KR20190091906A - System for testing and monitoring components - Google Patents

Abstract

The present invention relates to a high-level parts inspection system and a wired/wireless monitoring system which can be used by small/medium-sized parts manufacturers lacking funds. According to the present invention, provided is a parts inspection and monitoring system comprising: a processing apparatus for machining parts; an inspection apparatus for inspecting the machined parts from the processing apparatus; a digital board integrally formed with the inspection apparatus; an industrial PC which receives inspection data outputted from the inspection apparatus, transmits setting data to the inspection apparatus, and has a program for the inspection apparatus for outputting the inspection data in real time; a web server receiving the inspection data from the industrial PC and transmitting the inspection data to a plurality of user terminals by a user request; and a plurality of monitoring apparatuses for receiving and displaying the inspection data from the web server.

Description

Component Inspection and Monitoring System {SYSTEM FOR TESTING AND MONITORING COMPONENTS}

The present invention relates to a component inspection and monitoring system, and more particularly, to a high-level component inspection system and a wired / wireless monitoring system that can be used by small and medium-sized component manufacturers with insufficient funds.

According to the statistics of the automotive parts industry of the Korea Automotive Industry Cooperative, as of 2015, the proportion of companies with less than 50 employees was 28.8%, and the proportion of 50-99 employees was 17.7%, with the two groups accounting for 45% of the total auto parts industry. Occupies more than%

For these small and medium sized companies, almost all products are accessories rather than finished products, and most of these accessories are not very long or complicated. However, due to the nature of the accessories, the accuracy of the processing results is very important, so even small and medium sized companies are introducing inspection equipment with precision of about 1 / 1000mm to inspect the processing result, that is, the product.

The solution included in the equipment mainly used by small and medium-sized companies is simply measuring the outside diameter / inner diameter value of the finished product to determine whether it is a good product and briefly keeping the record. This is far from statistical quality control.

For this reason, it is difficult for small and medium-sized companies to respond quickly to various requirements for quality control, especially the product's inspection result data request, which are required by the superior supplier, which is the main supplier, and to inspect the site in order to respond to the requirements of the superior company. This can adversely affect productivity, including the need for additional work by the process worker.

Therefore, a statistical quality control solution in the inspection process that suits the business characteristics of small and medium-sized companies is necessary.

Another problem is the poor test results confirmation and monitoring environment of the inspection equipment. In the case of inspection equipment introduced to small and medium-sized companies, the only way to check the inspection results or to monitor the inspection process is to use a monitor mounted on the inspection equipment. Thus, the inspection worker must spend most of the time in front of the inspection equipment monitor.

However, the inspection process workers of small and medium-sized companies are also working in other processes besides the inspection process, so that most of the time the operator spends in front of the monitor leads to deterioration of the work efficiency of the workers, which is not good for the overall process efficiency. Will be affected.

Therefore, in order to increase work efficiency, an on-site inspection equipment monitoring system or a remote inspection equipment monitoring system that can monitor inspection equipment anywhere in the company is necessary for improving the efficiency of inspection process workers and overall company productivity.

An object of the present invention is to provide an inspection system and a monitoring system for an essential core inspection process for small and medium sized parts processing company.

In order to solve the above problem, according to the present invention there is provided a component inspection and monitoring system for inspecting and monitoring the components. Component inspection and monitoring system according to the present invention,

Inspection equipment for inspecting the machined parts from the processing equipment;

A digital board integrally formed with the inspection equipment;

An industrial PC that receives a test data output from the test equipment, sends setting data to the test equipment, and includes a program for the test equipment for outputting the test data in real time;

A web server for receiving inspection data from an industrial PC and transmitting the inspection data to a plurality of user terminals by a user request;

And as a feature, comprising a plurality of monitoring devices for receiving and displaying inspection data from a web server.

In the above aspect, the inspection equipment is preferably an LVDT inspection equipment, and the digital board is configured to receive an LVDT analog signal input from the inspection equipment, convert it into a digital signal, and output the digital signal.

Parts inspection and monitoring system.

In addition, in the above aspect, the digital board,

A constant voltage circuit for supplying power to the digital board;

An analog filter unit configured to receive an analog signal from an inspection device and pass a specific band to pass through a specific band; And

A plurality of analog-to-digital converters for converting each of the analog signals passed through the plurality of analog filters into corresponding digital signals; And

And a central processing unit for controlling the operation of the digital board.

In addition, in the above-described aspect, the web server includes a database and a WAP server, where the measurement test result data for the part and the processing history data of the part are stored, and the WAP server responds to the user request for the measurement test result. Provide data and machining history data of the part.

Also in the above aspect, the program for inspection equipment includes a user interface, the user interface comprising: an inspection equipment setting interface for setting of the inspection equipment; An inspection monitoring interface for real-time monitoring of the measured values measured from the inspection equipment; And an inspection history inquiry interface for inquiring measurement inspection result data and machining history data of the parts stored in the database.

In the above aspect, the plurality of monitoring equipment includes a mobile terminal and a stationary terminal, the mobile terminal preferably includes a smartphone, a tablet PC and a notebook, and the stationary terminal includes a kiosk terminal provided at the production site. .

According to the present invention, not only can provide a high-level parts inspection system, but also the operator does not have to spend most of the time in front of the field monitor, and accesses the web server through a mobile terminal or a fixed terminal at any time, regardless of the place, the history of parts, etc. Can be immediately confirmed, and the efficiency of the work can be improved.

1 is a block diagram illustrating an example of a component inspection and monitoring system in accordance with the present invention.
Figure 2 is a schematic block diagram showing the internal configuration of a digital board integrally formed in the inspection equipment of the component inspection and monitoring system according to the present invention.
Figure 3 is a block diagram schematically showing the functional coupling between the inspection equipment, inspection equipment program and database of the component inspection and monitoring system according to the present invention.
4 is a diagram showing a class diagram of a program for inspection equipment according to the present invention.
5 is a view schematically showing the connection between the web server and the monitoring equipment of the parts inspection and monitoring system according to the present invention.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below but may be implemented in various different forms.

In this specification, the embodiments are provided so that the disclosure of the present invention may be completed and the scope of the present invention may be completely provided to those skilled in the art. And the present invention is only defined by the scope of the claims. Thus, in some embodiments, well known components, well known operations and well known techniques are not described in detail in order to avoid obscuring the present invention.

Like reference numerals refer to like elements throughout. In addition, the terms used (discussed) herein are for the purpose of describing particular embodiments only and are not intended to be limiting of the invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. In addition, components and operations referred to as 'includes (or includes)' do not exclude the presence or addition of one or more other components and operations.

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used in a sense that can be commonly understood by those skilled in the art. In addition, the terms defined in the commonly used dictionary are not ideally or excessively interpreted unless they are defined.

Hereinafter, a part inspection and monitoring system according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram schematically showing the configuration of a component inspection and monitoring system according to an embodiment of the present invention. As shown in FIG. 1, the parts inspection and monitoring system according to the present invention includes a processing device 100 for processing a part, an inspection device 200 for inspecting a processed part, an inspection device 200, and an inspection device. Digital board 300 for interfacing between the programs, the inspection site to collect the inspection data from the inspection equipment 200 through the digital board 300 and to store the collected data in the database 510 of the web server 500 An industrial PC 400 including a cost program, a web server 500 including a database 500, and a monitoring device 600 for monitoring data stored in the web server 500 in real time, the industrial PC 400 The web server 500 and the monitoring device 600 are connected to each other via a communication network 700 made of wired or wireless.

More specifically, the processing equipment 100 includes CNC equipment and PLC equipment. CNC (computer numerical control) equipment is a general term for computer-based machine tools, and may include CNC lathes, CNC mills, etc., and PLC refers to a central controller for controlling automated production equipment. Can be understood to represent a facility for the automated production of parts by a central controller.

The inspection equipment 200 represents equipment for performing inspection on parts or accessories processed through the processing equipment 100. The inspection equipment 200 receives the components from the processing equipment 100 and performs inspections including machining errors, dimensions, outer diameters, inner diameters, slopes, etc. of the supplied parts or processed parts.

Preferably, one example of the inspection equipment 200 may be inspection equipment that uses a linear variable differential transformer (LVDT) method to proceed with measurement and inspection of parts. LVDTs can be used as transducers with excellent characteristics while being less susceptible to environmental changes, as appropriately applied to the electromagnetic shielding and structural features of the measurement object.

In the present invention, the inspection equipment 200 used the LVDT-type inspection equipment, but it will be apparent to those skilled in the art, but the present invention is not limited thereto. The inspection equipment 200 uses the transmissive photo sensor to have the same optical axis as the transmitter and the receiver. It may be an optical inspection equipment which is installed to face each other on a line and configured to detect a change in light quantity caused by a part or a detection object passing therebetween.

The digital board 300 performs interfacing between the test equipment 200 and the industrial PC 400 in which the test equipment program is installed. That is, the digital board 300 serves as a protocol for interworking the test equipment 200 and the test equipment program. The digital board 300 transmits various setting values or product processing reference values from the test equipment program to the test equipment 200. As the function and the measurement data value measured by the test equipment 200 are transmitted to the test equipment program in real time, the user may monitor the data on the screen of the industrial PC 400.

In addition, the digital board 300 according to the present invention performs a protocol role between the inspection equipment 200 and the program to collect detailed data about the parts, such as numerical values and error values for each measurement part of the parts for quality control. Make it possible.

Although the digital board 300 is shown as separate from the inspection equipment 200 in order to help the understanding of the present invention, the digital board 300 is preferably formed integrally with the inspection equipment 200. The present invention is not limited to this, but may be formed separately from the inspection equipment.

2 is a view showing the internal configuration of the digital board 300 according to the present invention. As shown in FIG. 2, the digital board 300 receives constant power from an external power adapter or power supply for supplying voltage, and supplies a constant voltage circuit 310 and a digital board 300 to supply internal power to the digital circuit. From the central processing unit 320 for controlling the operation, the debugging unit 330 for downloading a program from the outside, the communication unit 340 physically connected to the industrial PC to perform communication with the program for the inspection equipment, from the LVDT inspection equipment A plurality of analog filters 350 for filtering the detected displacement value for each measurement point, A plurality of analog-to-digital converter 360 for converting the analog signal filtered from each analog filter 350 into a digital signal, Each And a plurality of output channels 370 to which digital converted signals from the analog-to-digital converter 360 are output.

In the embodiment of the present invention, the external power adapter is a DC 12V DC supply adapter and the constant voltage circuit of the digital board 300 is configured to supply DC 5V / 3A. It will be apparent to those skilled in the art, but the present invention is not limited thereto, and other DC voltages and currents may be used as the power supply.

The debugging unit (or debugger) 330 is a JTAG (Joint Test Action Group) used as a port for artificially testing the operation of the digital board 300, and includes five input / output pins as follows.

1.TDI (data input): Data signal pin for testing. TDI command / data is determined according to the TAP state transferred by TMS

2.TDO (Data Output): Pin for externally monitoring the test result, which can also be address / data depending on the TAP status.

3.TCK (clock): pin for test clock

4.TMS (mode): Pin for control signal to switch test mode

5.TRST (Reset): Control pin to initialize board

The communication unit 340 performs a function of being physically connected to the industrial PC to perform communication with the program for the test equipment, in the embodiment of the present invention is connected to the external industrial PC 400 through RS232 serial communication, for this purpose MAX232 A chipset has been used, and setting data from the industrial PC 400 can be input through the communication unit, and a value detected and detected by the digital signal conversion from the detection device 200 is output to the industrial PC 400.

The plurality of analog filters 350 are configured to perform filtering of signals of a specific analog band with respect to the analog signals measured from the LVDT inspection equipment 200. Although the number of analog filters is shown as four in the embodiment of the present invention, the number of analog filters may be higher depending on the characteristics of the LVDT inspection method, which means that the component to be inspected and the inspection element to be inspected (diameter) , Inner diameter, outer diameter, slope, etc.), and LVDT inspection precision may be appropriately selected, and the present invention is not limited thereto.

The plurality of analog-to-digital converters 360 are installed at the rear ends of the plurality of analog filters corresponding to the number of analog filters 450 used to convert the analog signals passing through each of the plurality of analog filters 350 into digital signals. . In the present invention, the analog-to-digital converter 360 is a delta-sigma modulation (ΔΣ) method as shown, but the present invention is not limited thereto. Can be.

The detection signal digitally modulated through the plurality of analog-to-digital converters 360 is output through each LVDT channel 370 and is transmitted to the industrial PC 400 through the communication unit 340.

Next, a program for the inspection equipment installed in the industrial PC 400 will be described. The conventional inspection equipment program is provided by the existing inspection equipment company with the equipment provided. In this case, the inspection equipment program functions to store only the brief inspection result data with the operation of the inspection equipment.

However, such a conventional program does not properly provide inspection result data of a product necessary for quality improvement, and it is difficult to respond to a request for inspection result data for a product for quality control of a supplier.

The program for the inspection equipment preferably has a function of collecting the data including the inspection measurement information and more than the existing inspection result data as well as the operation function of the inspection equipment, and storing and querying the data in a database.

3 is a view showing the main functions of the inspection equipment program linked to the inspection equipment 200 and the database 510 in the component inspection and monitoring system according to the present invention. As shown in FIG. 3, the program for the inspection equipment includes an equipment setting function for setting the inspection equipment 200, an inspection monitoring function for monitoring the inspection results in real time, and an inspection history inquiry function for inquiring previous inspection history from a database. It provides a user interface for implementation, and its detailed functions are as shown in the class diagram of the program for inspection equipment shown in FIG.

3 and 4, the user can set the test equipment through the user interface provided by the test equipment program (Master Setting, Setting of Fig. 4), and also monitor the test values measured from the test equipment in real time. (DataView, ChartView in Figure 4), and also can check the past inspection history from the database (DBHandler, DBSql).

Referring back to FIG. 1, the component inspection and monitoring system according to the present invention includes a web server 500. Web server 500 is a WAS (Web Application Server) server 520 for transmitting the data stored in the database 510, the test history of the parts and the database 510 to a plurality of terminals 600 connected via a network Is done.

The database 510 is configured to store and manage various measurement result values according to a product based on inspection result data and product data which are most important in the inspection process data. In addition, the database is designed to include the processing history information of the product, so that the inspection process can be continuously advanced.

WAS 520 is built with Tomcat, which can support both Windows and Linux platforms, and the server program is implemented with JAVA-based RESTful to respond to frequent data inquiry requests from multiple users.

Since JAVA-based program implementation can flexibly respond to any platform desired by a company or a site, it can contribute to establishing an environment that can monitor and monitor not only inspection equipment but also other equipment in the production site.

In the present invention, as shown in Figures 3 and 5, a fixed terminal (kiosk, PC, etc.) installed on the external mobile terminal (for example, smartphone, tablet PC, laptop, etc.) and factory sites connected through a network through the server application Etc.), the inspection process data can be viewed.

Therefore, the operator can access the web server 500 through the mobile terminal or the fixed terminal at any time regardless of the place without having to spend most of the time in front of the field monitor and immediately check the history of parts, etc. This can be improved.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not for limiting the technical spirit of the present invention but for the description, and the scope of the technical idea of the present invention is not limited by these embodiments.

Therefore, the protection scope of the present invention should be construed by the claims below, rather than being limited by the above-described embodiment, and all technical ideas within the equivalent scope will be construed as being included in the scope of the present invention.

100: processing equipment 200: inspection equipment
300: digital board 400: industrial PC
500: web server 510: database
520: WAS 600: monitoring equipment
610: mobile terminal 620: kiosk

Claims (5)

In the parts inspection and monitoring system for inspecting and monitoring the parts,
Inspection equipment for inspecting the machined parts from the processing equipment;
A digital board integrally formed with the inspection equipment;
An industrial PC which receives a test data output from the test equipment, transmits setting data to the test equipment, and has a program for test equipment for outputting the test data in real time;
A web server receiving the inspection data from the industrial PC and transmitting the inspection data to a plurality of user terminals by a user request;
And a plurality of monitoring devices for receiving and displaying inspection data from the web server.
Parts inspection and monitoring system.
The method of claim 1,
The inspection equipment is an LVDT type inspection equipment,
The digital board is configured to receive the LVDT analog signal input from the inspection equipment, converts it into a digital signal and outputs the digital signal.
Parts inspection and monitoring system.
The method of claim 1,
The digital board is
A constant voltage circuit for supplying power to the digital board;
An analog filter unit configured to receive an analog signal from an inspection device and pass a specific band to pass the specific band; And
A plurality of analog-to-digital converters for converting each of the analog signals passed through the plurality of analog filters into corresponding digital signals; And
And a central processing unit for controlling the operation of the digital board.
Parts inspection and monitoring system.
The method according to claim 2 or 3,
The web server includes a database and a WAP server,
In the database, measurement test result data of the parts and machining history data of the parts are stored.
The WAP server is configured to provide the measurement test result data and the machining history data of the part in response to a user request.
Parts inspection and monitoring system.
The method of claim 4, wherein
The program for inspection equipment includes a user interface,
The user interface,
An inspection equipment setting interface for setting the inspection equipment;
An inspection monitoring interface for real-time monitoring of the measured values measured from the inspection equipment; And
An inspection history inquiry interface for inquiring measurement inspection result data and machining history data of the parts stored in the database;
The plurality of monitoring equipment includes a mobile terminal and a fixed terminal,
The mobile terminal includes a smartphone, a tablet PC and a notebook,
The stationary terminal is characterized in that it comprises a kiosk terminal provided to the production site
Parts inspection and monitoring system.

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