KR20210106737A - Material supply and management system using material consumption collection module - Google Patents

Abstract

The present invention relates to a logistics supply and management system using a material consumption collection module. The logistics supply and management system includes: a material consumption collection module which detects whether the material supplied to a production line is supplied, and generates and transmits material counting information for the detected material; a material management control unit which receives the material counting information and analyzes the material counting information, material quantity information, and production line space information to generate and transmit information on a supply time of the material and the quantity information of the material to be supplied; and a logistics supply system for receiving the supply time of the material and the quantity information of the material to be supplied, and supplying the material corresponding to a supply time of the received material and the quantity information of the material to be supplied to the production line at that time. Accordingly, it is possible to shorten a production idle time, thereby improving productivity and reducing production costs.

Description

Logistics supply and management system using material consumption collection module {Material supply and management system using material consumption collection module}

The present invention relates to a logistics supply and management system using a material consumption collection module, and more particularly, it is not necessary to stockpile more than a certain amount of materials or logistics on the production line, so that the space in the production line can be used to the maximum, and in a timely manner It relates to a logistics supply and management system using a material consumption collection module that can reduce production idle time by supplying materials or logistics, thereby improving productivity and reducing production costs.

In general, when logistics movement occurs between the material supplier who supplies the material and the processing business operator that processes the material, the logistics movement related documents are exchanged between the material supplier and the processing business operator and the logistics movement is managed based on the documents. There is a problem in that it takes a lot of time to identify the location of the logistics movement that occurs between the supplier and the processing business operator, and it takes a long time to process the warehousing, so that the logistics management between various material suppliers and the processing business operator cannot be efficiently performed.

In particular, when a product is produced in multiple production lines, not only the material supply and demand management within the production site but also the management of the site space must be performed simultaneously. There is a problem in that there is a lack of work space and congestion, and when a small amount of material is loaded, a shortage of material occurs frequently, resulting in loss of production time.

In order to solve this problem, various methods are used to improve the logistics supply system in various aspects so that the design of the production line and the optimization of the logistics movement are made.

For example, in Korean Patent Laid-Open Publication No. 10-2013-0023655, there is a logistics management system for managing material logistics that occurs between a material supplier who supplies a material and a processing business operator that receives and processes the material, the material connected to communication through a communication network. a supply chain management system that provides a service for managing material logistics information generated between a supplier terminal and a processing operator terminal; a material supplier terminal that communicates with the supply chain management system through a communication network to manage material supply schedules, prepare transaction specifications, and manage warehousing processing requests; A logistics management system has been published, characterized in that it includes a processing business operator terminal that communicates with the supply chain management system through a communication network and performs raw material delivery request management and accepted material registration management.

However, in the case of the above-mentioned prior art literature, it is possible to satisfy the customer demand delivery date without piling up inventory. If inventory is not prepared, there is a problem in that it is difficult to actively cope with the ever-changing environment.

In addition, more accurate inventory status information cannot be created because information on the stock status is not shared within the work space where product production is made, and accordingly, it is necessary to provide accurate supply time information of materials for product production. Because it is difficult, the efficiency of product production is lowered, and there are problems in the timeliness and accuracy of the supply of materials.

Republic of Korea Patent Publication No. 10-2013-0023655

In order to solve this problem, the present invention has been devised by the above-mentioned background technology, and the material calculated through real-time work performance information collected through the material consumption collection module installed in the production line and the material information waiting in the production line The production line does not need to stockpile more than a certain amount of materials or logistics on the production line by generating information on the expected consumption time and generating material supply request information based on the generated material consumption forecast information and sending it to the logistics supply system. The purpose of this is to provide a logistics supply and management system that can maximize the use of space in the interior and can reduce production idle time by supplying materials or logistics in a timely manner, thereby improving productivity and reducing production costs.

In addition, the present invention allows production workers and logistics workers to share real-time work performance information, material consumption expected time information, and material supply request information collected through the consumption collection module in real time, so that work related to each other at the production site and the logistics site The purpose of providing a logistics supply and management system that facilitates information exchange between workers who There is this.

In addition, the present invention calculates the information on the optimal material supply timing and quantity for the surplus space calculation of the production line, the space calculation of the material waiting for production, the calculation of the consumption material according to the passage of time, and the remaining amount of the material to be supplied compared to the production instruction amount Therefore, when the time of material supply arrives, the logistics supply system automatically supplies the necessary materials in the required quantity, thereby maximizing space efficiency and providing a logistics supply and management system that prevents production delays. There is this.

However, the object of the present invention is not limited thereto, and even if not explicitly mentioned, the object or effect that can be grasped from the solving means or embodiment of the problem is also included therein.

According to an embodiment of the present invention for achieving the above object, a material consumption collection module for detecting whether the material supplied to the production line is supplied, and generating and transmitting material counting information for the sensed material; a material management control unit that receives the material counting information and analyzes the material counting information, material quantity information, and production line space information to generate and transmit material supply timing and quantity information of materials to be supplied; and a logistics supply system for receiving the supply time of the material and the quantity information of the material to be supplied, and supplying the material corresponding to the received material supply time and quantity information of the material to be supplied to the production line at the time point; characterized in that

According to an embodiment of the present invention, the material consumption calculation module includes: a sensor unit that transmits a detection signal to detect whether the material is supplied; a signal reflection unit for reflecting the sensing signal to be re-inputted into the sensor unit; and a position adjusting unit for controlling the signal reflection unit and the sensor unit to be positioned on the same line.

According to an embodiment of the present invention, the sensor unit is characterized in that it determines that the material is supplied only when the detection signal is not re-inputted through the signal reflection unit and generates counting information.

According to an embodiment of the present invention, the material management system, the maximum space information of the production line, the available space information is stored, the space information management unit for providing the stored information in response to the request of the material consumption calculation unit; a material information management unit that stores quantity information on materials provided in the production line and provides the stored information in response to the request of the material consumption calculation unit; When the material counting information is received, the telegrams transmitted from the spatial information management unit and the material information management unit are analyzed to provide unit production quantity information for each production line, material consumption information, remaining amount of waiting material for each production line, material supply time and materials to be supplied. a material consumption calculation unit for calculating quantity information of and transmitting the calculated information; and a self-control control unit receiving the information calculated from the material consumption collection module and the material consumption calculation unit, and transmitting the material supply time and quantity information of the material to be supplied to the logistics supply system.

According to an embodiment of the present invention, the available space information includes the material space information for each production line corresponding to the space value occupied by the material stacked for each production line, the area for the space excluding the material space information for each production line, and It is characterized in that it consists of the current surplus space information for each production line corresponding to the volume information.

According to an embodiment of the present invention, the material quantity information is characterized in that it includes information on the type of material, unique number information and material of the pallet on which the material is placed, or information on the location of the pallet on which the material is placed.

According to an embodiment of the present invention, the material management control unit analyzes the information transmitted from the material consumption calculation unit to calculate quantity information on the remaining material in a state provided for each production line, and the calculated remaining material quantity It is determined whether the information is less than the safe quantity, and when the remaining material quantity information is less than the safe quantity, the supply time of the material and the quantity information of the material to be supplied are transmitted to the logistics supply system.

According to an embodiment of the present invention, it is composed of a terminal of a worker or a job manager located in each production line, and is configured to output information transmitted from the material management system to monitor the operation status of the production line It is characterized in that it comprises a; producer terminal.

According to an embodiment of the present invention, it is made of a terminal of a logistics manager who manages a warehouse in which materials are stored, and outputs information transmitted from the logistics supply system to supply the corresponding material, and the time of supply of the material It is characterized in that it further comprises a; when reaching the logistic terminal to check whether the supply of the material corresponding to the quantity information of the material transmitted at the time is made.

According to an embodiment of the present invention, when the material supply completion signal is transmitted from the logistics provider terminal, the logistics supply system transmits the signal to the material management system so that transmission is made to the producer terminal, characterized in that do.

According to this embodiment of the present invention, it is not necessary to stock up a certain amount of material or logistics in the space built on the production line, so the space in the production line can be used to the maximum, and materials or logistics are supplied in a timely manner to produce It is possible to shorten the idle time, which has the effect of improving productivity and reducing production costs.

In addition, according to an embodiment of the present invention, information exchange between workers who work related to each other at the production site and the logistics site is smoothly made, and it is possible to perform more accurate and efficient work, and to supply logistics including materials It has the effect of improving the timeliness and accuracy of

In addition, according to the embodiment of the present invention, the optimal material supply timing and quantity for the surplus space calculation of the production line, the space calculation of the production standby material, the consumption material calculation according to the passage of time, and the remaining amount of the material to be supplied compared to the production instruction amount When the time for material supply arrives by calculating information about can have an effect.

In addition, various and beneficial advantages and effects of the present invention are not limited to the above, and will be more easily understood in the course of describing specific embodiments of the present invention.

1 is a block diagram schematically showing a logistics supply and management system using a material consumption collection module according to an embodiment of the present invention;
2 is a view schematically showing a state in which the material consumption collection module according to an embodiment of the present invention is installed;
3 is a block diagram schematically showing an information management system and a logistics supply system according to an embodiment of the present invention;
4 is a configuration diagram schematically illustrating a process of a logistics supply and management system using a material consumption collection module according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, it should be noted that in adding reference numerals to the components of each drawing, the same components are given the same reference numerals as possible even if they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, terms such as "include", "comprise" or "have" described below mean that the corresponding component may be embedded, unless otherwise stated, so that other components are excluded. It should be construed as being able to include other components rather than have the same meaning as understood. In addition, in describing the components of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the components from other components, and the essence, order, or order of the components are not limited by the terms. When it is described that a component is “connected”, “coupled” or “connected” to another component, the component may be directly connected or connected to the other component, but another component is between each component. It should be understood that elements may be “connected,” “coupled,” or “connected.”

In addition, in the present invention, some of the operations or functions described as being performed by the terminal, apparatus, or device may be performed instead of in a server connected to the terminal, apparatus, or device. Similarly, some of the operations or functions described as being performed by the server may also be performed in a terminal, apparatus, or device connected to the server.

In addition, each server described in each embodiment of the present invention is implemented as a computer apparatus or a plurality of computer apparatuses that communicate with a terminal, apparatus or device through a network to provide commands, codes, files, contents, services, etc. It may be a system, and may include a memory, a processor, a communication interface, an input/output interface, and a database.

In particular, the means for executing the system according to each embodiment of the present invention may be an application or a web server, and as a terminal that is a means for reading a recording medium recording the application or the web server, It may include not only a general PC such as a general desktop or laptop computer, but also a mobile terminal such as a smart phone, a tablet PC, and the like.

Meanwhile, in the present invention, a material refers to a unit item such as a part used for production of a product, and logistics refers to a state in which the material is packaged in a predetermined quantity or more. The materials or logistics described in the detailed description of the present invention may include any one or both of the above-described unit items or materials in a packaged state.

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

As shown, the logistics supply and management system using the material consumption collection module of the present invention is installed in a plurality of production lines, respectively, and materials supplied to the production lines or logistics including the materials (hereinafter referred to as materials.) Based on the material consumption collection module 100 that detects the supply of and counts the detected materials, and the counting information of the material transmitted from the material consumption collection module 100 The information management system 200 for generating the optimal material supply time and material supply quantity information to be supplied to the production line, and receives the material supply time and material supply quantity information from the information management system 200, It is configured to include a logistics supply system 300 for supplying the material corresponding to the information to the production line.

As shown in FIG. 2, the material consumption collection module 100 is installed in a plurality of production lines, respectively, and is installed in a conveyor system for transferring materials to detect the supply of materials transferred through the conveyor system and , a sensor unit 110 that transmits the detection result to the information management system 200, and a position control unit 120 that controls the installation position of the sensor unit 110 to detect whether a material is supplied or not. and a communication module 130 connecting the sensor unit 110 and the information management system 200 through a network.

The sensor unit 110 may be made of a conventional infrared sensor, and transmits a detection signal in the width direction of the conveyor system to detect whether a material transferred to the production line through the conveyor system is supplied.

The sensor unit 110 may be configured such that the signal reflection unit 112 is configured at a position opposite to the sensor unit 110 to detect whether a material is supplied or not according to whether the detection signal is reflected.

That is, when the detection signal is reflected through the signal reflection unit 112 and re-inputted to the sensor unit 110, it is determined that the material is not supplied and counting information is not generated, and the detection signal is reflected in the reflection. If the re-input is not made by this, it is determined that the material is supplied and the counting information is generated.

The position adjusting unit 120 adjusts the position of the sensor unit 110 according to the position of the material transferred from the conveyor system, and by controlling the signal reflection unit 112 and the sensor unit 110 to be located on the same line, The re-input of the sensing signal reflected through the signal reflection unit 112 is stably performed.

When the counting information is generated, the sensor unit 110 transmits the generated counting information to the material management control unit 240 of the information management system 200 through the communication module 130 to transmit the material provided on the production line. and to obtain information about the space provided with this material.

The information management system 200 stores the quantity information on the material provided in the production line, the information on the space in the production line equipped with this material, and the material consumption collection module 100 When the material counting information is transmitted , generates material consumption expected time information based on the stored material quantity information, production line space information, and material counting information, and generates material supply request information based on the generated material consumption estimated time information to the logistics supply system 300 As a component to be transmitted, it is configured to include a spatial information management unit 210 , a material information management unit 220 , a material consumption calculation unit 230 , and a material management control unit 240 .

The spatial information management unit 210 stores the maximum space information corresponding to the area and volume information for the space in the production line and the available space information for the production line corresponding to the remaining space information excluding the space occupied by the material, and calculates the material consumption. Stored information is provided in response to a request for providing spatial information from the unit 230 , and the stored information is updated under the control of the material management control unit 240 .

At this time, the available space information for the production line corresponds to the material space information for each production line corresponding to the space value occupied by the materials stacked for each production line, and the area and volume information for the space except for the material space information for each production line. It consists of current surplus space information for each production line.

Here, the spatial information management unit 210 calculates and stores material space information for each production line through the space value M1 per material, the total quantity of materials, and the volume value M2 per piece of material.

The volume value (M2) per piece of material is a value calculated based on the type of material (or material name) and the maximum quantity value of material placed on one pallet.

At this time, the material space information for each production line can be calculated through the formula of (M1 × total material quantity) × M2.

In addition, the spatial information management unit 210 calculates and stores the current surplus space information for each production line through the maximum space value (LN) for each production line and the material space value (ML) for each production line.

In this case, the current surplus space information for each production line may be calculated through the expression of the maximum space value (LN) for each production line - the material space value (ML) for each production line.

That is, the spatial information management unit 210 of the present invention calculates and stores the space value for the available surplus space value for each production line and the volume occupied by the standby material provided for each production line, and calculates the amount of material consumption for each of the stored space values. It is transmitted to the unit 230 so that the information on the optimal material supply time and quantity for the remaining amount of material to be supplied compared to the production instruction amount is calculated.

The material information management unit 220 stores quantity information on materials provided in the production line, and provides the stored material quantity information according to the material information provision request of the material consumption calculation unit 230, and the material management control unit 240 of It is configured to update the information stored by the control.

The material information management unit 220 stores the information on the unique number of the pallet on which the corresponding material is placed when the material quantity information is stored, and information on the placement location placed in the space within the production line is stored together.

That is, the material quantity information includes the type of material (material name), unique number information and material of the pallet on which the material is placed, or information on the location of the pallet.

The material consumption calculation unit 230 receives the material counting information transmitted from the material management control unit 240, and upon receiving the material counting information, generates spatial information and material information provision request signal, respectively, to generate the spatial information management unit 210 and the material It is transmitted to the information management unit 220, and by analyzing the telegrams transmitted from the material counting information and the spatial information management unit 210 and the material information management unit 220, unit production quantity information for each production line, material consumption information, and each production line are provided It is a component that calculates the remaining amount of standby material information, the time of material supply, and the quantity information of the material to be supplied, and transmits the calculated information to the material supply control unit 240 .

At this time, the material consumption calculation unit 230 calculates the changed available spatial information by analyzing the available spatial information and the material counting information transmitted from the spatial information management unit 210 .

That is, as the total quantity of materials is changed as the counting of materials occurs, the material space information for each production line and the current surplus space information for each production line included in the available space information also change according to the material counting information. The consumption calculation unit 230 calculates the changed material space value for each production line and the surplus space value for each production line.

In addition, the material consumption calculation unit 230 analyzes the material quantity information and material counting information transmitted from the material information management unit 220 to calculate material consumption information, and the changed material space value for each production line and surplus for each production line By analyzing space value and material consumption information, unit production quantity information for each production line and remaining amount of standby material provided for each production line are calculated.

At this time, the material consumption calculation unit 230 detects the transmission cycle of the material counting information transmitted from the material management control unit 240, and further generates per-minute production performance information for the corresponding production line and transmits it to the material information management unit 220. It is possible to check the production performance for each production line.

In addition, the material consumption calculation unit 230 analyzes the calculated material consumption information and the unit production quantity information for each production line to calculate the expected consumption value of the material for each production line, and supply the material based on the expected consumption value of the material Calculate the timing and quantity information of materials to be supplied.

That is, the present invention does not calculate the supply time of the material by analyzing only the degree of material consumption, but analyzes both the real-time consumption form of the material and the information on the surplus space of the production line in which the material is stored to optimize the material consumption. Information on the timing and supply timing is generated and transmitted to the material supply control unit 240 .

The material management control unit 240 is configured to be connected to each component constituting the information management system 200 through a network to transmit and receive data, and to store information transmitted from each component of the information management system 200 . It is transmitted to the producer terminal 400 and the logistics supply system 300 so that information generated from the information management system 200 is shared, and a certain amount of material is supplied to the production line at the same time.

The material management control unit 240 receives the counting information of the material detected for each production line from the material consumption collection module 100, and transmits the received material counting information to the material consumption calculation unit 230 and the producer terminal 400. do.

Here, the producer terminal 400 is configured to output information transmitted from the material management control unit 240 as a terminal of a worker or a work manager located in each production line to monitor the operation status of the production line.

In addition, the material management control unit 240 is the material space information for each production line and surplus space information for each production line, which are transmitted from the material consumption calculation unit 230 , information on the unit production quantity for each production line, and standby materials provided for each production line. Analyze the residual quantity information to calculate the quantity information on the remaining material in the stocked state for each production line, and determine whether the calculated remaining material quantity information is less than the safe quantity within the range that does not interfere with the production work, , when the remaining material quantity information is less than the safe quantity, the material consumption calculation unit 230 transmits information on the supply time of the material and the quantity of the material to be supplied to the logistics supply system 300, Ensure that materials are supplied for each production line.

At this time, the material management control unit 240 requests the provision of material counting information from the material consumption amount collection module 100 when the remaining material quantity information exceeds the safe quantity and is provided in each production line, and the material counting When the information is transmitted, it is transmitted to the material consumption calculation unit 230 so that the continuous material supply timing and quantity information of the material to be supplied are calculated.

Here, the material management control unit 240 of the present invention generates a request signal for the provision of material counting information from the material consumption collection module 100, but generates 2 to 4 times per minute and transmits it to the material consumption collection module 100. By doing so, it can be configured to enable real-time monitoring of information on the operation status for each production line.

The material management control unit 240 configured as described above may be configured to output information transmitted from the material consumption amount collection module 100 and the material consumption amount calculation unit 230, and has an independent database to store the information You can do it.

The logistics supply system 300 receives information on the supply time of the material and the quantity of the material to be supplied from the material management control unit 240, and transmits the received material supply time and the quantity information of the material to be supplied to the logistic terminal 500. It is a component that allows the material to be supplied to the production line.

This logistics supply system 300 analyzes the type of material included in the supply time of the material and the quantity information of the material to be supplied, the information on the distribution warehouse in which the material is stored, and the location information of the material in the distribution warehouse, or the corresponding The unique number information of the pallet on which the material is placed is identified and transmitted to the logistics terminal 500 .

Here, the logistical terminal 500 may be a terminal of a logistics manager who manages a warehouse in which materials are stored, and outputs information transmitted from the logistics supply system 300 to supply the corresponding materials, and When the supply point is reached, it serves to check whether the supply of the material corresponding to the quantity information of the material transmitted at that time has been made.

At this time, when the supply of the material is completed, the material supply completion signal may be transmitted to the logistics supply system 300 , and in the logistics supply system 300 , the material supply completion signal from the logistics provider terminal 500 is When transmitted, the signal may be transmitted to the material management control unit 240 to be transmitted to the producer terminal 400 .

On the other hand, data transmission and reception is made through the network of all of the material consumption collection module 100, the information management system 200, the logistics supply system 300, the producer terminal 400 and the logistician terminal 500 described in the present invention. connected so as to In this case, the network refers to a connection structure in which information exchange is possible between each node, such as a plurality of terminals and servers, and an example of such a network includes RF, 3rd Generation Partnership Project (3GPP) network, Long Term Evolution (LTE). ) network, 5th Generation Partnership Project (5GPP) network, WIMAX (World Interoperability for Microwave Access) network, Internet, LAN (Local Area Network), Wireless LAN (Wireless Local Area Network), WAN (Wide Area Network), PAN (Personal Area Network), Bluetooth (Bluetooth) network, NFC network, satellite broadcasting network, analog broadcasting network, DMB (Digital Multimedia Broadcasting) network, etc. include, but are not limited thereto.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

100: material consumption collection module 110: sensor unit
112: signal reflection unit 120: position control unit
130: communication module 200: information management system
210: spatial information management unit 220: material information management unit
230: material consumption calculation unit 240: material management control unit
300: logistics supply system 400: producer terminal
500: Logistics terminal

Claims (9)

a material consumption collection module that detects whether the material supplied to the production line is supplied, and generates and transmits material counting information for the detected material;
a material management control unit that receives the material counting information and analyzes the material counting information, material quantity information, and production line space information to generate and transmit material supply timing and quantity information of materials to be supplied; and
a logistics supply system for receiving the supply time of the material and the quantity information of the material to be supplied, and supplying the material corresponding to the received material supply time and quantity information of the material to be supplied to the production line at the corresponding time point;
Logistics supply and management system using a material consumption collection module comprising a.
According to claim 1,
The material consumption calculation module,
a sensor unit that transmits a detection signal to detect whether the material is supplied;
a signal reflection unit for reflecting the sensing signal to be re-inputted into the sensor unit;
a position adjusting unit controlling the signal reflection unit and the sensor unit to be positioned on the same line;
Logistics supply and management system using a material consumption collection module comprising a.
3. The method of claim 2,
The sensor unit,
Logistics supply and management system using a material consumption collection module, characterized in that only when the detection signal is not re-inputted through the signal reflection unit, it is determined that the material is supplied and counting information is generated.
According to claim 1,
The material management system,
a spatial information management unit storing the maximum space information and available space information of the production line, and providing the stored information according to the request of the material consumption calculation unit;
a material information management unit that stores quantity information on materials provided in the production line and provides the stored information in response to the request of the material consumption calculation unit;
When the material counting information is received, the telegrams transmitted from the spatial information management unit and the material information management unit are analyzed to provide unit production quantity information for each production line, material consumption information, remaining amount of waiting material for each production line, material supply time and materials to be supplied. a material consumption calculation unit for calculating quantity information of and transmitting the calculated information; and
a self-control control unit for receiving the information calculated from the material consumption collection module and the material consumption calculation unit, and transmitting the material supply time and quantity information of the material to be supplied to the logistics supply system;
Logistics supply and management system using a material consumption collection module comprising a.
5. The method of claim 4,
The available space information is
It consists of material space information for each production line corresponding to the space value occupied by the materials stacked for each production line, and current surplus space information for each production line corresponding to area and volume information for the space except for the material space information for each production line. Logistics supply and management system using the material consumption collection module characterized.
5. The method of claim 4,
The material quantity information, the type of material, the material and material, or logistics supply and management system using a material consumption collection module, characterized in that it includes information on the location of the pallet on which the material is placed on the pallet.
5. The method of claim 4,
The material management control unit,
Analyze the information transmitted from the material consumption calculation unit to calculate the quantity information on the remaining material in a state provided for each production line, determine whether the calculated remaining material quantity information is less than the safe quantity, and the remaining material Logistics supply and management system using a material consumption collection module, characterized in that when the quantity information is less than the safe quantity, the supply time of the material and the quantity information of the material to be supplied are transmitted to the logistics supply system.
According to claim 1,
In the logistics supply and management system using the material consumption collection module,
a producer terminal comprising a terminal of a worker or a work manager located in each production line, and configured to output information transmitted from the material management system to monitor the work status of the production line; and
It consists of a terminal of a logistics manager who manages the logistics warehouse where the material is stored, and outputs the information transmitted from the logistics supply system so that the material is supplied. Logistics terminal for checking whether the supply of the material corresponding to the quantity information of the material made;
Logistics supply and management system using a material consumption collection module, characterized in that it further comprises.
9. The method of claim 8,
The logistics supply system, when the material supply completion signal is transmitted from the logistical terminal, by transmitting the corresponding signal to the material management system to be transmitted to the producer terminal Logistics supply using a material consumption collection module, characterized in that the transmission is made and management systems.

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