KR102543561B1 - heat treatment materials inspection system - Google Patents

Abstract

The present invention relates to a heat treated substrate inspection system invented to accurately digitally measure the depth of a hardened layer according to heat treatment by utilizing image information of a material subjected to high frequency heat treatment.
The present invention provides a data transmission/reception unit 20 and external input data and internal output data to transmit internal information to the outside as well as receive image data containing section information of a heat-treated substrate from an external image equipment or image storage means (C). A display unit 30 for outputting as an image, and an image introduction unit for measuring the depth and length of the hardened layer of the heat treatment substrate through the image information received through the data transmission and reception unit 20 and outputting or storing the inspection result. (17), an image information derivation unit 18, a measurement unit 19, and an inspection data storage unit 40.
The present invention enables inspection of various heat-treated substrates from which information on the cross section can be obtained, and the inspection work for heat-treated substrates can be quickly and accurately performed. According to the present invention, heat treatment information is provided to clients (customers). Not only can customer reliability be secured by providing digitized information related to heat treatment, but also it can contribute to the improvement of productivity and heat treatment quality of heat treatment equipment inspection by enabling the establishment of a database with heat treatment information for each equipment. It works.

Description

Heat treatment materials inspection system

The present invention relates to an inspection system for heat-treated substrates, and more particularly, utilizes image information of a substrate material subjected to high-frequency heat treatment to accurately digitally measure the depth of a hardened layer according to heat treatment, and inspects It relates to a heat treatment substrate inspection system invented to improve product management and operation efficiency of equipment by accumulating inspection result data as well as enabling reliable product reporting to customers using result data.

Heat treatment refers to a material that improves the properties (physical properties) of a specific metal substrate in a form desired by the user by performing treatment operations such as heating and cooling at a specific time, condition, and speed. As a processing technology, it is a processing technology that induces a change in the characteristics of a material (substrate) in which the type or composition of a uniquely existing phase is changed by a change in temperature.

A common material to which the heat treatment technology is applied is metal. By rapidly cooling a specific metal substrate for a predetermined specific time in a state in which a specific metal substrate is heated to a high temperature, some or all of the changes that may occur in normal cases are prevented and the necessary properties desired by the user are prevented. are being asked to pay

A hardened layer is formed on the surface of the substrate subjected to heat treatment, and desired hardness and properties are added to the substrate according to the depth of the hardened layer formed on the surface of the substrate.

Therefore, it is very important to measure the depth of the hardened layer in order to confirm whether the heat treated substrate has the desired hardness and characteristics. It is very important to accumulate data on hardened layer inspection results of products in order to improve operation efficiency.

Conventionally, in order to inspect the depth of the hardened layer of the heat treated substrate, after cutting the center of the heat treated substrate, the depth of the hardened layer is measured using a measuring means to inspect whether the heat treatment has been performed to a depth of the hardened layer within the target range. Photo data obtained by photographing the cut surface of the heat treated substrate is attached to the inspection result sheet in a certain format, and then the pre-measured hardened layer depth is handwritten on one side of the photo data, and the completed inspection result sheet is submitted to the customer. If necessary, inspection A copy of the result sheet is kept and used as data in the future heat treatment inspection process.

In the conventional heat treatment base material inspection method made as described above, it is difficult to accurately and quickly inspect and derive inspection results, and the condition of the inspection result sheet is poor, which acts as a factor in lowering customer's reliability. Problems such as the need to create a separate inspection result sheet were followed, and paper-type inspection result sheets are cumbersome to manage and are not suitable for making a database of inspection results.

The present invention was created to solve various problems according to the conventional method for inspecting the depth of the hardened layer of a heat-treated substrate as described above, by inputting image information of a heat-treated substrate obtained by a digital camera, mobile phone, or image extraction equipment to separate By measuring the hardening depth without using a measuring method and providing accurate digitized heat treatment information, it is possible to quickly and accurately inspect heat treatment substrates and deliver digitized accurate heat treatment information to customers, as well as heat treatment information for each substrate In order to build a database by accumulating, we want to provide a complete heat treatment substrate inspection system with a focus on technical challenges.

The present invention for solving the above technical problem is a data transmission and reception unit for receiving image data containing section information of a heat treatment substrate from an external imaging equipment or image storage means and transmitting internal information to the outside, external input data and internal A display unit for outputting output data as an image, and a user (manager) inputs standard information data such as the length (X-axis) and height (Y-axis) of the equipment using key (character) input means or operates the system A data input unit for inputting information necessary for a data storage unit, a data storage unit for classifying and storing standard data for each equipment input by the user, and equipment data stored in the data storage unit according to the user's selection (M ₁ , M ₂ , M ₃ . ..Mn), a standard information output unit for outputting standard information data of a selected material, a coordinate output unit for outputting X-axis and Y-axis coordinate values to a display unit, and a specific target point through a mouse or other input means Coordinate input unit to input the coordinates of the image introduction unit to output the image information (image) received through the data transmission/reception unit on the display unit, and grasp the boundaries dividing the exterior and interior of the image output through the display unit. The technical feature is that it consists of an image information derivation unit for displaying, a measurement unit for measuring the standard of the heat treated substrate and the depth of the hardened layer, and a measurement data storage unit for storing inspection data measured through the measurement unit.

The heat treatment substrate inspection system presented in the present invention enables inspection of various heat treatment substrates that can obtain image information on the cross section through a digital camera, mobile phone, non-destructive inspection device, or other image extraction equipment. It can provide the benefit of hardened layer inspection for heat treated substrates.

According to the present invention, it is possible to quickly and accurately inspect the hardened state and hardened layer depth of the heat treated base material, and also, it is possible to provide customer companies with digitized inspection information related to heat treatment information, thereby increasing customer reliability. Not only can it be secured, but also it is possible to build a database by accumulating heat treatment information for each substrate, thereby contributing to the improvement of productivity and heat treatment quality of heat treatment substrates.

1 is a configuration diagram of a heat treatment substrate inspection system presented in the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. First of all, it should be noted that in the description of the drawings, the same components or parts are denoted by the same reference numerals as much as possible. And, in describing the present invention, detailed descriptions of related known functions or configurations are omitted in order not to obscure the gist of the technical idea to be enjoyed in the present invention.

1 is a block diagram of a heat treatment substrate inspection system 10 presented in the present invention. As shown, the present invention is a cross-section of a heat treatment substrate from an external imaging equipment or image storage means (C). A data transmission/reception unit 20 that receives video data (image) containing information and transmits internal information (inspection data of a material output through the measuring unit 19) to the outside. , The display unit 30 for outputting external input data and internal output data as images, and the length (X-axis) of the material by the user (manager) using the key (character) input means 12 and a data input unit 11 for inputting standard information data such as height (Y-axis) or information necessary for operating the system, and classifying and storing standard information data for each material input by the user. A material data storage unit 13 programmed to be programmed to do so, and standard information data (M ₁ , M ₂ , M ₃ ) of the material stored in the data storage unit 13 according to the user's selection. The standard information output unit 14 programmed to output the standard information data of the selected base material (Mn), outputs the X-axis and Y-axis coordinate values to the display unit 30 Coordinate input unit ( 16), an image introduction unit 17 for outputting video data (image) received through the data transmission/reception unit 20 to the display unit 30, and a device output from the display unit 30. An image information derivation unit 18 programmed to identify and display the boundary dividing the exterior and interior of the material through image data (image) containing cross-section information of the material, and display unit The substrate output by (30) (機才. The measurement unit 19 for measuring the standard of the material and the depth of the hardened layer through the image data (image) of the material, and stores the inspection data measured through the measurement unit 19 It is composed of a measurement data storage unit 40 and the like to do so.

The measurement unit 19 is for digitizing and outputting the coordinate values input through the coordinate input unit 16, and the measurement unit 19 measures the material measured through the image information of the heat treatment substrate displayed on the measurement unit 19. The length (X-axis) and height (Y-axis) of the standard data are corrected to be the same as the standard information data of the material output from the standard information output unit 14, and the standard measurement data is set and output. , The depth and length of the hardened layer measured by the measurement unit 19 are configured by adding a measurement data correction unit 191 programmed to correct and output at the expansion or reduction ratio of the pre-corrected standard measurement data. do.

The present invention having the above configuration enables measurement and inspection of the shape, depth, length, etc. of the hardened layer for heat-treated substrates of various standards from which image information on the cross section can be obtained. Management) uses the key (character) input means 12 to input standard information data such as the length (X-axis) and height (Y-axis) of the heat treatment material to the data storage unit 13 , and the display unit 30 outputs the cross-sectional image data of the heat treatment base material received through the data transmission/reception unit 20 to the monitor, and the inspection proceeds.

When the inspection of the heat-treated substrate proceeds, the boundary line dividing the exterior and interior of the substrate output through the display unit 30 by the image information derivation unit 18 is displayed. , and the coordinate input unit 16 is output in a state in which the user outputs the standard information data selected from among the material data (M ₁ , M ₂ , M ₃ ... Mn) stored in the data storage unit 13. By inputting the coordinate values of the boundary line that divides the exterior and interior of the image, the measuring unit 19 measures the hardened layer of the heat-treated base material to be inspected.

At this time, in measuring the hardened layer of the heat-treated base material by the measuring unit 19, the measurement data correction unit 191 measures the base material measured through the image information of the heat-treated base material displayed. The length (X-axis) and height (Y-axis) of ) are corrected to be the same as the standard information data of the base material output from the standard information output unit 14 to set the reference measurement data, The depth and length of the cured layer input through the coordinate input unit 16 are corrected and output at the expansion or reduction ratio of the pre-corrected standard measurement data, and the standard (size) of the product interposed in the externally input image and the actual heat treatment description (Equipment. Material) Accurate measurement and inspection is possible even if the specifications of the product do not exactly match.

For example, assuming that the length (X-axis) is 200 mm and the height is 100 mm in the standard information of the heat treatment substrate output from the standard information output unit 14, measured through image data Assuming that the length (X-axis) of the heat treatment substrate is 100 mm and the height is 50 mm, the measurement data correction unit 191 enlarges the measured data by 200% and sets it as the reference measurement data. It outputs (displays numerical values on the screen), and when measuring the depth or length of the hardened layer thereafter, it enlarges 200% and outputs the measured values (displays numerical values on the screen).

Since the inspection data output through the measurement unit 19 can be transmitted to the outside through the data transmission/reception unit 20, the inspection result can be reported to the customer company online, and the inspection result screen is stored in the measurement data storage unit 40. Thus, the inspection data can be used for various purposes.

The heat treatment substrate inspection system presented in the present invention will not be limited by the above-described embodiments and accompanying drawings, etc., and is substituted or modified in various forms within the scope of the technical idea to be enjoyed in the present invention. And changes can be made, which will be apparent to those skilled in the art to which the present invention belongs.

10: heat treatment substrate inspection system 11: data input unit
13: description data storage unit 14: standard information output unit
15: coordinate output unit 16: coordinate input unit
17: image introduction unit 18: image information derivation unit
19: measurement unit 191: measurement data correction unit
20: data transmission and reception unit 30: display unit
40: measurement data storage unit

Claims (1)

It receives image data (image) containing cross-section information of heat-treated substrates from external imaging equipment or image storage means (C), as well as internal information (materials output through the measuring unit 19). A data transmission/reception unit 20 for transmitting externally the inspection data of a material), a display unit 30 for outputting external input data and internal output data as images, and a user (manager) user key (character) A data input unit (11) for inputting standard information data such as the length (X-axis) and height (Y-axis) of a material using the input means (12) or inputting information necessary for the operation of the system. ), a data storage unit 13 for classifying and storing standard information data for each equipment input by the user, and materials stored in the data storage unit 13 according to the user's selection The standard information output unit 14 for outputting the standard information data of the material selected from among the standard information data (M ₁ , M ₂ , M ₃ ...Mn), X-axis and Y-axis Coordinates of a specific target point (the boundary line dividing the exterior and interior of the image output through the display unit 30) through the coordinate output unit 15 for outputting coordinate values to the display unit 30, a mouse or an input means The coordinate input unit 16 to input the image data (image) containing the section information of the material received through the data transmission/reception unit 20 to the display unit 30. The image introduction unit 17 for the display unit 30 divides the exterior and interior of the material through video data (image) containing section information of the material output from the display unit 30. An image information derivation unit 18 to identify and display the boundary line to be measured, a measurement unit 19 to measure the standard of the heat treatment material and the depth of the hardened layer, and the measurement unit 19. It consists of a measurement data storage unit 40 for storing inspection data,
The length (X-axis) and height (Y-axis) of the substrate material measured through the image data (image) of the heat-treated substrate material displayed in the measurement unit 19 is corrected to be the same as the standard information data of the material output from the standard information output unit 14 to set standard measurement data, and the depth and length of the cured layer measured through the measurement unit 19 The heat treatment substrate inspection system, characterized in that the etc. is configured by adding a measurement data correction unit 191 programmed to correct and output at an enlargement or reduction ratio of the pre-corrected reference measurement data.

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