits the first prompt message to the server, and simultaneously generates a second prompt message for requesting the user to confirm whether the supplement of the target detergent needs to be delivered, and transmits the second prompt message to the user terminal.
Correspondingly, the user terminal can display the second prompt information to the user and receive feedback information of the user for the second prompt information. The feedback information at least carries instruction information of a user aiming at the supplement of the target detergent. Further, the user terminal may send the feedback information to the server.
In this way, the server can receive the first prompt information from the detergent delivery device and the feedback information from the user terminal at the same time; further, it is possible to combine the two information to determine whether a supplement of the target detergent is to be delivered to the user.
Specifically, after determining that the first prompt message is received, the server may extract, from the feedback message, indication information of a supplement of the user for dispensing the target detergent, and if the indication information is determined to be consent, may determine that the supplement of the target detergent is to be dispensed for the user. Conversely, if the indication is determined to be disagreeable, it may be determined that there is no temporary need to dispense the supplement of the target detergent for the user.
In some embodiments, the feedback information may specifically further carry user-defined data such as user-defined delivery time and/or user-defined detergent parameters.
Specifically, after receiving the second prompt information, the user terminal may respond to the second prompt information to generate and display a feedback information setting interface to the user. The feedback information setting interface may include at least an indication information setting icon for the supplement of the target detergent to be dispensed.
For example, as shown in fig. 5, the feedback information setting interface displayed by the user terminal may include a second prompt message, an agreeing icon for indicating that the supplement of the target detergent is to be dispensed, and a disagreeing icon for indicating that the supplement of the target detergent is not to be dispensed.
After the user sees the second prompt information displayed in the feedback information setting interface, if the user agrees to dispense the supplement of the target detergent, the user can click on the agreeing icon. Correspondingly, the user terminal can collect and generate indication information representing consent according to the clicking operation of the user on the consent icon.
Conversely, if the user does not agree to dispense the supplement of the target detergent, the disagree icon may be clicked. Correspondingly, the user terminal can collect and generate indication information representing disagreement according to the clicking operation of the user on the disagreement icon.
Furthermore, the user terminal may generate corresponding feedback information according to the generated indication information, and send the feedback information to the server.
Furthermore, the feedback information setting interface displayed by the user terminal can also comprise a user-defined parameter input box. For example, a dispensing time input box, a detergent parameter input box, etc., provided for user-defined settings. The user can set custom parameters such as custom delivery time, custom detergent parameters and the like in the custom parameter input box according to the actual situation of the user.
Correspondingly, the user terminal can receive the user-defined parameters set by the user through the user-defined parameter input box, generate feedback information carrying the indication information and the user-defined parameters, and send the feedback information to the server.
Specifically, for example, when the user is not at home and can go home only at 7:00 a.m., the user may input the desired delivery time in the delivery time input box as follows: 19:30, as a custom delivery time. Meanwhile, the user does not want to use the previously used detergent with the fragrance type 1, but tries to use the detergent with the fragrance type 2, and at this time, the user can input the desired detergent into the detergent parameter input box as follows: type 1 as a custom detergent parameter.
Correspondingly, the user terminal can collect and generate feedback information carrying the user indication information, the custom delivery time and the custom detergent parameters according to the custom detergent parameters and the custom delivery time, and send the feedback information to the server.
In some embodiments, after receiving the first prompt message and the feedback message, the server may first extract the indication message of the user from the feedback message, and determine whether to dispense the supplement of the target detergent for the user according to the indication message. In the case where it is determined that the supplement for the target wash is to be delivered to the user, the detergent parameters of the target detergent may be extracted from the first prompt message, while the custom parameters, such as the custom delivery time, the custom detergent parameters, etc., are extracted from the feedback message. Further, the server may preferentially utilize the custom parameters to generate delivery instructions that satisfy the user's custom requirements. The resulting dispensing indication may carry custom parameters such as custom dispensing time, custom detergent parameters, etc.
The server may then send the delivery indication to the delivery terminal. The distributor can prepare the supplement of the target detergent meeting the user-defined requirement according to the distribution instruction and the user-defined detergent parameters preferentially; and according to the user-defined delivery time, the user is sent to the target area to deliver the supplement of the target detergent to the user. Therefore, the method can meet diversified individual demands of users, better distribute supplements of target detergents to the users, and further improve the use experience of the users.
In some embodiments, when a dispenser dispenses the supplement of the target detergent specifically, the dispenser can directly fill the supplement of the target detergent into an existing storage tank of a user, so that consumption of the detergent package can be avoided, the effects of reducing cost and contributing to environmental protection and emission reduction are achieved.
In some embodiments, when the dispenser dispenses the supplement of the target detergent specifically, the dispenser can replace the empty storage tank of the user with the storage tank of the target detergent supplement stored in advance, and recover the empty storage tank of the user, so that the corresponding detergent can be refilled later, and the matched characteristic identifiers are reset according to the refilled detergent, thereby realizing the reuse of the storage tank, reducing the cost and being beneficial to environmental protection and emission reduction.
In some embodiments, the server may also set a history of interactions for each detergent delivery device. Each history interaction record corresponds to a device identifier of one detergent delivery device, and at least comprises first prompt information sent by the detergent delivery device in a history way and receiving time of the first prompt information received by the server.
Further, the server may perform data statistics analysis on the first prompt information of the latest time period of each detergent delivery device and the receiving time of the first prompt information in every other time period (for example, one month, etc.), so as to determine the detergent consumption trend of the latest time period of the detergent delivery device. And further, the consumption condition of the detergent delivery device in the current time period can be predicted according to the consumption trend, so that the time point when the detergent of the detergent delivery device is predicted to be used can be extracted, and reminding information is sent to the user terminal in advance before the time point, so that a user is reminded to instruct the server to schedule the delivery of the supplement of the target detergent in time. Thereby the use experience of the user can be further improved.
Therefore, according to the detergent distribution method provided by the embodiment of the specification, the matched target detergent can be automatically distributed to the connected washing equipment through the detergent distribution equipment, so that the washing equipment can be assisted to complete specific washing tasks; meanwhile, the residual quantity of the stored target detergent can be automatically monitored through the detergent delivery device, and when the shortage and the rapid use of the target detergent are monitored, first prompt information carrying at least the identification information of the detergent delivery device and the detergent parameters of the target detergent can be generated; further, the detergent delivery device can automatically send the first prompt information to the server of the network platform, so that the network platform can timely and accurately supplement the supplement for the user to deliver the proper target detergent aiming at the detergent delivery device according to the first prompt information. Therefore, the operation of the user can be simplified, and the use experience of the user is improved. In addition, through the detergent throwing equipment, the automatic detergent distribution system and the automatic detergent distribution method, the conventional detergent supplementing and distribution mode of a user is changed, and consumption of detergent packaging can be reduced, so that cost can be reduced, and environmental protection and emission reduction are facilitated.
Based on the above-mentioned automatic detergent dispensing system, referring to fig. 6, an embodiment of the present disclosure provides a detergent dispensing method. The method is particularly applied to the server side. In particular implementations, the method may include the following.
S601: receiving first prompt information sent by detergent delivery equipment; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent;
s602: inquiring a user database according to the equipment identifier of the detergent delivery equipment to determine the position information of a target area where the detergent delivery equipment is positioned;
s603: and delivering the supplement of the target detergent to the detergent delivery device according to the position information of the target area and the detergent parameters related to the target detergent.
In some embodiments, the server may extract data information such as the device identifier, the detergent parameter of the target detergent, and the like from the first prompt message.
In some embodiments, upon receiving the first prompt, the server may generate a delivery indication carrying location information of the target area and detergent parameters when determining that a supplement of the target detergent is to be delivered for the detergent delivery device; and transmitting the delivery instruction to the delivery terminal. Wherein, the distribution terminal is arranged at one side of the distributor.
The delivery terminal may display the delivery instruction to the delivery person after receiving the delivery instruction. The dispenser can prepare a supplement of the appropriate target detergent based on the detergent parameters; and based on the location information, delivering a supplement of the target detergent to the user.
In some embodiments, the server may further receive feedback information of the second prompt information sent by the user terminal for the detergent delivery device; the feedback information at least carries instruction information of a user aiming at the supplement of the target detergent.
Correspondingly, after receiving the second prompt message, the server may first extract the indication message of the user from the second prompt message, and determine, according to the indication message, whether to dispense the supplement of the target detergent for the detergent dispensing device. In the case that the supplement of the target detergent is determined to be dispensed based on the above-mentioned indication information, the server generates and transmits a corresponding dispensing indication to the dispensing terminal.
In some embodiments, the feedback information further carries custom parameters such as user-defined dispensing time and/or custom detergent parameters. Of course, it should be noted that the above-listed custom parameters are merely illustrative. In specific implementation, the custom parameters may also include other parameter data customized by the user, for example, location information customized by the user, a custom delivery mode, and so on, according to specific situations and processing requirements.
Correspondingly, when determining to dispense the supplement of the target detergent, the server can generate a dispensing instruction carrying the position information, the detergent parameter of the target detergent and the custom parameter, and send the dispensing instruction to the dispensing terminal. So that the distributor can distribute the supplement of the target detergent to the user better according to the distribution instruction displayed by the distribution terminal, thereby meeting the various individual distribution demands of the user.
Referring to fig. 7, another specific server is provided in this embodiment of the present disclosure, where the server includes a network communication port 701, a processor 702, and a memory 703, where the foregoing structures are connected by an internal cable, so that each structure may perform specific data interaction.
The network communication port 701 may be specifically configured to receive a first prompt message sent by the detergent delivery device; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and detergent parameters related to the stored target detergent.
The processor 702 may be specifically configured to query a user database according to the device identifier of the detergent delivery device, so as to determine location information of a target area where the detergent delivery device is located; and delivering the supplement of the target detergent to the detergent delivery device according to the position information of the target area and the detergent parameters related to the target detergent.
The memory 703 may be used for storing a corresponding program of instructions.
In this embodiment, the network communication port 701 may be a virtual port that binds with different communication protocols, so that different data may be sent or received. For example, the network communication port may be a port responsible for performing web data communication, a port responsible for performing FTP data communication, or a port responsible for performing mail data communication. The network communication port may also be an entity's communication interface or a communication chip. For example, it may be a wireless mobile network communication chip, such as GSM, CDMA, etc.; it may also be a Wifi chip; it may also be a bluetooth chip.
In this embodiment, the processor 702 may be implemented in any suitable manner. For example, the processor may take the form of, for example, a microprocessor or processor, and a computer-readable medium storing computer-readable program code (e.g., software or firmware) executable by the (micro) processor, logic gates, switches, an application specific integrated circuit (Application Specific Integrated Circuit, ASIC), a programmable logic controller, and an embedded microcontroller, among others. The description is not intended to be limiting.
In this embodiment, the memory 703 may include a plurality of layers, and in a digital system, the memory may be any memory as long as it can hold binary data; in an integrated circuit, a circuit with a memory function without a physical form is also called a memory, such as a RAM, a FIFO, etc.; in the system, the storage device in physical form is also called a memory, such as a memory bank, a TF card, and the like.
The embodiments of the present specification also provide a computer storage medium based on the above detergent dispensing method, the computer storage medium storing computer program instructions that when executed implement: monitoring a remaining amount of a target detergent stored in the detergent dispensing device; generating first prompt information under the condition that the residual quantity of the target detergent is monitored to be smaller than or equal to a preset residual quantity threshold value according to a preset processing rule; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent; the first prompt information is sent to a server; the server is used for distributing the supplement of the target detergent to the detergent delivery equipment according to the first prompt message.
In the present embodiment, the storage medium includes, but is not limited to, a random access Memory (Random Access Memory, RAM), a Read-Only Memory (ROM), a Cache (Cache), a Hard Disk (HDD), or a Memory Card (Memory Card). The memory may be used to store computer program instructions. The network communication unit may be an interface for performing network connection communication, which is set in accordance with a standard prescribed by a communication protocol.
The embodiments of the present specification also provide another computer storage medium based on the above detergent dispensing method, where the computer storage medium stores computer program instructions that when executed implement: receiving first prompt information sent by detergent delivery equipment; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent; inquiring a user database according to the equipment identifier of the detergent delivery equipment to determine the position information of a target area where the detergent delivery equipment is positioned; and delivering the supplement of the target detergent to the detergent delivery device according to the position information of the target area and the detergent parameters related to the target detergent.
In this embodiment, the functions and effects of the program instructions stored in the computer storage medium may be explained in comparison with other embodiments, and are not described herein.
Referring to fig. 8, at a software level, the embodiment of the present disclosure further provides a detergent dispensing device, which may specifically include the following structural modules:
the monitoring module 801 may be specifically configured to monitor a remaining amount of a target detergent stored in the detergent dispensing device;
the generating module 802 may be specifically configured to generate, according to a preset processing rule, a first prompt message when it is monitored that the remaining amount of the target detergent is less than or equal to a preset remaining amount threshold; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent;
the sending module 803 may be specifically configured to send the first prompt information to a server; the server is used for distributing the supplement of the target detergent to the detergent delivery equipment according to the first prompt message.
Referring to fig. 9, at a software level, the embodiment of the present disclosure further provides a detergent dispensing device, which may specifically include the following structural modules:
The receiving module 901 may be specifically configured to receive a first prompt message sent by the detergent delivery device; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent;
the determining module 902 may be specifically configured to query a user database according to an equipment identifier of the detergent delivery device, so as to determine location information of a target area where the detergent delivery device is located;
the processing module 903 may be specifically configured to dispense a supplement of the target detergent for the detergent delivery device according to the location information of the target area and the detergent parameter related to the target detergent.
It should be noted that, the units, devices, or modules described in the above embodiments may be implemented by a computer chip or entity, or may be implemented by a product having a certain function. For convenience of description, the above devices are described as being functionally divided into various modules, respectively. Of course, when the present description is implemented, the functions of each module may be implemented in the same piece or pieces of software and/or hardware, or a module that implements the same function may be implemented by a plurality of sub-modules or a combination of sub-units, or the like. The above-described apparatus embodiments are merely illustrative, for example, the division of the units is merely a logical function division, and there may be additional divisions when actually implemented, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical or other form.
From the above, it can be seen that the detergent dispensing device provided according to the embodiments of the present disclosure can automatically and timely and accurately dispense a supplement of a suitable target detergent for a user. Therefore, the operation of the user can be simplified, and the use experience of the user is improved.
In a specific example, the method and the system can be applied to the automatic detergent distribution system and the method provided by the specification to construct a specific external automatic detergent replacement information interaction system, so that a user can more simply, conveniently and efficiently complete detergent supplementation. And in particular, reference is made to fig. 10. The system may include an automatic wash delivery device (e.g., a detergent delivery apparatus). The automatic detergent delivery device comprises a detergent tank (e.g. a storage tank), a detergent residue detection module (e.g. a detergent detector), a detergent type identification module (e.g. a feature identifier), an information processing module (e.g. a processor) and an internet of things module.
In this scenario example, the detergent balance detection module is used to monitor the detergent balance within the detergent tank based on the specific application of the system described above. When the detergent detection module detects that the detergent residual quantity in the detergent tank is insufficient (for example, smaller than a preset residual quantity threshold value), the detergent detection module sends a signal of insufficient detergent residual quantity to the information processing module.
After receiving the detergent deficiency signal, the information processing module may invoke the detergent type identification module to obtain a detergent type (for example, a detergent parameter related to a target detergent stored in the server) with insufficient detergent, trigger a communication device preset in the server, and transmit information (for example, a first prompt message) to be sent to the internet of things module for sending to the server.
The detergent type identification module can specifically adopt an NFC mode. In practice, an NFC tag (as a feature identifier) may be affixed to the detergent tank interface. The NFC tag may contain information about the detergent tank, such as detergent capacity, type, fragrance, color, etc.
In this scenario example, the information of insufficient remaining amount to be transmitted may be transmitted to the server of the detergent distribution center through the internet of things module through a mobile internet of things terminal or gateway device.
The server or the internet of things module of the detergent delivery center can also send the information of insufficient allowance to the mobile phone APP (for example, a user terminal) of the user at the same time, so that the user can reserve and confirm the delivery time. Feedback information from the user may be received once used to complete the reservation and confirm delivery.
The server of the detergent delivery center generates and displays corresponding delivery information (e.g., delivery instructions) on the display device to alert the delivery personnel of the delivery center to process.
Of course, the server may transmit the delivery information to a mobile terminal device (for example, a delivery terminal) used by the delivery person. Accordingly, the mobile terminal device may display detailed delivery information, such as an address (location information of a target area), a device serial number (device identification of the detergent delivery device), a detergent model number, and a category (detergent parameter) to the delivery person. So that the dispenser can dispense the supplementary detergent to the user according to the above information.
In this embodiment of the present application, the automatic detergent delivery device may further bind an account number on the server through the internet of things module, and set information such as an address, a device serial number, a detergent model, and a category. When the server receives the information of insufficient allowance, the server can distribute corresponding detergents according to the information set when the server binds an account with an external automatic detergent throwing device.
In this scenario example, the server may further continuously record information of the detergent used by the binding account, form a replacement traceback record, and store the record, and then may use the record to calculate the consumption trend of the detergent in advance.
In this scenario example, the detergent balance detection module uses a software algorithm.
In this example, the detergent balance detection module may record that the parameter of the amount of detergent consumed each time reaches to precisely detect the balance of the detergent in the detergent tank, and send out the information of insufficient balance of the detergent according to the consumption trend of the consumer.
Through the scene examples, the automatic detergent delivery system, the detergent delivery method and the detergent delivery equipment provided by the specification are verified to be capable of timely and accurately delivering the supplement of the proper target detergent to the user, so that the user operation is simplified, the use experience of the user is improved, meanwhile, the packaging consumption of the detergent is reduced, the cost is reduced, and the environment-friendly emission reduction is facilitated.
Although the present description provides method operational steps as described in the examples or flowcharts, more or fewer operational steps may be included based on conventional or non-inventive means. The order of steps recited in the embodiments is merely one way of performing the order of steps and does not represent a unique order of execution. When implemented by an apparatus or client product in practice, the methods illustrated in the embodiments or figures may be performed sequentially or in parallel (e.g., in a parallel processor or multi-threaded processing environment, or even in a distributed data processing environment). 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, it is not excluded that additional identical or equivalent elements may be present in a process, method, article, or apparatus that comprises a described element. The terms first, second, etc. are used to denote a name, but not any particular order.
Those skilled in the art will also appreciate that, in addition to implementing the controller in a pure computer readable program code, it is well possible to implement the same functionality by logically programming the method steps such that the controller is in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers, etc. Such a controller can be regarded as a hardware component, and means for implementing various functions included therein can also be regarded as a structure within the hardware component. Or even means for achieving the various functions may be regarded as either software modules implementing the methods or structures within hardware components.
The description may be described in the general context of computer-executable instructions, such as program modules, being executed by a computer. Generally, program modules include routines, programs, objects, components, data structures, classes, etc. that perform particular tasks or implement particular abstract data types. The specification may also be practiced in distributed computing environments where tasks are performed by remote processing devices that are linked through a communications network. In a distributed computing environment, program modules may be located in both local and remote computer storage media including memory storage devices.
From the above description of embodiments, it will be apparent to those skilled in the art that the present description may be implemented in software plus a necessary general hardware platform. Based on such understanding, the technical solutions of the present specification may be embodied essentially in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and include several instructions to cause a computer device (which may be a personal computer, a mobile terminal, a server, or a network device, etc.) to perform the methods described in the various embodiments or portions of the embodiments of the present specification.
Various embodiments in this specification are described in a progressive manner, and identical or similar parts are all provided for each embodiment, each embodiment focusing on differences from other embodiments. The specification is operational with numerous general purpose or special purpose computer system environments or configurations. For example: personal computers, server computers, hand-held or portable devices, tablet devices, multiprocessor systems, microprocessor-based systems, set top boxes, programmable electronic devices, network PCs, minicomputers, mainframe computers, distributed computing environments that include any of the above systems or devices, and the like.
Although the present specification has been described by way of example, it will be appreciated by those skilled in the art that there are many variations and modifications to the specification without departing from the spirit of the specification, and it is intended that the appended claims encompass such variations and modifications as do not depart from the spirit of the specification.
Claims (9)
1. An automatic detergent dispensing system comprising at least: detergent input equipment, washing equipment, server, wherein:
the detergent delivery device stores a target detergent; the detergent delivery device is connected with the washing device and is used for automatically delivering matched target detergent to the washing device; wherein the washing device is used for responding to the instruction of a user to finish a washing task by using the target detergent;
the detergent delivery device is also used for monitoring the residual quantity of the stored target detergent;
the detergent delivery device generates first prompt information according to a preset processing rule under the condition that the stored residual quantity of the target detergent is monitored to be smaller than or equal to a preset residual quantity threshold value; the first prompt information is sent to a server; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent; the detergent delivery equipment at least comprises a storage tank with a preset characteristic identifier and a characteristic identifier; the storage tank is used for storing target washing; the characteristic identifier records a detergent parameter of the target detergent stored in the storage tank; the detergent parameters include at least: the type of detergent, the brand of the detergent; the characteristic identification comprises NFC labels or interface lines; correspondingly, the detergent delivery device collects the characteristic identifiers of the storage tanks through the characteristic identifier; and acquiring detergent parameters related to the stored target detergent according to the characteristic identifier; the server receives the first prompt message and distributes a supplement of the target detergent to the detergent delivery device according to the first prompt message;
The server performs data statistics analysis on the first prompt information of the latest time period of each detergent delivery device and the receiving time of the first prompt information every time period, and determines the detergent consumption trend of the latest time period of the detergent delivery device; and predicting the consumption condition of the detergent delivery device in the current time period according to the consumption trend so as to predict the time point when the detergent of the detergent delivery device is used up in advance, and reminding to send reminding information to the user terminal before the time point.
2. The system of claim 1, wherein the detergent comprises a laundry detergent; accordingly, the washing apparatus includes a washing machine; the detergent delivery device comprises a laundry detergent delivery device.
3. A detergent dispensing device, comprising at least: the system comprises a processor, a storage tank, a detergent detector and an Internet of things module; wherein,
the detergent detector is used for monitoring the residual quantity of the target detergent stored in the storage tank;
the processor generates first prompt information under the condition that the residual amount of the target detergent in the storage tank is monitored to be smaller than or equal to a preset residual amount threshold value; the first prompt information at least carries an equipment identifier corresponding to the detergent throwing equipment and a detergent parameter related to the target detergent; the storage tank is preset with a characteristic mark; the characteristic identifier records a detergent parameter of the target detergent stored in the storage tank; the detergent parameters include at least: the type of detergent, the brand of the detergent; the characteristic identification comprises NFC labels or interface lines; the detergent delivery device further comprises a feature identification identifier; correspondingly, the detergent delivery device collects the characteristic identifiers of the storage tanks through the characteristic identifier; and acquiring detergent parameters related to the stored target detergent according to the characteristic identifier;
The processor sends the first prompt information to a server by calling an Internet of things module;
the server is further used for carrying out data statistics analysis on the first prompt information of the latest time period of each detergent delivery device and the receiving time of the first prompt information every interval of one time period, and determining the detergent consumption trend of the latest time period of the detergent delivery device; and predicting the consumption condition of the detergent delivery device in the current time period according to the consumption trend so as to predict the time point when the detergent of the detergent delivery device is used up in advance, and reminding to send reminding information to the user terminal before the time point.
4. A method of dispensing a detergent comprising:
monitoring a remaining amount of a target detergent stored in the detergent dispensing device; the detergent delivery equipment at least comprises a storage tank with a preset characteristic identifier and a characteristic identifier; the storage tank is used for storing target washing; the characteristic identifier records a detergent parameter of the target detergent stored in the storage tank; the detergent parameters include at least: the type of detergent, the brand of the detergent; the characteristic identification comprises NFC labels or interface lines;
Generating first prompt information under the condition that the residual quantity of the target detergent is monitored to be smaller than or equal to a preset residual quantity threshold value according to a preset processing rule; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent;
the first prompt information is sent to a server; the server is used for distributing supplements of target detergents to the detergent delivery equipment according to the first prompt information;
the method further comprises the steps of: collecting a characteristic identifier of a storage tank arranged in the detergent delivery equipment through a characteristic identifier; acquiring a detergent parameter related to the target detergent according to the characteristic mark;
the method further comprises the steps of: carrying out data statistics analysis on the first prompt information and the receiving time of the first prompt information of the latest time period of each detergent delivery device every interval to determine the detergent consumption trend of the latest time period of the detergent delivery device; and predicting the consumption condition of the detergent delivery device in the current time period according to the consumption trend so as to predict the time point when the detergent of the detergent delivery device is used up in advance, and reminding to send reminding information to the user terminal before the time point.
5. The method of claim 4, wherein the detergent parameters further comprise: make-up amount of detergent.
6. The method according to claim 4, wherein in case that the remaining amount of the target detergent is monitored to be less than or equal to a preset remaining amount threshold, the method further comprises:
generating second prompt information; the second prompt message is used for prompting a user to supplement the target detergent;
sending the second prompt information to a user terminal; the user terminal is used for displaying the second prompt information to a user and generating feedback information of the user aiming at the second prompt information; the user terminal sends the feedback information to a server; the feedback information carries at least indication information of the supplement to the user for dispensing the target detergent.
7. The method of claim 6, wherein the feedback information further carries a user-defined dispensing time and/or a user-defined detergent parameter.
8. A method of dispensing a detergent comprising:
receiving first prompt information sent by detergent delivery equipment; the first prompt information at least carries an equipment identifier corresponding to the detergent delivery equipment and a detergent parameter related to the stored target detergent; the detergent delivery equipment at least comprises a storage tank with a preset characteristic identifier and a characteristic identifier; the storage tank is used for storing target washing; the characteristic identifier records a detergent parameter of the target detergent stored in the storage tank; the characteristic identification comprises NFC labels or interface lines; the detergent parameters include at least: the type of detergent, the brand of the detergent; the detergent parameters were obtained as follows: collecting a characteristic identifier of a storage tank arranged in the detergent delivery equipment through a characteristic identifier; acquiring a detergent parameter related to the target detergent according to the characteristic mark;
Inquiring a user database according to the equipment identifier of the detergent delivery equipment to determine the position information of a target area where the detergent delivery equipment is positioned;
distributing a supplement of the target detergent to the detergent delivery device according to the position information of the target area and the detergent parameters related to the target detergent;
the method further comprises the steps of: carrying out data statistics analysis on the first prompt information and the receiving time of the first prompt information of the latest time period of each detergent delivery device every interval to determine the detergent consumption trend of the latest time period of the detergent delivery device; and predicting the consumption condition of the detergent delivery device in the current time period according to the consumption trend so as to predict the time point when the detergent of the detergent delivery device is used up in advance, and reminding to send reminding information to the user terminal before the time point.
9. A computer readable storage medium having stored thereon computer instructions which when executed implement the steps of the method of any of claims 4 to 7, or 8.
Priority Applications (1)
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