KR20180036090A - Logistic automatization equipment maintenance database constructing system based on cloud server, and method thereof - Google Patents

Abstract

The present invention provides a system and a method for constructing a database for maintaining distribution automation equipment, which set formats for system setup, system operation and system connection based on a bill of material (BOM) of each distribution automation equipment to construct a database model for maintaining the distribution automation equipment. The system for constructing the database for maintaining the distribution automation equipment comprises: a goods to destination system (GDS) integrating and managing operation and data of carrying-in and taking out goods within a warehouse; an automatic picking system (APS) picking the goods within the warehouse to be loaded in a roll-tainer or a container; a box erector performing outer packaging operations for the goods or objects within the warehouse; an equipment control system (ECS) directly controlling each distribution automation equipment; a warehouse control system (WCS) performing integrated management for and monitoring each distribution automation equipment; and a cloud server acquiring equipment information, state information and maintenance information generated from each distribution automation equipment in real time, changing the acquired information to one among the system setup format, the system operation format, the system connection format and other connection format based on the BOM of each distribution automation equipment, and storing the information at the database. The present invention can provide customized services based on a large amount of automation equipment information irrespective of a maintenance system of each demander.

Description

Technical Field [0001] The present invention relates to a logistics automation equipment maintenance database construction system,

The present invention relates to a system and method for constructing a maintenance database of a logistics automation equipment. More specifically, the present invention relates to maintenance of various logistics automation equipment based on a Bill of Material (BOM) of each logistics automation equipment It is also possible to set up the system configuration, system operation and system connection format, provide the maintenance screen according to the characteristics of the user according to the set format, or communicate the maintenance channel between the demand enterprise and the service enterprise The present invention relates to a system and method for establishing a maintenance database for a logistics automation equipment.

In general, the logistics equipment control system is composed of the automation equipment such as GDS (Goods to Destination System), APS (Automatic Picking System), Box Erector, Palletizer, (Warehouse Control System: WCS), and equipment control system (ECS) that monitors the control and operation status of a single equipment.

Logistics warehouse automation is the process of real-time tracking (real-time tracking) the logistics in the warehouse or in the warehouse to the warehouse and to the warehouse, and automatically collects the data and controls the facilities by the ground station computer This system is designed to reduce manpower, reduce inventory of stacked products, improve efficiency of production, and increase productivity. However, the operation of transfer device and the position of product are performed under the intervention of the operator, .

On the other hand, the maintenance and repair system of the logistics automation equipment, which has been commercialized in the past, needs to extract data that can be obtained by analyzing all the enterprise operating systems related to the maintenance characteristic, do.

In addition, each customer has a separate maintenance system and plan, so customized consulting for each customer is required to introduce the system, and the system is not scalable due to difficulty in re-executing consulting and analysis when introducing other logistics automation equipment There was a problem.

Therefore, in the maintenance of logistics automation equipments such as GDS, APS, demolition machine, and palletizer, modularization is required to consider the safety and security of cargo and manpower and to facilitate maintenance.

In addition, there is a demand for a technique for constructing a database for ensuring accuracy and agility in the maintenance of the logistics automation equipment and for quickly handling the operation of the equipment.

Korean Patent Laid-Open Publication No. 10-2013-0072128 (Publication date: 2013.07.01)

It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a method and system for managing various logistics automation equipment through a cloud environment, system setting and system operation based on bill of materials (BOM) It is possible to set up a format for system linkage, to provide a maintenance screen according to the characteristics of a user according to the set format, or to provide a communication channel for maintenance between a demanding company and a service company, And to provide a system and method for constructing a maintenance database of a logistics automation equipment that enables a database model to be built.

In order to achieve the above object, according to an embodiment of the present invention, there is provided a system for constructing a maintenance database of a logistics automation equipment, which includes a storage zone, a picking zone, Cargo handling equipment (GDS); An automatic picking equipment (APS) for picking up the cargo in the warehouse to a roll-tainer or a container; An Erector for externally packing the goods or goods in the warehouse; An equipment control device (ECS) for directly controlling each logistics automation equipment including the cargo carrying-in / out equipment, the automatic picking equipment, and the demolition equipment; A warehouse control unit (WCS) for integrally managing and monitoring each of the above-mentioned logistics automation equipment; And information on the equipment, status, and maintenance information generated in each of the logistics automation equipment in real time, and acquires the acquired information in a system setting format (BOM) based on the bill of materials (BOM) , A system operating format (System Operating Format), a system connecting format (System Connecting Format), and other linked formats, and stores them in a database.

The system setting format may include at least one of a user registration format, a management module format, a product management format, a consumable registration format, an electronic manual registration format, a life cycle registration format, an activity registration format, . ≪ / RTI >

Also, the system operation format may include a maintenance work support format, an equipment information providing format, an equipment management format, a maintenance training format, a real-time monitoring format, and an analysis and prediction format.

In addition, the system linkage format may include an equipment information format, a sensor information format, a consumable information format, an error information format, an operation information format, a maintenance performance information format, and other information formats.

The other linkage format may include an entry / exit information format, an inventory information format, and other information formats.

According to another aspect of the present invention, there is provided a cloud server comprising: an equipment control device (ECS) for directly controlling each of the logistics automation equipment; a warehouse control unit A communication unit for communicating with the device (WCS); A database having at least one area for storing equipment information, state information, and maintenance information generated in each of the logistics automation equipment; And a system setting area, a system operating area, and a system linking area for one or more areas of the database, and stores equipment information and status information received from the equipment control device (ECS) or the warehouse control device (WCS) Information is changed to a system setting format and stored in the system setting area or is changed to a system operating format and stored in the system operating area or changed to a system connecting format And a controller for storing the data in the system connection area.

The system setting format may include at least one of a user registration format, a management module format, a product management format, a consumable registration format, an electronic manual registration format, a life cycle registration format, an activity registration format, . ≪ / RTI >

Also, the system operation format may include a maintenance work support format, an equipment information providing format, an equipment management format, a maintenance training format, a real-time monitoring format, and an analysis and prediction format.

The system linkage format may include an equipment information format, a sensor information format, a consumable information format, an error information format, an operation information format, a maintenance performance information format, and other information formats.

According to another aspect of the present invention, there is provided a method for establishing a maintenance database for a logistics automation equipment in a cloud server, the method comprising: providing an equipment control device (ECS) CLAIMS 1. A method for establishing a maintenance automation equipment maintenance database of a cloud server communicating with a warehouse control unit (WCS) that integrally manages and monitors equipment and a database having one or more areas through a communication network, the method comprising: (a) Acquiring equipment information, status information, and maintenance information generated in each of the logistics automation equipment from the WCS in real time; (b) dividing the at least one area of the database into a system setting area, a system operating area, and a system linking area based on a bill of materials (BOM) of each logistics automation equipment; (c) changing the device information, the status information, and the maintenance information acquired in real time to one of a system setting format, a system operating format, and a system connecting format; And (d) storing the changed information in the system setting format in the system setting area, storing the changed information in the system operating format in the system operating area, or storing the changed information in the system coordination format in the system linking area .

In the step (a), the equipment state information is acquired by monitoring the equipment state in real time through the equipment control device (ECS) and the warehouse control device (WCS), and the event occurring during the operation of the equipment is monitored The event code can be acquired.

The system setting format may include a user registration format, a management module format, a product management format, a consumable registration format, an electronic manual registration format, a life cycle registration format, an activity registration format, a status alarm registration format, Wherein the system operating format includes a maintenance work support format, an equipment information providing format, an equipment management format, a maintenance training format, a real time monitoring format, an analysis and prediction format, An information format, a consumable information format, an error information format, an operation information format, a maintenance performance information format, and other information formats.

The maintenance support format includes information on an integrated maintenance request, equipment history management, automatic ordering of consumables, and periodical maintenance management. The equipment information providing format includes equipment update information and urgent issue information, The equipment management format includes equipment introduction and expansion, demolition request information, and used equipment brokerage information. The maintenance education format includes electronic equipment manual information and customer education information. The real-time monitoring format includes equipment status monitoring, And information on the operation history of the equipment, and the analysis and prediction format may include equipment failure prediction information and information on the trade volume analysis.

Other aspects, advantages and features of the present invention will become more apparent on the basis of the following description in the entire specification, including the following sections: Brief Description of the Drawings, Detailed Description, and Claims.

According to the present invention, by providing a service that supports maintenance through a cloud environment, a customized service can be provided based on a vast amount of automation equipment information regardless of the maintenance system for each customer, Can be selected. As a result, it is possible to increase the convenience of introduction and improve the service selection with the reasonable cost compared to the existing logistics automation equipment maintenance system. In addition, analysis of maintenance information on logistics automation equipments of many customers can continuously evolve prediction algorithm and provide reliable preventive maintenance information.

In addition, in case of being in the Internet environment, the service can be provided, thereby enhancing user convenience and reducing the cost for introducing a maintenance system.

In addition, it can acquire real-time status information, sensor information, etc. of the equipment through the linkage with the system for managing the equipment, analyze the remaining life of the equipment, and maintain it according to the maintenance cycle and condition of each component.

Then, based on the bill of materials (BOM) of each logistics automation equipment, a format for system setting, system operation, and system linkage is set, a maintenance screen corresponding to the characteristics of the user is provided according to the set format , Providing a communication channel for maintenance between the demanding enterprise and the service enterprise, thereby establishing a database for the maintenance of the logistics automation equipment.

1 is a block diagram schematically showing the overall configuration of a logistics automation equipment maintenance database construction system according to an embodiment of the present invention.
2 is a block diagram showing a basic configuration example of a cloud server according to an embodiment of the present invention.
3 is a flowchart illustrating a method for constructing a maintenance database for a logistics automation equipment of a cloud server according to an embodiment of the present invention.
4 is a view showing an example of a data format for constructing a maintenance database for a logistics automation equipment according to an embodiment of the present invention.
5 is a view showing an example of a maintenance service menu of a logistics automation equipment provided by a cloud server according to an embodiment of the present invention.
6 is a view showing contents of a maintenance service for a logistics automation equipment according to an embodiment of the present invention.
7 is a diagram illustrating an example of a cloud-based service model provided by a cloud server according to an embodiment of the present invention.
8 is a diagram illustrating a process of setting up a logistics automation equipment maintenance service by receiving data from a cloud server according to an embodiment of the present invention.
9 is a diagram illustrating a process of cloud computing using WCS in a cloud server according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

Throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "electrically connected" with another part in between . Also, when an element is referred to as "comprising ", it means that it can include other elements as well, without departing from the other elements unless specifically stated otherwise.

If any part is referred to as being "on" another part, it may be directly on the other part or may be accompanied by another part therebetween. In contrast, when a section is referred to as being "directly above" another section, no other section is involved.

The terms first, second and third, etc. are used to describe various portions, components, regions, layers and / or sections, but are not limited thereto. These terms are only used to distinguish any moiety, element, region, layer or section from another moiety, moiety, region, layer or section. Thus, a first portion, component, region, layer or section described below may be referred to as a second portion, component, region, layer or section without departing from the scope of the present invention.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the invention. The singular forms as used herein include plural forms as long as the phrases do not expressly express the opposite meaning thereto. Means that a particular feature, region, integer, step, operation, element and / or component is specified and that the presence or absence of other features, regions, integers, steps, operations, elements, and / It does not exclude addition.

Terms indicating relative space such as "below "," above ", and the like may be used to more easily describe the relationship to other portions of a portion shown in the figures. These terms are intended to include other meanings or acts of the apparatus in use, as well as intended meanings in the drawings. For example, when inverting a device in the figures, certain portions that are described as being "below" other portions are described as being "above " other portions. Thus, an exemplary term "below" includes both up and down directions. The device can be rotated by 90 degrees or rotated at different angles, and terms indicating relative space are interpreted accordingly.

Unless otherwise defined, all terms including technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Commonly used predefined terms are further interpreted as having a meaning consistent with the relevant technical literature and the present disclosure, and are not to be construed as ideal or very formal meanings unless defined otherwise.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a block diagram schematically showing the overall configuration of a logistics automation equipment maintenance database construction system according to an embodiment of the present invention.

Referring to FIG. 1, a system 100 for constructing a maintenance database for a logistics automation equipment according to the present invention includes a goods to destination system (GDS) 110, an automatic picking system (APS) (ECS) 140, a warehouse control system (WCS) 150, a cloud server, and a data server 130. The control server 120, the controller 130, (160).

The GDS (110) manages the import and export operations and data according to the storage zone, picking zone, and entry / exit zone for the cargo in the cargo loading and unloading warehouse.

The APS 120 is a device for picking up cargo in a warehouse. When an article necessary for picking in a roll-tainer or a container is not wound, the APS 120 can not proceed further, do.

The demolition equipment (130) is a device for wrapping the goods or goods in the warehouse.

The ECS 140 directly controls each logistics automation equipment including the GDS 110, the APS 120, and the demolition equipment 130.

The WCS 150 integrally manages and monitors each of the logistics automation equipment and communicates information received from the upper system to the ECS 140 in association with the upper system.

The cloud server 160 acquires device information, status information, and maintenance information generated in each logistics automation equipment in real time, and acquires the acquired information in a system setting format (System) based on the bill of materials (BOM) Setting format, a system operating format, a system connecting format, and other linking formats, and stores them in a database (DB).

4, the system setting format includes a user registration format, a management module format, a product management (PM) format, a consumable registration format, an electronic manual registration format, a life cycle registration format, an activity registration format , A status alarm registration format, and a pattern registration format. 4 is a view showing an example of a data format for constructing a maintenance database for a logistics automation equipment according to an embodiment of the present invention. In FIG. 4, the system operating format may include maintenance support format, equipment information providing format, equipment management format, maintenance training format, real-time monitoring format, analysis and prediction format. The maintenance service support format includes information on integrated maintenance requests, equipment history management, automatic ordering of consumables, and periodical maintenance management, and the equipment information providing format may include equipment update information and urgent issue information. Also, the equipment management format includes equipment introduction and expansion, demolition request information, and used equipment brokerage information, and the maintenance education format may include electronic equipment manual information and customer education information. The real-time monitoring format includes information on equipment status monitoring, trade volume monitoring, and equipment operation history inquiry, and the analysis and prediction format may include information on equipment defect prediction information and trade volume analysis.

In addition, in FIG. 4, the system linkage format may include an equipment information format, a sensor information format, a consumable information format, an error information format, an operation information format, a maintenance performance information format, and other information formats. System linkage takes as an example the linkage with the WCS 150.

The other linkage format may include an entry / exit information format, an inventory information format, and other information formats.

Meanwhile, the cloud server 160 can provide an electronic manual necessary for performing maintenance work on the site where each logistics automation equipment is operated, and can provide education service for an operator performing maintenance work.

In addition, the cloud server 160 can determine the average time between failures (MTBF) and the mean time to repair (MTTR) of the equipment through the failure information that predicts failure of each logistics automation equipment Maintenance information, and support for expansion and demolition of equipment.

In addition, the cloud server 160 shares the latest status information of the equipment including the warehouse control device (WCS), the firmware of the equipment, and the parts update, and provides information on the new equipment.

In addition, the cloud server 160 manages the requests for maintenance occurring at the demand of each logistics automation equipment, and transmits the maintenance requests to the maintenance performers including the manufacturer and the maintenance company, It supports the maintenance process management process, and it can register and manage periodical inspection that occurs periodically.

2 is a block diagram showing a basic configuration example of a cloud server according to an embodiment of the present invention.

2, the cloud server 160 includes a communication unit 210, an input unit 220, a control unit 230, a display unit 240, and a database 250.

The communication unit 210 performs communication with the ECS 140 and the WCS 150 via the communication network.

The input unit 220 receives data from a user or an administrator, or performs selection and input of presented information.

The control unit 230 divides the at least one area of the database 250 into a system setting area, a system operating area, and a system linking area, and stores the equipment information received from the equipment control device (ECS) or the warehouse control device (WCS) Information and maintenance information into a system setting format and stores the information in a system setting area or a system operating format and stores the information in a system operating area or a system connecting format, And stores it in the system connection area.

The display unit 240 displays the operation statuses of the ECS 140 and the WCS 150 on the screen or displays the control status and data processing status of the control unit 230 on the screen.

The database 250 has at least one area for storing equipment information, status information, and maintenance information generated in each logistics automation equipment. In addition, the DB 250 can store failure information predicted for each of the logistics automation equipment, BOM information of each logistics automation equipment, and life cycle information of each part of the logistics automation equipment in the control unit 230.

In addition, the control unit 230 provides an electronic manual for supporting the maintenance of each of the logistics automation equipment as a field support service to the display unit, and supports maintenance training through the electronic manual.

In addition, the control unit 230 provides an analysis and prediction service, a device management service, an equipment information providing service, a real-time monitoring service, and a maintenance service support service as a business support service.

In addition, the analysis and forecasting service predicts the activity-based equipment life cycle and evaluates the mean time between failures (MTBF) and mean time to repair (MTTR) of each of the logistics automation equipment And the like.

In addition, the equipment management service supports consulting for equipment introduction, supports introduction, expansion and demolition of equipment, and supports the trading of used equipment.

In addition, the equipment information providing service supports the maintenance and updating of the equipment in an up-to-date state, and shares the equipment information of demand companies and manufacturing companies.

In addition, the real-time monitoring service monitors the real-time monitoring service through the ECS 140 and the WCS 150 in real time to acquire the equipment status information and monitor the event codes generated during the operation of the equipment.

In addition, the maintenance support service manages equipment maintenance requests and periodic checks, and supports calendar-based maintenance scheduling and maintenance convenience.

The control unit 230 sets up a cloud environment for providing cloud-based services as an infrastructure service, sets up server redundancy, fault tolerance, and cloud security.

3 is a flowchart illustrating a method for constructing a maintenance database for a logistics automation equipment of a cloud server according to an embodiment of the present invention.

Referring to FIG. 3, the cloud server 160 according to the present invention obtains equipment information, status information, and maintenance information generated in each logistics automation equipment from the WCS 150 in real time (S310).

In operation S320, one or more areas of the database 250 are classified into a system setting area, a system operation area, and a system linkage area based on a bill of materials (BOM) of each logistics automation equipment.

In order to store the acquired information in the database 250, the control unit 230 in the cloud server 150 stores the system setting area, the system operating area, System linkage and other linkage areas.

Then, the cloud server 160 changes the device information, state information, and maintenance information acquired in real time to one of a system setting format, a system operating format, and a system connecting format (S330).

Then, the cloud server 160 stores the changed information in the system setting format in the system setting area, stores the changed information in the system operating format in the system operating area, or stores the changed information in the system linking format in the system linking area S340).

Then, the cloud server 160 provides a maintenance service screen of a logistics automation equipment as shown in FIG. 5 to a user terminal or an administrator terminal, and provides maintenance services for a logistics automation equipment maintenance service through a service screen from a user terminal or an administrator terminal Data (application content) is inputted and the maintenance service of the logistics automation equipment is set up as shown in FIG. Here, the user terminal or the administrator terminal may be a computer terminal or the like, which is not shown in the drawings, but is used to apply the maintenance service for the logistics automation equipment. 5 is a view showing an example of a maintenance service menu of a logistics automation equipment provided by a cloud server according to an embodiment of the present invention. As shown in FIG. 5, the maintenance service screen of the logistics automation equipment displays the service application details on each day of the calendar, and the service contents include service requests, periodical checks, ordering of consumables, introduction of equipment, expansion of equipment, And the like. 8 is a diagram illustrating a process of setting up a logistics automation equipment maintenance service by receiving data from a cloud server according to an embodiment of the present invention. That is, as shown in FIG. 8, the cloud server 160 inputs equipment information, raw data such as a sensor, RFID, and barcode, and code data such as error and activity Receive. In addition, the cloud server 160 may be configured to perform the following operations: (1) Getting relevant equipment factors F1, Setting relevant activity factors F2, Setting relevant lifecycle factors F3, Reporting status of equipment F4, F5) to perform maintenance schedule recommendation or maintenance decision support. Calculate maintenance data such as useful life, MTBF, and MTTR using equipment factors of F1 process, activity factors of F2 process, and lifecycle factors of F3 process.

The logistics automation equipment maintenance service provided by the cloud server 160 includes a field support service, a business support service, and an infrastructure service as shown in FIG. 6 is a view showing contents of a maintenance service for a logistics automation equipment according to an embodiment of the present invention. As shown in FIG. 6, the on-site support service is a maintenance training service. The on-site support service provides an electronic manual for supporting the maintenance of each logistics automation equipment to the display unit, .

6, the business support service provides analysis and prediction services, equipment management services, equipment information providing services, real-time monitoring services, and maintenance service support services. At this time, the analysis and forecasting service predicts the activity-based equipment life cycle and evaluates the mean time to failure (MTBF) and mean time to repair (MTTR) of each logistics automation equipment. Provide analysis information. In addition, the equipment management service supports consulting for the introduction of equipment, supports introduction, expansion and demolition of equipment, and supports the trading of used equipment. In addition, the equipment information providing service supports the maintenance and updating of the equipment in an up-to-date state, and shares equipment information of the demand enterprise and the manufacturing enterprise. In addition, the real-time monitoring service monitors the real-time monitoring service through the ECS 140 and the WCS 150 in order to acquire the equipment status information and monitor the event codes generated during the operation of the equipment. In addition, the maintenance support service manages equipment maintenance requests and periodic checks, and supports calendar-based maintenance scheduling and maintenance convenience.

In FIG. 6, the infrastructure service sets a cloud environment for providing a cloud-based service, sets up server redundancy, fault tolerance, and cloud security.

Meanwhile, the cloud server 160 provides a cloud-based service model as shown in FIG. 7 so that each user can subscribe to the logistics automation equipment maintenance service. 7 is a diagram illustrating an example of a cloud-based service model provided by a cloud server according to an embodiment of the present invention. As shown in FIG. 7, the cloud-based service model provides a member menu and a non-member menu. In FIG. 7, the non-member menu includes membership, ID / PW search, login, announcement, business information, equipment & supplies information, and pre-sale menu. In FIG. 7, the member menu includes My Page, Dashboard, Analysis and Forecasting, Equipment Management, Equipment Information, Real Time Monitoring, Maintenance Task Support Menu. Here, the My Page includes the My Equipment Management and Periodic Maintenance Management menu, and the Dashboard includes the service application status, monitoring, and announcement menu, and the analysis and prediction menu includes the failure prediction and maintenance analysis menu. The equipment management includes the equipment introduction / expansion / demolition request menu and the pre-sale consulting menu, and the equipment information includes equipment & consumables, business information, emergency issue, facility update menu. The real-time monitoring menu includes a real-time equipment monitoring menu, and the maintenance work support menu includes an integrated maintenance request, a periodical inspection, a history inquiry, and a consumable order menu.

In addition, the cloud server 160 can acquire, in real time, equipment information, status information, and maintenance information generated in each logistics automation equipment from the WCS 150 using the configuration shown in FIG. At this time, the controller 230 in the cloud server 160 acquires the equipment status information by monitoring the equipment status in real time through the ECS 140 and the WCS 150 as shown in FIG. 9, And acquire the event code information. 9 is a diagram illustrating a process of cloud computing using WCS in a cloud server according to an embodiment of the present invention. In FIG. 9, the cloud server 160 is an application viewer. The application viewer includes a maintenance request, a maintenance support, a maintenance prediction, equipment monitoring, Equipment information, and equipment management. The application scheduler includes a Maintenance Scheduler, a Prediction Engine and a Monitoring as an application controller. The Maintenance Scheduler includes a Maintenance Manager and a Prevention Maintainer ), And the prediction engine includes a lifecycle manager, a calculator, and an activity manager. The data manager includes a DB accessor, a DB controller, and a DB logger.

Then, the cloud server 160 predicts the failure of the equipment based on the bill of materials (BOM) of each logistics automation equipment, and manages the life cycle of each part based on the failure information of the predicted equipment .

As described above, according to the present invention, in order to manage the maintenance of various kinds of logistics automation equipment through a cloud environment, system setting, system operation and system linkage based on bill of materials (BOM) of each logistics automation equipment Establishes a maintenance database model that sets the format, provides a maintenance screen according to the characteristics of the user according to the set format, or provides a communication channel for maintenance between the demanding company and the service company A system and method for constructing a logistics automation equipment maintenance database can be realized.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims and their equivalents. Only. It is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents. .

100: Logistics automation equipment ubiquitous repair DB construction system
110: GDS 120: APS
130: Ship equipment 140: ECS
150: WCS 160: Cloud server
210: communication unit 220: input unit
230: Control section 240:
250: Database

Claims (13)

Cargo loading and unloading equipment (GDS) that integrates and manages the import and export operation and data according to the storage zone, picking zone, and entry / exit zone for the freight in the warehouse;
An automatic picking equipment (APS) for picking up the cargo in the warehouse to a roll-tainer or a container;
An Erector for externally packing the goods or goods in the warehouse;
An equipment control device (ECS) for directly controlling each logistics automation equipment including the cargo carrying-in / out equipment, the automatic picking equipment, and the demolition equipment;
A warehouse control unit (WCS) for integrally managing and monitoring each of the above-mentioned logistics automation equipment; And
The system acquires equipment information, status information, and maintenance information generated in each of the above-mentioned logistics automation equipment in real time, and acquires the acquired information in a system setting format (System Setting Format) based on the bill of materials (BOM) A cloud server that changes the system operating format (System Operating Format), the system connecting format (System Connecting Format), and other linking formats to a database;
A logistics automation equipment maintenance database construction system.
The method according to claim 1,
The system setting format includes a user registration format, a management module format, a product management format, a consumable registration format, an electronic manual registration format, a life cycle registration format, an activity registration format, a state alarm registration format, , Logistics automation equipment maintenance database building system.
The method according to claim 1,
Wherein the system operating format includes a maintenance support format, an equipment information providing format, an equipment management format, a maintenance training format, a real time monitoring format, and an analysis and prediction format.
The method according to claim 1,
Wherein the system-linked format comprises an equipment information format, a sensor information format, a consumable information format, an error information format, an operational information format, a maintenance performance information format, and other information formats.
The method according to claim 1,
Wherein the other linkage format includes an entry / exit information format, an inventory information format, and other information formats.
A communication control unit (ECS) for directly controlling each of the logistics automation equipment, and a communication unit for communicating with the warehouse control unit (WCS) which integrally manages and monitors the respective logistics automation equipment;
A database having at least one area for storing equipment information, state information, and maintenance information generated in each of the logistics automation equipment; And
The system control system according to claim 1, further comprising: a system setting area, a system operating area, and a system linking area for one or more areas of the database; and device information and status information received from the equipment control device (ECS) or the warehouse control device To a system setting format, stores the system setting format in the system setting area, changes the system operating format to a system operating area, or changes the system setting format to a system setting format A control unit for storing the system connection area;
.
The method according to claim 6,
The system setting format includes a user registration format, a management module format, a product management format, a consumable registration format, an electronic manual registration format, a life cycle registration format, an activity registration format, a state alarm registration format, To the cloud server.
The method according to claim 6,
Wherein the system operating format includes a maintenance service support format, an equipment information providing format, a equipment management format, a maintenance training format, a real time monitoring format, and an analysis and prediction format.
The method according to claim 6,
Wherein the system linkage format includes a device information format, a sensor information format, a consumable information format, an error information format, an operation information format, a maintenance performance information format, and other information formats.
(ECS) that directly controls each of the logistics automation equipment, and a warehouse control unit (WCS) that integrally manages and monitors each of the logistics automation equipment and communicates through a communication network and includes a database having one or more areas As a method for constructing a maintenance database of a logistics automation equipment of a cloud server,
(a) acquiring, in real time, equipment information, status information, and maintenance information generated by each of the logistics automation equipment from the warehouse control device (WCS);
(b) dividing the at least one area of the database into a system setting area, a system operating area, and a system linking area based on a bill of materials (BOM) of each logistics automation equipment;
(c) changing the device information, the status information, and the maintenance information acquired in real time to one of a system setting format, a system operating format, and a system connecting format; And
(d) storing the information changed in the system setting format in the system setting area, storing the changed information in the system operating format in the system operating area, or storing the changed information in the system linking format in the system linking area step;
A method of establishing a maintenance database of a logistics automation equipment of a cloud server including
11. The method of claim 10,
In the step (a), the equipment state information is acquired by monitoring the equipment state in real time through the equipment control device (ECS) and the warehouse control device (WCS), the event occurring during the equipment operation is monitored, To obtain a logistics automation equipment maintenance database of the cloud server.
11. The method of claim 10,
The system setting format includes a user registration format, a management module format, a product management format, a consumable registration format, an electronic manual registration format, a life cycle registration format, an activity registration format, a status alarm registration format, , The system operation format includes a maintenance work support format, an equipment information providing format, an equipment management format, a maintenance training format, a real time monitoring format, an analysis and prediction format, , A consumable information format, an error information format, an operation information format, a maintenance execution information format, and other information formats.
13. The method of claim 12,
Wherein the maintenance service support format includes information on an integrated maintenance request, equipment history management, automatic ordering of consumables, and periodical maintenance management, the equipment information providing format includes equipment update information and urgent issue information, The format includes equipment introduction and expansion, demolition request information, and used equipment brokerage information. The maintenance education format includes electronic equipment manual information and customer education information. The real-time monitoring format includes equipment status monitoring, And information on equipment operation history inquiry, wherein the analysis and prediction format includes equipment failure prediction information and information on trade volume analysis.

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