Internet ordering and managing system for commodities
Technical Field
The invention relates to the field of electronic commerce, in particular to an internet ordering and managing system for commodities.
Background
With the development of the internet, online shopping has become a popular consumption habit of the public. Meanwhile, the internet breaks through the limitation of regions, so that the merchants can sell commodities to buyers all over the world.
A large number of buyers are coming in, and the increased order quantity often causes that the existing commodity ordering and managing system of the merchant cannot process orders in time, so that the orders are squeezed. The buyer usually expects the merchant to deliver goods at the first time for receiving the purchased goods early, and if the goods delivery is slow due to the squeezing of the order, the consumption experience of the buyer is affected, the good public praise is not favorably accumulated by the merchant, and the merchant is not favorable for attracting more customers.
In order to solve the above problems, chinese patent CN106339913A discloses an ordering system and an order updating and self-service goods picking system based on internet and internet of things, which includes a goods ordering system, a product distribution entering system and an order state updating system, wherein an automatic order generating module is arranged in the goods ordering system, the automatic order generating module is connected with a member function module and a goods barcode generating module, the member function module is connected with a PC terminal, a mobile terminal ordering module and a community terminal ordering module, the goods barcode generating module is connected with a barcode printing terminal, the barcode printing terminal is connected with the product distribution entering system, a selected order goods is arranged in the product distribution entering system, the selected order goods is connected with a product corresponding barcode, and the product corresponding barcode is connected with an order data uploading module.
The scheme can effectively process order updating, and buyers can inquire the information of the orders through various terminals in real time; however, the information recorded by the bar code is single, and only the goods distribution information is input when the goods enter the goods distribution process, so that the delivery speed of the goods cannot be improved. The goods allocation workers still need to search goods in the warehouse and input goods allocation information after finding the goods; for large warehouses, the time spent searching for the commodities is often great.
Disclosure of Invention
The invention aims to provide an internet ordering and managing system of commodities so as to quickly locate the positions of the commodities.
In order to solve the technical problems, the technical scheme of the invention is as follows:
the Internet ordering and managing system for the commodities comprises the commodities and commodity identification codes, wherein the commodity identification codes are attached to the commodities and record commodity information; further comprising:
the goods shelves are used for placing goods, each goods shelf is pasted with a position identification code, and the position identification code records the position information of the goods shelf;
the management end is used for scanning the commodity identification code and the position identification code when the commodity is placed in the storage lattice;
the server comprises a processing module and a storage module; the storage module is used for storing commodity information and position information obtained by scanning the commodity identification code and the position identification code by the management terminal; the processing module constructs a commodity position library based on the commodity information and the position information, and stores the commodity position library to the storage module;
the client is used for ordering by the user and sending the ordering commodity information to the processing module;
the processing module acquires ordering commodity position information from a commodity position library based on ordering commodity information; and the processing module sends the order placing commodity information and the order placing commodity position information to the management terminal.
The basic scheme principle and the beneficial effects are as follows:
after a worker places commodities on a goods shelf, a management end is used for scanning the commodity identification code and the position identification code to obtain commodity information and position information, and a processing module constructs a commodity position library; after the user places an order, the processing module can acquire the order placing commodity position information from the commodity position library according to the order placing commodity information and then send the order placing commodity information and the order placing commodity position information to the management end; at the moment, the delivery worker can quickly position the position of the order-placing commodity according to the management end, and quick delivery is realized. By adopting the basic scheme, the commodity delivery speed can be increased, and the consumption experience of a user is improved.
Further, the processing module also counts the total number of the commodities by calculating the number of the commodity identification codes; storing the total number of commodities to a storage module; the order commodity information comprises the number of order commodities; the processing module adjusts the total quantity of commodities based on the quantity of commodities ordered; the processing module is further used for judging whether the total quantity of any commodity is lower than a threshold value, and if the total quantity of any commodity is lower than the threshold value, the processing module sends a purchase prompt to the management end.
The management of commodity inventory is convenient, and the commodity is prevented from being out of stock.
Further, the processing module generates a commodity sales scale according to the quantity of commodities ordered; storing the commodity sales table to a storage module; the management end is also used for acquiring the commodity sales table from the storage module.
The manager can know the commodity sales amount conveniently.
The warehouse system further comprises a delivery module, wherein the delivery module comprises a power supply, a power switch and a plurality of warehouse doors of the warehouse; the bottom of the bin door is rotationally connected with a wall of the warehouse; further comprising:
the goods shelf comprises a plurality of piezoresistive pressure sensors, a plurality of pressure sensors and a plurality of control units, wherein the piezoresistive pressure sensors are arranged on the goods shelf, and the goods are placed on the piezoresistive pressure sensors;
the iron stop block is positioned on the wall body above the top edge of the bin door, the upper end of the iron stop block is rotatably connected with the wall body, and the lower end of the iron stop block is perpendicular to the area where the bin door is positioned;
the electromagnet is fixed on the wall body, and when the electromagnet is electrified, the lower end of the iron stop block can be sucked away from the area where the bin gate is located;
the control circuit comprises a first trunk circuit and a second trunk circuit; the first trunk comprises a plurality of branches, and each branch of the first trunk is electrically connected with a piezoresistive pressure sensor;
the second trunk comprises a plurality of branches, and each branch of the second trunk comprises a resistor, a relay and an electromagnet which are connected in series; the resistance of each branch of the second trunk circuit is sequentially increased; when the current of any branch of the second main circuit reaches the working current of the relay, the relay of the branch is conducted;
the power supply, the power switch, the first trunk circuit and the second trunk circuit are connected in series.
When the piezoresistive pressure sensor is under commodity pressure, the resistance value of the resistor becomes small; the resistance of the piezoresistive pressure sensor when the commodity is full is taken as a reference, when the commodity is not full, part of the piezoresistive pressure sensor is not under the pressure of the commodity, and the resistance value of the resistance is larger than that of the piezoresistive pressure sensor under the pressure of the commodity; because the branch circuits of the piezoresistive pressure sensors are connected in parallel, when the resistance values of the partial piezoresistive pressure sensors are relatively increased, the integral resistance value of the first trunk circuit is increased, and the current flowing through the first trunk circuit is reduced under the condition that the power supply voltage is not changed. That is, when there are many products, the first main current is large, and when there are few products, the first main current is small.
When delivery is needed, a power switch is turned on; the electric current of first main road flows each branch road of second main road, and the relay of the partial branch road of second main road reaches operating current, and the relay switches on, and the electro-magnet circular telegram, electro-magnet produce magnetic force, and under the effect of magnetic force, the iron dog rotates to the electro-magnet direction to leave the door region, the door no longer receives the holding power of iron dog, rotates the whereabouts under the effect of gravity, until door upper end and ground contact. At this time, the bin gate is completely opened.
As the resistance in each branch of the second trunk increases in sequence, under the condition that the voltage of each branch of the second trunk is the same, the current flowing through each branch of the second trunk is inversely proportional to the resistance value of the resistance; in the branch of the second main circuit, the current reaches the working current of the relay firstly.
The number of the opened electromagnets depends on the number of the relays of the branches of the second main line which can meet the current of the first main line, and the magnitude of the current of the first main line depends on the number of the piezoresistive pressure sensors which are not subjected to commodity pressure. In other words, the number of the goods on the shelves in the warehouse is in direct proportion to the opening number of the bin gate, i.e. the number of the goods on the shelves in the warehouse is large, and the opening number of the bin gate is large.
Because boxcar switch on after, commodity quantity is correlated with door opening quantity in the warehouse positively, when goods are many in the goods shelves in the warehouse, mean to provide more delivery commodity, and the quantity that the door was opened this moment is many, can a plurality of doors loading simultaneously for the speed of loading realizes quick delivery.
Further, the number of the bin gates is the same as that of the second trunk branches.
The bin gate is in one-to-one correspondence with the branch of the second trunk, and the bin gate is convenient to control.
Further, the commodity identification code and the position identification code are both bar codes or two-dimensional codes.
The bar code and the two-dimensional code are mature identification code technologies, and identification is convenient.
Drawings
FIG. 1 is a logic block diagram of a first embodiment of an automated marketing and promotional system;
FIG. 2 is a logic block diagram of a control circuit of an embodiment of an automated marketing and promotional system;
FIG. 3 is a front view of a second shelf of an embodiment of an automated marketing and promotional system;
FIG. 4 is a front view of a second cart of an embodiment of the automated marketing and promotional system;
fig. 5 is a side view of a second truck of an automated marketing and promotional system embodiment.
Detailed Description
The following is further detailed by way of specific embodiments:
reference numerals in the drawings of the specification include:
goods shelf 1, goods 2, piezoresistive pressure sensor 3, bin door 4, iron block 5, electromagnet 6, bulge 7, carriage 8 and warehouse 9.
Example one
As shown in fig. 1, the internet ordering and managing system for goods comprises goods, shelves, a management end, a server and a client.
The commodities are all pasted with commodity identification codes, and the commodity identification codes record commodity information; the commodity information includes a commodity name and a commodity category.
The goods shelves are used for placing commodities, each goods shelf is pasted with a position identification code, and the position identification code records the position information of the goods shelf.
The management end is used for scanning the commodity identification code and the position identification code when the commodity is placed in the storage grid. The commodity identification code and the position identification code are both bar codes or two-dimensional codes; in this embodiment, a two-dimensional code is adopted; the management end is a tablet personal computer with a camera, in particular to an IPAD.
The client is used for ordering by the user and sending ordering commodity information to the processing module; the client may be a PC, a tablet computer, or a mobile phone, and the mobile phone is used in this embodiment. The order commodity information includes an order commodity name and an order commodity number.
The server comprises a processing module and a storage module; the storage module is used for storing commodity information and position information obtained by scanning the commodity identification code and the position identification code by the management terminal; the processing module constructs a commodity position library based on the commodity information and the position information, and stores the commodity position library to the storage module. The commodity names and the commodity position information in the commodity position library are in a one-to-one mapping relationship. The processing module acquires ordering commodity position information from a commodity position library based on ordering commodity information; the processing module sends the order placing commodity information and the order placing commodity position information to the management end; the processing module also counts the total quantity of the commodities by calculating the quantity of the commodity identification codes; storing the total number of commodities to a storage module; the processing module adjusts the total quantity of commodities based on the quantity of commodities ordered; the specific adjustment is to subtract the order number from the total number of the commodities.
The processing module is further used for judging whether the total quantity of any category of commodities is lower than a threshold value, and if the total quantity of any category of commodities is lower than the threshold value, the processing module sends a purchase prompt to the management end. In this embodiment, the threshold is 10%. The processing module also generates a commodity sales table according to the quantity of the commodities ordered; storing the commodity sales table to a storage module; the management end is also used for acquiring the commodity sales table from the storage module. In this embodiment, the processing module employs an intel i7 processor, and the storage module employs a western data machine hard disk.
After a worker places commodities on a goods shelf, a management end is used for scanning the commodity identification code and the position identification code to obtain commodity information and position information, and a processing module constructs a commodity position library; after the user places an order, the processing module can acquire the order placing commodity position information from the commodity position library according to the order placing commodity information and then send the order placing commodity information and the order placing commodity position information to the management end; at the moment, the delivery worker can quickly position the position of the order-placing commodity according to the order-placing commodity information and the order-placing commodity position information in the management end, and quick delivery is realized.
Example two
The internet ordering and managing system of the commodity is different from the first embodiment in that: a shipping module is also included.
The delivery module comprises a power supply, a power switch, a goods shelf 1, a plurality of piezoresistive pressure sensors 3, a bin door 4, an iron stop block 5, an electromagnet 6 and a control circuit.
As shown in fig. 3, the piezoresistive pressure sensors 3 are disposed on the shelf 1, and the products 2 are placed on the piezoresistive pressure sensors 3. In this embodiment, the piezoresistive pressure sensor 3 is a winsen WSD type piezoresistive pressure sensor 3.
As shown in fig. 4, the bin door 4 is arranged on a wall of the warehouse 9, and the bottom edge of the bin door 4 is hinged with the carriage 8; in this embodiment, 4 gates 4 are used. The outer surface of the upper part of the bin gate 4 is horizontally provided with a convex part 7; the iron block 5 is horizontally arranged at the upper part of the bin door 4. One end of the iron block 5 is pivoted with the wall body, and the other end is supported by the upper surface of the convex part 7; the electromagnet 6 is adhered to the wall body, and the iron stop block 5 can be sucked away from the area where the bin gate 4 is located when the electromagnet 6 is electrified; in this embodiment, the electromagnet 6 is an XDA-P50 type suction cup type electromagnet 6.
As shown in fig. 2, the control circuit includes a first trunk and a second trunk; the first trunk comprises a plurality of branches, and each branch of the first trunk is electrically connected with a piezoresistive pressure sensor 3.
The second trunk comprises a plurality of branches, and the number of the branches of the second trunk is the same as that of the bin gates 4. In this embodiment, 4 branches are used. Each branch of the second trunk comprises a resistor, a relay and an electromagnet 6 which are connected in series; the resistance of each branch of the second trunk circuit is sequentially increased; when the current of any branch of the second main circuit reaches the working current of the relay, the relay of the branch is conducted; in the embodiment, the relay adopts a QY32F-H-005-HS relay.
The power supply, the power switch, the first trunk circuit and the second trunk circuit are connected in series.
When the truck carrying the article 2 arrives, the power switch is turned on. The current of first main road flows each branch road of second main road, and the relay of the partial branch road of second main road reaches operating current, and the relay switches on, and 6 circular telegrams of electro-magnet, and 6 inhale from door 4 regions with iron dog 5 of electro-magnet, and door 4 opens.
Because the quantity of the commodities 2 in the warehouse 9 is positively correlated with the opening quantity of the bin doors 4, when the commodities 2 on the goods shelf 1 in the warehouse are more, more commodities 2 can be provided for delivery, and the number of the opened bin doors 4 is more, so that the commodities can be loaded by a plurality of doors simultaneously, and the loading speed is accelerated. Meanwhile, the bin door 4 is opened in a bottom-rotating manner, as shown in fig. 5, when the bin door 4 is completely opened, one end of the bin door is arranged on the wall, and the other end of the bin door is arranged on the carriage 8, so that a loading inclined plane is formed. The workman can have solved between carriage 8 and ground the difference in height and cause the inconvenient problem of transport in putting into carriage 8 with commodity 2 through the shipment inclined plane, the effectual efficiency that improves the transport.
The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.