CN110491016B - Shopping cart management system, method, device and readable storage medium - Google Patents

Abstract

The invention relates to the field of intelligent retail and discloses a shopping cart management system, which comprises a shopping cart body, an intelligent electronic lock and a background server, wherein the intelligent electronic lock is connected with the shopping cart body; the intelligent electronic lock is arranged on the shopping cart body and is in wireless connection with the background server; the intelligent electronic lock is provided with an electromagnetic induction area, and after the intelligent electronic lock receives an electromagnetic induction switch trigger instruction generated by induction of the electromagnetic induction area by the magnet equipment, the intelligent electronic lock generates mark information based on the trigger instruction and sends the mark information to the background server; the background server generates prompt information based on the mark information and then sends the prompt information to the corresponding unlocking terminal. The invention also discloses a shopping cart management method, device and readable storage medium. The management system of the shopping cart is simple and reliable, the operation cost of the shopping cart is greatly saved, the staff in the shopping mall can find, namely mark, the shopping cart which is not returned in place can not be missed, and the management system automatically reminds the customer that the record is not returned, so that the manpower communication cost is effectively saved.

Description

Shopping cart management system, method, device and readable storage medium

Technical Field

The invention relates to the technical field of intelligent retail, in particular to a management system, method, equipment and readable storage medium of shopping carts in retail industry.

Background

In each large store, shopping carts are available for customers, store staff can patrol on site, and after the customers who do not return to the proper position after using the shopping carts with the electronic locks (the electronic locks are not locked), the customers are reminded and urged to return the shopping carts to the proper position on the surface.

Obviously, the mode that the store staff urged the customer to return the shopping cart is time-consuming and laborious, greatly increases the operation maintenance cost of the electronic lock shopping cart, and can neglect the part of customers who do not return the electronic lock shopping cart, and more serious, because of communication inadequacy, the staff can possibly collide with the customers.

Disclosure of Invention

The invention mainly aims to provide a shopping cart management system, a shopping cart management method, a shopping cart management device and a shopping cart readable storage medium, and aims to solve the problem that in the prior art, after a customer uses a shopping cart in a shopping mall, the customer cannot be in place and is inconvenient to manage.

In order to achieve the above purpose, the invention provides a shopping cart management system, which comprises a shopping cart body, an intelligent electronic lock and a background server; the intelligent electronic lock is arranged on the shopping cart body and is in wireless connection with the background server;

the intelligent electronic lock is provided with an electromagnetic induction area, after the intelligent electronic lock receives an electromagnetic induction switch trigger instruction generated by induction of the electromagnetic induction area by the magnet equipment, the intelligent electronic lock generates mark information based on the trigger instruction, and the intelligent electronic lock sends the mark information to a background server; the background server generates prompt information based on the marking information after receiving the marking information; and the background server sends the prompt information to the corresponding unlocking terminal.

Optionally, a designated car returning area in the sales space is fixedly connected with one end of a first lock chain, and the other end of the first lock chain is mechanically connected with a first lock catch; the intelligent electronic lock is further provided with an electronic lock body, a second lock chain and a second lock catch, wherein the electronic lock body is fixedly connected with one end of the second lock chain, and the other end of the second lock chain is mechanically connected with the second lock catch;

the first lock catch is inserted into a lock groove of the electronic lock body lock to lock the shopping cart body;

after the first lock catch locks one shopping cart body, the second lock catch of the locked shopping cart body is inserted into a locking groove of the shopping cart to be locked so as to lock the shopping cart body to be locked.

Optionally, the shopping cart management system further comprises an internet of things, the intelligent electronic lock is further provided with a processing unit and an electromagnetic induction switch corresponding to the electromagnetic induction area, the electromagnetic induction switch is electrically connected with the input end of the processing unit, and the output end of the processing unit is wirelessly connected with the background server through the internet of things;

when the magnet device is close to the electromagnetic induction area, the electromagnetic induction switch is triggered, and after the processing unit detects a trigger instruction generated by triggering the electromagnetic induction switch, the processing unit generates marking information based on the trigger instruction.

Optionally, the electromagnetic induction switch is a hall switch or a magnetic reed switch.

Optionally, the intelligent electronic lock is further provided with a two-dimensional code area.

In addition, in order to achieve the above object, the present invention also provides a shopping cart management method, which is applied to the shopping cart management system as described above, and includes the following steps:

after the intelligent electronic lock receives an electromagnetic induction switch trigger instruction generated by induction of the electromagnetic induction area by the magnet equipment, the intelligent electronic lock generates mark information based on the trigger instruction;

the intelligent electronic lock sends the marking information to a background server;

the background server generates prompt information based on the marking information after receiving the marking information;

and the background server sends the prompt information to the corresponding unlocking terminal.

Optionally, after the step of generating the prompt information based on the tag information after receiving the tag information, the method for managing the shopping cart includes:

the background server acquires unlocking records based on the marking information;

the background server acquires an unlocking terminal corresponding to the unlocking record based on the unlocking record;

and the background server sends the prompt information to the unlocking terminal.

Optionally, after the step of sending the prompt message to the unlocking terminal by the background server, the shopping cart management method includes:

the mobile terminal sends a corresponding unlocking request to a background server by scanning a two-dimensional code area on the electronic lock body;

after receiving the unlocking request, the background server judges whether the unlocking request meets preset conditions or not;

if yes, the background server sends an unlocking instruction to the intelligent electronic lock;

and after receiving the unlocking instruction, the intelligent electronic lock controls the electronic lock body of the intelligent electronic lock to execute unlocking operation.

In addition, to achieve the above object, the present invention also provides a management apparatus for a shopping cart, the management apparatus for a shopping cart including: the shopping cart management system comprises a memory, a processor and a shopping cart management program stored in the memory and capable of running on the processor, wherein the shopping cart management program realizes the steps of the shopping cart management method when being executed by the processor.

In addition, in order to achieve the above object, the present invention also provides a readable storage medium having stored thereon a management program of shopping carts, which when executed by a processor, implements the steps of the shopping cart management method as described above.

According to the management system for the shopping cart, when a shop staff finds that the shopping cart is not returned in place, namely, the shop staff finds that the shopping cart is not placed in a designated returning area of a shop, the shop staff can use specific magnet equipment to be close to an electromagnetic induction area on an intelligent electronic lock, so that an electromagnetic induction switch in the intelligent electronic lock is triggered, marking information is generated, the shopping cart is marked as the unreturned shopping cart, the marking information is uploaded to a background server, the background server generates prompt information, and the prompt information is sent to an unlocking terminal corresponding to the unreturned shopping cart, so that customers corresponding to the unlocking terminal can know that the shopping cart is not returned in place after the shop staff uses the shopping cart, labor cost for actively communicating by the shop staff is saved, and conflict situations caused by improper communication are avoided. The management system of the shopping cart is simple and reliable, the operation cost of the shopping cart is greatly saved, the staff in the shopping mall can find, namely mark, the shopping cart which is not returned in place can not be missed, and the management system automatically reminds the customer that the record is not returned, so that the manpower communication cost is effectively saved.

Drawings

FIG. 1 is a schematic diagram of a device architecture of a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a flow chart of a first embodiment of a shopping cart management system of the present invention;

FIG. 3 is a schematic view of the shopping cart body of the present invention;

FIG. 4 is an enlarged view of a portion of the shopping cart body of the present invention;

FIG. 5 is a schematic diagram of a plurality of shopping cart bodies locked in a designated area according to the present invention;

FIG. 6 is a flowchart of a first embodiment of a shopping cart management method according to the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1, fig. 1 is a schematic device structure of a hardware running environment according to an embodiment of the present invention.

The management device of the shopping cart can be a PC or a server device.

As shown in fig. 1, the management device of the shopping cart may include: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. Wherein the communication bus 1002 is used to enable connected communication between these components. The user interface 1003 may include a Display, an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may further include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a stable memory (non-volatile memory), such as a disk memory. The memory 1005 may also optionally be a storage device separate from the processor 1001 described above.

It will be appreciated by those skilled in the art that the device structure shown in fig. 1 is not limiting of the device and may include more or fewer components than shown, or may combine certain components, or a different arrangement of components.

As shown in FIG. 1, a memory 1005, which is a computer readable storage medium, may include an operating system, a network communication module, a user interface module, and a shopping cart management program.

In the device shown in fig. 1, the network interface 1004 is mainly used for connecting to a background server, and performing data communication with the background server; the user interface 1003 is mainly used for connecting a client and communicating data with the client; and the processor 1001 may be used to invoke a management program of the shopping cart stored in the memory 1005 and perform operations in various embodiments of the shopping cart management method described below.

Based on the above hardware structure, the embodiment of the management system of the shopping cart is provided.

Referring to fig. 2-4, fig. 2 is a flow chart of a first embodiment of a management system of the shopping cart of the present invention, and fig. 3 is a structural diagram of a shopping cart body of the present invention; FIG. 4 is an enlarged view of a portion of the shopping cart body of the present invention; the shopping cart management system comprises: shopping cart body 10, intelligent electronic lock 20, and background server 30; the intelligent electronic lock 20 is arranged on the shopping cart body 10, and the intelligent electronic lock 20 is in wireless connection with the background server 30;

the intelligent electronic lock 20 is provided with an electromagnetic induction area 40, after the intelligent electronic lock 20 receives an electromagnetic induction switch trigger instruction generated by induction of the electromagnetic induction area 40 by the magnet equipment, the intelligent electronic lock 20 generates mark information based on the trigger instruction, and the intelligent electronic lock 20 sends the mark information to the background server 30; the background server 30 generates prompt information based on the mark information after receiving the mark information; the background server 30 transmits the prompt information to the corresponding unlocking terminal.

The electromagnetic induction area 40 of this case sets up on the shell of intelligent electronic lock 20, and the inside of intelligent electronic lock 20 corresponds with electromagnetic induction area 40 and is equipped with electromagnetic induction switch 41, of course, electromagnetic induction area 40 can set up the optional position on intelligent electronic lock 20, and electromagnetic induction area 40 mainly marks the shopping cart that does not return in place for the staff of market, and the staff of market sees scattered unmanned shopping cart at the market promptly, all can mark. And, after the worker can transfer the shopping cart body 10 which is not returned in place to the designated return area of the store, the worker can lock the shopping cart body 10 in the designated return area.

The shopping cart body 10 is an electronic lock shopping cart and is arranged in various shopping malls, such as a supermarket and other shopping malls, in the prior art, the shopping cart is usually directly placed in a designated shopping area of the shopping mall, a customer usually goes to the designated shopping area to take the shopping cart when going to the shopping mall, however, in the prior art, after the shopping cart is used up, many customers cannot put the shopping cart back in the designated shopping area, therefore, the shopping carts which are not put in place usually depend on the special staff of the shopping mall to put in place, and the staff usually needs to actively communicate before seeing the customer to throw away the shopping cart, so that the problem of unsmooth communication often exists.

The intelligent electronic lock 20 is further provided with the internet of things 31 between the intelligent electronic lock 20 and the background server 30, the intelligent electronic lock 20 is connected with the internet of things 31 through wireless communication, after the intelligent electronic lock 20 generates the marking information based on the triggering instruction, the marking information can be sent to the internet of things through a gateway, the marking information can be uploaded to the background server 30 through the internet of things, namely the application server, and the background server 30 sends prompt information to a corresponding unlocking terminal, namely the mobile terminal of a customer who does not return to place by using the shopping cart.

According to the management system for the shopping cart, when a shop staff finds that the shopping cart is not put in place in the appointed cart returning area of the shop, the shop staff can use specific magnet equipment to be close to the electromagnetic induction area 40 on the intelligent electronic lock 20, so that the electromagnetic induction switch 41 in the intelligent electronic lock 20 is triggered, marking information is generated, the shopping cart is marked as the unreturned shopping cart, the marking information is uploaded to the background server 30, the background server 30 generates prompt information, the prompt information is sent to the unlocking terminal corresponding to the unreturned shopping cart, customers corresponding to the unlocking terminal can know that the shopping cart is not returned in place after the shop staff uses the shopping cart, labor cost of active communication of the shop staff is saved, and the conflict situation caused by improper communication is avoided. The management system of the shopping cart is simple and reliable, the operation cost of the shopping cart is greatly saved, the staff in the shopping mall can find, namely mark, the shopping cart which is not returned in place can not be missed, and the management system automatically reminds the customer that the record is not returned, so that the manpower communication cost is effectively saved.

Further, the designated car returning area in the sales space is fixedly connected with one end of the first lock chain 70a, and the other end of the first lock chain 70a is mechanically connected with the first lock catch 71a; the intelligent electronic lock 20 is further provided with an electronic lock body (not shown), a second lock chain 70b and a second lock catch 71b, wherein the electronic lock body is fixedly connected with one end of the second lock chain 70b, and the other end of the second lock chain 70b is mechanically connected with the second lock catch 71 b; the mechanical connection can be fixed locking or detachable connection;

the first shackle 71a is inserted into the locking groove 60 of the electronic lock body to lock the shopping cart body 10; after the first locker 71a locks one shopping cart body, the second locker 71c of the locked shopping cart body is inserted into the locking groove 60a of the shopping cart to be locked, so as to lock the shopping cart body to be locked.

In this embodiment, the wall or the fixing device of the designated returning area is inserted into the locking groove 60 of any shopping cart body 10 through the first lock catch 71a, so that the electronic lock body of the shopping cart body 10 can be locked, and the locking of any shopping cart body 10 in the designated area is realized. When a plurality of shopping cart bodies are to be locked, as shown in fig. 5, when the first shopping cart body 10 is locked, the first locker 70a is inserted into the locking groove 60b of the first shopping cart body 10 and is locked by the electronic lock body of the first shopping cart body 10; when the second shopping cart body 10 is locked, the first lock catch 71b of the first shopping cart body is inserted into the locking groove 60c of the second shopping cart body 10 and is locked by the electronic lock body of the second shopping cart body 10; similarly, multiple shopping cart bodies may be locked to a designated return area.

Further, the shopping cart management system further comprises an internet of things 31, the intelligent electronic lock 20 is further provided with a processing unit 50 and an electromagnetic induction switch 41 corresponding to the electromagnetic induction area 40, the electromagnetic induction switch 41 is electrically connected with the input end of the processing unit 50, and the output end of the processing unit 50 is wirelessly connected with the background server 30 through the internet of things 31;

when the magnet device is close to the electromagnetic induction area 40, the electromagnetic induction switch 41 is triggered, and after the processing unit 50 detects a trigger instruction generated by triggering the electromagnetic induction switch 41, the processing unit 50 generates the mark information based on the trigger instruction.

Further, the electromagnetic induction switch 41 is a hall switch or a reed switch.

In this embodiment, the processing unit 50 is configured to obtain a trigger instruction generated by triggering the electromagnetic induction switch 41, so that the processing unit 50 uploads the marking information to the background server 30, so that the background server 30 can know that the shopping cart body 10 is a non-returned shopping cart.

The electromagnetic induction switch 41 is a hall switch or a reed switch, for example, in which when a metal or semiconductor sheet to which a current is applied is vertically placed in a magnetic field, a potential difference is generated between both ends of the sheet, and this phenomenon is called a hall effect. The difference in potential at both ends is referred to as hall potential U, and the expression thereof is u=kk·i·b/d. Wherein K is a Hall coefficient, I is a current passing through the sheet, B is a magnetic induction intensity of an external magnetic field (Lorentz force), and d is a thickness of the sheet.

It can be seen that the sensitivity of the hall effect is proportional to the magnetic induction intensity of the externally applied magnetic field. The Hall switch is based on Hall effect principle and is made up by using integrated packaging and assembling process, and can conveniently convert magnetic input signal into electric signal in practical application, at the same time it possesses the requirements of easy operation and reliability for practical application in industrial occasion.

The input end of the Hall switch is characterized by magnetic induction intensity B, when the B value reaches a certain degree (such as B1), a trigger inside the Hall switch turns over, and the output level state of the Hall switch also turns over. The output end is generally output by a transistor, and the proximity switch is similar to NPN, PNP, normally open type, normally closed type, latch type (bipolar) and double-signal output.

Reed switches (Reed switches), also known as Reed switches, are an electrical Switch that is operated by an applied magnetic field. The operating principle of the magnetic reed switch is very simple, two overlapped magnetizable reeds (usually composed of two metals of iron and nickel) at the two ends are sealed in a glass tube, the two reeds are overlapped and are separated by a small gap (only about a few microns), the contacts on the two reeds are plated with very hard metals, usually rhodium and ruthenium, and the hard metals greatly improve the switching times and the service life of products. The glass tube is filled with high purity inert gas (such as nitrogen), and the inside of the reed switch is further made into a vacuum state in order to improve the high-voltage performance of the reed switch.

The reed acts as a magnetic flux conductor, and when the reed is not operated, the two reeds are not contacted; when the magnetic field generated by the permanent magnet or the electromagnetic coil is applied, the magnetic field causes the two leaf springs to generate different polarities near the end points, and when the magnetic force exceeds the elasticity of the spring, the two leaf springs can attract and conduct a circuit; when the magnetic field is reduced or eliminated, the dry reed is released due to its elasticity, and the contact surfaces are separated to open the circuit.

The electromagnetic induction switch 41 is not limited to a hall switch or a magnetic reed switch, but may be any other type of electromagnetic induction switch, and as long as the unlocking trigger command can be sent to the processing unit 50, the electromagnetic induction switch is simply deformed and changed, and falls within the scope of protection in the present disclosure.

In this case, when a specific magnet device is close to the electromagnetic induction area 40, the electromagnetic induction switch 41 is triggered, so that the processing unit 50 generates a trigger instruction.

The electromagnetic induction switch 41 is simple and easy to realize, so that a sales office worker can find, namely mark, and cannot miss the shopping cart body 10 which is not returned in place.

Further, the intelligent electronic lock 20 is further provided with a two-dimensional code area 80.

In this embodiment, when a customer arrives at a shopping cart, if the customer needs to shop on the shopping cart body 10, a mobile terminal such as a smart phone is used to open a WeChat or other APP, scan the two-dimensional code area 80 on the electronic lock of the shopping cart, load the unlocking applet, click the unlocking button, and issue an unlocking instruction. After the shopping cart electronic lock receives an unlocking instruction through wireless communication, an electronic device in the electronic lock body drives a mechanical device to unlock, namely, an internal motor of the electronic lock body rotates to unlock, so that the lock catch 71b is unlocked, an execution result is fed back, and unlocking of a user is completed.

Of course, the customer's usage record is uploaded to the background server 30.

The customer needs intelligent terminal to unblank and just can acquire shopping cart body 10, and the record of taking a car can upload to background server 30, make the background staff can learn that concrete customer uses a certain shopping cart body 10 in a certain period, and, if this customer does not return this shopping cart body 10 in place, upload mark information to background server 30, make background server 30 can store and record this mark information, so that this customer can acquire the record of taking a car in the past when using the shopping cart body 10 of this market next time, including the bad record that does not return in place, effectively urge the customer to return shopping cart body 10 in place, avoid too much human intervention of staff.

The invention also provides a shopping cart management method, which is applied to the shopping cart management system, referring to fig. 6, and comprises the following steps:

step S10, after an intelligent electronic lock receives an electromagnetic induction switch trigger instruction generated by induction of a magnet device in an electromagnetic induction area, the intelligent electronic lock generates mark information based on the trigger instruction;

in this embodiment, when a staff in a sales space finds a shopping cart body that is not returned in place, the staff uses a specific magnet device to be close to an electromagnetic induction area on the intelligent electronic lock, so that the electromagnetic induction switch is triggered, a trigger instruction is generated, and the intelligent electronic lock generates mark information.

The electromagnetic induction switch can be a Hall switch or a magnetic reed switch, and is simple and easy to realize in an electromagnetic induction switch mode, so that a store staff can find, namely mark, and cannot miss shopping cart bodies which are not returned in place.

Step S20, the intelligent electronic lock sends the marking information to a background server;

in the step, the intelligent electronic lock is connected with the background server through wireless communication and the Internet of things, after the intelligent electronic lock generates the marking information based on the triggering instruction, the marking information can be sent to the Internet of things through a gateway, and then the marking information is uploaded to the background server, namely the application server through the Internet of things, so that the background server can store, record or perform other processing on the marking information.

Step S30, after receiving the marking information, the background server generates prompt information based on the marking information;

in the step, after the background server receives the marking information, prompt information is generated based on the marking information. Because the marking information indicates the bad behavior that the customer uses up the shopping cart body but does not return to the proper position, in order to standardize the customer's vehicle, the generating a prompt message may include: the time of the vehicle, the unreturned in-place record and the unreturned in-place times, wherein the unreturned in-place record is generated according to the marking information.

And step S40, the background server sends the prompt information to the corresponding unlocking terminal.

In the step, after the background server obtains the prompt information, the prompt information is sent to a corresponding unlocking terminal, namely, the unlocking terminal corresponding to the unreturned shopping cart body, and the unlocking terminal generates unlocking records when a customer performs unlocking by adopting a mobile terminal to perform code scanning operation during vehicle taking, and the unlocking records can be recorded in the background server, so that the background server finds the corresponding mobile terminal according to the unlocking records, and can directly remind the customer of the unreturned records in the applet.

According to the management method for the shopping cart, when a shop staff finds that the shopping cart is not returned in place, namely, the shop staff finds that the shopping cart is not placed in the appointed returning area of the shop, the shop staff can use specific magnet equipment to be close to the electromagnetic induction area on the intelligent electronic lock, so that the electromagnetic induction switch in the intelligent electronic lock is triggered, marking information is generated, the shopping cart is marked as the unreturned shopping cart, the marking information is uploaded to a background server, the background server generates prompt information, and the prompt information is sent to an unlocking terminal corresponding to the unreturned shopping cart, so that customers corresponding to the unlocking terminal can know that the shopping cart is not returned in place after the shop staff uses the shopping cart, labor cost for actively communicating is saved, and conflict situations caused by improper communication are avoided. The management system of the shopping cart is simple and reliable, the operation cost of the shopping cart is greatly saved, the staff in the shopping mall can find, namely mark, the shopping cart which is not returned in place can not be missed, and the management system automatically reminds the customer that the record is not returned, so that the manpower communication cost is effectively saved.

Further, step S40 includes:

the background server acquires unlocking records based on the marking information;

the background server acquires an unlocking terminal corresponding to the unlocking record based on the unlocking record;

and the background server sends the prompt information to the unlocking terminal.

In this embodiment, the step of sending the prompt information to the corresponding unlocking terminal by the background server specifically includes: the background server acquires unlocking records based on the marking information; the background server acquires an unlocking terminal corresponding to the unlocking record based on the unlocking record; and the background server sends the prompt information to the unlocking terminal.

When a customer takes a car, a mobile terminal such as a smart phone is used for opening a WeChat or other APP, scanning a two-dimensional code area on an electronic lock of the shopping cart, loading an unlocking applet, clicking an unlocking button, and sending an unlocking instruction. After the shopping cart electronic lock receives an unlocking instruction through wireless communication, an electronic device in the electronic lock body drives a mechanical device to unlock, namely, an internal motor of the electronic lock body rotates to unlock, so that the lock catch 71b is unlocked, an execution result is fed back, and unlocking of a user is completed.

The prompt information is sent to the unlocking terminal, and can be informed through a small program or authorize the WeChat when the vehicle is fetched, so as to obtain the registration number of the WeChat of the unlocking terminal, and send a short message to inform the customer.

Through sending prompt message to the terminal of unblanking for the customer that the terminal of unblanking corresponds can learn oneself after using the shopping cart body, does not return the bad record that the shopping cart body put in place, effectively reminds the customer to put the shopping cart according to the store regulation, avoids the shopping cart to be disordered, and inform the customer through this mode, saves the manpower communication cost, stops to communicate improperly and the circumstances that conflict.

Further, after step S40, the shopping cart management method may include:

the mobile terminal sends a corresponding unlocking request to a background server by scanning a two-dimensional code on the electronic lock body;

after receiving the unlocking request, the background server judges whether the unlocking request meets preset conditions or not;

if yes, the background server sends an unlocking instruction to the intelligent electronic lock;

and after receiving the unlocking instruction, the intelligent electronic lock controls the electronic lock body of the intelligent electronic lock to execute unlocking operation.

In this embodiment, when a customer enters a store, the shopping cart body needs to be used, a mobile terminal such as a smart phone is used to open a WeChat or other APP, a two-dimensional code area on an electronic lock of the shopping cart is scanned, an unlocking applet is loaded, and then an unlocking button is clicked to send an unlocking request, so that the unlocking request is sent to a background server. At this time, the background server judges whether the unlocking request accords with preset conditions, and the preset conditions may be that the record of not returning in place is less than or equal to 3 times, that is, the record of using the shopping cart body by the customer is good, the customer can agree to continue to use the shopping cart body, and when the unlocking request accords with the preset conditions, the background server sends an unlocking instruction to the intelligent electronic lock, so that the intelligent electronic lock controls the electronic lock body of the intelligent electronic lock to execute unlocking operation after receiving the unlocking instruction, that is, the motor inside the electronic lock body rotates to unlock, thereby releasing the lock catch 71b, feeding back an execution result and completing unlocking of the customer.

Of course, if the unlocking request of the customer does not meet the preset condition, for example, the preset condition is that the unreturned record is 3 times, the unlocking request of the customer shows that the unreturned record of the customer is more than 3 times, for example, 5 times, it is obvious that the use record of the customer is not good enough, and the use of the shopping cart by the customer can be limited.

It should be noted that, after finding that the shopping cart is restricted to be used, the customer may go to search for a staff of the shopping mall to conduct a discussion, and the staff of the shopping mall may operate on the background server, for example, modify the user authority corresponding to the customer, so as to allow the customer to use the shopping cart again.

Through setting up the condition of predetermineeing, effectively reach alert customer's standardization and use the car action to reach the purpose that the customer was urged to cultivate good car habit.

The invention also provides a computer readable storage medium.

The computer readable storage medium of the present invention stores thereon a management program of shopping carts, which when executed by a processor implements the steps of the shopping cart management method as described above.

The method implemented when the management program of the shopping cart running on the processor is executed may refer to various embodiments of the management method of the shopping cart of the present invention, which are not described herein again.

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

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a readable storage medium (e.g. ROM/RAM, magnetic disk, optical disk) as described above, comprising several instructions for causing a management device (which may be a cell phone, a computer, a server, an air conditioner, or a network device, etc.) of a shopping cart to perform the method according to the embodiments of the present invention.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims (9)

1. The shopping cart management system is characterized by comprising a shopping cart body, an intelligent electronic lock and a background server; the intelligent electronic lock is arranged on the shopping cart body and is in wireless connection with the background server;

the intelligent electronic lock is provided with an electromagnetic induction area, after a sales place worker approaches a magnet device to the electromagnetic induction area and the intelligent electronic lock receives an electromagnetic induction switch trigger instruction generated by induction of the electromagnetic induction area by the magnet device, the intelligent electronic lock generates mark information based on the trigger instruction, and the intelligent electronic lock sends the mark information to a background server; the background server generates prompt information based on the marking information after receiving the marking information; the background server sends the prompt information to a corresponding unlocking terminal; the customers corresponding to the unlocking terminals return the shopping carts to a designated returning area according to the prompt information; the shopping cart is a shopping cart in which the customer does not return to a designated return area;

the intelligent electronic lock is further provided with a processing unit and an electromagnetic induction switch corresponding to the electromagnetic induction area, the electromagnetic induction switch is electrically connected with the input end of the processing unit, and the output end of the processing unit is wirelessly connected with the background server through the Internet of things;

when the magnet device is close to the electromagnetic induction area, the electromagnetic induction switch is triggered, and after the processing unit detects a trigger instruction generated by triggering the electromagnetic induction switch, the processing unit generates marking information based on the trigger instruction.

2. The shopping cart management system of claim 1 wherein a designated return area within the store is fixedly connected to one end of a first chain and the other end of the first chain is mechanically connected to a first shackle; the intelligent electronic lock is further provided with an electronic lock body, a second lock chain and a second lock catch, wherein the electronic lock body is fixedly connected with one end of the second lock chain, and the other end of the second lock chain is mechanically connected with the second lock catch;

the first lock catch is inserted into a lock groove of the electronic lock body lock to lock the shopping cart body;

after the first lock catch locks one shopping cart body, the second lock catch of the locked shopping cart body is inserted into a locking groove of the shopping cart to be locked so as to lock the shopping cart body to be locked.

3. The shopping cart management system of claim 1 wherein the electromagnetic induction switch is a hall switch or a reed switch.

4. A shopping cart management system as claimed in any one of claims 1 to 3, wherein the intelligent electronic lock is further provided with a two-dimensional code area.

5. A method for managing a shopping cart, wherein the method for managing a shopping cart is applied to the system for managing a shopping cart according to claims 1 to 4, and comprises the steps of:

after a store staff approaches a magnet device to an electromagnetic induction area and an intelligent electronic lock receives an electromagnetic induction switch trigger instruction generated by induction of the magnet device in the electromagnetic induction area, the intelligent electronic lock generates mark information based on the trigger instruction;

the intelligent electronic lock sends the marking information to a background server;

the background server generates prompt information based on the marking information after receiving the marking information;

the background server sends the prompt information to a corresponding unlocking terminal; the customers corresponding to the unlocking terminals return the shopping carts to a designated returning area according to the prompt information; the shopping cart is a shopping cart in which the customer does not return to a designated return area;

after the staff in the sales space approaches the magnet device to the electromagnetic induction area and the intelligent electronic lock receives the electromagnetic induction switch trigger instruction generated by the induction of the magnet device, the intelligent electronic lock generates mark information based on the trigger instruction, and the intelligent electronic lock comprises:

triggering the electromagnetic induction switch when the magnet equipment is close to the electromagnetic induction area;

and after the processing unit detects a trigger instruction generated by triggering the electromagnetic induction switch, generating mark information based on the trigger instruction by using the processing unit.

6. The shopping cart management method as claimed in claim 5, wherein the step of the background server transmitting the prompt message to the corresponding unlocking terminal includes:

the background server acquires unlocking records based on the marking information;

the background server acquires an unlocking terminal corresponding to the unlocking record based on the unlocking record;

and the background server sends the prompt information to the unlocking terminal.

7. The shopping cart management method as claimed in claim 6, wherein after the step of the background server transmitting the prompt message to the unlocking terminal, the shopping cart management method includes:

the mobile terminal sends a corresponding unlocking request to a background server by scanning a two-dimensional code area on the electronic lock body;

after receiving the unlocking request, the background server judges whether the unlocking request meets preset conditions or not;

if yes, the background server sends an unlocking instruction to the intelligent electronic lock;

and after receiving the unlocking instruction, the intelligent electronic lock controls the electronic lock body of the intelligent electronic lock to execute unlocking operation.

8. A shopping cart management device, the shopping cart management device comprising: memory, a processor and a management program of a shopping cart stored on the memory and executable on the processor, which when executed by the processor, implements the steps of the method of managing a shopping cart as claimed in any one of claims 5 to 7.

9. A readable storage medium, wherein a management program of a shopping cart is stored on the readable storage medium, and the management program of the shopping cart, when executed by a processor, implements the steps of the shopping cart management method according to any one of claims 5 to 7.

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