KR102582218B1 - On-Demand Production Management System and Method - Google Patents

Abstract

The present invention relates to an on-demand production management system and method. Specifically, it relates to a production management system and method for producing orders received from multiple platforms in one cooking facility. The present invention relates to a multi-channel order reception unit 110, an order reception unit 110, It includes an order reception and parsing module including a raw information parsing module, a production section routing module including a display control unit, a package module including an assembly bar code system and a lidar check system, and a database.

Description

On-Demand Production Management System and Method}

The present invention relates to an on-demand production management system and method, and more specifically, to a production management system and method for producing orders received from multiple platforms in one cooking facility.

In the restaurant industry, a hygienic and scientific kitchen is a factor that determines the success or failure of a restaurant business. In other words, clean and delicious food not only represents a restaurant business, but also satisfies the five senses such as sight, smell, hearing, taste, and touch, thereby encouraging customers to continue visiting. Therefore, in the restaurant industry, planned management and operation of the kitchen serves as an important key to increasing business sales.

For a restaurant's kitchen to operate efficiently and functionally, the location and size of the kitchen are very important, and very careful planning and design are required when installing the kitchen system. Therefore, in the case of a restaurant business, the design of the kitchen system must be determined taking into account the space for efficient cooking, the nature of the business, and the maximum capacity of visiting customers.

In particular, it is very important to efficiently arrange a cooking system that minimizes the cook's work movement and allows efficient cooking. In other words, through the efficient arrangement of the cooking system, the cook's work movement should be minimized to ensure smooth work progress, thereby saving cooking time and energy.

However, most kitchen equipment systems developed so far are only applicable to general households, and there is a problem in that they are difficult to apply to franchise stores that provide cooked food to an unspecified number of customers.

In other words, in a franchise store, a number of workers, including those who order food, those who prepare food for each menu, and those who package the cooked food, reside at the same time within the limited space of the kitchen and work in a specialized manner. In addition, since the amount of food provided corresponds to tens to hundreds of servings per day on average, a specialized kitchen equipment system is required, so kitchen equipment systems used in general homes cannot be applied.

Meanwhile, Registered Patent No. 10-2107508 relates to a kitchen equipment system for fast food stores built in franchise stores that handle fast food such as hamburgers, pizza, and french fries. More specifically, it relates to each equipment used in the kitchen. By efficiently arranging, it is possible to secure an efficient work flow so that multiple workers can cook fast food with minimal movement while simultaneously residing in a limited space, and perform a series of tasks in the kitchen such as cooking, packaging, and supplying fast food. A kitchen equipment system for fast food outlets that allows for faster and smoother processing has been disclosed.

The purpose of an embodiment of the present invention is to provide an on-demand production management system and method for quickly producing orders received from multiple platforms in one cooking facility.

In order to achieve the above object, an embodiment of the present invention includes an order reception and parsing module including a multi-channel order reception unit and an order raw information parsing module, a production section routing module including a display control unit, an assembly barcode system, and a lidar. It is characterized by including a package module including a check system and a database.

One embodiment of the present invention can produce orders received from multiple platforms in one cooking facility, and has high space efficiency and fast production speed.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned above will be clearly understood by those skilled in the art from the description below.

Figure 1 is a diagram showing the configuration of a system for communication between a server of an on-demand production management system and an orderer terminal device and a seller terminal device according to an embodiment of the present invention.
Figure 2 is a diagram showing the general configuration of an on-demand production management system according to an embodiment of the present invention.
Figure 3 is a diagram for explaining a production system utilizing an on-demand production management system according to an embodiment of the present invention.
Figure 4 is a block diagram of an on-demand production management system according to an embodiment of the present invention.
Figure 5 is a block diagram of an on-demand production management system according to an embodiment of the present invention.
Figure 6 is a block diagram of an on-demand production management system according to an embodiment of the present invention.
Figure 7 is a block diagram of an on-demand production management system according to an embodiment of the present invention.
Figure 8 is a block diagram of an on-demand production management system according to an embodiment of the present invention.
Figure 9 is a block diagram for explaining the method procedures of the on-demand production management system according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings.

all. At this time, note that in the attached drawings, identical components are indicated by identical symbols whenever possible. Detailed descriptions of well-known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some components are exaggerated, omitted, or schematically shown in the accompanying drawings.

Throughout the specification, when a part is said to “include” a certain element, this means that it may further include other elements rather than excluding other elements, unless specifically stated to the contrary. In addition, throughout the specification, “on” means located above or below the object part, and does not necessarily mean located above the direction of gravity.

Below, with reference to FIGS. 1 to 9, an on-demand production management system according to an embodiment of the present invention will be described.

1 shows a server 2 of an on-demand production management system according to an embodiment of the present invention.

It is a diagram showing the configuration of a system for communication between the orderer terminal device 1 and the seller terminal device 3, and Figure 2 shows the general configuration of the on-demand production management system according to an embodiment of the present invention. It is a drawing, and Figure 3 is a diagram for explaining a production system utilizing an on-demand production management system according to an embodiment of the present invention, and Figure 4 is a configuration block of an on-demand production management system according to an embodiment of the present invention. Figure 5 is a block diagram of the on-demand production management system according to an embodiment of the present invention, Figure 6 is a block diagram of the on-demand production management system according to an embodiment of the present invention, and Figure 7 is a block diagram of the on-demand production management system according to an embodiment of the present invention. Figure 8 is a block diagram of an on-demand production management system according to an embodiment of the present invention, and Figure 9 is a block diagram of an on-demand production management system according to an embodiment of the present invention. This is a block diagram to explain the method and procedure of the on-demand production management system according to .

Referring to FIG. 1, the server 2, the orderer terminal device 1, and the seller terminal device 3 are connected to each other through the Internet 4. The server 2 can exchange order information 440 with the seller terminal device 3 and the orderer terminal device 1 through a website or application. The seller terminal device (3) is a terminal device used by the seller's officials and is a terminal device that can access the server (2) through a specific website or application, such as a smartphone, tablet PC, general PC, or POS terminal device. It can mean.

Referring to Figures 2 and 3, the on-demand production management system according to an embodiment of the present invention receives orders from consumers, processes the orders in section 5, and manages the process of delivering them to the rider 7. It is a production management system for production facilities. Specifically, the on-demand production management system receives raw order information including information about orders from one or more platforms 10 by the multi-channel order reception unit 110 included in the order reception and parsing module 100. can do. The order raw information parsing module 120 included in the order reception and parsing module 100 parses the raw order information to generate order information 440. The order information 440 contains information about the order received from the consumer, such as order number, product unit, component unit, orderer information, address, orderer contact information, order processing status, rider (7) information, and rider (7) arrival status information. and includes information for delivering the order to the consumer. Here, an order consists of one or more products, and the products consist of one or more components. The product unit contains information about the products included in the order and is created individually for each product. The component unit includes information about the component and is individually created for each component. Meanwhile, each component unit included in the order information 440 is assigned to each section 5 by the production section routing module 200. In one embodiment of the present invention, there is a worker in charge of each section 5, and the worker produces components of the component unit assigned to the section 5 according to instructions in the production section routing module 200. , Components that have completed production are affixed with a 3D barcode. The component with the 3D barcode attached is moved to the packaging section 5, and the worker in charge of the packaging section 5 inserts the 3D barcode attached to the component into the assembly barcode system 310 included in the package module 300. Enter the order number, product number, and component number to search. The worker in the packaging section 5 completes the product by packaging one or more components together based on the order number, product number, and component number, and completes the order by packaging one or more products together. Meanwhile, the rider check system 320 included in the package module 300 receives the arrival status of the rider 7 in charge of the order. The rider 7 receives and delivers the completed order from the packaging section 5.

Below, each configuration will be described in more detail with reference to FIGS. 4 to 7 .

4 to 7, the on-demand production management system according to an embodiment of the present invention includes an order reception and parsing module 100, a production section routing module 200, a package module 300, and a database 400. It is composed by: In one embodiment of the present invention, the on-demand production management system is included in the server 2.

Referring to Figure 5, the order reception and parsing module 100 includes a multi-channel order reception unit 110 and an order raw information parsing module 120.

The multi-channel order reception unit 110 receives raw order information including information about the order from one or more platforms 10. In one embodiment of the present invention, the multi-channel order reception unit 110 can collect orders for all brands 9 received from a plurality of platforms 10 in real time.

The order raw information parsing module 120 parses the raw order information received from the multi-channel order reception unit 110 to generate order information 440 and stores it in the database 400. In one embodiment of the present invention, the order raw information parsing module 120 parses the raw order information collected from a plurality of platforms 10, integrates it into a certain format, converts it into internal data, and stores it in the database 400. The order information 440 includes order number, product unit, component unit, orderer information, address, orderer contact information, order processing status, rider 7 information, and rider 7 arrival status information. Here, the product unit includes a product number and a product code, and the component unit includes a component number, component code, and cooking status information for the component. Here, the product number is a unique identification number for distinguishing and managing each product unit. The product code is an identification code to distinguish the type of product. In one embodiment of the present invention, each type of product has an individual product code, and the product code is stored and managed in the basic product information 420 included in the database 400. The product code included in the product unit is assigned by designating one of the product codes stored in the basic product information 420 included in the database 400. Additionally, the component number is a unique identification number for distinguishing and managing each component unit. The component code is an identification code to distinguish the type of component. In one embodiment of the present invention, each type of component has an individual component code, and the component code is stored and managed in the component basic information 430 included in the database 400. The component code included in the component unit is assigned by designating one of the component codes stored in the component basic information 430 included in the database 400. The cooking status information is information about whether cooking of the component has been completed.

Referring to Figure 6, the production section routing module 200 includes a production plan AI 210 and a display control unit 220. The production section routing module 200 specifies a type for each section 5 and stores it in the section 5 information, and assigns a component unit of the order information 440 based on the component basic information 430. After deriving the type of section (5) that can be, the component unit is assigned to one of the sections (5) corresponding to the type of section (5), and the cooking order of the component unit assigned to section (5) Generating a number, recalling the section processing status 450 including the section 5 information of the section 5 to which the component unit is assigned, the component unit of the order information 440, and the cooking sequence number of the component unit. Save it in the database 400. In addition, the production section routing module 200 can change the cooking status information of the component unit in the order information 440 to cooked, and when the cooking status information of the component unit in the order information 440 is cooked. A 3D barcode containing the component number included in the component unit, the order number of the order information 440 including the component unit, and the product number of the product unit included in the order information 440 is output. Specifically, the production section routing module 200 specifies a type for each section 5, and updates the type of the section 5 in the section 5 information for each section 5 to enter the database 400. ) to save it. In one embodiment of the present invention, the type of each section 5 may be specified in advance before receiving an order from the orderer terminal device 1. The production section routing module 200 derives the type of section 5 to which the component unit of the order information 440 can be assigned based on the component basic information 430, and assigns the product to one of the sections 5. Allocate the component unit. Here, component basic information 430, which will be described later, includes the type of section 5 that can be assigned to each component, and the production section routing module 200 configures the component based on the component code included in the component unit. Derive the component to which the unit corresponds, and derive the type of section 5 to which the component unit is to be assigned based on the type of section 5 that can be assigned to each component included in the component basic information 430. do. Thereafter, the production section routing module 200 allocates the component unit to one of the sections (5) corresponding to the type of section (5). Additionally, the production section routing module 200 assigns a cooking sequence number to the component unit assigned to the section 5. Here, the cooking sequence number is the order in which each component unit is assigned to the section (5). In addition, the section 5 to which the component unit is assigned, the component number of the component of the order information 440, and the cooking sequence number are entered into the section processing status 450 included in the database 400 by the section processing status 450. It is saved. Here, the section processing status 450 is information updated in real time for each section 5, and is information for managing the allocation of component units to the section 5. In addition, the production section routing module 200 can input cooking completion into the component unit of the order information 440, and when cooking completion is input into the component unit of the order information 440, the order information of the component Print a 3D barcode containing the order number, product number, and component number included in (440). In one embodiment of the present invention, the 3D barcode is printed in the form of a sticker and attached to the component by the worker in charge of each section 5, and the 3D barcode is used to order the cooked component in the package module 300, which will be described later. It is used when packaging together.

When a component unit is assigned to the section 5, the display control unit 220 displays the component number of the component unit assigned to the section 5. In one embodiment of the present invention, the display unit serves to display tasks to be instructed to the operator in charge of each section (5).

Referring to FIG. 7, the package module 300 includes an assembly barcode system 310 and a lidar check system 320.

The assembly barcode system 310 updates the order processing status of the order information 440 corresponding to the order number included in the input 3D barcode information, and orders the order number included in the 3D barcode based on the 3D barcode. Display information 440. In one embodiment of the present invention, the assembly barcode system 310 receives a 3D barcode attached to a component and displays order information 440 included in the 3D barcode. The worker in the packaging section 5 combines and packages one or more components corresponding to the order information 440 into a product based on the order information 440 displayed by the assembly barcode system 310, and packs the order information 440 ) Package one or more products corresponding to the order together. Additionally, the assembly barcode system 310 updates the order processing status included in the order information 440 of the component corresponding to the input 3D barcode. In one embodiment of the present invention, the assembly barcode system 310 inputs the order processing status as complete when a 3D barcode containing the component numbers of all component units included in the order information 440 is input.

Referring to FIG. 8, the database 400 includes section basic information 410, product basic information 420, component basic information 430, order information 440 for each order, and each section 5. Save the section processing status (450). Here, the section basic information 410, product basic information 420, and component basic information 430 are information stored and managed in advance in the database 400, and order information 440 and section processing status 450 is information that is updated in real time according to the processing of orders.

The section basic information 410 includes the maximum number of components that section 5 can process at once and section 5 information for each section 5. Additionally, the section 5 information is stored by specifying the type of section 5 by the production section routing module 200. In one embodiment of the present invention, the section (5) information includes an identification code for each section (5).

The basic product information 420 includes the product code for each three products and the component configuration included in the product. In one embodiment of the present invention, the basic product information 420 includes basic information about the product, such as product code, component configuration, product price, and product name for each product.

The component basic information 430 includes a component code for each component and the type of section 5 that can be assigned to each component. In one embodiment of the present invention, the component basic information 430 includes the component code for each component, the type of section 5 that can be assigned, the production unit price of the component, the name of the component, the materials for producing the component, etc. Contains basic information about the component.

The order information 440 includes order number, product unit, component unit, orderer information, address, orderer contact information, order processing status, rider 7 information, and rider 7 arrival status information.

In one embodiment of the present invention, the order information 440 is individually created for each order and stored in the database 400.

The product unit includes a product number and product code. The product unit is individually created for each product included in the order, and the product number is a unique value for the product unit. The order raw information parsing module 120 parses the raw order information and provides order information 440. Granted upon creation. The product code is an identification code to distinguish the type of product. In one embodiment of the present invention, the product unit includes basic information about the product such as product number, product code, product code, component configuration, product price, and product name, and the basic information about the product is the product. Based on basic information (420).

The component unit includes a component number, component code, and cooking status information. The component unit is individually created for each component included in the product of the order, and the component number is a unique value for the component unit. The order raw information parsing module 120 parses the raw order information and generates order information 440. ) is given when creating. The component code is an identification code to distinguish the type of the component. In one embodiment of the present invention, the component unit includes basic information about the component, such as the component number, component code, cooking status information, production cost of the component, name of the component, and materials for producing the component. , The basic information about the component is based on the component basic information 430.

Meanwhile, in one embodiment of the present invention, the database 400 includes production method basic information 460, and the production method basic information 460 includes the production method code of each production method, and the section ( 5) The information includes a production method code, and the production section routing module 200 specifies the type of the section (5) based on the production method code stored in the section (5) information. Here, the production method refers to a method of cooking the component, and various embodiments of the production method such as boiling, steaming, cooking, baking, frying, and stir-frying are possible. Additionally, the production method code is an identification code to distinguish the type of production method. Specifically, the database 400 includes production method basic information 460, which includes a production method code for each production method, the name of the production method, a description of the production method, It includes basic information on production methods, including manuals. Section (5) information in each section (5) above includes a production method code. Here, the production method code of the section (5) information is based on the basic production method information 460 included in the database 400. The production section routing module 200 specifies the type of the section 5 based on the production method code. Meanwhile, when the production section routing module 200 derives the type of section 5 to which the component unit can be assigned, the section that can be assigned to each component included in the component basic information 430 ( 5) It is based on the type. Accordingly, the production section routing module 200 derives the type of section 5 to which the component unit can be assigned based on the production method code of the section 5 information. Afterwards, the production section routing module 200 allocates the component unit to one of the sections (5) corresponding to the type of the section (5). In one embodiment of the present invention, the section 5 is assigned components based on the components specified in the section 5.

Meanwhile, in one embodiment of the present invention, the database 400 includes basic piece information 470, the basic piece information 470 includes the piece code of each piece, and the section (5) information It includes a product code, and the production section routing module 200 specifies the type of the section (5) based on the product code stored in the section (5) information. Here, the utensil refers to a cooking utensil provided in the section 5, and the utensil may be of various embodiments such as a gas range, microwave oven, induction range, rice cooker, and toaster. Additionally, the item code is an identification code for distinguishing the type of the item. Specifically, the database 400 includes basic piece information 470, and the piece basic information 470 includes the piece code for each piece as well as basic information about the piece, such as the name of the piece, description of the piece, and manual. Contains information. Section (5) information of each section (5) above includes a product code. Here, the item code of the section 5 information is based on the basic item information 470 included in the database 400. The production section routing module 200 specifies the type of the section 5 based on the product code. Meanwhile, when the production section routing module 200 derives the type of section 5 to which the component unit can be assigned, the section that can be assigned to each component included in the component basic information 430 ( 5) It is based on the type. Accordingly, the production section routing module 200 derives the type of section 5 to which the component unit can be assigned based on the product code of the section 5 information. Afterwards, the production section routing module 200 allocates the component unit to one of the sections (5) corresponding to the type of the section (5). In one embodiment of the present invention, the section 5 is assigned components based on the pieces assigned to the section 5.

Meanwhile, in one embodiment of the present invention, the database 400 includes production method basic information and product basic information 470, and the production method basic information 460 includes the production method code of each production method. , the piece basic information 470 includes the piece code of each piece and the production method code that can be assigned to each piece code, and the section (5) information includes the piece code,

The production section routing module 200 specifies a production method code for the product code included in the section (5) information of each section (5) based on the product basic information 470 and adds it to the section (5) information. The production section routing module 200 designates the type of the section (5) based on the production method code stored in the section (5) information. Specifically, the product code is assigned a production method code based on the product basic information 470. In one embodiment of the present invention, one or more production methods that can be implemented depending on the type of the article are determined. Meanwhile, the production section routing module 200 designates one of the production method codes that can be assigned to section (5) of the section (5) information according to the product code included in the section (5) information and Save it in information. Thereafter, the production section routing module 200 specifies the type of the section (5) based on the production method code stored in the section (5) information. Meanwhile, when the production section routing module 200 derives the type of section 5 to which the component unit can be assigned, the section that can be assigned to each component included in the component basic information 430 ( 5) It is based on the type. Accordingly, the production section routing module 200 derives the type of section 5 to which the component unit can be assigned based on the production method code of the section 5 information. Afterwards, the production section routing module 200 allocates the component unit to one of the sections (5) corresponding to the type of the section (5). In one embodiment of the present invention, each section (5) is determined by one article, the article is assigned a designable production method, and the component is configured to produce the section (5) based on the production method specified in the section (5). 5) is assigned.

Meanwhile, in another embodiment of the present invention, the production section routing module 200 can change the production method code stored in the section (5) information of each section (5) based on the basic product information (470), , the type of section (5) in which the production method code has been changed can be changed.

In one embodiment of the present invention, each section (5) is determined by one article, the article is assigned a designable production method, and the component is configured to produce the section (5) based on the production method specified in the section (5). 5) is assigned. In addition, the production method assigned to the piece of section (5) can be changed within the production method that can be assigned to the piece, and when the production method is changed, the type of section (5) is changed to the production section routing module ( 200) can be re-designated.

Meanwhile, in one embodiment of the present invention, the production section routing module 200 includes a production plan AI 210, the section (5) information includes operation rate information for section (5), and section ( 5) The maximum operation rate information that can be assigned to this component unit can be set and stored, and when the component unit is assigned to section (5), the production planning AI 210 sets the operation rate information stored in the section (5) information. When a 3D barcode is input to the assembly barcode system 310, the package module 300 updates the operation rate information of the section 5 to which the component unit of the component number included in the 3D barcode is assigned, The production section routing module 200 does not allocate a component unit to the section 5 with an operation rate higher than the maximum operation rate set based on the section 5 information. Specifically, when the section 5 is assigned a component unit, the operation rate stored in the section 5 information increases. In one embodiment of the present invention, the component basic information 430 includes the production time for each component, and the value of the operation rate that increases when the section 5 is assigned a component unit is the component basic information 430. ) is based on the component production time. Meanwhile, when the 3D barcode of the component unit assigned to the section 5 is input to the section 5 in the assembly barcode system 310, the operation rate stored in the section 5 information decreases. In one embodiment of the present invention, when the 3D barcode of the component unit is input to the assembly barcode system 310, the value of the operation rate of the section 5 information that decreases is when the section 5 is assigned the component unit. This is the same as the increased operation rate. Meanwhile, the production section routing module 200 does not allocate a component unit to the section 5 with an operation rate higher than the maximum operation rate set based on the section 5 information. In one embodiment of the present invention, the production planning AI 210 manages production of the section 5 by allocating components to the section 5 based on the operation rate.

Meanwhile, in one embodiment of the present invention, the production section routing module 200 includes a production plan AI 210, and the component basic information 430 includes the material code of each material for producing each component, each It contains material information including the quantity of each material required for the production of the component, and the database 400 includes inventory information 480 including the quantity of the material, and the production plan AI 210 is When the section routing module 200 specifies a section 5 to which a component unit is to be allocated, the quantity of materials in the inventory information 480 is updated, and the production section routing module 200 updates the inventory information 480. If the quantity of material stored in is less than the quantity of material required to produce the component of the order information 440, the component unit of the component is not allocated to the section 5. Here, the material code is an identification code to distinguish the type of material. In one embodiment of the present invention, the material information includes basic information about the material, such as the material code, the quantity of each material required to produce the component, as well as the name, price, expiration date, and purchase date of the material. Specifically, inventory information 480 included in the database 400 is updated when a component is assigned to the section 5. Meanwhile, in one embodiment of the present invention, materials in a production facility are divided into warehouse inventory and line inventory. The line inventory is the quantity of each material prepared in section 5 for component production, and the warehouse inventory is the quantity of material stored in the warehouse and not prepared in section 5. Here, the inventory information 480 included in the database 400 includes only line inventory excluding warehouse inventory. Meanwhile, when a component unit is assigned to the section 5, the production plan AI 210 provides the quantity of each material required to produce the components of the component unit based on the material information of the component basic information 430. Reduces the quantity of materials stored in the inventory information 480. If the quantity of materials stored in the inventory information 480 is less than the quantity of materials required to produce a component, the production section routing module 200 does not allocate the component unit of the component to the section 5. In one embodiment of the invention, unassigned components in section 5 due to low material quantities wait to be assigned to section 5 until said section 5 is replenished with material. In addition, in one embodiment of the present invention, the operator of the section 5 replenishes materials from the warehouse to the section 5 when the section 5 is short of materials and allocation of components is pending, and replenishes. The quantity of the used material is entered into the inventory information 480 and updated. In one embodiment of the present invention, the production planning AI 210 allocates components to the section 5 based on inventory information 480 and manages production of the section 5.

Meanwhile, in one embodiment of the present invention, the production section routing module 200 determines the rider 7 included in the order information 440 based on the arrival of the rider 7 included in the order information 440. When arrives, the component unit of the component information included in the order information 440 is preferentially allocated to the section 5. In one embodiment of the present invention, the production section routing module 200 includes the order information 440 corresponding to the order when the production of the order is not completed and the rider 7 in charge of the order arrives. The above orders are processed first by assigning component units to section (5).

Hereinafter, the on-demand production management method according to the above configuration will be described in detail with reference to FIG. 9.

The present invention includes (a) collecting raw order information from one or more platforms 10 in the order reception and parsing module 100; (b) parsing the raw order information in the order reception and parsing module 100; generating order information 440 and storing it in the database 400, (c) generating a cooking sequence number in the component unit of the order information 440 in the production section routing module 200, (d) ) In the production section routing module 200, sequentially assigning each component unit to each section 5 according to the cooking sequence number, (e) in the production section routing module 200, the section to which the component unit is assigned ( 5) displaying the component number of the component unit, (f) in the production section routing module 200, section (5) information of the section (5) to which the component unit is assigned and components of the order information (440) storing the cooking sequence numbers of the unit and the component unit in the section processing status 450 included in the database 400; (g) in the production section routing module 200, the component unit of the order information 440; Change the cooking status information to cooked, and change the component number included in the component unit, the order number of the order information 440 including the component unit, and the product number of the product unit included in the order information 440. A step of outputting a 3D barcode including, (h) in the package module 300, the order number, product number, and component number included in the input 3D barcode are displayed to provide combined packaging information for each order, and the order information 440 ), when the 3D barcodes of all components corresponding to are input, inputting the order processing status of the order information 440 as packaging complete, (i) in the package module 300, the lidar check system 320 checks the lidar 7 ) It includes the step of receiving input of arrival status.

Specifically, in step (a), the multi-channel order reception unit 110 included in the order reception and parsing module 100 collects raw order information ordered on the orderer terminal device 1 from a plurality of platforms 10. do. In step (b), the order raw information parsing module included in the order reception and parsing module 100 parses the raw order information collected in step (a) to generate order information 440 and store it in the database 400. ) to save it. Here, the order information 440 includes order number, product unit, component unit, orderer information, address, orderer contact information, order processing status, rider 7 information, and rider 7 arrival status information. Additionally, the component unit included in the order information 440 includes a component number, component code, and cooking status information. Meanwhile, in step (c), the production section routing module 200 generates a cooking sequence number in the component unit included in the order information 440 generated in step (b). In step (d), the production section routing module 200 sequentially assigns component units to each section 5 according to the cooking sequence number generated in step (c). In step (e), the display control unit 220 included in the production section routing module 200 displays the component number of the component unit assigned to the section 5 in step (d) to the section 5. do. In step (f), the production section routing module 200 stores section (5) information of the section (5) assigned a component unit in step (d) and order information 440 generated in step (b). ) component units and the cooking order numbers for the component units created in step (c) are stored in the section processing status 450 included in the database 400. In step (g), the production section routing module 200 changes the cooking status information of the component unit in the order information 440 assigned in step (d) to cooked, and A 3D barcode containing the component number, the order number of the order information 440 including the component unit, and the product number of the product unit included in the order information 440 is output. In one embodiment of the present invention, in step (g), the person in charge of each section (5) completes cooking the component corresponding to the component unit assigned to section (5) in step (d), and cooking is completed. Enter . Thereafter, the production section routing module 200 receives cooking completion and changes the cooking status information of the component unit in the order information 440 to cooking completion. In addition, the production section routing module 200 outputs a 3D barcode including the order number, product number, and component number for the order information 440 of the component for which cooking completion has been input, and the person in charge of the section 5 is responsible for cooking. Attach a 3D barcode to the completed component. Meanwhile, in step (h), when the 3D barcode output in step (g) is input into the assembly barcode system 310 included in the package module 300, the order number and product number included in the 3D barcode and Component numbers are displayed to provide combined packaging information for each order, and when the 3D barcodes of all components corresponding to the order information 440 are entered, the order processing status of the order information 440 is entered as packaging complete. In one embodiment of the present invention, in step (h), the worker in charge of the packaging section 5 changes the 3D barcode attached to each component in step (g) into an assembly barcode included in the package module 300. Enter it into the system. The package module 300 displays the order number, product number, and component number included in the 3D barcode, and the worker combines and packages the components according to the order based on the displayed order number, product number, and component number. Meanwhile, in step (i), the rider check system 320 included in the package module 300 receives input as to whether the rider 7 has arrived. In one embodiment of the present invention, step (i) includes the

The rider 7 in charge of delivery of the order inputs the arrival status into the package module 300, receives the packaged order in step (h), and delivers it.

Meanwhile, the embodiments of the present invention disclosed in the specification and drawings are merely provided as specific examples to easily explain the technical content and aid understanding of the present invention, and are not intended to limit the scope of the present invention. It is obvious to those skilled in the art that in addition to the embodiments disclosed herein, other modifications based on the technical idea of the present invention can be implemented.

1: Orderer terminal device
2: Server
3: Vendor terminal device
4: Internet
5: Section
6: Packaging
7: rider
8: Order delivery address
9: Brand
10: Platform
100: Order reception and parsing module
110: Multi-channel order reception department
120: Order raw information parsing module
200: Production section routing module
210: Production planning AI
220: display control unit
300: package module
310: Assembly barcode system
320: Rider check system
400: Database
410: Section basic information
420: Basic product information
430: Component basic information
440: Order information
450: Section processing status
460: Basic information on production method
470: Basic information on property
480: Inventory information

Claims (9)

In the production management system of the production facility, which is included in the server that receives the consumer's order and manages the process of processing the order in the section of the production facility and delivering it to the rider,
Includes order reception and parsing module, production section routing module, package module, and database.
The order reception and parsing module includes a multi-channel order reception unit and a raw order information parsing module,
The production section routing module includes a display control unit,
The package module includes an assembly barcode system and a lidar check system,
The database stores basic section information, basic product information, basic component information, order information for each order, and section processing status for each section.
The section basic information includes the maximum number of components that the section can process at once, and section information for each section,
The basic product information includes the product code for each product and the component composition included in the product,
The component basic information includes a component code for each component and the type of section that can be assigned to each component,
The multi-channel order reception unit receives raw order information including information about the order from one or more platforms,
The order raw information parsing module parses the raw order information received from the multi-channel order reception unit, generates order information, and stores it in the database,
The order information includes order number, product unit, component unit, orderer information, address, orderer contact information, order processing status, rider information, and rider arrival status information,
The product unit includes a product number and product code,
The component unit includes a component number, component code, and cooking status information,
The production section routing module specifies a type for each section and stores it in the section information, derives the type of section to which the component unit of the order information can be assigned based on the component basic information, and then determines the type of the section. Assigning the component unit to one of the corresponding sections, generating a cooking sequence number of the component unit assigned to the section, section information of the section to which the component unit is assigned, the component unit of the order information, and the component unit The section processing status, including the cooking sequence number, is stored in the database,
The production section routing module can change the cooking status information of the component unit in the order information to cooked, and when the cooking status information of the component unit in the order information is cooked, the component number included in the component unit and the component Prints a 3D barcode containing the order number of the order information containing the unit and the product number of the product unit included in the order information,
When a component unit is assigned to a section, the display control unit displays the component number of the component unit assigned to the section,
The assembly barcode system updates the order processing status of order information corresponding to the order number included in the input 3D barcode information, and displays the order information of the order number included in the 3D barcode,
The rider check system can change the arrival status of the rider in charge of the order information by receiving the arrival status of the rider in charge of the order information,
The production section routing module preferentially allocates the component unit included in the order information to a section when the rider included in the order information arrives based on the arrival of the rider included in the order information,
The database includes basic information on production methods,
The production method basic information includes the production method code of each production method,
The section information includes the production method code,
The production section routing module is an on-demand production management system characterized in that it specifies the type of the section based on the production method code stored in the section information. delete In the production management system of the production facility, which is included in the server that receives the consumer's order and manages the process of processing the order in the section of the production facility and delivering it to the rider,
Includes order reception and parsing module, production section routing module, package module, and database.
The order reception and parsing module includes a multi-channel order reception unit and a raw order information parsing module,
The production section routing module includes a display control unit,
The package module includes an assembly barcode system and a lidar check system,
The database stores basic section information, basic product information, basic component information, order information for each order, and section processing status for each section.
The section basic information includes the maximum number of components that the section can process at once, and section information for each section,
The basic product information includes the product code for each product and the component composition included in the product,
The component basic information includes a component code for each component and the type of section that can be assigned to each component,
The multi-channel order reception unit receives raw order information including information about the order from one or more platforms,
The order raw information parsing module parses the raw order information received from the multi-channel order reception unit, generates order information, and stores it in the database,
The order information includes order number, product unit, component unit, orderer information, address, orderer contact information, order processing status, rider information, and rider arrival status information,
The product unit includes a product number and product code,
The component unit includes a component number, component code, and cooking status information,
The production section routing module specifies a type for each section and stores it in the section information, derives the type of section to which the component unit of the order information can be assigned based on the component basic information, and then determines the type of the section. Assigning the component unit to one of the corresponding sections, generating a cooking sequence number of the component unit assigned to the section, section information of the section to which the component unit is assigned, the component unit of the order information, and the component unit The section processing status, including the cooking sequence number, is stored in the database,
The production section routing module can change the cooking status information of the component unit in the order information to cooked, and when the cooking status information of the component unit in the order information is cooked, the component number included in the component unit and the component Prints a 3D barcode containing the order number of the order information containing the unit and the product number of the product unit included in the order information,
When a component unit is assigned to a section, the display control unit displays the component number of the component unit assigned to the section,
The assembly barcode system updates the order processing status of order information corresponding to the order number included in the input 3D barcode information and displays the order information of the order number included in the 3D barcode,
The rider check system can change the arrival status of the rider in charge of the order information by receiving the arrival status of the rider in charge of the order information,
The production section routing module preferentially allocates the component unit included in the order information to a section when the rider included in the order information arrives based on the arrival of the rider included in the order information,
The database includes basic property information,
The basic piece information includes the piece code of each piece,
The section information includes the product code,
The production section routing module is an on-demand production management system characterized in that it specifies the type of the section based on the product code stored in the section information. In the production management system of the production facility, which is included in the server that receives the consumer's order and manages the process of processing the order in the section of the production facility and delivering it to the rider,
Includes order reception and parsing module, production section routing module, package module, and database.
The order reception and parsing module includes a multi-channel order reception unit and a raw order information parsing module,
The production section routing module includes a display control unit,
The package module includes an assembly barcode system and a lidar check system,
The database stores basic section information, basic product information, basic component information, order information for each order, and section processing status for each section.
The section basic information includes the maximum number of components that the section can process at once, and section information for each section,
The basic product information includes the product code for each product and the component composition included in the product,
The component basic information includes a component code for each component and the type of section that can be assigned to each component,
The multi-channel order reception unit receives raw order information including information about the order from one or more platforms,
The order raw information parsing module parses the raw order information received from the multi-channel order reception unit, generates order information, and stores it in the database,
The order information includes order number, product unit, component unit, orderer information, address, orderer contact information, order processing status, rider information, and rider arrival status information,
The product unit includes a product number and product code,
The component unit includes a component number, component code, and cooking status information,
The production section routing module specifies a type for each section and stores it in the section information, derives the type of section to which the component unit of the order information can be assigned based on the component basic information, and then determines the type of the section. Assigning the component unit to one of the corresponding sections, generating a cooking sequence number of the component unit assigned to the section, section information of the section to which the component unit is assigned, the component unit of the order information, and the component unit The section processing status, including the cooking sequence number, is stored in the database,
The production section routing module can change the cooking status information of the component unit in the order information to cooked, and when the cooking status information of the component unit in the order information is cooked, the component number included in the component unit and the component Prints a 3D barcode containing the order number of the order information containing the unit and the product number of the product unit included in the order information,
When a component unit is assigned to a section, the display control unit displays the component number of the component unit assigned to the section,
The assembly barcode system updates the order processing status of order information corresponding to the order number included in the input 3D barcode information, and displays the order information of the order number included in the 3D barcode,
The rider check system can change the arrival status of the rider in charge of the order information by receiving the arrival status of the rider in charge of the order information,
The production section routing module preferentially allocates the component unit included in the order information to a section when the rider included in the order information arrives based on the arrival of the rider included in the order information,
The database includes basic information on production methods and basic information on property,
The production method basic information includes the production method code of each production method,
The basic product information includes the product code of each product and the production method code that can be assigned to each product code,
The section information includes the product code,
The production section routing module specifies a production method code for the product code included in the section information of each section based on the product basic information and stores it in the section information,
The production section routing module is an on-demand production management system characterized in that it specifies the type of the section based on the production method code stored in the section information. According to paragraph 4,
The production section routing module is capable of changing the production method code stored in the section information of each section based on the basic product information and changing the type of section for which the production method code has been changed. An on-demand production management system. According to claim 1 or 3 or 4,
The production section routing module includes production planning AI,
The section information includes operation rate information for the section, and the maximum operation rate information at which the section can be assigned a component unit can be set and stored.
When a component unit is assigned to a section, the production planning AI updates the operation rate information stored in the section information,
When a 3D barcode is input to the assembly barcode system, the package module updates the operation rate information of the section to which the component unit of the component number included in the 3D barcode has been assigned,
An on-demand production management system, wherein the production section routing module does not allocate component units to sections with an operation rate higher than the maximum operation rate set based on section information. According to claim 1 or 3 or 4,
The production section routing module includes production planning AI,
The component basic information includes material information including the material code of each material for producing each component and the quantity of each material required for producing each component,
The database includes inventory information including the quantity of the material,
The production plan AI updates the quantity of materials in the inventory information when the production section routing module specifies a section to which component units will be assigned,
On-demand production management, wherein the production section routing module does not assign the component unit of the component to a section when the quantity of material stored in the inventory information is less than the quantity of material required to produce the component of the order information. system.
delete In the production management method of the production management facility, which is included in the server that receives the consumer's order and manages the process of processing the order in the section and delivering it to the rider,
(a) in the order reception and parsing module, collecting raw order information from one or more platforms;
(b) in the order reception and parsing module, parsing the raw order information to generate order information and storing it in a database;
(c) generating a cooking sequence number in a component unit of the order information in the production section routing module;
(d) in the production section routing module, sequentially assigning each component unit to each section according to the cooking sequence number;
(e) in the production section routing module, displaying the component number of the component unit in the section to which the component unit is assigned;
(f) in the production section routing module, storing the section information of the section to which the component unit is assigned, the component unit of the order information, and the cooking sequence number of the component unit in the section processing status included in the database;
(g) In the production section routing module, the cooking status information of the component unit of the order information is changed to cooked, and the component number included in the component unit and the order number of the order information including the component unit and the order information Printing a 3D barcode including the product number of the product unit included in;
(h) In the package module, the order number, product number, and component number included in the entered 3D barcode are displayed to provide combined packaging information for each order, and when the 3D barcodes of all components corresponding to the order information are entered, the order information Entering the order processing status as packaging complete;
(i) In the package module, the rider check system is characterized in that it includes a step of receiving input of whether the rider has arrived,
In step (f), the database includes production method basic information, the database stores component basic information, the production method basic information includes the production method code of each production method, and the section information includes the production method contains code,
In step (d), the production section routing module specifies a type for each section and stores it in the section information, and derives the type of section to which the component unit of the order information can be assigned based on the component basic information. Then, the component unit is assigned to one of the sections corresponding to the type of the section, and the production section routing module specifies the type of the section based on the production method code stored in the section information,
In step (b), the order information includes order number, product unit, component unit, order processing status, and rider arrival information,
In step (d), the production section routing module preferentially allocates the component unit included in the order information to a section when the rider included in the order information arrives based on the arrival of the rider included in the order information. An on-demand production management method characterized by: