CN108810161B

CN108810161B - Cloud computing-based storage cabinet system

Info

Publication number: CN108810161B
Application number: CN201810643620.5A
Authority: CN
Inventors: 马磊
Original assignee: Zhengzhou Yunhai Information Technology Co Ltd
Current assignee: Zhengzhou Yunhai Information Technology Co Ltd
Priority date: 2018-06-21
Filing date: 2018-06-21
Publication date: 2021-10-22
Anticipated expiration: 2038-06-21
Also published as: CN108810161A

Abstract

The invention provides a cloud computing-based locker system, which places a locker below the ground. The volumes of the lockers are not completely equal, and the comparison analysis of the received customer information and the acquired locker information comprises the comparison analysis of the received size information of the articles to be stored and the size information of the inner cavity of each locker of the underground storage locker platform, and the storage of the articles by using the specific locker is correspondingly controlled. The invention is used for avoiding the locker from occupying the space above the ground and avoiding the use of the locker with larger volume to store articles with smaller volume, thereby avoiding the waste of resources to a certain extent.

Description

Cloud computing-based storage cabinet system

Technical Field

The invention relates to the field of locker systems, in particular to a cloud computing-based locker system for storing and taking articles.

Background

Cloud computing is an internet-based computing approach by which shared software and hardware resources and information can be provided to computers and other devices on demand. Which has become part of the locker system.

Along with the improvement of living standard and the acceleration of life rhythm, people in shopping malls, squares, court and scenic spots are more and more popular, and the demand of temporarily storing articles is more and more increased; enterprises, schools, residential buildings and express packages are more and more temporarily stored. The demand for locker systems is also increasing.

However, in the existing locker system, the locker is fixedly arranged on the ground, and the locker system occupies more and more ground area along with the increase of the demand. However, the available floor space is limited and no more locker storage systems can be built to meet the user's needs.

In addition, the size of the inner cavity of the conventional storage cabinet storage system is often not matched with the size of the articles stored in the storage cabinet storage system, so that the resource waste is caused.

Therefore, the invention provides a cloud computing-based locker system for solving the technical problems.

Disclosure of Invention

The invention aims to solve the technical problem that in order to overcome the defects of the prior art, a cloud computing-based locker system is provided and is used for reducing the occupancy of a locker in the locker system to the space above the ground.

In order to solve the technical problems, the invention provides a cloud computing-based locker system, which comprises an overground access console, an underground access locker platform and a cloud computing server, wherein the overground access console, the underground access locker platform and the cloud computing server are connected through a network, and the cloud computing server comprises:

the underground storage cabinet platform comprises a group of storage cabinets arranged below the ground, wherein each storage cabinet is provided with an electronic lock for controlling the control cabinet to open and close, a conveying rail for conveying the storage cabinet to enter and exit the ground, and an electric control driving mechanism for driving the storage cabinet to move on the corresponding conveying rail;

the system comprises a ground access console, a cloud computing server and a storage management center, wherein the ground access console is used for acquiring and sending corresponding user information of a user who uses the locker system to store and take out articles, and the user information comprises customer identification information, information of articles to be stored of the articles to be stored and information of articles to be taken out of the articles to be taken out;

the cloud computing server is used for receiving user information sent by the above-ground access console, acquiring locker information of each locker in the underground access locker platform, performing comparative analysis on the received client information and the acquired locker information, sending an instruction for controlling the action of the electric control driving mechanism corresponding to the corresponding locker to the underground access locker platform according to the comparative analysis result, and controlling the corresponding locker to return to the ground or convey to the ground through the corresponding conveying track; when a user stores articles and the electric control driving mechanism stops driving, the cloud computing server is also used for sending a control instruction for controlling to open the electronic lock of the current corresponding locker to the underground storage locker platform; the locker information comprises identification information, geographical position information and use state information of the locker.

The size of the inner cavity of the storage cabinet is not completely equal, the information of the articles to be stored comprises the size information of the articles to be stored, and the information of the storage cabinet comprises the size information of the inner cavity of the storage cabinet; the contrastive analysis of the received customer information and the acquired locker information comprises contrastive analysis of the received size information of the articles to be stored and the size information of the inner cavity of each locker of the underground storage locker platform.

The ground access console is provided with a scanning device for scanning the outline of the article to be stored, and the ground access console calculates the size information of the article to be stored at present based on the scanning information of the scanning device.

The identification information of the storage cabinet is the serial number of the storage cabinet.

When the user stores articles, after the electric control driving mechanism stops driving, the cloud computing server is further used for generating the goods taking codes and recording the storage time of the articles, and sending the currently generated goods taking codes and the recorded storage time of the articles and the identification information of the storage cabinet for storing the articles to the ground access console for displaying.

The customer identification information is a user mobile phone number.

The cloud computing server is further used for sending the currently generated goods taking code, the currently recorded storage time of the goods, and the identification information and the geographical position information of the storage cabinet used for storing the current goods to the user mobile phone corresponding to the current customer identification information.

Wherein, the use state information comprises a used state and an idle state.

Wherein, send the instruction of the automatically controlled actuating mechanism action that its corresponding locker of control to underground access locker platform corresponds, its corresponding contrastive analysis's result includes: the current using state information of the specific locker is in an idle state, the size of the current articles to be stored is smaller than or equal to the size of the inner cavity of the specific locker, and the size of the inner cavity of the specific locker is closest to the size of the current articles to be stored.

Compared with the prior art, the invention has the advantages that:

(1) according to the cloud computing-based locker system, the locker is arranged below the ground, so that the locker is prevented from occupying the space above the ground, and a large amount of space is saved to a great extent.

(2) According to the cloud computing-based locker system, the sizes of the inner cavities of the lockers are not equal, the received customer information and the obtained locker information are compared and analyzed, the received size information of the articles to be stored and the size information of the inner cavities of the lockers of the underground storage locker platform are compared and analyzed, and the specific locker is correspondingly controlled to be used for storing the articles, so that the condition that the articles with larger volume (mainly the size) and smaller storage volume of the locker are used is avoided, and the resource waste is avoided to a certain extent.

Therefore, compared with the prior art, the invention has prominent substantive features and remarkable progress, and the beneficial effects of the implementation are also obvious.

Drawings

FIG. 1 is a functional block diagram of a cloud computing-based locker system according to the present invention.

Detailed Description

In order to make the technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that, the detailed description of the present application is not included in the invention of the present application, and those skilled in the art can select any existing technologies with the same functions to implement the present invention according to actual needs.

Referring to fig. 1, fig. 1 is a specific embodiment of a cloud computing-based locker system according to the present invention. In the embodiment, the cloud computing-based locker system comprises an above-ground access console, an underground access locker platform and a cloud computing server which are connected through a network.

The storage cabinet platform comprises a group of storage cabinets arranged below the ground, so that the storage cabinets are prevented from occupying the space above the ground to a great extent, and the installation space is saved to a great extent.

In addition, each storage cabinet of the underground storage and retrieval storage cabinet platform is provided with an electronic lock for controlling the opening and closing of the control cabinet, a conveying rail for conveying the storage cabinet to enter and exit the ground, and an electric control driving mechanism for driving the storage cabinet to move on the corresponding conveying rail. Wherein, for each storage cabinet, the storage cabinet is respectively corresponding to the electronic lock, the conveying track and the electric control driving mechanism one by one. The conveying rail and the electric control driving mechanism are respectively matched with the ground access control console, the underground storage cabinet platform and the cloud computing server for use, and when the storage cabinet conveying device is used, the electric control driving mechanism is used for driving the storage cabinet to convey the storage cabinet to the ground through the conveying rail or return the storage cabinet to the ground.

Wherein, the number of the storage cabinets can be determined according to actual conditions. Referring to fig. 1, in the present embodiment, n storage cabinets are taken as an example, and an electronic control driving mechanism i and an electronic lock i in fig. 1 correspond to the storage cabinet i respectively. The i represents a serial number, and the value range of the i is 1, 2, 3, … and n.

In this embodiment, a ground access opening (a support plate in this embodiment) is arranged above the ground, and when the electronically controlled driving mechanism drives the storage cabinets to be conveyed to the above the ground through the conveying rails, the electronically controlled driving mechanism finally conveys the corresponding storage cabinets to the ground access opening, and the ground access opening is located beside the ground access console, so that a user can conveniently open the storage cabinets to store and take articles. The arrangement of the ground access port can be replaced by any implementation with equivalent effect in the prior art by those skilled in the art.

In this embodiment, the above-ground access console is configured to acquire and send, to the cloud computing server, user information corresponding to a user who uses the locker system to store and take out articles, where the user information includes customer identification information, information of articles to be stored of the articles to be stored, and information of articles to be taken out of the articles to be taken out. The locker information comprises identification information, geographical position information and use state information of the locker. The geographic position information can be pre-stored in a ground access console, and can also be acquired in real time through a GPS positioner.

In this embodiment, the cloud computing server is configured to receive user information sent by the above-ground access console, and to obtain locker information of each locker in the underground access locker platform, perform comparative analysis on the received client information and the obtained locker information, and send an instruction for controlling an electric control driving mechanism corresponding to the corresponding locker to operate to the underground access locker platform according to a result of the comparative analysis, so as to control the corresponding locker to return to the ground or convey to the ground through the corresponding conveying track; when the user stores articles and the electric control driving mechanism stops driving, the cloud computing server is further used for sending a control instruction for controlling the electronic lock of the current corresponding locker to be opened to the underground storage locker platform.

In this embodiment, the sizes of the inner cavities of the lockers are not completely equal, the information of the articles to be stored includes the size information of the articles to be stored, and the information of the lockers includes the size information of the inner cavities of the lockers; the contrastive analysis of the received customer information and the acquired locker information comprises contrastive analysis of the received size information of the articles to be stored and the size information of the inner cavity of each locker of the underground storage locker platform. Therefore, the storage cabinet disclosed by the invention avoids the condition that the storage cabinet with a larger inner cavity is used for storing articles with smaller storage volume, so that the resource waste is avoided to a certain extent.

In this embodiment, the above-ground access console is provided with a scanning device for scanning the contour of the item to be stored, and the above-ground access console calculates volume information of the item currently to be stored based on the scanning information of the scanning device. Wherein the scanning device adopts an infrared scanning device.

In this embodiment, the identification information of the locker is a locker number, the customer identification information is a user mobile phone number, and the use state information includes used and idle states.

Specifically, when the user stores articles, and after the electric control driving mechanism stops driving, the cloud computing server is further used for generating the goods taking code and recording the storage time of the articles, and sending the currently generated goods taking code and the recorded storage time of the articles and the identification information of the storage cabinet used for storing the articles to the ground access console for displaying and to the user mobile phone corresponding to the current customer identification information, so that the user can conveniently check and take the articles for use.

In this embodiment, the command for controlling the operation of the electric control driving mechanism corresponding to the corresponding storage cabinet is sent to the underground storage and retrieval storage cabinet platform, and the corresponding result of the comparative analysis includes but is not limited to: the current using state information of the specific locker is in an idle state, the size of the current articles to be stored is smaller than or equal to the size of the inner cavity of the specific locker, and the size of the inner cavity of the specific locker is closest to the size of the current articles to be stored. This ensures, to a certain extent, that the articles stored each time are of a size that best matches the volume of the cabinet in which they are stored, further avoiding waste of storage resources.

Specifically, when a user uses the cloud computing-based locker system of the present invention to store articles: the method comprises the steps that a user firstly selects an article storage function through a ground access console, then the user scans articles to be stored through scanning equipment of the ground access console, and inputs a user mobile phone number through an input module arranged on the ground access console, after information is submitted, the ground access console acquires the currently input user mobile phone number and acquires size information of the articles to be stored through information scanned by the scanning equipment, then the size information is transmitted to a cloud computing server through a network, the cloud computing server receives the corresponding user information through the network, acquires locker information of each locker from an underground access locker platform, then matches the acquired locker information of each locker with the acquired corresponding user information, and selects information of a specific locker currently used for storing the articles; then, the cloud computing server sends an instruction for controlling the action of the electric control driving mechanism corresponding to the specific locker to the underground storage locker platform through the network link, and the underground storage locker platform correspondingly controls the action of the electric control driving mechanism corresponding to the specific locker after receiving the instruction, so that the specific locker is pushed out to the ground through the corresponding conveying track (under the driving action of the electric control driving mechanism); after the electric control driving mechanism stops driving, the cloud computing server generates a goods taking code and records the storage time of the goods, and sends the currently generated goods taking code and the recorded storage time of the goods, the identification information of the specific storage cabinet and the geographical position information of the specific storage cabinet to a ground access control console and a mobile phone corresponding to the user mobile phone number input by the ground access control console; meanwhile, the cloud computing server sends a control instruction for controlling the opening of the electronic lock of the specific locker to the underground storage locker platform through the network channel, the underground storage locker platform immediately controls the electronic lock of the specific locker to be opened after receiving the instruction, the locker door corresponding to the specific locker is opened, and a user can put articles to be stored into the specific locker and then close the specific locker door. The cloud computing server judges that the operation is finished through locker lock falling, namely after the specific locker door is closed, the cloud computing server sends a control command to the underground storage locker platform, and the underground storage locker platform controls the electric control driving mechanism corresponding to the specific locker to act in the opposite direction, so that the specific locker is driven to be returned to the underground storage locker platform along the corresponding conveying track (namely, the specific locker is returned to the ground till the specific locker is returned to the corresponding preset position corresponding to the specific locker). Thus, one storage operation is completed.

When fetching articles, a user firstly selects an article fetching function through a ground access console, then inputs a goods fetching code obtained during storing through an input module arranged on the ground access console, then the goods fetching code is transmitted to a cloud computing server through a network by the ground access console, the cloud computing server receives the goods fetching code through the network and checks the received goods fetching code, after the goods fetching code is matched, identification information of a specific locker corresponding to the goods fetching code is called, a control instruction for driving an electric control driving mechanism of the specific locker corresponding to the identification information of the specific locker to act is sent to an underground access locker platform, the underground access locker platform controls the electric control driving mechanism of the specific locker to act after receiving the control instruction, and therefore the specific locker is pushed out to the ground through a corresponding conveying track (under the driving action of the electric control driving mechanism), after the electric control driving mechanism corresponding to the specific locker stops driving, the cloud computing server sends a control instruction for controlling to open the electronic lock of the specific locker to an underground storage locker platform through a network channel, the underground storage locker platform immediately controls the electronic lock of the specific locker to be opened after receiving the instruction, and a locker door corresponding to the specific locker is opened, so that a user can take out stored articles from the specific locker and then close the cabinet door of the specific locker; after the specific locker door is closed, the cloud computing server sends a control instruction to the underground storage locker platform, and the underground storage locker platform controls the electric control driving mechanism corresponding to the specific locker to act in the opposite direction, so that the specific locker is driven to be returned to the underground storage locker platform along the corresponding conveying track, namely returned to the ground surface until the specific locker is returned to the corresponding preset position. Thus finishing the fetching operation once. According to the cloud computing-based locker system, the locker is arranged below the ground, so that the locker is prevented from occupying the space above the ground, and a large amount of space is saved to a great extent.

The above embodiments are only for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may be modified or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The cloud computing-based locker system is characterized by comprising an overground access console, an underground access locker platform and a cloud computing server which are connected through a network, wherein:

the underground storage cabinet platform comprises a group of storage cabinets arranged below the ground, wherein each storage cabinet is provided with an electronic lock for controlling the cabinet to open and close, a conveying rail for conveying the storage cabinet to enter and exit the ground, and an electric control driving mechanism for driving the storage cabinet to move on the corresponding conveying rail;

the cloud computing server is used for receiving user information sent by the above-ground access console, acquiring locker information of each locker in the underground access locker platform, performing comparative analysis on the received client information and the acquired locker information, sending an instruction for controlling the action of the electric control driving mechanism corresponding to the corresponding locker to the underground access locker platform according to the comparative analysis result, and controlling the corresponding locker to return to the ground or convey to the ground through the corresponding conveying track; when a user stores articles and the electric control driving mechanism stops driving, the cloud computing server is also used for sending a control instruction for controlling to open the electronic lock of the current corresponding locker to the underground storage locker platform; the locker information comprises identification information, geographical position information and use state information of the locker;

the sizes of the inner cavities of the storage cabinets are not completely equal, the information of the articles to be stored comprises the size information of the articles to be stored, and the information of the storage cabinets comprises the size information of the inner cavities of the storage cabinets;

the contrastive analysis of the received customer information and the acquired locker information comprises contrastive analysis of the received size information of the articles to be stored and the size information of the inner cavity of each locker of the underground storage locker platform;

the ground access console is provided with scanning equipment for scanning the outline of the article to be stored, and the ground access console calculates the size information of the article to be stored at present based on the scanning information of the scanning equipment;

the using state information comprises a used state and an idle state;

the system is characterized in that the system sends an instruction for controlling the action of the electric control driving mechanism corresponding to the corresponding storage cabinet to the underground storage and retrieval storage cabinet platform, and the corresponding result of the comparative analysis comprises the following steps: the current using state information of the specific locker is in an idle state, the size of the current articles to be stored is smaller than or equal to the size of the inner cavity of the specific locker, and the size of the inner cavity of the specific locker is closest to the size of the current articles to be stored.

2. The cloud-computing-based locker system of claim 1, wherein the identification information of the locker is a locker number.

3. The cloud-computing-based locker system of claim 1, wherein when the user stores an article, the cloud computing server is further configured to generate a pickup code and record a storage time of the article after the electrically controlled driving mechanism stops the driving operation, and to transmit the currently generated pickup code and the recorded storage time of the article together with identification information of the locker for storing the article to the ground access console for display.

4. The cloud-computing-based locker system of claim 3, wherein the customer identification information is a user mobile phone number.

5. The cloud-computing-based locker system of claim 4, wherein the cloud computing server is further configured to send the currently generated pick-up code, the currently recorded storage time of the items, and identification information and geographical location information of the locker for storing the current items to the user mobile phone corresponding to the current customer identification information.