CN110689144B - Management method and device of intelligent recovery device - Google Patents

Abstract

The invention discloses a management method and a device of an intelligent recovery device, wherein the device comprises the following steps: the receiving module is used for receiving target parameters aiming at the intelligent recovery device, wherein the target parameters comprise abnormal parameters of the intelligent recovery device and identification parameters of the intelligent recovery device, and the identification parameters comprise coding identification and/or geographic position identification of the intelligent recovery device; and the sending module is used for sending a maintenance prompt aiming at the intelligent recovery device to the predetermined terminal equipment so that a target person corresponding to the terminal equipment can execute maintenance operation on the intelligent recovery device according to the maintenance prompt, and the maintenance prompt comprises target parameters. Therefore, the maintenance personnel can be informed of the maintenance operation of the intelligent recovery device in time, so that the maintenance operation of the intelligent recovery device is simplified, the intelligent management of the intelligent recovery device is facilitated, and the management efficiency of the intelligent recovery device is improved; the service life of the intelligent recovery device can be prolonged.

Description

Management method and device of intelligent recovery device

Technical Field

The invention relates to the technical field of Internet, in particular to a management method and device of an intelligent recovery device.

Background

An intelligent recycling device is a device that is used to recycle items, such as an intelligent recycling bin. The intelligent recovery device ensures that a plurality of articles are stored in public places, improves the convenience of using the articles by users, realizes the full utilization of the articles, and is beneficial to protecting the ecological environment.

It has been found in practice that intelligent recovery devices, while providing great benefits, present some management problems, such as: the personnel need to go to the place where the intelligent recovery device is located periodically or irregularly to check the condition of the intelligent recovery device (such as whether the intelligent recovery device is full, whether damage occurs or not), and then notify relevant personnel to process according to the check result. However, practice finds that the phenomena that the intelligent recovery device is too much in stacking of articles, damaged and the like but not treated in time often occur. Therefore, it is important to provide a solution capable of realizing intelligent management of the intelligent recovery device.

Disclosure of Invention

The invention aims to solve the technical problem of providing a management method and a management device for an intelligent recovery device, which can timely inform maintenance personnel to execute maintenance operation on the intelligent recovery device, realize intelligent management of the intelligent recovery device and improve the management efficiency of the intelligent recovery device.

In order to solve the above technical problems, a first aspect of an embodiment of the present invention discloses a management device of an intelligent recovery device, where the device includes:

the intelligent recovery device comprises a receiving module, a judging module and a judging module, wherein the receiving module is used for receiving a first target parameter aiming at the intelligent recovery device, the first target parameter comprises an abnormal parameter of the intelligent recovery device and an identification parameter of the intelligent recovery device, and the identification parameter comprises a coding identification and/or a geographic position identification of the intelligent recovery device;

and the sending module is used for sending a maintenance prompt aiming at the intelligent recovery device to the predetermined terminal equipment so that a target person corresponding to the terminal equipment executes maintenance operation on the intelligent recovery device according to the maintenance prompt, wherein the maintenance prompt comprises the first target parameter.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the apparatus further includes:

the analysis module is used for analyzing the first fault type of the intelligent recovery device according to the abnormal parameters after the receiving module receives the first target parameters aiming at the intelligent recovery device and before the sending module sends maintenance prompts aiming at the intelligent recovery device to the predetermined terminal equipment so that target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompts;

And the screening module is used for screening maintenance personnel matched with the first fault type from all the predetermined maintenance personnel to serve as predetermined target maintenance personnel, triggering the sending module to execute the step of sending maintenance prompts aiming at the intelligent recovery device to predetermined terminal equipment so that the target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompts, wherein the maintenance prompts further comprise the first fault type, the terminal equipment is the terminal equipment used by the target maintenance personnel, and the target personnel is the target maintenance personnel.

In a first aspect of the embodiment of the present invention, the analyzing module analyzes the first fault type of the intelligent recovery apparatus according to the abnormal parameter specifically includes:

inputting the abnormal parameters into a predetermined fault type determining model, and acquiring the fault type output by the fault type determining model as a first fault type of the intelligent recovery device;

and the screening module screens the maintenance personnel matched with the first fault type from all the predetermined maintenance personnel as predetermined target maintenance personnel, wherein the mode specifically comprises the following steps:

Screening at least one matched maintenance person matched with the first fault type from all maintenance persons according to personnel attribute parameters of all maintenance persons acquired in advance;

and calculating the matching degree of the abnormal parameters and the personnel attribute parameters of each matched maintenance personnel, and selecting the matched maintenance personnel with the highest matching degree as a predetermined target maintenance personnel.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the apparatus further includes:

the determining module is used for determining a second fault type of the intelligent recovery device according to the first target parameter after the receiving module receives the first target parameter aiming at the intelligent recovery device and before the sending module sends a maintenance prompt aiming at the intelligent recovery device to the predetermined terminal equipment so that a target person corresponding to the terminal equipment can execute maintenance operation on the intelligent recovery device according to the maintenance prompt;

the construction module is used for constructing an abnormal model aiming at the intelligent recovery device according to the second fault type and the first target parameter;

the iteration module is used for executing iteration operation on the abnormal model according to different predetermined maintenance data sets to obtain a target maintenance data set with highest matching degree with the abnormal model, triggering the sending module to execute the step of sending maintenance prompts aiming at the intelligent recovery device to the predetermined terminal equipment so that target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompts, wherein the maintenance prompts further comprise the target maintenance data set, and the target maintenance data set is used for guiding the target personnel to execute clearing operation on faults corresponding to the second fault type.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the apparatus further includes:

the setting module is used for setting an abnormal identifier for the intelligent recovery device after the receiving module receives the first target parameter aiming at the intelligent recovery device;

the receiving module is further configured to send a maintenance prompt for the intelligent recovery device to a predetermined terminal device, so that after a target person corresponding to the terminal device performs a maintenance operation on the intelligent recovery device according to the maintenance prompt, receive a maintenance completion prompt for the intelligent recovery device, where the maintenance completion prompt includes a maintenance parameter of the intelligent recovery device, the maintenance parameter includes at least one of a repair parameter of the intelligent recovery device, a maintenance scheme corresponding to the abnormal parameter, a maintenance time, and a person attribute parameter of the target person, and the repair parameter includes a normal parameter after repairing the abnormal parameter;

and, the apparatus further comprises:

the clearing module is used for clearing the abnormal identifier of the intelligent recovery device;

and the storage module is used for storing the maintenance parameters.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the apparatus further includes:

the first judging module is used for judging whether a sending terminal corresponding to the maintenance completion prompt is an authorized terminal or not after the receiving module receives the maintenance completion prompt aiming at the intelligent recovery device and before the clearing module clears the abnormal identifier of the intelligent recovery device;

the first judging module is further configured to judge whether the maintenance parameter includes a maintenance parameter of a preset type when it is judged that the sending terminal is the authorized terminal;

the first judging module is further configured to judge whether the maintenance parameter of the preset type meets a preset check condition when judging that the maintenance parameter of the preset type is included;

the cleaning module is specifically configured to:

and when the first judging module judges that the sending terminal is the authorized terminal, when the first judging module judges that the maintenance parameter of the preset type is included, and when the first judging module judges that the maintenance parameter of the preset type meets the preset verification condition, the abnormal identifier of the intelligent recovery device is cleared.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the apparatus further includes:

the second judging module is used for judging whether the abnormal parameters comprise parameters uploaded by a management terminal corresponding to the intelligent recovery device or not after the receiving module receives the first target parameters aiming at the intelligent recovery device and before the sending module sends maintenance prompts aiming at the intelligent recovery device to the predetermined terminal equipment so that target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompts;

the sending module is further configured to send a parameter input prompt to the management terminal when the second judging module judges that the parameter uploaded by the management terminal is not included, where the parameter input prompt includes a parameter type corresponding to the first target parameter, and the parameter input prompt is used to prompt a manager corresponding to the management terminal to feed back, to the intelligent management platform through the management terminal, a second target parameter for the parameter type of the intelligent recovery device;

the detection module is used for detecting whether the second target parameter exists or not;

And the verification module is used for verifying the first target parameter based on the second target parameter when the detection module detects the second target parameter, and triggering the sending module to execute the step of sending a maintenance prompt aiming at the intelligent recovery device to a predetermined terminal device when the first target parameter passes the verification, so that a target person corresponding to the terminal device executes maintenance operation on the intelligent recovery device according to the maintenance prompt.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the apparatus further includes:

the input module is used for inputting the geographic position identification into a predetermined area determination model after the receiving module receives the first target parameter aiming at the intelligent recovery device and before the sending module sends a maintenance prompt aiming at the intelligent recovery device to predetermined terminal equipment so that target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompt;

the system comprises an acquisition module, a storage module and a control module, wherein the acquisition module is used for acquiring area parameters output by an area determination model, and the area parameters are used as target area parameters of an area where the intelligent recovery device is located, the target area parameters comprise at least one of an area type, population density, personnel attribute type and circulation speed of objects of the area where the intelligent recovery device is located, the area type comprises at least one of a school area type, a district area type, a business area type, a factory area type and other area types, the objects are objects circulated through the intelligent recovery device, and the personnel attribute type is used for representing the types of different personnel identities;

The input module is further used for inputting the target area parameters into a predetermined maintenance emergency determination model;

the acquisition module is further used for acquiring the maintenance emergency output by the maintenance emergency determination model and taking the maintenance emergency as the target maintenance emergency of the intelligent recovery device;

and the third judging module is used for judging whether the target maintenance emergency is greater than or equal to a predetermined maintenance emergency threshold, triggering the sending module to execute the step of sending a maintenance prompt aiming at the intelligent recovery device to predetermined terminal equipment when judging that the target maintenance emergency is greater than or equal to the maintenance emergency threshold, so that a target person corresponding to the terminal equipment executes maintenance operation on the intelligent recovery device according to the maintenance prompt, and the maintenance prompt further comprises the target maintenance emergency.

In a first aspect of the embodiment of the present invention, when the abnormal parameter is an abnormal parameter reported by the intelligent recovery apparatus, the abnormal parameter includes a first type of abnormal parameter;

when the abnormal parameters are the abnormal parameters reported by the management terminal corresponding to the intelligent recovery device, the abnormal parameters comprise first-class abnormal parameters and/or second-class abnormal parameters;

Wherein the first type of anomaly parameter comprises at least one of a change in position of the intelligent recovery apparatus, a breakage of the intelligent recovery apparatus, and a functional failure of the intelligent recovery apparatus;

the second type of anomaly parameter includes a nonfunctional damage of the intelligent recovery apparatus.

The second aspect of the embodiment of the invention discloses a management method of an intelligent recovery device, which comprises the following steps:

receiving a first target parameter for an intelligent recovery device, wherein the first target parameter comprises an abnormal parameter of the intelligent recovery device and an identification parameter of the intelligent recovery device, and the identification parameter comprises a coding identification and/or a geographic position identification of the intelligent recovery device;

and sending a maintenance prompt aiming at the intelligent recovery device to a predetermined terminal device, so that a target person corresponding to the terminal device executes maintenance operation on the intelligent recovery device according to the maintenance prompt, wherein the maintenance prompt comprises the first target parameter.

As an optional implementation manner, in a second aspect of the embodiment of the present invention, after the receiving the first target parameter for the intelligent recovery apparatus and before the sending, to a predetermined terminal device, a maintenance prompt for the intelligent recovery apparatus, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recovery apparatus according to the maintenance prompt, the method further includes:

Analyzing a first fault type of the intelligent recovery device according to the abnormal parameters;

screening maintenance personnel matched with the first fault type from all the predetermined maintenance personnel as predetermined target maintenance personnel, and executing the step of sending maintenance prompts aiming at the intelligent recovery device to predetermined terminal equipment so that the target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompts, wherein the maintenance prompts further comprise the first fault type, the terminal equipment is the terminal equipment used by the target maintenance personnel, and the target personnel is the target maintenance personnel.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, the analyzing, according to the anomaly parameter, the first fault type of the intelligent recovery apparatus includes:

inputting the abnormal parameters into a predetermined fault type determining model, and acquiring the fault type output by the fault type determining model as a first fault type of the intelligent recovery device;

and screening maintenance personnel matched with the first fault type from all the predetermined maintenance personnel as predetermined target maintenance personnel, wherein the method comprises the following steps of:

Screening at least one matched maintenance person matched with the first fault type from all maintenance persons according to personnel attribute parameters of all maintenance persons acquired in advance;

and calculating the matching degree of the abnormal parameters and the personnel attribute parameters of each matched maintenance personnel, and selecting the matched maintenance personnel with the highest matching degree as a predetermined target maintenance personnel.

As an optional implementation manner, in a second aspect of the embodiment of the present invention, after the receiving the first target parameter for the intelligent recovery apparatus and before the sending, to a predetermined terminal device, a maintenance prompt for the intelligent recovery apparatus, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recovery apparatus according to the maintenance prompt, the method further includes:

determining a second fault type of the intelligent recovery device according to the first target parameter, and constructing an abnormality model for the intelligent recovery device according to the second fault type and the first target parameter;

according to different predetermined maintenance data sets, performing iterative operation on the abnormal model to obtain a target maintenance data set with highest matching degree with the abnormal model, and performing the step of sending a maintenance prompt aiming at the intelligent recovery device to predetermined terminal equipment so that a target person corresponding to the terminal equipment performs maintenance operation on the intelligent recovery device according to the maintenance prompt, wherein the maintenance prompt further comprises the target maintenance data set, and the target maintenance data set is used for guiding the target person to perform cleaning operation on a fault corresponding to the second fault type.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, after the receiving the first target parameter for the intelligent recovery apparatus, the method further includes:

setting an abnormal identifier for the intelligent recovery device;

and sending a maintenance prompt for the intelligent recovery device to a predetermined terminal device, so that after a target person corresponding to the terminal device performs maintenance operation on the intelligent recovery device according to the maintenance prompt, the method further comprises:

receiving a maintenance completion prompt aiming at the intelligent recovery device, wherein the maintenance completion prompt comprises maintenance parameters of the intelligent recovery device, the maintenance parameters comprise at least one of maintenance parameters of the intelligent recovery device, maintenance schemes corresponding to the abnormal parameters, maintenance time and personnel attribute parameters of the target personnel, and the maintenance parameters comprise normal parameters after the abnormal parameters are repaired;

and clearing the abnormal identifier of the intelligent recovery device and storing the maintenance parameters.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, after the receiving of the maintenance completion prompt for the smart recovery apparatus and before the clearing of the abnormality identification of the smart recovery apparatus, the method further includes:

Judging whether the sending terminal corresponding to the maintenance completion prompt is an authorized terminal or not, and judging whether the maintenance parameters comprise maintenance parameters of a preset type or not when the sending terminal is judged to be the authorized terminal;

and when the maintenance parameters of the preset type are judged to be included, judging whether the maintenance parameters of the preset type meet preset check conditions, and when the maintenance parameters of the preset type are judged to meet the preset check conditions, executing the operation of clearing the abnormal identifier of the intelligent recovery device.

As an optional implementation manner, in a second aspect of the embodiment of the present invention, after the receiving the first target parameter for the intelligent recovery apparatus and before the sending, to a predetermined terminal device, a maintenance prompt for the intelligent recovery apparatus, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recovery apparatus according to the maintenance prompt, the method further includes:

judging whether the abnormal parameters comprise parameters uploaded by a management terminal corresponding to the intelligent recovery device or not;

when judging that the parameters uploaded by the management terminal are not contained, sending a parameter input prompt to the management terminal, wherein the parameter input prompt comprises a parameter type corresponding to the first target parameter, and the parameter input prompt is used for prompting a manager corresponding to the management terminal to feed back a second target parameter of the parameter type for the intelligent recovery device to the intelligent management platform through the management terminal;

And when the second target parameter is detected, verifying the first target parameter based on the second target parameter, and when the first target parameter passes the verification, executing the step of sending a maintenance prompt aiming at the intelligent recovery device to a predetermined terminal device so as to enable a target person corresponding to the terminal device to execute maintenance operation on the intelligent recovery device according to the maintenance prompt.

As an optional implementation manner, in a second aspect of the embodiment of the present invention, after the receiving the first target parameter for the intelligent recovery apparatus and before the sending, to a predetermined terminal device, a maintenance prompt for the intelligent recovery apparatus, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recovery apparatus according to the maintenance prompt, the method further includes:

inputting the geographic position identification into a predetermined area determination model, and acquiring an area parameter output by the area determination model as a target area parameter of an area where the intelligent recovery device is located, wherein the target area parameter comprises at least one of an area type, population density, personnel attribute type and circulation speed of an article in the area where the intelligent recovery device is located, the area type comprises at least one of a school area type, a community area type, a business area type, a factory area type and other area types, the article is an article circulated through the intelligent recovery device, and the personnel attribute type is used for representing the types of different personnel identities;

Inputting the target area parameters into a predetermined maintenance emergency determination model, and acquiring the maintenance emergency output by the maintenance emergency determination model as the target maintenance emergency of the intelligent recovery device;

judging whether the target maintenance emergency is greater than or equal to a predetermined maintenance emergency threshold, and triggering and executing the step of sending a maintenance prompt aiming at the intelligent recovery device to predetermined terminal equipment when the target maintenance emergency is greater than or equal to the maintenance emergency threshold so that target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompt, wherein the maintenance prompt further comprises the target maintenance emergency.

In a second aspect of the embodiment of the present invention, when the abnormal parameter is an abnormal parameter reported by the intelligent recovery apparatus, the abnormal parameter includes a first type of abnormal parameter;

when the abnormal parameters are the abnormal parameters reported by the management terminal corresponding to the intelligent recovery device, the abnormal parameters comprise first-class abnormal parameters and/or second-class abnormal parameters;

Wherein the first type of anomaly parameter comprises at least one of a change in position of the intelligent recovery apparatus, a breakage of the intelligent recovery apparatus, and a functional failure of the intelligent recovery apparatus;

the second type of anomaly parameter includes a nonfunctional damage of the intelligent recovery apparatus.

The third aspect of the present invention discloses another management device of an intelligent recycling apparatus, the device comprising:

a memory storing executable program code;

a processor coupled to the memory;

the processor invokes the executable program code stored in the memory to execute the method for managing the intelligent recycling apparatus disclosed in the second aspect of the present invention.

A fourth aspect of the present invention discloses a computer-readable storage medium storing computer instructions that, when invoked, are used to perform the method of managing the intelligent recycling apparatus disclosed in the second aspect of the present invention.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

the embodiment of the invention discloses a management method and a device of an intelligent recovery device, wherein the device comprises the following steps: the receiving module is used for receiving first target parameters aiming at the intelligent recovery device, wherein the first target parameters comprise abnormal parameters of the intelligent recovery device and identification parameters of the intelligent recovery device, and the identification parameters comprise coding identification and/or geographic position identification of the intelligent recovery device; and the sending module is used for sending a maintenance prompt aiming at the intelligent recovery device to the predetermined terminal equipment so that a target person corresponding to the terminal equipment can execute maintenance operation on the intelligent recovery device according to the maintenance prompt, and the maintenance prompt comprises a first target parameter. Therefore, by receiving the parameters aiming at the intelligent recovery device and sending the parameters to the predetermined terminal equipment, the embodiment of the invention ensures that personnel corresponding to the terminal equipment maintain the intelligent recovery device according to the parameters received by the terminal equipment, and can timely inform maintenance personnel to execute maintenance operation on the intelligent recovery device, thereby simplifying the maintenance operation of the intelligent recovery device, further being beneficial to the intelligent management of the intelligent recovery device and improving the management efficiency of the intelligent recovery device; the service life of the intelligent recovery device can be prolonged.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, 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 of an application scenario used for managing an intelligent recycling apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a management device of an intelligent recycling device according to an embodiment of the present invention;

FIG. 3 is a schematic flow chart of a management device of another intelligent recycling apparatus according to an embodiment of the present invention;

FIG. 4 is a schematic flow diagram of a management device of another intelligent recycling unit according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a management method of an intelligent recycling apparatus according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of another method for managing an intelligent recycling apparatus according to an embodiment of the present invention;

FIG. 7 is a schematic view of a management device of another intelligent recycling apparatus according to an embodiment of the present invention;

Fig. 8 is a schematic structural diagram of an intelligent management platform according to an embodiment of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms first, second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or device that comprises a list of steps or elements is not limited to the list of steps or elements but may, in the alternative, include other steps or elements not expressly listed or inherent to such process, method, article, or device.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

The invention discloses a management method and a management device of an intelligent recovery device, which can enable personnel corresponding to terminal equipment to repair the intelligent recovery device according to parameters received by the terminal equipment by receiving the parameters aiming at the intelligent recovery device and sending the parameters to predetermined terminal equipment, and can inform maintenance personnel to execute maintenance operation on the intelligent recovery device in time, thereby simplifying the maintenance operation of the intelligent recovery device, further being beneficial to the intelligent management of the intelligent recovery device and improving the management efficiency of the intelligent recovery device; the service life of the intelligent recovery device can be prolonged. . The following will describe in detail.

In order to better understand the management method of the intelligent recovery device described in the present invention, first, an application scenario to which the management method of the intelligent recovery device is applicable is described, specifically, the application scenario to which the management method of the intelligent recovery device is applicable may be shown in fig. 1, and fig. 1 is a schematic view of an application scenario corresponding to the management method of the intelligent recovery device disclosed in the embodiment of the present invention. As shown in fig. 1, the application scenario may include an intelligent recycling apparatus (for example, an intelligent recycling bin or an intelligent recycling bin, etc.), an intelligent management platform (for example, a coming bowl platform), a management terminal (user terminal used by a manager), and a maintenance terminal (user terminal used by a maintenance person), wherein:

The intelligent recovery device has a self-checking function, namely the intelligent recovery device can autonomously detect the function of the intelligent recovery device, when the intelligent recovery device detects abnormality, the intelligent recovery device can push information (such as geographical position information, coding identification and the like of the intelligent recovery device) containing the abnormality to the intelligent management platform, and when the intelligent management platform receives the information sent by the intelligent recovery device, the intelligent management platform divides the information into functional fault information (functional damage) and destructive fault information (destructive damage), and pushes the functional fault information to a maintenance terminal (user terminal used by maintenance personnel) and pushes the destructive fault information to a management terminal (user terminal used by management personnel), wherein the functional fault information and the destructive fault information both contain the geographical position information (and/or the coding identification) of the intelligent recovery device;

after receiving the destructive fault information sent by the intelligent management platform, the management terminal informs personnel corresponding to the management terminal to maintain (repair) the intelligent recovery device according to the geographical position information (and/or the coded mark) contained in the destructive fault information and to the intelligent recovery device, and after the intelligent recovery device is repaired, the maintenance data of the intelligent recovery device is returned to the intelligent management platform;

After the maintenance terminal receives the functional fault information sent by the intelligent management platform, the maintenance terminal informs personnel corresponding to the maintenance terminal to carry out maintenance (repair) on the intelligent recovery device according to the geographical position information (and/or the coding identifier) contained in the functional fault information and to the place where the intelligent recovery device is located, after the intelligent recovery device is repaired, the maintenance data of the intelligent recovery device are sent to the management terminal, so that the personnel corresponding to the management terminal verify the maintenance data sent by the maintenance terminal, and after the verification is qualified, the management terminal returns the maintenance data qualified in verification to the intelligent management platform.

After the intelligent management platform receives the maintenance data, the maintenance data and the corresponding relation between the maintenance data and the intelligent recovery device can be stored.

It should be noted that, the person corresponding to the management terminal has a corresponding responsible area, and the area has a plurality of intelligent recovery devices, that is, the person corresponding to the management terminal is responsible for daily inspection of the intelligent recovery devices in a certain area, and the inspection may be periodic (e.g. daily) or unscheduled, and the inspection data for the intelligent recovery devices is uploaded to the intelligent management platform. Further, when it is detected that the intelligent recycling device cannot automatically report information to the intelligent management platform (and/or a problem that the intelligent recycling device cannot detect (for example, there is a graffiti on the intelligent recycling device)) is detected, personnel managing the terminal upload data obtained by detection to the intelligent management platform through the management terminal.

The above describes the application scenario of the management of the intelligent recycling device, and the following describes the management process of the intelligent recycling device in detail.

Example 1

Referring to fig. 2, fig. 2 is a schematic structural diagram of a management device of an intelligent recycling device according to an embodiment of the invention. The management device of the intelligent recycling device described in fig. 2 may be applied to an intelligent management platform, and embodiments of the present invention are not limited thereto. As shown in fig. 2, the management device of the intelligent recycling apparatus may include a receiving module 201 and a transmitting module 202, where:

the receiving module 201 is configured to receive a first target parameter for the intelligent recycling apparatus, where the first target parameter includes an abnormal parameter of the intelligent recycling apparatus and an identification parameter of the intelligent recycling apparatus, and the identification parameter includes a coded identification and/or a geographical location identification of the intelligent recycling apparatus.

In the embodiment of the present invention, the first target parameter may be automatically reported to the intelligent management platform after the intelligent recovery device completes the self-inspection, or may be reported to the intelligent management platform through the management terminal by a person of the management terminal corresponding to the intelligent recovery device after the intelligent recovery device completes the inspection, or may be reported to the intelligent management platform by a combination of the two reporting modes, which is not limited in the embodiment of the present invention.

In the embodiment of the invention, when the abnormal parameters are the abnormal parameters reported by the intelligent recovery device, the abnormal parameters comprise first-class abnormal parameters;

when the abnormal parameters are the abnormal parameters reported by the management terminal corresponding to the intelligent recovery device, the abnormal parameters comprise first-class abnormal parameters and/or second-class abnormal parameters;

the first type of abnormal parameter includes at least one of a position change of the intelligent recovery device, a breakage of the intelligent recovery device, and a functional damage of the intelligent recovery device, which is not limited in the embodiment of the present invention. Further, the first type of abnormal parameter may also include a change in the position of a component in the smart recovery device (e.g., a drop of a sensor, etc.). Wherein the functional impairment includes a complete functional impairment (e.g., the sensor is unable to identify an item, etc.) and a non-complete functional impairment (e.g., the sensor identifies an item with inaccurate results, etc.). Further, the functional damage also comprises abnormal advertisement delivery of the intelligent recovery device;

the second type of abnormal parameters includes non-functional damage to the intelligent recovery apparatus, wherein the non-functional damage is a artificially damaged function, also referred to as destructive damage, such as: and (5) the user scribbles on the intelligent recovery device.

And the sending module 202 is configured to send a maintenance prompt for the intelligent recovery apparatus to a predetermined terminal device, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recovery apparatus according to the maintenance prompt, where the maintenance prompt includes a first target parameter.

In the embodiment of the present invention, the number of the predetermined terminal devices is not limited.

Therefore, the management device for implementing the intelligent recovery device described in fig. 2 can receive the parameters for the intelligent recovery device and send the parameters to the predetermined terminal equipment, so that a person corresponding to the terminal equipment can repair the intelligent recovery device according to the parameters received by the terminal equipment, and can timely inform a maintainer to execute repair operation on the intelligent recovery device, thereby simplifying the repair operation of the intelligent recovery device, further being beneficial to the intelligent management of the intelligent recovery device and improving the management efficiency of the intelligent recovery device; the service life of the intelligent recovery device can be prolonged.

As an alternative embodiment, the management device of the above-mentioned intelligent recycling apparatus may further include an analysis module 203 and a screening module 204, where the management device of the intelligent recycling apparatus may be as shown in fig. 3, and fig. 3 is a schematic structural diagram of another management device of the intelligent recycling apparatus, where:

The analysis module 203 is configured to analyze the first fault type of the intelligent recycling apparatus according to the abnormal parameter after the first target parameter for the intelligent recycling apparatus is received by the receiving module 201 and before the sending module 202 sends a maintenance prompt for the intelligent recycling apparatus to a predetermined terminal device, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recycling apparatus according to the maintenance prompt.

The screening module 204 is configured to screen, from all predetermined maintenance personnel, maintenance personnel matching the first fault type as predetermined target maintenance personnel, and trigger the sending module 202 to execute the above-mentioned step of sending a maintenance prompt for the intelligent recovery device to the predetermined terminal device, so that the target personnel corresponding to the terminal device execute the maintenance operation on the intelligent recovery device according to the maintenance prompt, where the maintenance prompt further includes the first fault type, and the terminal device is a terminal device used by the target maintenance personnel, and the target personnel is the target maintenance personnel.

In this alternative embodiment, the different anomaly parameters correspond to different first fault types, such as: when the abnormal parameter is inaccurate in sensor identification, the first fault type is a parameter type fault. Further, the different first fault types correspond to different target persons, for example: the manager performs maintenance operations on the nonfunctional damage to the intelligent recovery apparatus.

It can be seen that the management device implementing the intelligent recovery apparatus described in fig. 3 can further analyze the fault model of the abnormal parameter after receiving the parameter including the abnormal parameter of the intelligent recovery apparatus, thereby screening a maintenance person matched with the fault model to perform a maintenance operation on the intelligent recovery apparatus, and improving the accuracy and reliability of the determination of the maintenance person, thereby being beneficial to improving the repair possibility of the intelligent recovery apparatus.

As another alternative embodiment, the analysis module 203 analyzes the first fault type of the intelligent recovery apparatus according to the anomaly parameter specifically includes:

and inputting the abnormal parameters into a predetermined fault type determining model, and acquiring the fault type output by the fault type determining model as a first fault type of the intelligent recovery device.

And, the screening module 204 screens the maintenance personnel matched with the first fault type from all the predetermined maintenance personnel as the predetermined target maintenance personnel specifically includes:

screening at least one matched maintenance person matched with the first fault type from all maintenance persons according to the personnel attribute parameters of all maintenance persons acquired in advance;

And calculating the matching degree of the abnormal parameters and the personnel attribute parameters of each matched maintenance personnel, and selecting the matched maintenance personnel with the highest matching degree as a predetermined target maintenance personnel.

It can be seen that the management device implementing the intelligent recovery apparatus described in fig. 3 can also determine the fault type corresponding to the abnormal parameter through the predetermined fault type, so as to improve the accuracy and efficiency of determining the fault type. And after screening at least one maintainer matched with the fault type, further selecting the maintainer with the highest degree of matching with the abnormal parameters from the at least one maintainer, so that the determination accuracy of the maintainer can be further improved, and the repairing possibility of the intelligent recovery device is further improved.

As yet another alternative embodiment, the management device of the foregoing smart recycling device may further include a determining module 205, a constructing module 206, and an iterating module 207, where the management device of the smart recycling device may be as shown in fig. 4, and fig. 4 is a schematic structural diagram of the management device of yet another smart recycling device, where:

the determining module 205 is configured to determine, after the receiving module 201 receives the first target parameter for the intelligent recycling apparatus, and before the sending module 202 sends a maintenance prompt for the intelligent recycling apparatus to a predetermined terminal device, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recycling apparatus according to the maintenance prompt, a second fault type of the intelligent recycling apparatus according to the first target parameter.

A construction module 206, configured to construct an anomaly model for the intelligent recovery apparatus according to the second fault type and the first target parameter.

The iteration module 207 is configured to perform an iteration operation on the abnormal model according to the different predetermined maintenance data sets, obtain a target maintenance data set with the highest matching degree with the abnormal model, and trigger the sending module 202 to perform the above-mentioned step of sending a maintenance prompt for the intelligent recovery device to the predetermined terminal device, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recovery device according to the maintenance prompt, where the maintenance prompt further includes a target maintenance data set, and the target maintenance data set is configured to instruct the target person to perform a cleaning operation on a fault corresponding to the second fault type.

It can be seen that, the management device implementing the intelligent recovery device described in fig. 4 can further determine the fault type of the intelligent recovery device according to the parameter after receiving the parameter of the abnormal parameter of the intelligent recovery device, construct an abnormal model of the intelligent recovery device according to the parameter and the fault type, and determine a maintenance data set matched with the abnormal model from different predetermined maintenance data sets, so that a proper maintenance scheme can be screened for the intelligent recovery device, the screening accuracy of the maintenance scheme can be improved, the repair possibility of the intelligent recovery device can be improved, and the intelligent function of the intelligent management platform can be enriched.

As yet another alternative embodiment, as shown in fig. 3 or 4, the management device of the above-mentioned intelligent recycling apparatus may further include a setting module 208, a clearing module 209, and a storage module 210:

a setting module 208, configured to set an anomaly identifier for the intelligent recycling apparatus after the receiving module 201 receives the first target parameter for the intelligent recycling apparatus.

In this optional embodiment, as an optional implementation manner, the setting module 208 sets an exception identifier for the intelligent recovery apparatus specifically is:

and setting an abnormal identifier for the intelligent recovery device according to the content included in the first target parameter.

Further, after determining the fault type corresponding to the abnormal parameter, the setting module 208 is further configured to set a fault identifier for the intelligent recovery device, where the maintenance prompt may further include the fault identifier of the intelligent recovery device. Thus, maintenance personnel can know that the intelligent recovery device is abnormal according to the fault identification, and accordingly, a proper maintenance scheme is adopted, and the repair efficiency and possibility of the intelligent recovery device can be improved.

It can be seen that the management device implementing the intelligent recovery apparatus described in fig. 3 or fig. 4 can further set an abnormal identifier for the intelligent recovery apparatus according to the parameter after receiving the parameter including the abnormal parameter of the intelligent recovery apparatus, so as to distinguish the repaired and unrepaired intelligent recovery apparatuses, thereby improving the accuracy and reliability of sending the maintenance prompt, and reducing the possibility of resource waste caused by re-executing the repair operation on the repaired intelligent recovery apparatus.

As yet another alternative embodiment, as shown in fig. 3 or 4, the receiving module 201 is further configured to, after the sending module 202 sends a maintenance prompt for the intelligent recovery apparatus to a predetermined terminal device, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recovery apparatus according to the maintenance prompt, receive a maintenance completion prompt for the intelligent recovery apparatus, where the maintenance completion prompt includes a maintenance parameter of the intelligent recovery apparatus, where the maintenance parameter includes at least one of a repair parameter of the intelligent recovery apparatus, a repair scheme corresponding to an abnormal parameter, a repair time, and a personnel attribute parameter of the target person, and the repair parameter includes a normal parameter after repairing the abnormal parameter.

The clearing module 209 is configured to clear the exception identifier of the intelligent recovery apparatus.

The storage module 210 is configured to store maintenance parameters.

In this alternative embodiment, after the receiving module 201 performs the operation of receiving the maintenance completion prompt for the smart recovery apparatus, the clearing module 209 may be triggered to perform the operation of clearing the abnormality identifier of the smart recovery apparatus.

It can be seen that, implementing the management device of the intelligent recovery apparatus described in fig. 3 or 4 can further receive the maintenance completion prompt sent by the terminal device after sending the maintenance prompt to the terminal device, so that the intelligent management platform knows that the intelligent recovery apparatus is repaired, thereby being beneficial to the management of the intelligent recovery apparatus, being beneficial to the re-use of the intelligent recovery apparatus, and further improving the utilization rate of the intelligent recovery apparatus.

As yet another alternative embodiment, as shown in fig. 3 or 4, the management device of the above-mentioned intelligent recycling apparatus may further include a first judging module 211, where:

the first determining module 211 is configured to determine whether the sending terminal corresponding to the maintenance completion prompt is an authorized terminal after the receiving module 201 receives the maintenance completion prompt for the intelligent recycling device and before the clearing module 209 clears the abnormal identifier of the intelligent recycling device.

The first determining module 211 is further configured to determine whether the maintenance parameter includes a maintenance parameter of a preset type when it is determined that the sending terminal is an authorized terminal.

The first determining module 211 is further configured to determine, when determining that the maintenance parameter including the preset type is included, whether the maintenance parameter of the preset type meets a preset check condition.

The purge module 209 is specifically configured to:

when the first judging module 211 judges that the sending terminal is an authorized terminal, when the first judging module 211 judges that the maintenance parameter of the preset type is included, and when the first judging module 211 judges that the maintenance parameter of the preset type meets the preset verification condition, the abnormal identification of the intelligent recovery device is cleared.

In this optional embodiment, as an optional implementation manner, the first determining module 211 determines whether the sending terminal corresponding to the maintenance completion prompt is an authorized terminal, which specifically is:

Acquiring a terminal identifier of a sending terminal corresponding to the maintenance completion prompt, and judging whether the terminal identifier is matched with one of a predetermined authorized terminal identifier set;

and when the terminal identification is judged to be matched with one of the predetermined authorized terminal identifications in the authorized terminal identification set, determining that the sending terminal corresponding to the maintenance completion prompt is an authorized terminal.

It can be seen that this alternative embodiment can determine whether the sending terminal is an authorized terminal by comparing the terminal identifier of the sending terminal corresponding to the maintenance completion prompt with all the terminal identifiers in the predetermined authorized terminal identifier set.

In this alternative embodiment, the preset type may include at least one of a repair parameter type, a time type, and a maintenance person type, which is not limited.

For example, when the predetermined type is a repair type, when the repair parameter includes a repair parameter, it is determined that the repair parameter includes a repair parameter of the predetermined type.

In this optional embodiment, as an optional implementation manner, the first judging module 211 judges whether the maintenance parameter of the preset type meets the preset check condition specifically is that:

When the maintenance parameter of the preset type is the maintenance parameter of the repair type, judging whether the repair parameter is in a predetermined repair parameter range;

when the repair parameters are judged to be in the predetermined repair parameter range, the repair parameters of the preset type are determined to meet the preset check conditions.

It can be seen that this alternative embodiment can implement the determination that the repair parameter of the preset type satisfies the preset check condition by determining whether the repair parameter is within the predetermined repair parameter range.

In this alternative embodiment, when the sending terminal corresponding to the maintenance completion prompt is an authorized terminal, it is determined that the maintenance parameter is checked.

It can be seen that, the management device implementing the intelligent recovery device described in fig. 3 or 4 is further capable of clearing the abnormal identifier of the intelligent recovery device after receiving the maintenance completion prompt for the intelligent recovery device, further judging that the sending terminal corresponding to the maintenance completion prompt is an authorized terminal, and after the maintenance parameter is a maintenance parameter of a preset type and the maintenance parameter of the preset type meets the verification condition, so as to implement verification of the maintenance parameter of the intelligent recovery device, thereby ensuring normal performance of the intelligent recovery device, and reducing the possibility that the intelligent recovery device is abnormal again in the use process.

As yet another alternative embodiment, as shown in fig. 3 or 4, the first determining module 211 is further configured to obtain account attribute information corresponding to the sending terminal after determining that the sending terminal is an authorized terminal, determine whether a check person for the maintenance parameter is a predetermined authorized check person according to the account attribute information, and trigger the clearing module 209 to execute the above operation of clearing the abnormal identifier of the intelligent recovery device or execute the above operation of determining whether the maintenance parameter includes the predetermined type of maintenance parameter when the check person for the maintenance parameter is the predetermined authorized check person.

It can be seen that, the management device implementing the intelligent recovery device described in fig. 3 or 4 can further determine whether the verifier corresponding to the maintenance parameter is a predetermined authorized verifier after determining that the sending terminal corresponding to the maintenance completion prompt of the intelligent recovery device is an authorized terminal, and if yes, execute the subsequent operation, so as to further ensure the normal performance of the intelligent recovery device, thereby further reducing the possibility of abnormality of the intelligent recovery device in the use process, and further being beneficial to the management of the intelligent recovery device.

As yet another alternative embodiment, as shown in fig. 3 or 4, the management device of the above-mentioned intelligent recycling apparatus may further include a second judging module 212, a detecting module 213, and a checking module 214, where:

the second judging module 212 is configured to judge whether the abnormal parameter includes a parameter uploaded by the management terminal corresponding to the intelligent recycling device after the receiving module 201 receives the first target parameter for the intelligent recycling device and before the sending module 202 sends a maintenance prompt for the intelligent recycling device to the predetermined terminal device, so that a target person corresponding to the terminal device performs maintenance operation on the intelligent recycling device according to the maintenance prompt.

The sending module 202 is further configured to send a parameter input prompt to the management terminal when the second judging module 212 judges that the parameter uploaded by the management terminal is not included, where the parameter input prompt includes a parameter type corresponding to the first target parameter, and the parameter input prompt is used to prompt a manager corresponding to the management terminal to feed back, to the intelligent recovery management platform, a second target parameter for the parameter type of the intelligent recovery device through the management terminal.

A detection module 213, configured to detect whether the second target parameter exists.

And the verification module 214 is configured to, when the detection module 213 detects the second target parameter, verify the first target parameter based on the second target parameter, and when the first target parameter passes the verification, trigger the sending module 202 to execute the above-mentioned step of sending a maintenance prompt for the intelligent recovery device to the predetermined terminal device, so that a target person corresponding to the terminal device executes a maintenance operation for the intelligent recovery device according to the maintenance prompt.

In this alternative embodiment, the description of the second target parameter is referred to above for the description of the first target parameter, which is not repeated here.

It can be seen that, the management device implementing the intelligent recycling device described in fig. 3 or 4 can further determine whether the parameter includes the parameter reported by the management terminal corresponding to the intelligent recycling device after receiving the parameter for the intelligent recycling device, and when the parameter does not include the parameter, obtain the parameter which is reported by the management terminal and is the same as the parameter type of the parameter, verify the parameter for the intelligent recycling device according to the parameter reported by the management terminal, and execute the subsequent operation after the verification passes, so that the possibility of false reporting of the parameter by the intelligent recycling device can be reduced, the accuracy and reliability of the occurrence of abnormality of the intelligent recycling device are improved, and the possibility of arranging maintenance personnel to repair the intelligent recycling device as soon as possible is facilitated.

As yet another alternative embodiment, as shown in fig. 3 or 4, the management device of the above-mentioned intelligent recycling apparatus may further include an input module 215, an obtaining module 216, and a third judging module 217, where:

the input module 215 is configured to input the geographic location identifier into the predetermined area determination model after the receiving module 201 receives the first target parameter for the intelligent recycling device and before the sending module 202 sends a maintenance prompt for the intelligent recycling device to the predetermined terminal device, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recycling device according to the maintenance prompt.

The obtaining module 216 is configured to obtain, as a target area parameter of an area where the intelligent recycling device is located, an area parameter output by the area determination model, where the target area parameter includes at least one of an area type, population density, a personnel attribute type, and a circulation speed of an item, where the area type includes at least one of a school area type, a cell area type, a business area type, a factory area type, and other area types, and the item is an item circulated through the intelligent recycling device, and the personnel attribute type is used for indicating a type of different personnel identities.

The input module 215 is further configured to input the target area parameter into a predetermined maintenance emergency determination model.

The obtaining module 216 is further configured to obtain the maintenance emergency output by the maintenance emergency determination model, as a target maintenance emergency of the intelligent recovery device.

And a third judging module 217, configured to judge whether the target maintenance emergency is greater than or equal to a predetermined maintenance emergency threshold, and when it is judged that the target maintenance emergency is greater than or equal to the maintenance emergency threshold, trigger the sending module 202 to execute the above-mentioned step of sending a maintenance prompt for the intelligent recovery device to the predetermined terminal device, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recovery device according to the maintenance prompt, where the maintenance prompt further includes the target maintenance emergency.

It can be seen that, the management device implementing the intelligent recovery apparatus described in fig. 3 or 4 can further determine the maintenance emergency degree of the intelligent recovery apparatus according to the parameter after receiving the parameter for the intelligent recovery apparatus, and determine whether the maintenance emergency degree is greater than or equal to the preset maintenance emergency degree threshold, when the determination result is yes, execute the subsequent operation, and arrange the maintenance personnel for the intelligent recovery apparatus as soon as possible according to the maintenance emergency degree of the intelligent recovery apparatus, so as to implement individual arrangement of the maintenance personnel for the intelligent recovery apparatus, thereby improving the maintenance efficiency of the intelligent recovery apparatus, and further optimizing the management of the intelligent recovery apparatus.

As another optional embodiment, as shown in fig. 3 or 4, the setting module 208 is further configured to count a total number of anomalies occurring in the intelligent recycling device in a certain period of time after the receiving module 201 receives the first target parameter for the intelligent recycling device, and determine whether the total number of anomalies is greater than or equal to a preset total number of anomalies threshold (for example, 5 times); when the total number of anomalies is larger than or equal to the preset total number of anomalies threshold, a key monitoring mark is set for the intelligent recovery device, and monitoring operation for the intelligent recovery device is started.

In this alternative embodiment, the certain period of time may be any period of time such as a month, a quarter, etc., which is not limited.

It can be seen that, the management device implementing the intelligent recycling device described in fig. 3 or 4 can also start the monitoring operation for the intelligent recycling device when it is determined that the number of anomalies of the intelligent recycling device in a certain period is greater than or equal to the preset threshold of anomalies, so that the situation of the intelligent recycling device can be known in time, and when anomalies occur, a maintenance person can be notified in time to maintain the intelligent recycling device.

As yet another alternative embodiment, as shown in fig. 3 or 4, the verification module 218 is further configured to, after the receiving module 201 receives the first target parameter for the intelligent recycling device, and before the sending module 202 sends a maintenance prompt for the intelligent recycling device to a predetermined terminal device, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recycling device according to the maintenance prompt, determine, according to an identification parameter of the intelligent recycling device, a number of maintenance persons responsible for maintenance work of the intelligent recycling device from a predetermined maintenance person set, and the obtaining module obtains a current maintenance task parameter of each maintenance person, where the current maintenance task parameter of each maintenance person includes a maintenance task execution remaining time and a current geographic location of the maintenance person; based on the current maintenance task parameters of each maintenance person, one maintenance person is selected from a plurality of maintenance persons as a target person, and the sending module 202 is triggered to execute the above step of sending the maintenance prompt for the intelligent recovery device to the predetermined terminal device, so that the target person corresponding to the terminal device executes maintenance operation on the intelligent recovery device according to the maintenance prompt.

In this alternative embodiment, the predetermined terminal device is a terminal device used by one of the maintenance personnel.

In this alternative embodiment, as an alternative implementation manner, the verification module 218 selects one of the maintenance personnel from several maintenance personnel based on the current maintenance task parameter of each maintenance personnel, and the manner of serving as the target maintenance personnel is specifically as follows:

and calculating the moment that each maintainer reaches the geographic position of the intelligent recovery device based on the current maintenance task parameters of each maintainer, and screening the maintainer with the earliest moment that each maintainer reaches the geographic position of the intelligent recovery device from a plurality of maintainers as a target person.

It can be seen that this alternative embodiment enables the determination of maintenance personnel by calculating the time at which each maintenance personnel arrives at the geographical location where the intelligent recovery apparatus is located.

In this alternative embodiment, as another alternative implementation manner, the verification module 218 selects one of the maintenance personnel from several maintenance personnel based on the current maintenance task parameter of each maintenance personnel, and the manner of serving as the target maintenance personnel is specifically as follows:

And calculating the distance value of each maintainer from the geographic position of the intelligent recovery device based on the current maintenance task parameters of each maintainer, and screening the maintainer with the smallest distance value from a plurality of maintainers as a target person.

It can be seen that this alternative embodiment enables the determination of maintenance personnel by calculating the distance value of each maintenance personnel from the geographical location where the intelligent recovery apparatus is located.

In this alternative embodiment, when more than 1 repair person matching the first fault type is selected, the verification module 218 is further configured to obtain a current repair task parameter corresponding to each repair person in the plurality of repair persons matching the first fault type, and determine, according to the current repair task parameter corresponding to each repair person, a repair person closest to the geographic location of the intelligent recovery apparatus and/or earliest in reaching the geographic location of the intelligent recovery apparatus as a target repair person. Therefore, the determination accuracy and reliability of maintenance personnel of the intelligent recovery device can be further improved, and the repair possibility of the intelligent recovery device is further improved.

It can be seen that, implementing the management device of the intelligent recovery apparatus described in fig. 3 or fig. 4 can further determine a plurality of maintenance personnel responsible for maintenance work of the intelligent recovery apparatus from the maintenance personnel set according to the geographic position and/or the code identifier of the intelligent recovery apparatus after receiving the parameters including the abnormal parameters of the intelligent recovery apparatus, and select a certain maintenance personnel to maintain the intelligent recovery apparatus according to the current maintenance task parameters of the plurality of maintenance personnel, so that the determination accuracy and reliability of the maintenance personnel can be improved, thereby being beneficial to improving the repair efficiency of the intelligent recovery apparatus, further improving the utilization rate of the intelligent recovery apparatus, and enriching the intelligent function of the intelligent management platform.

Example two

Referring to fig. 5, fig. 5 is a flow chart of a management method of an intelligent recycling device according to an embodiment of the invention. The management method of the intelligent recycling device described in fig. 5 may be applied to an intelligent management platform, and the embodiment of the invention is not limited. As shown in fig. 5, the method for managing the intelligent recycling apparatus may include the steps of:

501. the intelligent management platform receives first target parameters for the intelligent recovery device, wherein the first target parameters comprise abnormal parameters of the intelligent recovery device and identification parameters of the intelligent recovery device, and the identification parameters comprise coding identification and/or geographic position identification of the intelligent recovery device.

In the embodiment of the present invention, the first target parameter may be automatically reported to the intelligent management platform after the intelligent recovery device completes the self-inspection, or may be reported to the intelligent management platform through the management terminal by a person of the management terminal corresponding to the intelligent recovery device after the intelligent recovery device completes the inspection, or may be reported to the intelligent management platform by a combination of the two reporting modes, which is not limited in the embodiment of the present invention.

When the abnormal parameters are the abnormal parameters reported by the intelligent recovery device, the abnormal parameters comprise first-class abnormal parameters;

When the abnormal parameters are the abnormal parameters reported by the management terminal corresponding to the intelligent recovery device, the abnormal parameters comprise first-class abnormal parameters and/or second-class abnormal parameters;

wherein the first type of abnormal parameter includes at least one of a change in a position of the intelligent recovery device, a breakage of the intelligent recovery device, and a functional failure of the intelligent recovery device;

the second type of anomaly parameter includes a nonfunctional compromise of the intelligent recovery apparatus.

502. And the intelligent management platform sends a maintenance prompt aiming at the intelligent recovery device to the predetermined terminal equipment so that a target person corresponding to the terminal equipment executes maintenance operation on the intelligent recovery device according to the maintenance prompt, wherein the maintenance prompt comprises the first target parameter.

In the embodiment of the present invention, the number of the predetermined terminal devices is not limited.

As an alternative embodiment, after performing the finishing step 501 and before performing the step 502, the method for managing an intelligent recycling apparatus may further include the steps of:

the intelligent management platform analyzes a first fault type of the intelligent recovery device according to the abnormal parameters;

the intelligent management platform screens all maintenance personnel matched with the first fault type from the predetermined maintenance personnel as predetermined target maintenance personnel, and triggers execution of step 502.

In this alternative embodiment, the service prompt further includes a first fault type, the terminal device being a terminal device used by a target service person, the target person being a target service person.

In this optional embodiment, as an optional implementation manner, the intelligent management platform may analyze, according to the anomaly parameter, the first fault type of the intelligent recovery apparatus, and include:

the intelligent management platform inputs the abnormal parameters into a predetermined fault type determining model, and acquires the fault type output by the fault type determining model as a first fault type of the intelligent recovery device. In this way, the fault type corresponding to the abnormal parameter is determined through the predetermined fault type, so that the accuracy and the efficiency of determining the fault type can be improved.

Further, the intelligent management platform screens, from all the predetermined maintenance personnel, maintenance personnel matched with the first fault type as predetermined target maintenance personnel, and may include:

the intelligent management platform screens at least one matched maintenance person matched with the first fault type from all maintenance persons according to the personnel attribute parameters of all maintenance persons acquired in advance, calculates the matching degree of the abnormal parameters and the personnel attribute parameters of each matched maintenance person, and selects the matched maintenance person with the highest matching degree as the target maintenance person determined in advance. Therefore, after screening out at least one maintainer matched with the fault type, the maintainer with the highest degree of matching with the abnormal parameters is further selected from the at least one maintainer, and the determination accuracy of the maintainer can be further improved, so that the repairing possibility of the intelligent recovery device is improved.

It can be seen that this alternative embodiment further analyzes the fault model of the abnormal parameter after receiving the parameter including the abnormal parameter of the intelligent recovery apparatus, thereby screening a serviceman matched with the fault model to repair the intelligent recovery apparatus, and improving the accuracy and reliability of the determination of the serviceman, thereby being beneficial to improving the repair possibility of the intelligent recovery apparatus.

As another alternative embodiment, after performing the finishing step 501 and before performing the step 502, the method for managing an intelligent recycling apparatus may further include the steps of:

the intelligent management platform determines a plurality of maintenance personnel responsible for maintenance work of the intelligent recovery device from a predetermined maintenance personnel set according to the identification parameters of the intelligent recovery device;

the intelligent management platform acquires current maintenance task parameters of each maintenance person, wherein the current maintenance task parameters of each maintenance person comprise the maintenance task execution residual time and the current geographic position of the maintenance person;

the intelligent management platform selects one of the maintenance personnel from a plurality of maintenance personnel as a target personnel based on the current maintenance task parameters of each maintenance personnel, and triggers and executes step 502, wherein the predetermined terminal equipment is used by the one maintenance personnel.

In this optional embodiment, as an optional implementation manner, the intelligent management platform selects, as a target maintenance person, one maintenance person from a plurality of maintenance persons based on a current maintenance task parameter of each maintenance person, including:

the intelligent management platform calculates the moment that each maintainer reaches the geographic position of the intelligent recovery device based on the current maintenance task parameters of each maintainer, and screens the earliest maintainer from a plurality of maintainers to serve as a target person.

It can be seen that this alternative embodiment enables the determination of maintenance personnel by calculating the time at which each maintenance personnel arrives at the geographical location where the intelligent recovery apparatus is located.

In this optional embodiment, as another optional implementation manner, the intelligent management platform selects, as the target maintenance person, one maintenance person from several maintenance persons based on the current maintenance task parameter of each maintenance person, including:

the intelligent management platform calculates the distance value of each maintainer from the geographic position of the intelligent recovery device based on the current maintenance task parameters of each maintainer, and screens the maintainer with the smallest distance value from a plurality of maintainers as a target person.

It can be seen that this alternative embodiment enables the determination of maintenance personnel by calculating the distance value of each maintenance personnel from the geographical location where the intelligent recovery apparatus is located.

In this optional embodiment, when the number of the maintenance personnel matched with the first fault type is greater than 1, the intelligent management platform may acquire a current maintenance task parameter corresponding to each maintenance personnel in the plurality of maintenance personnel matched with the first fault type, and determine, according to the current maintenance task parameter corresponding to each maintenance personnel, a maintenance personnel closest to the geographic location of the intelligent recovery device and/or earliest in reaching the geographic location of the intelligent recovery device as a target maintenance personnel. Therefore, the determination accuracy and reliability of maintenance personnel of the intelligent recovery device can be further improved, and the repair possibility of the intelligent recovery device is further improved.

It can be seen that, after the parameters including the abnormal parameters of the intelligent recovery device are received, the optional embodiment further determines a plurality of maintenance personnel responsible for maintenance work of the intelligent recovery device from the maintenance personnel set according to the geographic position and/or the code identifier of the intelligent recovery device, and selects a certain maintenance personnel to maintain the intelligent recovery device according to the current maintenance task parameters of the plurality of maintenance personnel, so that the determination accuracy and reliability of the maintenance personnel can be improved, the repair efficiency of the intelligent recovery device can be improved, the utilization rate of the intelligent recovery device can be improved, and the intelligent function of the intelligent management platform can be enriched.

As yet another alternative embodiment, after the completion of step 501, the method for managing an intelligent recycling apparatus may further include the steps of:

the intelligent management platform sets an abnormal identifier for the intelligent recovery device.

In this optional embodiment, as an optional implementation manner, the setting, by the intelligent management platform, an exception identifier for the intelligent recovery apparatus may include:

and the intelligent management platform sets an abnormal identifier for the intelligent recovery device according to the content included in the first target parameter.

Further, after determining the fault type corresponding to the abnormal parameter, a fault identifier may be set for the intelligent recovery device, where the maintenance prompt may further include the fault identifier of the intelligent recovery device. The maintenance personnel is favorable to knowing the abnormality of intelligent recovery unit according to the trouble sign to take suitable maintenance scheme, and then can improve intelligent recovery unit's repair efficiency and possibility.

It can be seen that this alternative embodiment can be through setting up the unusual sign for intelligent recovery unit according to this parameter further after receiving the parameter including the unusual parameter of intelligent recovery unit, can distinguish the intelligent recovery unit that has repaired and not repaired to improve the sending accuracy and the reliability of maintenance suggestion, and can reduce the possibility that the repair operation leads to the wasting of resources to the intelligent recovery unit that has repaired again.

As yet another alternative embodiment, after the completing step 502, the method for managing an intelligent recycling apparatus may further include the steps of:

the intelligent management platform receives a maintenance completion prompt for the intelligent recovery device, wherein the maintenance completion prompt comprises maintenance parameters of the intelligent recovery device, the maintenance parameters comprise at least one of maintenance parameters of the intelligent recovery device, maintenance schemes corresponding to abnormal parameters, maintenance time and personnel attribute parameters of target personnel, the optional embodiment is not limited, and the maintenance parameters comprise normal parameters after the abnormal parameters are repaired;

the intelligent management platform clears the abnormal identification of the intelligent recovery device and stores the maintenance parameters.

It can be seen that this optional embodiment is through after sending the maintenance suggestion to terminal equipment, further receives the maintenance completion suggestion that terminal equipment sent, can make intelligent management platform know intelligent recovery unit and repair to be favorable to intelligent recovery unit's management, and be favorable to intelligent recovery unit's the use of putting into service again, and then further improve intelligent recovery unit's rate of utilization.

As yet another alternative embodiment, after receiving the maintenance completion prompt for the smart recovery apparatus and before clearing the abnormality identification of the smart recovery apparatus, the management method of the smart recovery apparatus may further include the steps of:

The intelligent management platform judges whether the sending terminal corresponding to the maintenance completion prompt is an authorized terminal or not;

when the sending terminal is judged to be an authorized terminal, the intelligent management platform judges whether the maintenance parameters comprise maintenance parameters of a preset type or not;

when the maintenance parameters of the preset type are judged to be included, the intelligent management platform judges whether the maintenance parameters of the preset type meet the preset check conditions, and when the maintenance parameters of the preset type are judged to meet the preset check conditions, the operation of clearing the abnormal marks of the intelligent recovery device is triggered and executed.

In this optional embodiment, as an optional implementation manner, the determining, by the intelligent management platform, whether the sending terminal corresponding to the maintenance completion prompt is an authorized terminal may include:

the intelligent management platform acquires the terminal identification of the sending terminal corresponding to the maintenance completion prompt and judges whether the terminal identification is matched with one of the predetermined authorized terminal identification sets;

when the terminal identification is judged to be matched with one of the predetermined authorized terminal identifications in the authorized terminal identification set, the intelligent management platform determines that the sending terminal corresponding to the maintenance completion prompt is the authorized terminal.

It can be seen that this alternative embodiment can determine whether the sending terminal is an authorized terminal by comparing the terminal identifier of the sending terminal corresponding to the maintenance completion prompt with all the terminal identifiers in the predetermined authorized terminal identifier set.

In this alternative embodiment, the preset type may include at least one of a repair parameter type, a time type, and a maintenance person type, which is not limited.

For example, when the predetermined type is a repair type, when the repair parameter includes a repair parameter, it is determined that the repair parameter includes a repair parameter of the predetermined type.

In this optional embodiment, as an optional implementation manner, the determining, by the intelligent management platform, whether the maintenance parameter of the preset type meets the preset verification condition may include:

when the maintenance parameter of the preset type is the maintenance parameter of the repair type, the intelligent management platform judges whether the repair parameter is in a predetermined repair parameter range or not;

when the repair parameters are judged to be within the predetermined repair parameter range, the intelligent management platform determines that the repair parameters of the preset type meet the preset check conditions.

It can be seen that this alternative embodiment can implement the determination that the repair parameter of the preset type satisfies the preset check condition by determining whether the repair parameter is within the predetermined repair parameter range.

In this alternative embodiment, when the sending terminal corresponding to the maintenance completion prompt is an authorized terminal, it is determined that the maintenance parameter is checked.

Therefore, after the maintenance completion prompt for the intelligent recovery device is received, the optional embodiment further clears the abnormal identifier of the intelligent recovery device after judging that the sending terminal corresponding to the maintenance completion prompt is an authorized terminal and the maintenance parameter is a maintenance parameter of a preset type and after the maintenance parameter of the preset type meets the check condition, so that the check of the maintenance parameter of the intelligent recovery device is realized, the normal performance of the intelligent recovery device can be ensured, and the possibility that the intelligent recovery device is abnormal again in the use process is reduced.

As yet another alternative embodiment, the method for managing the intelligent recycling apparatus may further include the steps of, after determining that the transmitting terminal is an authorized terminal:

the intelligent management platform acquires account attribute information corresponding to the sending terminal, and judges whether a check personnel of the maintenance parameters is a predetermined authorized check personnel according to the account attribute information;

when the check personnel for judging the maintenance parameters are the predetermined authorized check personnel, the intelligent management platform executes the operation for clearing the abnormal marks of the intelligent recovery device or the operation for judging whether the maintenance parameters comprise the maintenance parameters of the preset type.

Therefore, in this optional embodiment, after the sending terminal corresponding to the maintenance completion prompt for the intelligent recovery device is judged to be the authorized terminal, whether the check personnel corresponding to the maintenance parameter is the authorized check personnel determined in advance is further judged, and when the result of the judgment is yes, the subsequent operation is executed, so that the normal performance of the intelligent recovery device can be further ensured, the possibility that the intelligent recovery device is abnormal again in the use process is further reduced, and the management of the intelligent recovery device is further facilitated.

As yet another alternative embodiment, after receiving the first target parameter for the smart recovery apparatus and before sending a maintenance prompt for the smart recovery apparatus to the predetermined terminal device, so that a target person corresponding to the terminal device performs a maintenance operation on the smart recovery apparatus according to the maintenance prompt, the management method of the smart recovery apparatus may further include the steps of:

the intelligent management platform judges whether the abnormal parameters comprise parameters uploaded by a management terminal corresponding to the intelligent recovery device;

when judging that the parameters uploaded by the management terminal are not contained, the intelligent management platform sends a parameter input prompt to the management terminal, wherein the parameter input prompt comprises a parameter type corresponding to the first target parameter, and the parameter input prompt is used for prompting a manager corresponding to the management terminal to feed back a second target parameter aiming at the parameter type of the intelligent recovery device to the intelligent management platform through the management terminal;

The intelligent management platform detects whether a second target parameter exists;

when the second target parameter is detected, the intelligent management platform verifies the first target parameter based on the second target parameter, and when the first target parameter passes the verification, the intelligent management platform triggers execution of step 502.

In this optional embodiment, further, when the first target parameter passes the verification, the intelligent management platform may further perform the above operation of analyzing the first fault type of the intelligent recovery apparatus according to the abnormal parameter, or perform the above operation of setting the abnormal identifier for the intelligent recovery apparatus, or determine the second fault type of the intelligent recovery apparatus according to the first target parameter, where the optional embodiment is not limited.

In this alternative embodiment, the description of the second target parameter is referred to above for the description of the first target parameter, which is not repeated here.

It can be seen that, in this optional embodiment, after the parameter for the intelligent recovery device is received, whether the parameter includes the parameter reported by the management terminal corresponding to the intelligent recovery device is further determined, when the parameter does not include the parameter, the parameter which is reported by the management terminal and has the same parameter type as the parameter is obtained, the parameter for the intelligent recovery device is checked according to the parameter reported by the management terminal, and the subsequent operation is performed after the verification is passed, so that the possibility of false reporting of the parameter by the intelligent recovery device can be reduced, the determination accuracy and reliability of abnormality occurrence of the intelligent recovery device are improved, and the possibility of arranging maintenance personnel to repair the intelligent recovery device as soon as possible is facilitated.

Therefore, the management method of the intelligent recovery device described in fig. 5 can be implemented by receiving the parameters of the intelligent recovery device and sending the parameters to the predetermined terminal equipment, so that the personnel corresponding to the terminal equipment can repair the intelligent recovery device according to the parameters received by the terminal equipment, and can timely inform the maintenance personnel to execute the repair operation on the intelligent recovery device, thereby simplifying the repair operation of the intelligent recovery device, further being beneficial to the intelligent management of the intelligent recovery device and improving the management efficiency of the intelligent recovery device; the service life of the intelligent recovery device can be prolonged. In addition, the determination accuracy and reliability of maintenance personnel can be improved, so that the repair possibility and repair efficiency of the intelligent recovery device can be improved, and the utilization rate of the intelligent recovery device can be further improved; the method can also improve the sending accuracy and reliability of maintenance prompts and reduce the possibility of resource waste caused by re-executing the repair operation on the repaired intelligent recovery device; the possibility of false alarm parameters of the intelligent recovery device can be reduced, and the determination accuracy and reliability of abnormality of the intelligent recovery device can be improved; the intelligent function of the intelligent management platform can be enriched; the possibility of abnormality of the intelligent recovery device in the using process is reduced; and the management of the intelligent recovery device can be further facilitated.

Example III

Referring to fig. 6, fig. 6 is a flow chart of a management method of another intelligent recycling device according to an embodiment of the invention. The management method of the intelligent recycling device described in fig. 6 may be applied to an intelligent management platform, and embodiments of the present invention are not limited. As shown in fig. 6, the method for managing the intelligent recycling apparatus may include the following operations:

601. the intelligent management platform receives first target parameters for the intelligent recovery device, wherein the first target parameters comprise abnormal parameters of the intelligent recovery device and identification parameters of the intelligent recovery device, and the identification parameters comprise coding identification and/or geographic position identification of the intelligent recovery device.

As an alternative embodiment, after receiving the first target parameter for the intelligent recycling apparatus and before sending a maintenance prompt for the intelligent recycling apparatus to the predetermined terminal device, so that a target person corresponding to the terminal device performs a maintenance operation on the intelligent recycling apparatus according to the maintenance prompt, the method for managing the intelligent recycling apparatus may further include the steps of:

the intelligent management platform inputs the geographic position identification into a predetermined area determination model;

The intelligent management platform acquires the regional parameters output by the regional determination model and takes the regional parameters as target regional parameters of the region where the intelligent recovery device is located;

the intelligent management platform inputs the target area parameters into a predetermined maintenance emergency determination model;

the intelligent management platform acquires the maintenance emergency output by the maintenance emergency determination model and takes the maintenance emergency as a target maintenance emergency of the intelligent recovery device;

the intelligent management platform determines whether the target maintenance emergency is greater than or equal to a predetermined maintenance emergency threshold, and when it is determined that the target maintenance emergency is greater than or equal to the maintenance emergency threshold, triggers execution of step 605.

In this alternative embodiment, the step of inputting the geographic location identifier into the predetermined area determination model by the intelligent management platform may also occur after the step of determining whether the abnormality parameter includes the parameter uploaded by the management terminal corresponding to the intelligent recovery apparatus in the first embodiment, or may also occur after the step of screening, from among all the predetermined maintenance personnel, the maintenance personnel matching the first fault type as the predetermined target maintenance personnel, or may also occur after the step of performing iterative operation on the abnormality model according to the predetermined different maintenance data sets in the first embodiment, to obtain the target maintenance data set with the highest matching degree with the abnormality model, or may also occur simultaneously with the step of setting the abnormality identifier for the intelligent recovery apparatus in the first embodiment, where the alternative embodiment is not limited.

In this alternative embodiment, the service prompt further includes a target service urgency.

In this alternative embodiment, the target area parameter includes at least one of an area type, population density, personnel attribute type, and circulation speed of the article in the area where the intelligent recovery apparatus is located, and the alternative embodiment is not limited. Wherein the zone type includes at least one of a school zone type, a cell zone type, a business zone type, a factory zone type, and other zone types, and the alternative embodiment is not limited. The article is circulated through the intelligent recovery device, and the personnel attribute type is used for representing the types of different personnel identities, such as: students, office workers, etc.

It can be seen that after the parameter specific to the intelligent recovery device is received, the optional embodiment further determines the maintenance emergency degree of the intelligent recovery device according to the parameter specific to the intelligent recovery device, determines whether the maintenance emergency degree is greater than or equal to the preset maintenance emergency degree threshold, and when the determination result is yes, performs the subsequent operation, and can arrange maintenance personnel for the intelligent recovery device as soon as possible according to the maintenance emergency degree of the intelligent recovery device, thereby realizing individual maintenance personnel arrangement for the intelligent recovery device, improving the maintenance efficiency of the intelligent recovery device, and further optimizing the management of the intelligent recovery device.

602. And the intelligent management platform determines a second fault type of the intelligent recovery device according to the first target parameter.

In the embodiment of the present invention, for the description of the second fault type, please refer to the description of the first fault type in the first embodiment, and the description is not repeated here.

603. And the intelligent management platform builds an anomaly model for the intelligent recovery device according to the second fault type and the first target parameter.

604. And the intelligent management platform executes iterative operation on the abnormal model according to different predetermined maintenance data sets to obtain a target maintenance data set with the highest matching degree with the model.

In an embodiment of the present invention, the target maintenance data set includes a maintenance solution for the intelligent recovery device.

Therefore, after the parameters of the intelligent recovery device are received, the fault type of the intelligent recovery device is further determined according to the parameters, an abnormal model of the intelligent recovery device is built according to the parameters and the fault type, and a maintenance data set matched with the abnormal model is determined from different predetermined maintenance data sets, so that the intelligent recovery device can be screened to a proper maintenance scheme, the screening accuracy of the maintenance scheme is improved, the repair possibility of the intelligent recovery device is improved, and the intelligent function of the intelligent management platform can be enriched.

605. The intelligent management platform sends a maintenance prompt aiming at the intelligent recovery device to a predetermined terminal device, so that a target person corresponding to the terminal device executes maintenance operation on the intelligent recovery device according to the maintenance prompt, wherein the maintenance prompt comprises the first target parameter and the target maintenance data set, and the target maintenance data set is used for guiding the target person to execute cleaning operation on a fault corresponding to the second fault type.

As another alternative embodiment, after the completion of step 601, the method for managing an intelligent recycling apparatus may further include the steps of:

the intelligent management platform counts the abnormal total times of the abnormality of the intelligent recovery device in a certain time period and judges whether the abnormal total times are greater than or equal to a preset abnormal total times threshold;

when the total number of the anomalies is larger than or equal to the threshold value of the preset total number of the anomalies, the intelligent management platform sets a key monitoring mark for the intelligent recovery device and starts monitoring operation for the intelligent recovery device.

In this alternative embodiment, the certain period of time may be any period of time such as a month, a quarter, etc., which is not limited.

Therefore, according to the optional embodiment, when the abnormal times of the intelligent recovery device in a certain time period are larger than or equal to the preset abnormal times threshold, the monitoring operation for the intelligent recovery device is started, the condition of the intelligent recovery device can be known in time, and when the abnormal conditions occur, maintenance personnel can be informed of maintenance of the intelligent recovery device in time.

In the embodiment of the present invention, the detailed description of step 501 and step 502 in the first embodiment is referred to for the related description of step 601 and step 605, and the detailed description of the embodiment of the present invention is omitted.

Therefore, the management method of the intelligent recovery device described in fig. 6 can be implemented by receiving the parameters of the intelligent recovery device and sending the parameters to the predetermined terminal equipment, so that the personnel corresponding to the terminal equipment can repair the intelligent recovery device according to the parameters received by the terminal equipment, and can timely inform the maintenance personnel to execute the repair operation on the intelligent recovery device, thereby simplifying the repair operation of the intelligent recovery device, further being beneficial to the intelligent management of the intelligent recovery device and improving the management efficiency of the intelligent recovery device; the service life of the intelligent recovery device can be prolonged. In addition, maintenance personnel can be arranged for the intelligent recovery device as soon as possible according to the maintenance emergency degree of the intelligent recovery device, and the individual maintenance personnel arrangement of the intelligent recovery device is realized, so that the maintenance efficiency of the intelligent recovery device is improved, and the management of the intelligent recovery device is further optimized; the condition of the intelligent recovery device can be known in time; the intelligent recovery device can also screen an appropriate maintenance scheme for the intelligent recovery device, the screening accuracy of the maintenance scheme is improved, the repairing possibility of the intelligent recovery device is improved, and the intelligent function of the intelligent management platform can be enriched.

Example IV

Referring to fig. 7, fig. 7 is a schematic diagram illustrating a management device of an intelligent recycling device according to another embodiment of the invention. As shown in fig. 7, the management device of the intelligent recycling apparatus may include:

a memory 701 storing executable program code;

a processor 702 coupled with the memory 701;

the processor 702 invokes executable program code stored in the memory 701 for performing the steps in the management method of the intelligent recycling apparatus described in the second or third embodiment.

Example five

Referring to fig. 8, fig. 8 is a schematic structural diagram of an intelligent management platform according to an embodiment of the present invention. As shown in fig. 8, the intelligent management platform may include the management device of the intelligent recycling apparatus described in any one of the embodiments of fig. 2 to fig. 4, which is not limited by the embodiment of the present invention.

Example six

The embodiment of the invention discloses a computer-readable storage medium storing a computer program for electronic data exchange, wherein the computer program causes a computer to execute the steps in the management method of the intelligent recycling device described in the second or third embodiment.

Example seven

An embodiment of the present invention discloses a computer program product, which includes a non-transitory computer-readable storage medium storing a computer program, and the computer program is operable to cause a computer to execute steps in the method for managing an intelligent recycling apparatus described in the second embodiment or the third embodiment.

The apparatus embodiments described above are merely illustrative, wherein the modules illustrated as separate components may or may not be physically separate, and the components shown as modules may or may not be physical, i.e., may be located in one place, or may be distributed over a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above detailed description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course by means of hardware. Based on such understanding, the foregoing technical solutions may be embodied essentially or in part in the form of a software product that may be stored in a computer-readable storage medium including Read-Only Memory (ROM), random-access Memory (Random Access Memory, RAM), programmable Read-Only Memory (Programmable Read-Only Memory, PROM), erasable programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), one-time programmable Read-Only Memory (OTPROM), electrically erasable programmable Read-Only Memory (EEPROM), compact disc Read-Only Memory (Compact Disc Read-Only Memory, CD-ROM) or other optical disc Memory, magnetic disc Memory, tape Memory, or any other medium that can be used for computer-readable carrying or storing data.

Finally, it should be noted that: the embodiment of the invention discloses a management method and a management device of an intelligent recovery device, which are disclosed by the embodiment of the invention only for illustrating the technical scheme of the invention, but not limiting the technical scheme; although the invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that; the technical scheme recorded in the various embodiments can be modified or part of technical features in the technical scheme can be replaced equivalently; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (9)

1. A management device for an intelligent recovery device, the management device comprising:

a receiving module, configured to receive a first target parameter for an intelligent recycling device, where the first target parameter includes an abnormal parameter of the intelligent recycling device and an identification parameter of the intelligent recycling device, the identification parameter includes a coded identification and/or a geographical location identification of the intelligent recycling device, the abnormal parameter includes a first type of abnormal parameter and/or a second type of abnormal parameter, the first type of abnormal parameter includes at least one of a location change condition, a breakage condition, a complete functional damage condition, a non-complete functional damage condition, a component location change condition, and an advertisement delivery abnormal condition of the intelligent recycling device, and the second type of abnormal parameter includes a non-functional damage condition of the intelligent recycling device, where the non-functional damage condition indicates a functional condition of a human damage;

The sending module is used for sending a maintenance prompt aiming at the intelligent recovery device to a predetermined terminal device so that a target person corresponding to the terminal device can execute maintenance operation on the intelligent recovery device according to the maintenance prompt, wherein the maintenance prompt comprises the first target parameter;

and, the management device further includes:

the second judging module is used for judging whether the abnormal parameters comprise parameters uploaded by a management terminal corresponding to the intelligent recovery device or not after the receiving module receives the first target parameters aiming at the intelligent recovery device and before the sending module sends maintenance prompts aiming at the intelligent recovery device to the predetermined terminal equipment so that target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompts;

the sending module is further configured to send a parameter input prompt to the management terminal when the second judging module judges that the parameter uploaded by the management terminal is not included, where the parameter input prompt includes a parameter type corresponding to the first target parameter, and the parameter input prompt is used to prompt a manager corresponding to the management terminal to feed back, to an intelligent management platform through the management terminal, a second target parameter corresponding to the parameter type of the intelligent recovery device;

The detection module is used for detecting whether the second target parameter exists or not;

and the verification module is used for verifying the first target parameter based on the second target parameter when the detection module detects the second target parameter, and triggering the sending module to execute the step of sending a maintenance prompt aiming at the intelligent recovery device to a predetermined terminal device when the first target parameter passes the verification, so that a target person corresponding to the terminal device executes maintenance operation on the intelligent recovery device according to the maintenance prompt.

2. The intelligent recovery apparatus management apparatus of claim 1, further comprising:

the analysis module is used for analyzing the first fault type of the intelligent recovery device according to the abnormal parameters after the receiving module receives the first target parameters aiming at the intelligent recovery device and before the sending module sends maintenance prompts aiming at the intelligent recovery device to the predetermined terminal equipment so that target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompts;

And the screening module is used for screening maintenance personnel matched with the first fault type from all the predetermined maintenance personnel to serve as predetermined target maintenance personnel, triggering the sending module to execute the step of sending maintenance prompts aiming at the intelligent recovery device to predetermined terminal equipment so that the target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompts, wherein the maintenance prompts further comprise the first fault type, the terminal equipment is the terminal equipment used by the target maintenance personnel, and the target personnel is the target maintenance personnel.

3. The management device of the intelligent recycling apparatus according to claim 2, wherein the analysis module analyzes the first failure type of the intelligent recycling apparatus according to the abnormal parameter in a manner that:

inputting the abnormal parameters into a predetermined fault type determining model, and acquiring the fault type output by the fault type determining model as a first fault type of the intelligent recovery device;

and the screening module screens the maintenance personnel matched with the first fault type from all the predetermined maintenance personnel as predetermined target maintenance personnel, wherein the mode specifically comprises the following steps:

Screening at least one matched maintenance person matched with the first fault type from all maintenance persons according to personnel attribute parameters of all maintenance persons acquired in advance;

and calculating the matching degree of the abnormal parameters and the personnel attribute parameters of each matched maintenance personnel, and selecting the matched maintenance personnel with the highest matching degree as a predetermined target maintenance personnel.

4. The intelligent recovery apparatus management apparatus of claim 1, further comprising:

the determining module is used for determining a second fault type of the intelligent recovery device according to the first target parameter after the receiving module receives the first target parameter aiming at the intelligent recovery device and before the sending module sends a maintenance prompt aiming at the intelligent recovery device to the predetermined terminal equipment so that a target person corresponding to the terminal equipment can execute maintenance operation on the intelligent recovery device according to the maintenance prompt;

the construction module is used for constructing an abnormal model aiming at the intelligent recovery device according to the second fault type and the first target parameter;

The iteration module is used for executing iteration operation on the abnormal model according to different predetermined maintenance data sets to obtain a target maintenance data set with highest matching degree with the abnormal model, triggering the sending module to execute the step of sending maintenance prompts aiming at the intelligent recovery device to the predetermined terminal equipment so that target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompts, wherein the maintenance prompts further comprise the target maintenance data set, and the target maintenance data set is used for guiding the target personnel to execute clearing operation on faults corresponding to the second fault type.

5. The intelligent recycling unit management apparatus according to any one of claims 1 to 4, further comprising:

the setting module is used for setting an abnormal identifier for the intelligent recovery device after the receiving module receives the first target parameter aiming at the intelligent recovery device;

the receiving module is further configured to send a maintenance prompt for the intelligent recovery device to a predetermined terminal device, so that after a target person corresponding to the terminal device performs a maintenance operation on the intelligent recovery device according to the maintenance prompt, receive a maintenance completion prompt for the intelligent recovery device, where the maintenance completion prompt includes a maintenance parameter of the intelligent recovery device, the maintenance parameter includes at least one of a repair parameter of the intelligent recovery device, a maintenance scheme corresponding to the abnormal parameter, a maintenance time, and a person attribute parameter of the target person, and the repair parameter includes a normal parameter after repairing the abnormal parameter;

And, the management device further includes:

the clearing module is used for clearing the abnormal identifier of the intelligent recovery device;

and the storage module is used for storing the maintenance parameters.

6. The intelligent recovery apparatus management apparatus of claim 5, further comprising:

the first judging module is used for judging whether a sending terminal corresponding to the maintenance completion prompt is an authorized terminal or not after the receiving module receives the maintenance completion prompt aiming at the intelligent recovery device and before the clearing module clears the abnormal identifier of the intelligent recovery device;

the first judging module is further configured to judge whether the maintenance parameter includes a maintenance parameter of a preset type when it is judged that the sending terminal is the authorized terminal;

the first judging module is further configured to judge whether the maintenance parameter of the preset type meets a preset check condition when judging that the maintenance parameter of the preset type is included;

the cleaning module is specifically configured to:

and when the first judging module judges that the sending terminal is the authorized terminal, when the first judging module judges that the maintenance parameter of the preset type is included, and when the first judging module judges that the maintenance parameter of the preset type meets the preset verification condition, the abnormal identifier of the intelligent recovery device is cleared.

7. The intelligent recycling unit management apparatus according to any one of claims 1 to 4, further comprising:

the input module is used for inputting the geographic position identification into a predetermined area determination model after the receiving module receives the first target parameter aiming at the intelligent recovery device and before the sending module sends a maintenance prompt aiming at the intelligent recovery device to predetermined terminal equipment so that target personnel corresponding to the terminal equipment execute maintenance operation on the intelligent recovery device according to the maintenance prompt;

the system comprises an acquisition module, a storage module and a control module, wherein the acquisition module is used for acquiring area parameters output by an area determination model, and the area parameters are used as target area parameters of an area where the intelligent recovery device is located, the target area parameters comprise at least one of an area type, population density, personnel attribute type and circulation speed of objects of the area where the intelligent recovery device is located, the area type comprises at least one of a school area type, a district area type, a business area type, a factory area type and other area types, the objects are objects circulated through the intelligent recovery device, and the personnel attribute type is used for representing the types of different personnel identities;

The input module is further used for inputting the target area parameters into a predetermined maintenance emergency determination model;

the acquisition module is further used for acquiring the maintenance emergency output by the maintenance emergency determination model and taking the maintenance emergency as the target maintenance emergency of the intelligent recovery device;

and the third judging module is used for judging whether the target maintenance emergency is greater than or equal to a predetermined maintenance emergency threshold, triggering the sending module to execute the step of sending a maintenance prompt aiming at the intelligent recovery device to predetermined terminal equipment when judging that the target maintenance emergency is greater than or equal to the maintenance emergency threshold, so that a target person corresponding to the terminal equipment executes maintenance operation on the intelligent recovery device according to the maintenance prompt, and the maintenance prompt further comprises the target maintenance emergency.

8. The management device of any one of claims 1-4, wherein when the exception parameter is an exception parameter reported by the intelligent recovery device, the exception parameter includes a first type exception parameter;

when the abnormal parameters are the abnormal parameters reported by the management terminal corresponding to the intelligent recovery device, the abnormal parameters comprise first-class abnormal parameters and/or second-class abnormal parameters;

Wherein the first type of anomaly parameter comprises at least one of a change in position of the intelligent recovery apparatus, a breakage of the intelligent recovery apparatus, and a functional failure of the intelligent recovery apparatus;

the second type of anomaly parameter includes a nonfunctional damage of the intelligent recovery apparatus.

9. A method for managing an intelligent recovery device, the method comprising:

receiving a first target parameter for an intelligent recovery apparatus, wherein the first target parameter comprises an abnormal parameter of the intelligent recovery apparatus and an identification parameter of the intelligent recovery apparatus, the identification parameter comprises a coding identification and/or a geographic position identification of the intelligent recovery apparatus, wherein the abnormal parameter comprises a first type of abnormal parameter and/or a second type of abnormal parameter, the first type of abnormal parameter comprises at least one of a position change condition, a damage condition, a complete functional damage condition, a non-complete functional damage condition, a component position change condition and an advertisement delivery abnormal condition of the intelligent recovery apparatus, and the second type of abnormal parameter comprises a non-functional damage condition of the intelligent recovery apparatus, and the non-functional damage condition indicates a functional condition of artificial damage;

Sending a maintenance prompt aiming at the intelligent recovery device to a predetermined terminal device, so that a target person corresponding to the terminal device executes maintenance operation on the intelligent recovery device according to the maintenance prompt, wherein the maintenance prompt comprises the first target parameter;

and after the receiving the first target parameter for the intelligent recovery apparatus and before the sending the maintenance prompt for the intelligent recovery apparatus to the predetermined terminal equipment, so that the target personnel corresponding to the terminal equipment execute the maintenance operation on the intelligent recovery apparatus according to the maintenance prompt, the method further includes:

judging whether the abnormal parameters comprise parameters uploaded by a management terminal corresponding to the intelligent recovery device or not;

when judging that the parameters uploaded by the management terminal are not contained, sending a parameter input prompt to the management terminal, wherein the parameter input prompt comprises a parameter type corresponding to the first target parameter, and the parameter input prompt is used for prompting a manager corresponding to the management terminal to feed back a second target parameter aiming at the parameter type of the intelligent recovery device to an intelligent management platform through the management terminal;

Detecting whether the second target parameter exists;

and when the second target parameter is detected, verifying the first target parameter based on the second target parameter, and when the first target parameter passes the verification, triggering and executing the step of sending a maintenance prompt aiming at the intelligent recovery device to the predetermined terminal equipment so as to enable a target person corresponding to the terminal equipment to execute maintenance operation on the intelligent recovery device according to the maintenance prompt.