Disclosure of Invention
The invention aims to solve the technical problem of how to reduce transportation time and transportation cost consumed by turnover of goods frames, and therefore, the storage device sharing system based on the two-dimensional code is provided.
The technical scheme for solving the technical problems is as follows: a storage device sharing system based on two-dimensional codes comprises: the system comprises a storage device, a storage base station, a cloud server, a mobile terminal and a monitoring device;
the storage base station comprises an accommodating cabinet, electronic doors and electronic locks, a control panel and a plurality of accommodating groove bodies are arranged on the accommodating cabinet, the accommodating groove bodies are uniformly distributed on the accommodating cabinet, the electronic doors are correspondingly installed at the notches of any one of the accommodating groove bodies, the electronic locks are correspondingly installed on any one of the electronic doors, and the electronic locks are used for controlling the electronic doors to open and close;
the storage device is provided with a plurality of storage devices, each storage device is placed in the accommodating groove body, and two-dimensional codes and positioning modules are arranged on the storage devices;
the monitoring device comprises an infrared camera and a gravity sensor, and the infrared camera is arranged on any one of the side walls of the accommodating groove body. The gravity sensor is arranged at the bottom of any accommodating groove body;
the control panel comprises a display screen, a borrowing module and a returning module, and the control panel is respectively in communication connection with the monitoring device and the electronic lock;
the cloud server is in communication connection with the control panel;
the cloud server is in communication connection with the mobile terminal.
In one embodiment, the cloud server comprises:
the data module is used for constructing the two-dimension code information of the storage base station, the accommodating groove body of the storage base station and the storage device into a database;
the order acquisition module is used for acquiring a rent order or a return order of a user in the mobile terminal of the two-dimensional code based storage device sharing system;
the distribution ordering module is used for distributing the specified accommodating groove body in the specified storage base station to the user according to the rent order or the return order and informing the user of order confirmation;
and the payment calculation module is used for calculating the use fee according to the time length between the rented order and the returned order.
In one embodiment, the cloud server further includes a purchasing module, the purchasing module compares the user order cost in the payment calculation module with the value information of the storage device, and informs the user of obtaining the permanent right to use the storage device if the user order cost is the same as the value of the storage device.
In one embodiment, when the user order cost in the payment calculation module is compared with the value information of the storage devices, if the user order cost includes lease costs of a plurality of storage devices, the user order cost is compared with the values of the plurality of storage devices.
In one embodiment, the borrowing module displays the two-dimensional code on the storage device on the display screen, and a user scans the code through the mobile terminal to establish leasing order information.
In an embodiment, after the user scans a code through the mobile terminal to establish order information, the cloud server obtains rental order information, then transmits the information of the accommodating groove body specified by the user to the borrowing module and informs the borrowing module of order confirmation, after the user confirms the order, the borrowing module controls the electronic lock to open the electronic door on the accommodating groove body specified by the user, and the user obtains the storage device in the specified accommodating groove body.
In one embodiment, the control panel is further provided with a two-dimensional code scanner, the two-dimensional code scanner is used for identifying the two-dimensional code information of the storage device returned by the user, the mobile terminal establishes a return order, the cloud server distributes the appointed storage tank body information to the return module after acquiring the return order information, the return module controls the electronic lock to open the electronic door of the storage tank body appointed by the cloud server, and the user places the returned storage device into the appointed storage tank body and closes the electronic door of the storage tank body to finish the return order.
In one embodiment, when the user puts the returned storage device into the designated accommodating groove body, the infrared camera takes a picture of the returned storage device, and the gravity sensor detects whether the weight of the returned storage device is within a reasonable range.
In one embodiment, the positioning module is a global positioning system or a beidou positioning system.
In one embodiment, the storage device is collapsible.
The invention has the beneficial effects that: according to the storage device sharing system based on the two-dimensional code, the storage devices are stored in the storage base station, so that the storage devices can be obtained at the storage base station, the storage base station is arranged at a plurality of places, and the storage devices can be obtained or returned at the target place as long as the storage base station exists at the target place, so that the storage devices do not need to be obtained from a far place before goods are carried, or the storage devices are returned to the far place with the storage devices after unloading, and therefore the transportation time and the transportation cost are reduced.
Detailed Description
To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.
As shown in fig. 1, in one embodiment, a two-dimensional code based storage device sharing system includes: the system comprises a storage device, a storage base station, a cloud server, a mobile terminal and a monitoring device; the storage base station comprises an accommodating cabinet 1000, electronic doors 3000 and electronic locks 3100, a control panel and a plurality of accommodating groove bodies 2000 are arranged on the accommodating cabinet 1000, the accommodating groove bodies 2000 are uniformly distributed on the accommodating cabinet 1000, the electronic doors 3000 are correspondingly installed at the notches of any one of the accommodating groove bodies 2000, the electronic locks 3100 are correspondingly installed on any one of the electronic doors 3000, and the electronic locks 3100 are used for controlling the electronic doors 3000 to be opened and closed; the number of the storage devices is multiple, each storage device is placed in the accommodating groove body 2000, and two-dimensional codes and positioning modules are arranged on the storage devices; the monitoring device comprises an infrared camera and a gravity sensor, and the infrared camera is arranged on any side wall of the accommodating groove body 2000. The gravity sensor is arranged at the bottom of any accommodating groove body 2000; the control panel comprises a display screen 4000, a borrowing module and a returning module, and is in communication connection with the monitoring device and the electronic lock 3100 respectively; the cloud server is in communication connection with the control panel; the cloud server is in communication connection with the mobile terminal.
In this embodiment, in the storage device sharing system based on two-dimensional code, the storage base station is multiple in number and is distributed at each freight concentration point in a city, the storage base station includes an accommodating cabinet 1000, an electronic door 3000 and an electronic lock 3100, the accommodating cabinet 1000 is composed of a plurality of accommodating tanks 2000 and the control panel, the accommodating tanks 2000 are uniformly distributed on the accommodating cabinet 1000, the two-dimensional code is arranged on each storage device, the two-dimensional code is used as identification information for borrowing or returning each storage device, further, the storage devices are further provided with the positioning module, the positioning module is in communication connection with the cloud server, the positioning module enables each storage device to be positioned individually, so that each storage device is not easy to lose and can be tracked to the position, each storage device place in the holding cell body 2000, electronic lock 3100 makes electronic door 3000 can blockade holding cell body 2000 makes holding cell body 2000 is in the enclosure space, each storage device can not be taken by the people wantonly, only through open electronic lock 3100's user just can acquire the storage device in the holding cell body 2000, control panel by display screen 4000, borrow the module and return the module and constitute, display screen 4000 sets up on holding cabinet 1000 for show borrow the module with return the relevant information on the module, relevant information is storage device's two-dimensional code and borrow or return storage device's operation process.
In this example, the positioning module is communicatively connected to the cloud server, so that the cloud server can acquire the position of each storage device, and manage each storage device conveniently, the mobile terminal is communicatively connected to the cloud server, so that the mobile terminal can check the position of each storage device, so that the user can check the position of each storage device at a nearby position or a target location on the mobile terminal, and the user can go to a location nearest to a goods pickup location to acquire the storage device to carry goods, or go to a location nearest to a goods pickup location to return the storage device, thereby reducing transportation cost and time cost of the user, and in order to improve positioning accuracy and ensure positioning communication stability, the positioning module is a global positioning system or a beidou positioning system, the global positioning system and the Beidou positioning system are the most widely used global positioning systems.
In this example, the cloud server is in communication connection with the control panel, and the control panel is in communication connection with the monitoring device and the electronic lock 3100, respectively, so that the cloud server can send a command to the control panel, and then can send a command to the electronic lock 3100 through the control panel, and then can control the electronic door 3000 to be opened or closed through the electronic lock 3100; the mobile terminal is in communication connection with the cloud server, so that the control panel and the electronic lock 3100 are controlled through the mobile terminal, a user can open or close the electronic door 3000 through the mobile terminal, and the user can conveniently borrow and return the storage device.
In an exemplary embodiment, the storage device sharing system based on the two-dimensional code enables the storage device to be obtained at the storage base station by storing the storage device in the storage base station, and the storage base station is arranged at a plurality of places, so that the storage device can be obtained or returned at a target place as long as the storage base station exists at the target place, and the storage device does not need to be obtained from a far place before goods are carried, or the storage device is returned to the far place with the storage device after the goods are unloaded, thereby reducing transportation time and transportation cost.
As shown in fig. 2 and 3, in order to save the space inside the receiving slot 2000 and to place the storage device as much as possible, in one embodiment, the storage device is foldable, and the storage device includes: the thickness difference compensation device comprises a square base 100, two thickness difference compensation blocks 400, two first side plates 200, two second side plates 300, a frame body 600 and a plurality of pivoting mechanisms 500, wherein the bottoms of the two first side plates 200 are respectively arranged on two opposite sides of the square base 100 through the pivoting mechanisms 500, the two thickness difference compensation blocks 400 are arranged on the other two opposite sides of the square base 100, and the height of each thickness difference compensation block 400 is 1-2 times of the thickness of each first side plate 200; specifically, the first side plate 200 and the second side plate 300 are stainless steel plates, the bottom of the first side plate 200 is connected to the square base 100 through the pivot mechanism 500, the first side plate 200 can rotate around the pivot rod of the pivot mechanism 500, the first side plate 200 can be rotatably placed on the square base 100 in a direction close to the square base 100, the height of the square base 100 is increased by the thickness difference compensation block 400, so that when the second side plate 300 rotates around the pivot mechanism 500 towards the square base 100, the second side plate 300 is not supported by the first side plate 200, and the second side plate 300 can be flatly placed, specifically, the height of the thickness difference compensation block 400 is 1-2 times of the thickness of the first side plate 200, so that the height of the first side plate 200 rotatably placed on the square base 100 does not exceed the thickness of the thickness difference compensation block 400, so that the second side plate 300 is not pried up when placed on the first side plate 200.
In this embodiment, when the height of the first side plate 200 is less than 1/2 of the length of the second side plate 300, and two opposite first side plates 200 are rotatably laid on the square base 100, the height of one first side plate 200 is increased on the square base 100, that is, when the height of the thickness difference compensation block 400 is 1 time of the thickness of the first side plate 200, the second side plate 300 arranged on the thickness difference compensation block 400 can be flatly laid on the first side plate 200 after being rotated; when the height of the first side plate 200 is greater than 1/2 of the length of the second side plate 300, and when two opposite first side plates 200 are laid on the square base 100 in a rotating manner, one of the first side plates 200 can be superposed on the other first side plate 200, the height of the two first side plates 200 can be increased on the square base 100, that is, when the height of the thickness difference compensation block 400 is 2 times of the thickness of the first side plate 200, the second side plate 300 arranged on the thickness difference compensation block 400 can be laid on the first side plate 200 in a flat manner after being rotated.
In this embodiment, the second side plate 300 includes a folding positive plate 310 and a folding negative plate 320, one side of the folding positive plate 310 is disposed on one side of the folding negative plate 320 through the pivot mechanism 500, the other side of the folding negative plate 320 far away from the folding positive plate 310 is disposed on the thickness difference compensation block 400 through the pivot mechanism 500, and the other side of the folding positive plate 310 far away from the folding negative plate 320 is connected to the frame 600 through the pivot mechanism 500. Specifically, the bottom of the folding negative plate 320 is connected to the thickness difference compensation block 400 through the pivot mechanism 500, the folding negative plate 320 can rotate in a direction close to the square base 100 and is placed on the first side plate 200, the folding positive plate 310 and the folding negative plate 320 are connected through the pivot mechanism 500, the folding positive plate 310 rotates in a direction opposite to the direction in which the folding negative plate 320 rotates, so that the folding positive plate 310 can rotate and is placed on the folding negative plate 320, and when the folding positive plate 310 is placed on the folding negative plate 320, the frame body 600 is pressed down and placed on the folding positive plate 310, so that the storage device can be folded under the function of protecting the safety of goods, the space occupation is reduced, and the carrying and the transportation are facilitated.
In order to better operate the two-dimensional code-based storage device sharing system, in one embodiment, the cloud server includes: the data module is used for constructing the two-dimension code information of the storage base station, the accommodating groove body 2000 of the storage base station and the storage device into a database; specifically, the data module collects and counts the position information of each storage base station, the information of the plurality of storage slots 2000 on the storage cabinet 1000 and the two-dimensional code information and the position information of the storage devices in the plurality of storage slots 2000 one by one to construct a database, so that the borrowing or returning condition of the storage devices in each storage base station can be monitored conveniently.
The order acquisition module is used for acquiring a rent order or a return order of a user in the mobile terminal of the two-dimensional code based storage device sharing system; specifically, after the user scans the code through the mobile terminal to establish order information, the order acquisition module acquires lease order information, or the user identifies returned two-dimensional code information of the storage device through the two-dimensional code scanner 4100, and after the mobile terminal establishes a return order, the order acquisition module returns the order information;
the distribution ordering module is used for distributing the specified accommodating groove body 2000 in the specified storage base station to the user according to the rent order or the return order and informing the user of order confirmation; specifically, when the storage device is rented, after a user scans a two-dimensional code of a storage device through the mobile terminal to establish a rented order, the distribution ordering module identifies that the storage device is in a certain accommodating groove body 2000 according to information on the rented order and a database of the data module, and informs the user of order confirmation, and after the user confirms the order, the distribution ordering module transmits the information, obtained through identification, of the storage device in the certain accommodating groove body 2000 to the control panel of the storage base station, so that a command can be sent to the electronic lock 3100 through the control panel, the electronic door 3000 can be controlled to be opened through the electronic lock 3100, and the user can obtain the storage device; when the storage device is returned, a user identifies the two-dimensional code information of the storage device returned by the user through the two-dimensional code scanner 4100, after the mobile terminal establishes a return order, the distribution ordering module rapidly identifies the position information of the vacant accommodating groove body 2000 according to the information on the return order and the database of the data module and informs the user of order confirmation, after the user confirms the order, the distribution ordering module transmits the position information of the vacant accommodating groove body 2000 to the control panel of the storage base station, and then the control panel can send a command to the electronic lock 3100, so that the electronic door 3000 can be controlled to be opened through the electronic lock 3100, and the user can return the storage device.
And the payment calculation module is used for calculating the use fee according to the time length between the rented order and the returned order. Specifically, after the user order is confirmed, the payment calculation module starts time-based charging, and the time-based charging mode may be charging according to different charging scenarios, which is not specifically limited herein.
In order to ensure the benefit of the user, in an embodiment, the cloud server further includes a purchasing module, the purchasing module compares the user order cost in the payment calculation module with the value information of the storage device, and if the user order cost is the same as the value of the storage device, the purchasing module informs the user of obtaining the permanent use right of the storage device.
In this embodiment, the purchasing module is provided with market price information of the storage device, when a user needs to use the storage device for a long time and the storage device is not returned, so that the rental fee is the same as the market price of the storage device, the payment calculating module stops timing and charging, the purchasing module notifies the mobile terminal of the user of transmitting relevant information to inform the user that the user has obtained the permanent use right of the storage device, and the storage device does not need to be returned. Further, when the user order cost in the payment calculation module is compared with the value information of the storage devices, if the user order cost includes the lease cost of the plurality of storage devices, the user order cost is compared with the value of the plurality of storage devices, and when the lease cost of the plurality of storage devices is the same as the value of the plurality of storage devices, the user obtains the permanent use right of the plurality of storage devices.
As shown in fig. 4, in a borrowing manner of the storage device, the borrowing process of the storage device includes:
101. the cloud server displays the two-dimensional code on the storage device on the display screen through the borrowing module;
102. a user scans codes through the mobile terminal to establish lease order information;
103. the cloud server acquires rented order information, then transmits the information of the storage device on a certain accommodating groove body to the borrowing module, and informs a user of order confirmation;
104. after the user order is confirmed, the borrowing module controls the electronic lock to open the electronic door of the storage device on one accommodating groove body, the user obtains the storage device, and at the moment, the payment calculation module starts timing and charging.
As shown in fig. 5, in a returning mode of the storage device, the control panel is further provided with a two-dimensional code scanner 4100, and a returning process of the storage device includes:
201. a user identifies two-dimensional code information of the storage device to be returned through the two-dimensional code scanner 4100;
202. the mobile terminal establishes a return order;
203. the cloud server acquires return order information, then allocates the appointed vacant accommodating groove body information to the return module, and informs a user of confirming an order;
204. after the user confirms the order, the returning module controls the electronic lock to open the appointed vacant electronic door of the accommodating groove body, the user puts the returned storage device into the appointed accommodating groove body and closes the electronic door of the accommodating groove body, and at the moment, the payment calculation module stops timing and charging.
205. And paying the use fee for renting the storage device by the user.
In order to further confirm whether the user returns the storage device, in one embodiment, when the user puts the returned storage device into the designated accommodating groove 2000, the infrared camera takes a picture of the returned storage device, and the gravity sensor detects whether the weight of the returned storage device is within a reasonable range. Specifically, the shape and weight information of the storage device are set in the data module, the infrared camera is used for shooting and recording the returned storage device, the gravity sensor is used for acquiring the weight of the returned storage device, whether a user returns the storage device can be simply identified instead of replacing the storage device with other articles, if a serious difference occurs, the monitoring device uploads a signal to the control panel, the control panel uploads the signal to the cloud-end controller, and the cloud-end controller reminds the user to return the rented storage device through the mobile terminal.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above embodiments only express a few embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.