CN113320760B - Material allocation method, storage medium, server and material allocation system - Google Patents
Material allocation method, storage medium, server and material allocation system Download PDFInfo
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- CN113320760B CN113320760B CN202011481615.2A CN202011481615A CN113320760B CN 113320760 B CN113320760 B CN 113320760B CN 202011481615 A CN202011481615 A CN 202011481615A CN 113320760 B CN113320760 B CN 113320760B
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B43/00—Forming, feeding, opening or setting-up containers or receptacles in association with packaging
- B65B43/42—Feeding or positioning bags, boxes, or cartons in the distended, opened, or set-up state; Feeding preformed rigid containers, e.g. tins, capsules, glass tubes, glasses, to the packaging position; Locating containers or receptacles at the filling position; Supporting containers or receptacles during the filling operation
- B65B43/44—Feeding or positioning bags, boxes, or cartons in the distended, opened, or set-up state; Feeding preformed rigid containers, e.g. tins, capsules, glass tubes, glasses, to the packaging position; Locating containers or receptacles at the filling position; Supporting containers or receptacles during the filling operation from supply magazines
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B25/00—Packaging other articles presenting special problems
- B65B25/16—Packaging bread or like bakery products, e.g. unsliced loaves
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- General Preparation And Processing Of Foods (AREA)
Abstract
The invention provides a material allocation method, a storage medium, a server and a material allocation system, wherein the method comprises the following steps: the method comprises the steps of obtaining the expected consumption and reserves of various food materials by a plurality of intelligent cooking devices; analyzing whether a material shortage intelligent cooking device with a certain food material reserve which cannot meet the expected consumption exists, and if so, acquiring the information of the food material which is lacking in the material shortage intelligent cooking device; searching for intelligent cooking equipment with the food materials which are not needed in the peripheral storage, and taking the intelligent cooking equipment with the stored food materials which are not needed in the peripheral storage exceeding the predicted consumption of the intelligent cooking equipment as feeding intelligent cooking equipment; after the position information of the material shortage intelligent cooking equipment, the position information of the material supply intelligent cooking equipment and the information of the food material shortage are sent, and the transportation personnel or the automatic transportation equipment receives the information, the food material shortage can be taken out from the material supply intelligent cooking equipment and transported into the material shortage intelligent cooking equipment, so that the material shortage intelligent cooking equipment with insufficient food material storage can meet the order requirement.
Description
Technical Field
The present invention relates to the field of information processing technologies, and in particular, to a material allocation method, a storage medium, a server, and a material allocation system.
Background
The current intelligent cooking equipment is generally provided with a food material adding device, an ingredient adding device and a cooking device, wherein various food materials are stored in the food material adding device, various ingredients are stored in the ingredient adding device, the intelligent cooking equipment is provided with an ordering system, a plurality of dishes are listed on the ordering system, a user can select a desired dish to place an order on the ordering system, and then the intelligent cooking equipment can place the corresponding food materials and ingredients into the cooking device for cooking according to the selected dishes, so that dishes selected by the user are manufactured. However, after entering the peak period of eating, the order amount of the intelligent cooking apparatus may be very large, so the upcoming cooking amount of the dishes is increased, and if the food reserves stored in the intelligent cooking apparatus are insufficient, the intelligent cooking apparatus may not meet the order requirement.
Disclosure of Invention
The technical problem to be solved by the invention is how to enable intelligent cooking equipment with insufficient food material reserves to meet the order demands.
In order to solve the technical problems, the invention provides a material allocation method, which comprises the following steps:
A. the method comprises the steps of obtaining the expected consumption of various food materials of a plurality of intelligent cooking devices in a preset time;
B. acquiring reserves of various food materials in each intelligent cooking device;
C. analyzing whether a material shortage intelligent cooking device with a certain food material reserve which cannot meet the expected consumption exists, and if so, acquiring the information of the food material which is lacking in the material shortage intelligent cooking device;
D. finding out intelligent cooking equipment storing the deficient food materials in a peripheral preset area range, and taking the intelligent cooking equipment with the stored deficient food materials exceeding the predicted consumption of the intelligent cooking equipment as feeding intelligent cooking equipment;
E. and sending the position information of the material shortage intelligent cooking equipment, the position information of the material supply intelligent cooking equipment and the information of the food materials which are short to an automatic conveying equipment and/or a mobile intelligent terminal of a conveying person.
Preferably, in the step D, if there are a plurality of the feeding intelligent cooking apparatuses, position information of each feeding intelligent cooking apparatus is obtained; in the step E, determining a feeding intelligent cooking device closest to the material shortage intelligent cooking device according to the position information, and sending the position information of the feeding intelligent cooking device closest to the material shortage intelligent cooking device to an automatic transportation device and/or a mobile intelligent terminal of a transportation person.
Preferably, the information of the missing food material includes category information and shortage information.
Preferably, in the step E, if the missing food material that can be provided by the feeding intelligent cooking device nearest to the missing material intelligent cooking device fails to meet the food material missing amount, the position information of other feeding intelligent cooking devices is also sent to the automatic transportation device and/or the mobile intelligent terminal of the transportation person.
Preferably, in the step E, if the food shortage amount cannot be satisfied after the addition of the missing food materials provided by all the feeding intelligent cooking devices, the predetermined area range is enlarged to search for other intelligent cooking devices storing the missing food materials, and then the position information of the other intelligent cooking devices is sent to the automatic transportation device and/or the mobile intelligent terminal of the transportation personnel.
In the step E, if the missing food material that can be provided by the feeding intelligent cooking device closest to the missing material intelligent cooking device fails to meet the food material shortage, and the missing food material that can be provided by the feeding intelligent cooking device far away from the missing material intelligent cooking device fails to meet the food material shortage, the position information of the far-away feeding intelligent cooking device is sent to the automatic transportation device and/or the mobile intelligent terminal of the transportation personnel instead.
The invention also provides a computer readable storage medium having stored thereon a computer program which when executed by a processor realizes the steps in the method as described above.
The invention also provides a server comprising a computer readable storage medium and a processor interconnected, the computer readable storage medium being as described above.
The invention also provides a material allocation system, which comprises a server and a plurality of intelligent cooking devices, wherein various food materials are stored in each intelligent cooking device, the server is respectively connected with each intelligent cooking device in a communication mode, the material allocation system also comprises automatic conveying equipment and/or a mobile intelligent terminal of a conveying person, the server is connected with the automatic conveying equipment and/or the mobile intelligent terminal of the conveying person in a communication mode, and the server is described above.
Preferably, the automatic transport device comprises an unmanned vehicle or an unmanned aerial vehicle.
The invention has the following beneficial effects: because after the feeding intelligent cooking equipment which stores the deficient food materials and the reserve of the deficient food materials exceeds the expected consumption is searched, the information of the deficient food materials, the information of the feeding intelligent cooking equipment and the information of the deficient food materials are sent to the automatic conveying equipment and/or the mobile intelligent terminal of the conveying personnel, after the information of the deficient food materials, the information of the feeding intelligent cooking equipment and the information of the deficient food materials are received by the conveying personnel or the automatic conveying equipment, the deficient food materials can be taken out from the feeding intelligent cooking equipment, and then the deficient food materials are conveyed to the deficient food materials intelligent cooking equipment, so that the deficient food materials reserve of the deficient food materials intelligent cooking equipment can meet the order demands.
Drawings
FIG. 1 is a system connection block diagram of a material deployment system;
FIG. 2 is a general flow chart of a material deployment method;
FIG. 3 is a flowchart of a material allocation method.
Reference numerals illustrate: 1-a server; 2-an automatic transport device; 3-intelligent cooking equipment; 4-a control module; 5-communication module.
Detailed Description
The material allocation system is shown in fig. 1, and comprises a server 1, automatic transportation equipment 2 and three intelligent cooking equipment 3, wherein the server 1 comprises a control module 4 and a communication module 5, and the control module 4 of the server 1 is respectively in communication connection with the automatic transportation equipment 2 and the intelligent cooking equipment 3 through the communication module 5. The automatic transport device 2 is an unmanned vehicle or unmanned aerial vehicle which can automatically navigate and is provided with a manipulator so as to automatically grasp objects; the intelligent cooking equipment 3 stores various food materials, and the intelligent cooking equipment 3 is also provided with a cooking device for cooking the food materials to obtain dishes.
During peak eating hours (for example, 11-13 pm and 17-19 pm each day), the amount of orders for each intelligent cooking apparatus 3 may be very large, so that insufficient food material storage in the intelligent cooking apparatus 3 may occur, and in this case, the control module 4 of the server 1 performs the material allocation method shown in fig. 2 and 3, which is described in detail below:
firstly, the control module 4 obtains orders of three intelligent cooking devices 3 in a peak period through the communication module 5, then analyzes the expected consumption of various food materials by each intelligent cooking device 3 in the peak period according to the orders, meanwhile, the control module 4 obtains reserves of various food materials in each intelligent cooking device 3 through the communication module 5, if the reserves of certain food materials in certain intelligent cooking device 3 are smaller than the expected consumption, the intelligent cooking device 3 is used as a material shortage intelligent cooking device, for example, if the reserves of beef in the first intelligent cooking device 3 are smaller than the expected consumption by 2kg, the control module 4 uses the first intelligent cooking device 3 as a material shortage intelligent cooking device, uses beef as the food materials which are short, and obtains the shortage of beef as 2kg. Alternatively, the food material that is missing may be chicken, pork, or other food material that is actually missing, and the quantity that is missing may be 1kg, 3kg, 5kg, or other quantity that is actually missing.
In this embodiment, the second intelligent cooking apparatus 3 and the third intelligent cooking apparatus 3 are located in a predetermined area range around the first intelligent cooking apparatus 3, the predetermined area range is 1 km square, for example, the second intelligent cooking apparatus 3 is located in 500 m in the northeast direction of the first intelligent cooking apparatus 3, the third intelligent cooking apparatus 3 is located in 300 m in the southerly direction of the first intelligent cooking apparatus 3, and beef is stored in both the second intelligent cooking apparatus 3 and the third intelligent cooking apparatus 3. Alternatively, the predetermined area may be 3 km, 5 km, 10 km, or any other area that may be set. After the first intelligent cooking apparatus 3 is the material shortage intelligent cooking apparatus, the control module 4 obtains the position information of the three intelligent cooking apparatuses 3 through the communication module 5, analyses from the position information to obtain that the second intelligent cooking apparatus 3 and the third intelligent cooking apparatus 3 are both located in the peripheral preset area range of the first intelligent cooking apparatus 3, then the control module 4 obtains the beef reserves in the second intelligent cooking apparatus 3 and the third intelligent cooking apparatus 3 and the beef predicted amount in the peak period through the communication module 5, analyses whether the beef reserves in the second intelligent cooking apparatus 3 and the third intelligent cooking apparatus 3 exceed the beef predicted amount, in this embodiment, the beef reserves in the second intelligent cooking apparatus 3 and the third intelligent cooking apparatus 3 exceed the predicted amount, and the control module 4 uses the two intelligent cooking apparatuses 3 as the material supply intelligent cooking apparatuses.
After locating the two feeding intelligent cooking devices, the control module 4 analyzes the distances from the two feeding intelligent cooking devices to the first intelligent cooking device 3 according to the position information of the two feeding intelligent cooking devices, and accordingly the third intelligent cooking device 3 is close to the first intelligent cooking device 3, so that the control module 4 sends the position information of the first intelligent cooking device 3, the position information of the third intelligent cooking device 3 and the information of 2kg beef lacking in the first intelligent cooking device 3 to the automatic conveying device 2 through the communication module 5, the automatic conveying device 2 takes out 2kg beef from the third intelligent cooking device 3 after receiving the information and before navigating to the third intelligent cooking device 3, and then places the 2kg beef into the first intelligent cooking device 3 before conveying the 2kg beef to the first intelligent cooking device 3, and material allocation is completed.
In other embodiments, if the amount of beef that can be provided externally in the third intelligent cooking apparatus 3 is only 1kg, that is, the amount of beef that can be provided externally in the third intelligent cooking apparatus 3 cannot meet the shortage of the missing food, and the amount of beef that can be provided externally in the second intelligent cooking apparatus 3 is more than 1kg, that is, the second intelligent cooking apparatus 3 can supplement the shortage of the food that cannot be provided externally in the third intelligent cooking apparatus 3, the control module 4 further sends the position information of the second intelligent cooking apparatus 3 to the automatic transportation apparatus 2 via the communication module 5, so that after 1kg of beef is taken out from the third intelligent cooking apparatus 3 by the automatic transportation apparatus 2, another 1kg of beef is taken out from the second intelligent cooking apparatus 3 before the total 2kg of beef is transported to the first intelligent cooking apparatus 3, and then the 2kg of beef is put into the first intelligent cooking apparatus 3, thereby completing the material allocation.
In other embodiments, if the second intelligent cooking apparatus 3 and the third intelligent cooking apparatus 3 can add up the beef portions provided from outside by less than 2kg, that is, the beef portions provided from outside by the two intelligent cooking apparatuses 3 cannot meet the food shortage, the predetermined area range is enlarged to search for other intelligent cooking apparatuses storing the missing food, and then the position information of the other intelligent cooking apparatuses is sent to the automatic transportation apparatus 2, so that the automatic transportation apparatus 2 can also transport beef from the other intelligent cooking apparatuses to the first intelligent cooking apparatus 3, thereby supplementing the first intelligent cooking apparatus 3 with the missing food. Alternatively, the predetermined area may be 15 km, 20 km, 30 km or any other area that may be set.
In other embodiments, if the amount of beef that can be provided externally in the third intelligent cooking apparatus 3 is only 1kg, that is, the amount of beef that can be provided externally by the third intelligent cooking apparatus 3 fails to meet the food shortage, and the amount of beef that can be provided externally by the second intelligent cooking apparatus 3 is more than 2kg, that is, the amount of beef that can be provided externally by the second intelligent cooking apparatus satisfies the food shortage, the control module 4 does not send the position information of the second intelligent cooking apparatus 3 to the automatic transportation apparatus 2, but sends the position information of the third intelligent cooking apparatus 3, so that the automatic transportation apparatus 2 directly takes out 2kg of beef from the second intelligent cooking apparatus 3 to be transported and put into the first intelligent cooking apparatus 3.
In this embodiment, the control module 4 includes a computer readable storage medium and a processor that are connected to each other, and a computer program is stored in the computer readable storage medium, and when executed by the processor, the computer program implements the material allocation method described above.
Example 2
In this embodiment, the server 1 and three intelligent cooking devices 3 in the material allocation system are the same as those in embodiment 1, and the difference is that: the intelligent cooking equipment 3 is not automatically transported by adopting the automatic transportation equipment 2, but is transported by a transportation person carrying mobile intelligent terminals such as mobile phones and tablet computers, so that the control module 4 of the server 1 does not send information to the automatic transportation equipment 2, but sends information to the mobile intelligent terminals of the transportation person, so that the transportation person can know the position information of the material shortage intelligent cooking equipment, the position information of the material supply intelligent cooking equipment and the information of the material shortage from the mobile intelligent terminals, and then the material transportation is manually carried out.
Claims (9)
1. The material allocation method is characterized by comprising the following steps:
A. the method comprises the steps of obtaining the expected consumption of various food materials of a plurality of intelligent cooking devices in a preset time;
B. acquiring reserves of various food materials in each intelligent cooking device;
C. analyzing whether a material shortage intelligent cooking device with a certain food material reserve which cannot meet the expected consumption exists, and if so, acquiring the information of the food material which is lacking in the material shortage intelligent cooking device;
D. finding out intelligent cooking equipment storing the deficient food materials in a peripheral preset area range, and taking the intelligent cooking equipment with the stored deficient food materials exceeding the predicted consumption of the intelligent cooking equipment as feeding intelligent cooking equipment;
E. transmitting the position information of the material shortage intelligent cooking equipment, the position information of the material supply intelligent cooking equipment and the information of the food material shortage to automatic transportation equipment;
in the step E, if the food shortage is not satisfied after the addition of the lacking food provided by all the feeding intelligent cooking devices, the range of the predetermined area is enlarged to search for other intelligent cooking devices storing the lacking food, and then the position information of the other intelligent cooking devices is sent to the automatic transportation device.
2. The material allocation method according to claim 1, wherein: in the step D, if a plurality of feeding intelligent cooking devices exist, acquiring the position information of each feeding intelligent cooking device; in the step E, determining a feeding intelligent cooking device closest to the material shortage intelligent cooking device according to the position information, and sending the position information of the feeding intelligent cooking device closest to the material shortage intelligent cooking device to the automatic transportation device.
3. The material allocation method according to claim 1 or 2, wherein the information of the missing food material includes category information and shortage information.
4. The material allocation method according to claim 3, wherein in the step E, if the missing food material that the feeding intelligent cooking apparatus nearest to the missing material intelligent cooking apparatus can provide fails to meet a food material missing amount, position information of other feeding intelligent cooking apparatuses is further transmitted to the automatic transportation apparatus.
5. The material allocation method according to claim 3, wherein in the step E, if the missing food material that can be provided by the feeding intelligent cooking apparatus closest to the missing material intelligent cooking apparatus fails to satisfy the food material missing amount and the missing food material that can be provided by the feeding intelligent cooking apparatus farther from the missing material intelligent cooking apparatus satisfies the food material missing amount, the position information of the feeding intelligent cooking apparatus farther from the missing material intelligent cooking apparatus is sent to the automatic transportation apparatus instead.
6. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method according to any one of claims 1 to 5.
7. A server comprising a computer readable storage medium and a processor coupled to each other, wherein the computer readable storage medium is as recited in claim 6.
8. The material allocation system comprises a server and a plurality of intelligent cooking devices, wherein various food materials are stored in each intelligent cooking device, and the server is respectively connected with each intelligent cooking device in a communication mode.
9. The material deployment system of claim 8, wherein the automated transport facility comprises an unmanned vehicle or an unmanned aerial vehicle.
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