TWI274867B - Printed circuit board inspection apparatus - Google Patents

Printed circuit board inspection apparatus Download PDF

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Publication number
TWI274867B
TWI274867B TW094109949A TW94109949A TWI274867B TW I274867 B TWI274867 B TW I274867B TW 094109949 A TW094109949 A TW 094109949A TW 94109949 A TW94109949 A TW 94109949A TW I274867 B TWI274867 B TW I274867B
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Taiwan
Prior art keywords
circuit board
printed circuit
format
display
area
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TW094109949A
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Chinese (zh)
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TW200535412A (en
Inventor
Tsuyoshi Kimura
Osamu Takada
Katsuyuki Suzuki
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Anritsu Corp
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N21/00Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
    • G01N21/84Systems specially adapted for particular applications
    • G01N21/88Investigating the presence of flaws or contamination
    • G01N21/95Investigating the presence of flaws or contamination characterised by the material or shape of the object to be examined
    • G01N21/956Inspecting patterns on the surface of objects
    • G01N21/95684Patterns showing highly reflecting parts, e.g. metallic elements
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T7/00Image analysis
    • G06T7/0002Inspection of images, e.g. flaw detection
    • G06T7/0004Industrial image inspection
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T7/00Image analysis
    • G06T7/10Segmentation; Edge detection
    • G06T7/136Segmentation; Edge detection involving thresholding
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K3/00Apparatus or processes for manufacturing printed circuits
    • H05K3/30Assembling printed circuits with electric components, e.g. with resistor
    • H05K3/32Assembling printed circuits with electric components, e.g. with resistor electrically connecting electric components or wires to printed circuits
    • H05K3/34Assembling printed circuits with electric components, e.g. with resistor electrically connecting electric components or wires to printed circuits by soldering
    • H05K3/3457Solder materials or compositions; Methods of application thereof
    • H05K3/3485Applying solder paste, slurry or powder
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T2207/00Indexing scheme for image analysis or image enhancement
    • G06T2207/30Subject of image; Context of image processing
    • G06T2207/30108Industrial image inspection
    • G06T2207/30152Solder

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Theoretical Computer Science (AREA)
  • Computer Vision & Pattern Recognition (AREA)
  • Chemical & Material Sciences (AREA)
  • Immunology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Quality & Reliability (AREA)
  • Analytical Chemistry (AREA)
  • Biochemistry (AREA)
  • General Health & Medical Sciences (AREA)
  • Health & Medical Sciences (AREA)
  • Pathology (AREA)
  • Manufacturing & Machinery (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Investigating Materials By The Use Of Optical Means Adapted For Particular Applications (AREA)
  • Length Measuring Devices By Optical Means (AREA)
  • Electric Connection Of Electric Components To Printed Circuits (AREA)

Abstract

A print circuit board inspection apparatus is provided. By allotting the area and the format that can show the layout as the center of inspection in maximum and show the layout of the print circuit board and image without error so as to show the appearance of the print-soldered print circuit board, the screen display with effective inspection can be performed. In the print circuit board inspection apparatus, the allotting device 7 chooses a longer size in vertical or horizontal direction of the layout to display in maximum size, and display the entire area of the layout, allots the layout according to the above maximum range for display magnification at selected area, and allots the appearance picture outputted by image data forming device 3 to other areas, then displays them by the displaying device 8.

Description

127486?°pifd〇c 九、發明說明: 【發明所屬之技術領域】 本發明是關於-種對在為了將 =印刷電路板上’對利用焊劑印刷 =冗 狀的檢查,或在印刷基板上安裝電子構件時其:== 檢查所使用之檢查裝置。 衣狀心的127486?°pifd〇c IX. Description of the Invention: [Technical Field of the Invention] The present invention relates to the inspection of the use of flux printing = redundancy on a printed circuit board, or mounting on a printed circuit board For electronic components: == Check the inspection device used. Clothing-like

特別是本發明關於-種如以印刷焊劑檢查裝置 子,在檢查結果存在疑問的情況下,雖然需要對表示印刷 電路基板的印齡置之配職、實㈣焊狀檢查對象的 印刷基板的外觀(所測的圖像或所拍照的圖像)及檢杳 結果進行比較,但可以顯示晝面輕鬆地對它們進行觀察的 技術。 、 【先前技術】 在從作為在印刷焊劑檢查裝置中向電路板(以下將印 刷電路板只稱作[電路板]。)照射光並進行測定的結果所 知到的’電路板上的印刷焊劑位置的位移(包括高度)和 輝度(包括從基板進行反射之光的量、受光量(光的強度)。) 之測定資料,轉換為形成用於表示進行焊劑印刷時的印刷 焊劑量之要素的圖像資料(高度、面積或體積等的資料: 以下將這些資料的一部分或全部稱作[評價對象資料]。), 並將該圖像資料與形成判定的基準的參照資料進行比較 (以下將其稱作[基準]。)且判定之檢查裝置及方法中, 由電路板印刷焊劑位置的圖案形狀、印刷焊劑狀態、測定 丨 pif.doc 條件、雜訊、變換上述資料的條件等及它們的組合上 上述評價對象資料的正確生成是-個難點,判斷 料 象資料的判定裝置,有時會輸出將合格品的印刷焊劑^成 狀態錯誤地判定為不合格品之結果(以下將錯誤 ^ 果稱作[虛報]。)。因此,無論如何也需要將判定的結= 實物(安裝狀態)進行比較並解析,找到原因。但a 於實物處於現場的製造生產線上,所以無法擺出進=比較 研究。-般情況下,可將所拍寫(或所測定)之實物的外 •觀的圖像、判定結果及配置圖在同一晝面中顯示並進行比 較。在以往的形狀檢查裝置或印刷焊劑檢查裝置中,顯示 畫面的版面多是固定的。 …” 根據上述的情況,在虛報等的解析中,最好將大小有 限的顯示晝面形成有效且容易觀察的顯示形態。然而,容 易產生前述虛報的部位,雖然分佈在電路板的各處,但為 全部的情況少。這樣-想,以也為基板的整體設計圖之配 置圖作為基準,至少使虛報產生之部位的部分圖像和該部 φ 位的判定結果被顯示為佳。 【發明内容】 夂、本發明的目的是提供一種藉由預先準備丨個或複數個 格式,而且在複數個、代表性方面,是準備複數個具有主 • 要的不同面積之複數個區域的格式,再選擇並分配能夠使 • 用於表不所設計的印刷部位的配置之配置圖、用於表示被 印刷焊接的電路板的外觀之圖像、及檢查結果中的電路板 的配置圖以最大限度且不缺失地進行顯示之格式及區域, I2748627〇p>fd〇c 從而可輕鬆地進行對檢查有效的晝面顯示之技術。 另外,電路板的檢查是由搬運多個的電路二並進行檢 查之檢查生產線進行的。屆時’有時要檢查者—面對流過 生產線的電路板和檢查裝置的顯衫面進行味並監視一 面進行。因此,產生使檢查生產線的位置、 方向、流動方向等和畫面所顯示之圖像的位置、方向相 的迫切期望。 + 因此,還有-個目的是藉由使上述那樣的程 之區域的位置譬如說區域的版面,可從操作部進行释 t可利用與檢查生產線及檢查者相適應的版面晝面進行 檢查。 以成么述目的,本發明的第1項包括:電路板資 _存裝置⑴’將包括作為檢查對象的印刷電路板 焊劑位置的配置圖進行儲存;測絲置⑵,接乂 反表面的與位置對應之光的強度, :: 里丄圖像生成裝置(3),根據測定裝置的測定值,生 不别述印刷電路板上的形狀之評價對象資料,且、 其形狀的表面之外觀圖像資料;狀裝置(4),根據^ =價對象純判定是否良好;顯示裝置(8);顯示格= =裝置(6),將用於在前述顯示裝置上分割為大小不 ,數個區域並顯示的格式進行儲存;分配裝置⑺ 別述檢查對象的印㈣路板的配置@,並選 二 的縱或橫中料-個較長的尺寸可最大限度地進^置圖 且能夠顯轉她置_區域及具有舰域的格式,=向 12748&7柳· 4選擇了 2區域以前述最大限度進行顯示的倍率分配配置 ,且=4述選擇了的格式之剩餘的一個區域分配前述外 觀圖像資料’並將所分自㈣格式發送向前述顯示裝置。 在本發明的第2項中,在第1項的發明中,前述格式 儲存裝置所儲存之格式的—個,包括具有與各格式共同的 位置大]、之共同的區域,以及位置及大小不同的至少複 數個固有的區域。In particular, in the case of the printed flux inspection apparatus, the appearance of the printed circuit board of the printed circuit board is required, and the appearance of the printed circuit board of the printed circuit board is required. (The measured image or the photographed image) and the inspection results are compared, but the technique of observing them easily can be displayed. [Prior Art] The printed solder on the board is known from the result of irradiating light to a circuit board (hereinafter, the printed circuit board is simply referred to as [circuit board]). The measurement of the positional displacement (including the height) and the luminance (including the amount of light reflected from the substrate and the amount of received light (intensity of light)) is converted to form an element for indicating the amount of printed soldering when the flux is printed. Image data (data such as height, area, volume, etc.: Some or all of these materials are referred to as [evaluation target data] below), and the image data is compared with the reference material forming the judgment reference (hereinafter It is called [reference].) In the inspection apparatus and method for determining, the pattern shape of the solder material position, the state of the printed solder, the condition of measuring 丨pif.doc, the noise, the conditions for changing the data, and the like are printed on the board. Combining the correct generation of the above-mentioned evaluation target data is a difficult point, and the determination device for judging the material image sometimes outputs the printed flux of the qualified product^ State is erroneously determined results of defective (hereinafter referred to as the error if ^ [false].). Therefore, in any case, it is necessary to compare and analyze the determined junction = physical state (installation state) to find the cause. However, a is in the production line on the spot, so it is impossible to put forward the comparative study. In general, the external image of the captured (or measured) object, the determination result, and the layout map can be displayed on the same side and compared. In the conventional shape inspection device or printed flux inspection device, the layout of the display screen is often fixed. According to the above situation, in the analysis of false reports, etc., it is preferable to form a display face having a limited size to form an effective and easy-to-view display form. However, it is easy to generate the above-mentioned false report portion, although distributed throughout the circuit board. However, in all cases, it is preferable to display at least the partial image of the portion where the false report is generated and the determination result of the φ bit of the portion, which is also the reference map of the overall design of the substrate. Contents 夂 The purpose of the present invention is to provide a format in which a plurality of formats having different areas of the main and the main areas are prepared by preparing one or more formats in advance, and in plural and representative aspects. Selecting and assigning a configuration map capable of making a configuration for a printed portion that is not designed, an image for indicating the appearance of a printed circuit board, and a configuration diagram of a circuit board in the inspection result to maximize The format and area of the display without missing, I2748627〇p>fd〇c makes it easy to perform the technique of checking the effective facet display. The inspection of the board is carried out by an inspection inspection line that carries a plurality of circuits and checks them. At that time, sometimes the inspector is facing the surface of the circuit board and the inspection device flowing through the production line for the taste and monitoring. Therefore, there is an urgent need to check the position, direction, flow direction, etc. of the production line and the position and direction of the image displayed on the screen. Therefore, there is also a purpose of making the area of the above-mentioned process For example, the layout of the area can be checked from the operation department and can be inspected by using the layout of the inspection line and the inspection machine. For the purpose of description, the first item of the present invention includes: The device (1)' stores a configuration map including the position of the solder paste of the printed circuit board to be inspected; the wire setting (2), the intensity of the light corresponding to the position of the opposite surface, :: the image generating device (3), According to the measured value of the measuring device, the evaluation target data of the shape on the printed circuit board and the appearance image data of the shape of the shape are not included; the device (4), According to the ^ = price object, whether the quality is judged to be good; the display device (8); the display cell = = device (6), which will be used for segmentation on the display device to a size, a plurality of regions and display formats; (7) Excluding the configuration of the printed (four) road board of the inspection object, and selecting the vertical or horizontal material of the second object - a longer size can maximize the image and can display her _ area and have a ship domain. Format, = 2, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4 (4) The transmission of the format to the display device. In the second aspect of the invention, the format of the format stored in the format storage device includes a common location with each format. The area, and at least a plurality of intrinsic areas of different locations and sizes.

、别述刀配裝置採用將前述配置圖及外觀圖像資料向前 述固有的區域的某-個進行分配,並將前關找置所輸 出之是否良好的狀結果向前述共同的區域進行分配之構 成0 在本發明的第3項中,在第 义 ...... 六,你乐丄項或第2項的發明中, 則述分配裝置採用在進行分§&後,接受將配£_ 的指示,而使前述配置圖優先變更到批 在本發明的第4項中,在第1項、第2項或第3_ 發明中’前述圖像資料生成裝置接受在前述印刷板: 雜希望財向表稍村的财麵之財資訊 據W述測定值,生成從前述所指定的方向可相之^ 圍的外觀圖像資料。 述耗 且具有接受前述指定資訊,並在所顯示的前 =使前述所希望的觀察範圍可觸地進行顯示之顯示^ 因為第1項的發明採用一 種準備例如具有不同 面積的 I274865〇pifd〇c 3個區域的格式,再選擇並分配能夠使用於表示印刷部位 的配置所設計的配置圖,及表示被印刷焊接的電路板的外 觀之圖像,以及其他的、評價對象資料等中的電路板的配 置圖以最大限度且不缺失地進行顯示之格式及區域的構 成,所以電路板的配置圖在格式資源中,可連配置圖的一 部分也不缺失地,利用最大限度有效的區域。因此,可以 配置圖為中心’進行對檢查有效的畫面顯示。 因為第2項的發明採用一種例如在各格式共同的區域 顯示判定結果,並在各格式固有的區域設置例如不同面積 的3個固有區域’且可在該固有區域的一個上使電路板的 配置圖最大限度且無缺失地進行顯示之構成,所以容易辨 識判定結果,並可在探尋該判定原因的過程中,提供 配置圖為中心進行的晝面。 a 因為第3項的發明採用一種使版面可變更的構成 以在發揮上述第卜2項特徵的情況下,可_與檢查 線及檢查者相適應的版面畫面進行檢查。 一 因為第4項的發明預先使作為第 置圖最大限度且無缺失地進行顯示 二=1配 置且顯示該位置上的外觀圖像資料 置圖的位 發現異常,购那裏的:=: 【實施方式】 ^用圖丨〜圖5對本發明的形態 為本發明的印刷焊劑檢杳兄3圖1所不 衮置之構成的機能方塊圖。圖2 if.doc 1274862¾ 為用於說明顯示的格式的構成之圖示。 括格式的識別名稱、尺寸等的表之例子3 ) 4與 的尺寸的例子。圖4所 劑檢查裝置的畫面分配_作=所示為以印刷焊 流裎圖。 的動作為中心之動作的概略 進行掃Γ構成。㈣具有對電路板1 =仃知描並可對X轴、γ軸的各方向照射雷射 以及接文來自電路板1的反射光之受 劑面得到與位置相對應的受光量(t的強二1 气之卞2根據該位置、受光量,特別將進行了印刷焊 庫地淮^ 的位移’即高度(z轴方向)與位置對 ^也。雖然省略了作為雷射位移計的詳細動作說 開之在同一申請人所申請的曰本專利早期公 開之特開平3 —291512號公報中有所說明。 中處理部^由於在後述的電路板資訊儲存裝置5 位署:有包括設計作為檢測對象之電路板1時的印刷焊劑 =或阻膜位置等配置的配置圖,所以可接受這些配置並 又配置圖對感測器部2a進行掃描測定,且前述感測器部 2:對應印刷焊劑部位的位置,將所檢_上述位移量及/ 或文光量(光的強度)作為測定資料輸出。 電路板貧汛儲存裝置5至少儲存配置圖和基準 (她代⑽),作為檢查對象的電路板資訊。這些資訊由電 12 127486^?〇pif.d〇c 路板資訊輸入部9a預先被輸入。配置圖為形成檢查對 =設計時的配置圖,儲存有例如印刷焊劑位 置、未附者印刷焊劑的阻膜位置及形成位置的基準 標識等電路板1上的配置資訊(未圖示)。電 : 有複數個種類,所以可準借汴鉾右At豹枯—_ 方、吳 气別資H ^ 特定它們的電路板 不(庫貧訊顯示晝面:未圖示),而選擇某個電路板广、員 、而且將帛於;^查電路板丨並進行好壞判心 ί資料,與形成檢查對象之電路板1對應儲存。這‘準 如印刷焊劑位置的高度、面積、體積的 人貝專各項目進仃判^,而為各電路板1的每個焊巧位晋 3準?的,言之,這些基準是對焊劑位置的印刷i劑容 ί:;的(圖像的)辨識的資訊,為形成好壞判定:: :資料生成裝置3包括測定資料儲存部知 3c ° 授又収褒置2所測定之電路板丨轉 该位置的受光量或位移量等的測 定教和 對象焊劑位置的印刷焊劑量之評價 灯豕貝科進订加工處理。作為評價對 % 印刷烊劑位置的焊劑量之要素的資料,盘上述美1表示 ,,印刷嬋劑位置的高度、面積 '體積==, 在的焊劑量缺失之狀能的檢)、 、、貝(應存 心的檢測)專。另外,雖然為了判定 13 12748&7〇pifd〇c Ϊ路ί:未必需要上述圖像的全部,但高度、面積、體積 判定的過程中,是作 ㈣W A 的^對象貧料進行判定,或以哪歧 =的組合進行狀,因電路板1_類、内容而有料 等的歸生成部3b為了使進行了上述高度、面積 專的運开時的數值資料也被顯示,可以進行輸出。、In addition, the above-described arrangement map and appearance image data are allocated to one of the aforementioned specific regions, and the result of whether or not the output is good before the front closure is distributed to the common region. Constituting 0 In the third item of the present invention, in the first meaning... In the invention of the sixth item or the second item, the distribution device is adopted after the § & In the fourth item of the present invention, in the first item, the second item, or the third invention, the aforementioned image data generating apparatus accepts the printed board: It is hoped that the wealth information of the financial statement table will generate the appearance image data that can be obtained from the direction specified above based on the measured value. Describes the display that accepts the aforementioned specified information and displays the desired viewing range in a tactile manner before being displayed. ^ The invention of item 1 adopts a preparation such as I274865〇pifd〇c having a different area. In the format of the three regions, a layout map that can be used for the arrangement indicating the printing portion, an image indicating the appearance of the printed circuit board, and other boards in the evaluation target data and the like are selected and assigned. The configuration map is designed to maximize the format and area of the display without missing. Therefore, the layout of the board is in the format resource, and the part of the configuration map can be used without missing, and the most effective area is utilized. Therefore, it is possible to configure the map as the center to perform a screen display that is effective for the check. Since the invention of the second item employs, for example, a determination result is displayed in an area common to each format, and three unique areas of different areas, for example, are provided in areas unique to each format, and the board configuration can be performed on one of the inherent areas. Since the map is constructed to the maximum extent and without deletion, it is easy to recognize the determination result, and it is possible to provide a facet centered on the layout map in the process of searching for the cause of the determination. a Since the invention of the third item adopts a configuration in which the layout can be changed to perform the above-described feature of the second item, it is possible to check the layout screen corresponding to the inspection line and the examiner. First, because the invention of the fourth item preliminarily displays the bit 2=1 as the first map and displays the appearance image data at the position as the maximum of the first map, the purchase is found: =: MODE FOR CARRYING OUT THE INVENTION The form of the present invention is a functional block diagram of the configuration of the printed soldering agent of the present invention. Figure 2 if.doc 12748623⁄4 is an illustration of the composition of the format used to illustrate the display. Examples of tables that include names, sizes, etc. of the format 3) Examples of sizes of 4 and . The screen assignment of the agent inspection device of Fig. 4 is shown as a printed flow diagram. The action is centered on the outline of the action. (4) having a light receiving amount corresponding to the position of the receiving surface of the board 1 = 仃 and capable of illuminating the X-axis and the γ-axis in all directions and receiving the reflected light from the board 1 (the strongness of t) In addition, according to the position and the amount of received light, the displacement of the printed soldering station, that is, the height (z-axis direction) and the positional alignment are also performed. Although the detailed operation as the laser displacement meter is omitted. It is described in Japanese Laid-Open Patent Publication No. Hei-3-291512, the entire disclosure of which is hereby incorporated by reference. In the configuration of the printed circuit board 1 or the position of the resist film at the time of the board 1 of the object, it is acceptable to perform these configurations and to perform scanning measurement on the sensor portion 2a, and the sensor portion 2: corresponding to the printing flux The position of the part is output as the measured data by the above-mentioned displacement amount and/or the amount of light (intensity of light). The board lean storage device 5 stores at least the configuration map and the reference (her generation (10)) as the circuit to be inspected. Board information These pieces of information are input in advance by the electric board 12 127 486 〇 if pif.d 〇 c board information input part 9a. The layout drawing is a configuration diagram for forming the inspection pair = design, and storing, for example, the position of the printing flux and the printing flux of the unattached person. Configuration information on the circuit board 1 such as the position of the resist film and the reference mark of the formation position (not shown). Electricity: There are a plurality of types, so you can borrow the right At Leopard - _ Fang, Wu Qi Zi H ^ The boards that are specific to them are not (the library is poorly displayed: not shown), and a certain board is selected, and the members will be smashed; the board is checked and the data is judged and formed. The circuit board 1 of the inspection object is stored correspondingly. This is as accurate as the height, area, and volume of the printed soldering position, and is determined by each of the various soldering boards of the circuit board 1. In other words, these benchmarks are information on the identification of the image of the flux, which is the identification of the (image), for the formation of good or bad judgments::: the data generation device 3 includes the measurement data storage unit, 3c ° The amount of light received or the amount of displacement of the circuit board measured by the receiving device 2 The evaluation of the printed soldering amount of the teaching and the target soldering position is performed by the lamp processing. As a material for evaluating the amount of the soldering dose at the position of the printing ink, the above-mentioned beauty 1 indicates the height of the printing tincture position. , area 'volume ==, in the case of the lack of weld flux can be checked,,,,,,,,,,,,,,,,,,,,,,,, In addition, in order to determine 13 12748 &7〇pifd〇c ί ί: not all of the above images are required, but in the process of determining the height, area, and volume, it is judged as (4) W A In the case where the combination of the components of the circuit board 1_, the content, and the like is displayed, the numerical data obtained when the height and the area are specifically opened are also displayed, and the output can be performed. ,

預絲上述參數值進行簡單地瞭解,因為參數 4谁」二進仃2-值化,使所生成的圖像㈣以比較裝置 其淮^ X而進行好壞的判定,所以在檢查的過程中,與 重要的因數。即,參數值包括用於區別(辨識) =貝:疋否為例如印刷焊劑部分或是否為阻膜部分等的 二隹’用於與噪音進行區別的條件,或$敏度調整的條 =^_參數值可進行赃,以使虛報產生或反之防 止產生虛報。 另外,外觀圖像資料生成裳置3c根據測定裝置2輸出 的ί電路板上的印刷焊劑部位的位置相對應之位移量及受 光塁專,疋資料’生成並輪出用於顯示能夠把握所印刷焊 接的夕上觀^/狀之圖像的外觀圖像資料。例如所謂的立體犯 圖像貧料,但也可為平面資料。而且,該外觀圖像資料未 必由與生餅價對象資料的相同的測定資料生成,也可為 利,CCD ,¾相機等所拍攝的資料。該外觀圖像資料用於 在觀察疋否產生虛報時,或調查產生的部㈣,從顯示畫 面把握進行了印刷焊接的外觀形狀。而且,也可為用於在 I274862?〇pif.d〇c =程中搭载了構件後,為了確認搭载㈣其 確涊·檢查之外觀圖像資料。 進仃 該外觀圖像資料是用於表示電路板丨的 =、地,如預計會產生虛報的印刷焊劑位卜 而,’也可為能夠改變要觀察外觀的辨識方向而顯示 如在外硯圖像資料為3D圖像資料的情況下,The above parameters of the pre-filament are simply understood, because the parameter 4 is "two-input"-valued, so that the generated image (four) is judged by the comparison device, so in the process of inspection With important factors. That is, the parameter value includes a condition for distinguishing (identifying) = 疋: 疋 is, for example, a printed solder portion or a resist film portion, etc., for distinguishing from noise, or a bar for sensitivity adjustment = ^ The _ parameter value can be 赃 so that the false report is generated or vice versa. In addition, the appearance image data generation and placement 3c is based on the displacement amount and the light receiving area corresponding to the position of the printing flux portion on the circuit board output from the measuring device 2, and the data is generated and rotated for display to be able to grasp the printing. Appearance image data of the image of the image of the welding. For example, the so-called stereoscopic image is poor, but it can also be flat material. Moreover, the appearance image data is not necessarily generated from the same measurement data as the raw cake price object data, but may also be a data taken by a CCD, a 3⁄4 camera or the like. The appearance image data is used to grasp the appearance of the printed welding from the display screen when the false alarm is generated or the part (4) generated by the investigation is generated. In addition, it is also possible to confirm the appearance of the image data after the component is mounted on the I274862?〇pif.d〇c = The appearance image data is used to indicate the circuit board ==, the ground, if it is expected to produce a false printed printing flux position, 'may also be able to change the identification direction of the appearance to be observed and display the image as in the outer 砚In the case where the data is 3D image data,

顯示位置指定裝置%所指定之印刷焊劑位置 =収1料,並在來自某方向的3維座標上生成犯圖像 —貝料,再者如方向被指定,_由使3維座標向該方向旋 轉而使3D圖像資料旋轉。關於3D圖像資料的製作及其顯 ,,由於可使用的一般性軟體已經普及,因此省略其^細 說明。在平面2維資料的情況下,變化斜視圖的視點。 —另外,如圖1的點劃線所示,判定的檢查結果被輸出 到每個印刷焊劑位置,所以也可根據被判定為否之印刷焊 劑位置的位置資訊,從儲存裝置3&讀出該位置資訊的或包 括該位置之設定區域的測定資料,並只生成其附近的外觀 圖像資料。 判定裝置4接受上述圖像資料生成裝置3輸出的評價 對象資料,並將其與來自上述電路板資訊儲存裝置5的基 準進行比較,判定各焊劑位置是否良好。將各印刷焊劑位 置的判定結果及伴隨該結果的數值資料,作為檢查結果進 行輸出。 顯示格式儲存裝置6儲存有複數個用於藉由將顯示裝 置8的晝面分割顯示為複數個不同大小的區域,從而使複 I274863opjf.doc ,個種,的資料可_次性地進行比較顯示之格式。作為格 式、,儲存有複數個可對應電路板丨的大小進行選擇 上述那樣可根據與檢查生產線的關係而 面版面以改變區域大小的版面之格式。 二夂 ==個格式的例子’内、外側的區域為各、格式共同 社M、N、P分別為顯示固定的好壞判定 、、=的顯示攔’或利用操作裝置9使游標接觸點擊(進行 .疋)後:發揮設定的機能之軟鍵(操作鍵)等。陶i、 =2 ?sp3所示為各個格式不同之固有區域的組合 3(A)為記載有關於圖2的各格式之各固有區域的 圖4所示為格式的另—例子。為—個上下具有共Ϊ 二域,且在f _域顯神刷焊劑的好壞欺結果(例 木:作^、〇K ’在下部的區域配置有與操作面板同樣的 私作所必要的操作鍵,並使固有的區域被分割為3份,八 配以配置圖、外觀圖像(資料)及資料資料之例子。々 分配震置7由格式選擇部7a、倍率決定部%及 2部7c構成。格式選擇部7a根據操作裝置9所^ ^查對象電路板!的識別名稱,從電路板f訊儲存的 頃出對象電路板1的配置圖及尺寸(縱Ηχ、寬則 ⑻所不為其配置圖的尺寸的例子。另外,在圖3 中’顯示有外觀圖像的大小、檢查結果賴示大小的 另外顯示晝面固有區域上的優先位置’ f決料的優先轉,且在關子中被蚊己 圖、外觀圖像、數值資料的順序進行蚊。#區域為同 16 I274863〇pif.d〇c ’優先位置是用於使處於該優先位 進仃決定的資訊。 w μ接格式選擇部^及倍率決定裝置7b將該尺寸的 屯1和XWx進行比較,並決定其中較大的一方。這裏, :、、、h兄明上的需要’假設縱Ηχ為較大的一方。另外,從 顯示格式儲置6讀出各格式識別名稱、它們的各區域 識別名稱及各區域的縱11和寬w(參照圖3(α))。然後, (a)選擇各區域之縱尺寸最大的區域(稱作縱最大區 域)(b)求倍率縱最大區域/縱1^,或求]^><寬Wx。 然後,確認縱最大區域的寬W是否較Μχ寬Wx大。(c) 如果大則將其決定為配置圖分配區域,且作為使用具有該 被決疋的區域之格式的格式而選擇。 作為上述(b)的判斷的結果,在縱最大區域的寬度 w較]^寬Wx小的情況下,即不能得到(c)的決定之情 况下(更明白地說,在縱進入而橫不進入的情況下),對縱 的長度為第2的縱區域進行上述(a)〜(c),而在即使這 樣也不能決定的情況下,再次同樣地反復(a)〜(c),決 疋區域硪別名稱和具有該區域識別名稱的格式識別名稱, 並進行選擇。在寬Wx較縱Hx大的情況下,如將上述說 明的縱和寬相反地替換讀取,也是同樣的。 尚且’格式選擇部7a及倍率決定裝置7b,在對配置 圖的顯示區域進行決定、選擇的過程中,當在1個格式中 具有相同縱長度的區域時,參照圖3 (B)的優先位置進行 決定。在圖3(B)中,處於左上方位置的區域優先被選擇。 17 I274862〇p if.doc 然後’晝面分配部7c對所選擇的格式識別名稱之格式的、 選擇了的區域名稱的區域,將檢查對象的配置圖以倍率M 進行分配。 接著,格式選擇部7a及倍率決定裝置7b按照優先順 序(圖3 (B))’決定外觀圖像、數值資料的顯示區域。然 後,利用晝面分配部7c將各個資料分配到各個區域。例如 在圖2中,假如Hx>Wx,在選擇了格式陶卜區域ia 的情况下’(丨)對格式Disp 1的區域la以倍率μ由晝面 分配部7c分配配置圖,⑺根據圖3⑻,由區域比的 尺寸和外觀圖像的尺寸,將wlb/3DWs、冊/3晰之各 =比中的與1偏離大的比,決定為倍率隱。然後,利用 :面分配部7e,將根據外朗像:祕 率:分配到區_。⑴同樣,將wlc/1Ws、㈣= =5中的與1偏離大的比,決定為倍率Me。然後, ί 將數值=#料以該倍率*分配到區域1C。另 值進行保持,對每個電路板1作為絕對 實際的各侗次::準化了的值只保持1種,而使 利於後面的^縣被設定㈣絲準值。後者的方法有 擇夕卜3傻格ί選擇部7&及倍率決定裝置7b在決定、選 规固像、數值資料的顯 ^ 個格式中具有相同的縱長度=的=中,如分別在1 先位置進行決定。域的£域,可參關3⑻的優 接者,晝面分配部7C對上述那樣由格式選擇部7a及 I274863opif.doc 倍率決絲置7b在所定之格式㈣射分配配置圖、外觀 圖像資料及數值資料,但此後如果版面變更指示部处發出 指示,則利用該指示對同一格式内的版面進行變更。例如, 如從版面變更指示部9c發出將分配到圖2的區域la的配 置圖,向右配置之指示,則按照該指示進行變更,且使區 域lb向左上方,區域lc向左下方進行變更。 也了取代上述那樣將左右的區域進行變更的版面變 更,而藉由使顯示格式儲存裝置6預先儲存各區域的大小 相同且只有區域的位置不同之格式,在出現左右的變更指 不、或上下的變更指示、或它們的組合所形成的變更指示 之!^下’替換為上述只是位置不同的格式,從而使版面 進行變更。在這種情況下,版面變更指示部9c藉由變更圖 3/B)的配置圖的優先位置,而使格式選擇裝置%進行 變。 尚且,在像上述那樣將左右的區域進行變更的情況 下:不改變倍率,但區域在铺不變的情訂,也可變更 顯示内容。例如,在圖4巾,也可使現在的左邊的外觀圖 像和右上方的配置圖(不改變區域的大小,使它們的内容) 形成左邊為配置圖,右上方為外觀圖像。在這種情況下, 7刀配裝置7計算並變更倍率,改變分配内容。 而且’分配裝置7使來自判定裝置4的檢查結果,尤 是ίΐϊ電路板1的好壞判定結果,分配向共同的區 : 貝料例如評價對象資料的數值資料(例如印刷焊 θ位置的焊劑面積等)’或有關判定結果的數值資料(例如 I274863〇piM〇c 到此為止所檢查之電路板1的好 4所示分配到一個固有的區域。=的統計資料)等,如圖 資料在固有的區域上決定倍率並尚且,所說明的是將數值 數值資料的區域在各格式形成仃顯示的情況,但可使 共同的區域。其理由是,數值=同大小的區域,也可置入 那樣是一種圖像,所以在顯八不像配置圖、外觀圖像 顯示部8具有顯示控制面的問題少。 使配置圖、外觀圖像資料及靠次 上述分配裝置7 控制部除此以外,還與摔作梦^破分配的格式。顯示 對其進行控制,使操作者2 ==顯示標識表示,並 操作裝置9具有基板資訊入邦:面一面進行操作。 定裝置9b、版面變更指定穿=:a、圖像顯不位置指 原開:未圖不)的操作鍵及該鍵的處理裝置。電 基板-貝訊輸入部知為用於將 的配置圖及關於該配置圖的尺寸資訊等、—7、的夂電路= 操作。圖像顯干位wί_庫編輯晝面並進行 廿伯分 指定部9b是用於指定配置圖的位置, 資料圖像資料輸出的裝置’也設定外觀圖像 t率既可在倍率決定部7bit行設定,將上述 中進進行敎,也可在電路衫賴存裝置5 面變二',圖3⑻的基準值加以所希望的倍率。版 二不將格式的區域的大小進行變更,而使例 ^己置圖的位置指定右、左、上、下等進行變更( 20 I274863〇pif.d〇c a= ’利用圖5對根據上述說明的構成之—系列的動 進订况明1部分内容與上述說明有重複的地方。 準 預先由操作裝置9的電路板資訊9a輸入配置圖和基 步驟SI、S2 :打開電源開關。從電路板資訊儲 視出電路板表格並進行顯示(庫顯示晝面)。The position of the printing flux specified by the position specifying device %=receives the material, and generates the image of the infringement on the 3-dimensional coordinates from a certain direction, and if the direction is specified, the direction of the 3D coordinates is in the direction. Rotate to rotate the 3D image data. Regarding the creation and display of 3D image data, since general software that can be used has become widespread, its detailed description is omitted. In the case of planar 2-dimensional data, the viewpoint of the oblique view is changed. - In addition, as shown by the alternate long and short dash line in Fig. 1, the result of the determination is output to each of the printing flux positions, so that it can be read from the storage device 3& based on the position information of the position of the printing flux determined to be no. The position information or the measurement data of the set area of the position is included, and only the appearance image data in the vicinity thereof is generated. The determination device 4 receives the evaluation target data output from the image data generating device 3, compares it with the reference from the circuit board information storage device 5, and determines whether or not each flux position is good. The determination result of each printing flux position and the numerical data accompanying the result are output as the inspection result. The display format storage device 6 stores a plurality of regions for displaying the complex surface of the display device 8 into a plurality of different sizes, so that the data of the complex I274863opjf.doc can be compared and displayed. The format. As the format, a plurality of sizes that can be associated with the board 储存 are selected as described above. The layout of the layout can be changed according to the relationship with the inspection line to change the size of the area. Example of the second == format, 'the inner and outer areas are each, the format co-operatives M, N, and P are the display of the good or bad judgment, the display block of =, or the operation device 9 makes the cursor contact click ( After performing .疋): Play the soft keys (operation keys) of the set function. The combinations of the unique regions in which the respective formats are different, as shown in Fig. i and =2 to sp3, are shown in Fig. 4 as an example of the respective regions of the respective formats of Fig. 2 . It is necessary for the upper and lower sides to have a total of two domains, and in the f _ domain, it is necessary to brush the flux. (Example wood: for ^, 〇K ' is necessary for the same private operation as the operation panel in the lower area. The operation key is used, and the unique area is divided into three parts, and eight examples are provided with a layout map, an appearance image (data), and data. The allocation shake 7 is composed of a format selection unit 7a, a magnification determination unit, and two parts. The format selection unit 7a configures the layout and size of the object board 1 to be stored from the board f, based on the identification name of the target board 0 by the operation device 9, (the vertical and the width (8) are not An example of the size of the layout map is shown in Fig. 3. In addition, in Fig. 3, the size of the appearance image and the size of the inspection result are displayed, and the priority position on the inherent area of the face is displayed. The mosquitoes in the Guanzi are in the order of mosquito images, appearance images, and numerical data. The # region is the same as 16 I274863〇pif.d〇c 'The priority position is the information used to make the decision in this priority position. The format selection unit ^ and the magnification determining means 7b of the size 1 Compare with XWx and decide which of the larger ones. Here, the need for :, , , h brothers 'is assumed to be the larger side. In addition, read the format identification name from display format storage 6. Each of their regions recognizes the name and the vertical 11 and the width w of each region (see Fig. 3 (α)). Then, (a) selects the region with the largest vertical dimension of each region (referred to as the vertical maximum region) (b) The maximum vertical area/vertical 1^, or ^^><width Wx. Then, confirm whether the width W of the vertical maximum area is larger than the width Wx. (c) If it is large, it is determined as the configuration map allocation area. And it is selected as a format using the format of the area having the determined area. As a result of the judgment of the above (b), when the width w of the vertical maximum area is smaller than the width ^x, the result is not obtained (c). In the case of the decision (more specifically, when the vertical entry does not enter), the above-mentioned (a) to (c) are performed for the vertical length of the second longitudinal direction, and even if this is not the case, In the case of decision, repeat (a) to (c) again, and determine the name of the area and have the name The format identification name of the domain identification name is selected and selected. When the width Wx is larger than the vertical Hx, the same is true if the vertical and the widths described above are reversely read. The format selection unit 7a and the magnification determination are also the same. In the process of determining and selecting the display area of the layout map, when the device 7b has the same vertical length in one format, the device 7b determines the priority position in FIG. 3(B). FIG. 3(B) In the middle, the area in the upper left position is selected first. 17 I274862〇p if.doc Then the 'face allocation part 7c identifies the area of the selected format in the format of the selected format, and the configuration of the check object is checked. The graph is assigned at a magnification of M. Next, the format selection unit 7a and the magnification determining means 7b determine the display area of the appearance image and the numerical data in accordance with the priority order (Fig. 3(B))'. Then, the respective materials are distributed to the respective areas by the face allocation section 7c. For example, in FIG. 2, if Hx>Wx, in the case where the format Taub area ia is selected, '(丨) is assigned to the area la of the format Disp 1 by the magnification allocation unit 7c, and (7) according to FIG. 3(8) From the size of the area ratio and the size of the appearance image, the ratio of the deviation from the 1 in the ratio of wlb/3DWs, book/3, and ratio is determined as the magnification. Then, the surface distribution unit 7e is used to assign the image to the area _ according to the foreign image: secret rate. (1) Similarly, the ratio of the deviation from 1 in wlc/1Ws and (4) ==5 is determined as the magnification Me. Then, ί assigns the value = # material to the area 1C at the magnification*. The other values are maintained, and each board 1 is regarded as an absolute actual number of times: the value of the normalized one is kept only one type, and the latter is set to the (four) silk value. The latter method has a selection method 7& and the magnification determining means 7b has the same vertical length = in the display format of the decision, the selection fixed image, and the numerical data, as in the case of 1 respectively. Determine the position first. The domain of the domain can be referred to as the superior of the 3(8), and the facet allocation unit 7C sets the layout pattern and the appearance image data in the predetermined format by the format selection unit 7a and the I274863opif.doc. And the numerical data, but if the instruction is given by the layout change instruction unit, the layout of the same format is changed by the instruction. For example, when the layout change instruction unit 9c issues a layout map assigned to the area la of FIG. 2 and an instruction to the right, the instruction is changed according to the instruction, and the area lb is shifted to the upper left and the area lc is changed to the lower left. . In addition to the layout change in which the left and right areas are changed as described above, the display format storage device 6 stores the format in which the size of each area is the same and only the position of the area is different, and the right and left changes are not indicated, or The change instruction, or the change instruction formed by the combination thereof, is replaced with the format described above except for the position, so that the layout is changed. In this case, the layout change instructing unit 9c changes the format selection means % by changing the priority position of the layout map of Fig. 3/B). In the case where the left and right areas are changed as described above, the magnification may not be changed, but the display may be changed if the area is not changed. For example, in the case of Fig. 4, it is also possible to make the appearance image on the left side and the configuration diagram on the upper right side (the size of the area is not changed so that their contents) form a configuration picture on the left side and an appearance image on the upper right side. In this case, the 7-tooling device 7 calculates and changes the magnification, and changes the distribution content. Further, the 'distribution device 7 causes the result of the inspection from the determination device 4, particularly the result of the determination of the quality of the circuit board 1, to be distributed to a common area: for example, the numerical data of the evaluation material (for example, the flux area at the position of the printed welding θ) ')) or the numerical data on the judgment result (for example, I274863〇piM〇c is shown in the figure 4 of the board 1 checked to an intrinsic area. = statistic), etc. In the area where the magnification is determined, it is explained that the area of the numerical value data is displayed in each format, but the common area can be obtained. The reason is that the numerical value = the same size region can be placed as an image. Therefore, there is little problem in that the display image is displayed on the display image display unit 8 in a different manner. In addition to the above-described distribution device 7 control unit, the configuration map, the appearance image data, and the control unit are also arranged in a format that is broken. The display controls it so that the operator 2 == displays the indication, and the operating device 9 has the substrate information entry side: the side is operated. The fixing device 9b, the layout change designation wear =: a, the image display position means the original operation key (not shown), and the processing device of the key. The electric board-before input unit is known as a configuration diagram for the board, and the size information of the arrangement map, etc., 夂 circuit = operation. The image display dry bit w _ 库 昼 并 并 指定 指定 指定 指定 指定 指定 指定 指定 指定 指定 指定 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分 分In the line setting, the above-mentioned progress is performed, and it is also possible to change to the second side of the circuit board-receiving device 5, and the reference value of Fig. 3 (8) is set to a desired magnification. Version 2 does not change the size of the format area, but changes the position of the example to the right, left, top, bottom, etc. (20 I274863〇pif.d〇ca= 'With Figure 5, according to the above description The composition of the series - the moving parts of the series clearly overlaps with the above description. The configuration information and the base steps SI, S2 are input in advance by the board information 9a of the operating device 9: the power switch is turned on. The information is stored in the board form and displayed (the library display).

/步驟S3 :操作者利用操作裝置9將標識設定在希望 仃表格的檢查之基板識別名稱的上面,並點擊( 擇檢查對象的電路板1。 、 步驟S4:從電路板資訊儲存裝置5讀出檢查對象 路板配置圖、電路板1的尺寸資訊(圖3⑻)及基準。 步2 S5 :對檢查對象的電路板i,開始利用測定裝置 的測定、利關像資料生成裝置3的評價對象資料^生 ^外镜圖像資料的生成、及利用判定裝置的判定、其判 疋結果和數值資料的生成。 一 步驟S6 ··為了使配置圖在最大的區域上進行顯示 Π==1 (尺寸為最大)。 步驟S7 ··比較判斷配置圖的縱Ηχ是否較寬大。 、步驟S8 (步驟S7 —Yes):從包括顯示格式儲存裝置6 =袼式的尺寸之表格(圖3(A))中,選擇具有第11位(這 晨為第1)的縱長度之區域及具有該區域的格式。 "v驟S9 ·计异倍率M=選擇的區域的縱/電路板1的 縱Ηχ 〇 步驟S10 ··對配置圖是否進入選擇之區域的橫(寬) I274863〇pif.d〇c 進行研究。即,判斷選擇的區域的橫是 板1的寬度Wx大。 平又彳。率Μχ電路 步驟S11 ··在步驟S10中,當判定為 圖的寬未全部進人選擇的區域時,使仏η+2 配置 長度為第2位元的區域,並進行步驟S8、2 ’尋找縱 S10。以下同樣地選擇滿足條件的區域。藉:,:、步驟 圖無缺失地在最大的區域上進行顯示。g 可使配置 步驟S12、步驟S13、步驟S14、步驟Sl5 步驟的程式,在步驟S7判定為N〇的情況下 ^ = 配置圖的寬進人最大的區域。 運仃決疋使 步=S16:與分配裝置7所說明的動作同樣地,在所 &擇之格式的區域上以倍率M分配配置圖。接著按 順序,且沿優先位置(圖3 (B))進行分配。假如 Wx,在選擇了格式Disp 1、區域ia的情況下,(1)對格 式Disp 1的區域ia以倍率M由晝面分配部乃分配配^ 圖’(2)根據圖3 (B) ’將外觀圖像由區域lb的尺寸和外 觀圖像的尺寸,以Wlb/3DWs、Hlb/3DHs之各個比中的 與1偏離大的比決疋倍率’並以該倍率分配到區域1 b。( 3 ) 同樣,以Wlc/lWs、Hlc/lHs之各個比中的與i偏離大的 比決定倍率,並以該倍率將數值資料分配到區域lc。 在格式的共同的區域上分配好壞判定的結果。 步驟S17:判斷是否從操作裝置9發出區域替換要求。 步驟S18 :例如,在具有將配置圖從左上換到右上之 區域替換要求的情況下,版面變更指定裝置9c將版面進行 22 I274863opif.doc 變更。 步驟S19 :如沒有區域變更要求,則在前面所選 區域上顯示各㈣’如存在版面變更,則在所變 从 上顯示各資料。 ^ ^ 利用以上的構成、動作,可以配置圖為基準 大的區域及具有該區域的格式’並進行顯示。而且,、= ,與檢查生產線的關,對格式的輯 °艮 【圖式簡單說明】 ° 圖1為用於說明本發明之機能部件的圖示。 圖2所示為格式的構成例。 圖3(A)所示為記載了格式的識 圖3(B)為記載了關於檢查對象 2的表。 圖4所示為格式的另一例子。*之尺寸等的表。 圖5為用於說明本發明 【主要元件符號說明】 動作机辁的圖示。 1 :電路板 2:測定裝置 2a :感測器部 2b :測定處理部 3:圖像資料生成货 3a:測定資料儲存^ 外:評價對象資料°生成部 3c·外硯圖像資料生 4 :判定裝置 13 23 1274862Z0p1f.doc 5:電路板資訊儲存裝置 5a :特定基準 5b :表、配置圖、尺寸 6:顯示格式儲存裝置 7 :分配裝置 7a :格式選擇部 7b :倍率決定部 7c :晝面分配部 • 8:顯示裝置 9 :操作裝置 9a :電路板資訊輸入部 9b :圖像顯示位置指定裝置 9c :版面變更指示部 24/Step S3: The operator sets the flag on the substrate identification name of the inspection of the desired form by the operation device 9, and clicks (selects the board 1 to be inspected. Step S4: Reads from the board information storage device 5) Inspecting the target board layout map, the size information of the board 1 (Fig. 3 (8)), and the reference. Step 2 S5: The board to be inspected i is started to be measured by the measuring device, and the evaluation target data of the image data generating device 3 is started. ^Generation of the generation of external mirror image data, determination by the use determination device, determination of the result, and generation of numerical data. One step S6 · · In order to display the layout map on the largest area Π = 1 (size Step S7 ··Comparatively judge whether the vertical length of the configuration map is wider. Step S8 (Step S7 - Yes): From the table including the size of the display format storage device 6 = ( (Fig. 3(A)) In the middle, the area having the vertical length of the 11th (this is the 1st) and the format having the area are selected. "vStep S9 · The different magnification M=The vertical of the selected area/the vertical direction of the board 1 〇 Step S10 ·· Is the configuration map The horizontal (width) I274863〇pif.d〇c of the selected area is studied. That is, it is judged that the width of the selected area is the width Wx of the board 1. The level is further 彳. Rate circuit step S11 · In step S10 When it is determined that the width of the map is not all selected, the area where the length is the second bit is set to 仏η+2, and the vertical S10 is performed in steps S8 and 2'. The area satisfying the condition is selected in the same manner. By::, the step map is displayed on the largest area without missing. g The program of step S12, step S13, step S14, and step S15 can be configured, and if it is determined to be N〇 in step S7, ^= The maximum area of the width of the map is set. Step S16: In the same manner as the operation described in the distribution unit 7, the layout map is assigned at the magnification M in the area of the selected format. And assigning along the priority position (Fig. 3 (B)). If Wx, in the case where the format Disp 1 and the area ia are selected, (1) the area ia of the format Disp 1 is multiplied by the M. Assign the distribution ^ Figure '(2) according to Figure 3 (B) 'The appearance image is from the area The size of the lb and the size of the appearance image are larger than the deviation of 1 in the respective ratios of Wlb/3DWs and Hlb/3DHs by the magnification 'and are assigned to the area 1 b at the magnification. (3) Similarly, Wlc The ratio of the ratios of /lWs and Hlc/lHs that are larger than i deviates from the ratio, and the numerical data is assigned to the region lc at the magnification. The result of the good or bad determination is assigned to the common region of the format. Step S17: Judging Whether or not the area replacement request is issued from the operation device 9. Step S18: For example, when there is an area replacement request for changing the layout map from the upper left to the upper right, the layout change specifying means 9c changes the layout to the I274863opif.doc. Step S19: If there is no area change request, each (four) is displayed on the previously selected area. If there is a layout change, each item is displayed on the changed side. ^ ^ With the above configuration and operation, it is possible to arrange and display a region with a large reference and a format having the region. Moreover, , =, and the inspection of the production line, the format of the format 艮 [schematic description] ° Figure 1 is a diagram for explaining the functional components of the present invention. Fig. 2 shows an example of the configuration of the format. Fig. 3(A) shows the description of the format. Fig. 3(B) shows a table in which the object 2 to be inspected is described. Figure 4 shows another example of a format. * Table of dimensions, etc. Fig. 5 is a view for explaining the operation of the main components of the present invention. 1 : Circuit board 2 : Measurement device 2 a : Sensor unit 2 b : Measurement processing unit 3 : Image data generation product 3 a : Measurement data storage ^ Outside: Evaluation target data generation unit 3 c · External image data generation 4 : Judging device 13 23 1274862Z0p1f.doc 5: Circuit board information storage device 5a: specific reference 5b: table, layout, size 6: display format storage device 7: distribution device 7a: format selection unit 7b: magnification determination unit 7c: face Distribution unit 8: Display device 9: Operation device 9a: Circuit board information input unit 9b: Image display position specifying device 9c: Layout change instruction unit 24

Claims (1)

pif.doc 12748&?5〇 十、申請專利範圍: 1·一種印刷電路板檢查裝置,為一種包括·· 電路板資訊儲存裝置,儲存包括在作為檢查 刷電路板表面上進行印刷之附焊劑位置的該印^電= 面的配置圖,和表示包括對該印刷電路板表 、 圖的各位置之高度位移量之形狀的判定基準;1逑配置 ,測定裝置,接受來自檢查對象的前述印刷 射光,並在該印刷電路板表面的前述 久 置之,的位移量,且將該位移量作為測==各位 圖像資料生成裝置,根據前述測定資料 ’ 述,中所包含之複數個種類的評價對象心刷 成表不其形狀的表面之外觀圖像資料; 基準根據來自前述電路板資訊儲存裝置的判定 劑檢查^ 對象㈣進行是否良好的判定之印刷焊 其特徵在於,包括: 顯示裝置; 分叫ΪΓ格式儲存褒置’將複數個用於在前述顯示裝置上 及…+不同的複數健域並顯示的格式進行儲存;以 圖,從前=-,接受前述檢查對象的印刷電路板的配置 的竿-個hi轉辆存裝置騎前述配置®的縱或橫中 整=配尺寸可最大限度地進行顯示,且能夠顯示 、品域及具有该區域的格式,並向該選擇了的 25 I274863〇pi f.doc ^式的-述最大贿進彳羯 圖,且向前述選擇了的格式之剩餘的 口革刀配配置 觀圖像資料,並將所分配的格式發送向前^分配前述外 2.如申請專利範圍第!項所述:電=杳 置,其特徵在於·· 別電路板松查衣 各格===子裝置所儲存之格式的-個,包括具有與 各格式共同的位置、大小之丘同 不同的複數^ ’以及位置及大小 有的置將前述配置圖及外觀圖像資料向前述固 9不二沾二二個進行分配,並將前述判定裝置所輸出之 疋否良ί的判定結果向前述共_區域進行分配。 申明專利範圍第1項或第2項所述的印刷電路板 檢查裝置,其特徵在於: 前述分配裝置在以前述分配裝置進行分配後 ,接受將 配圖變更到格式的被指定位置的指示,而使前述配置圖 優先變更到被指定的位置。 4·如申清專利範圍第1項或第2項所述的印刷電路板 檢查裝置,其特徵在於: 前述圖像資料生成裝置接受從前述配置圖上的所希望 =方向表示所希望的觀察範圍之指定資訊,並根據前述測 疋值’生成從前述指定方向可看到之前述觀察範圍的外觀 圖像資料;以及 士具有接受前述指定資訊,並在所顯示的前述配置圖 上使如述所希望的觀察範圍可辨識地進行顯示之顯示控制 26 I274863〇pif.d〇c 5·如申請專利範圍第3項所述的印刷電路板檢查裝 置,其特徵在於: 月ίι述圖像貢料生成裝置接受從前述配置圖上的所希望 ΐ方向表示所希望的觀察範®之指定資訊,並根據前述測 ^值’生成從瞒指定方向可看到之前述祕範圍的外觀 圖像資料;以及Pif.doc 12748&?5〇10, the scope of application for patents: 1. A printed circuit board inspection device, which is an information storage device including a circuit board, which stores the position of the soldering agent for printing on the surface of the inspection brush circuit board. The layout of the printed surface and the determination of the shape including the height displacement amount of each position of the printed circuit board and the figure; and the measuring device receives the printing light from the inspection target And the amount of displacement of the surface of the printed circuit board for the long time, and the amount of displacement is used as the measurement == each image data generating device, and the plurality of types of evaluations included in the measurement data are described. The appearance image data of the surface of the object that is brushed into a shape that is not in the shape of the object; the reference is based on the judgment agent inspection object (4) from the board information storage device, and is characterized in that the printing is performed by a display device; The ΪΓ format storage device 'uses a plurality of cells for display on the aforementioned display device and ... different complex health fields Carry out the storage; in the figure, the former =-, the configuration of the printed circuit board that accepts the aforementioned inspection object, the vertical or horizontal alignment = the size of the configuration can be maximized, and It is possible to display, the product domain, and the format of the area, and to the selected 25 I274863〇pi f.doc ^---the maximum bribery, and the remaining thong knife of the format selected as described above With the configuration of the image data, and the assigned format is sent forward ^ assigned the above 2. As claimed in the scope of patents! As stated in the item: Electricity = 杳 , , , , , 电路 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = The plural number '' and the position and the size are assigned to the above-mentioned arrangement map and the appearance image data to the above-mentioned solids, and the determination result of the output device is not described above. The _ area is assigned. The printed circuit board inspection apparatus according to claim 1 or 2, wherein the distribution device receives an instruction to change the map to a designated position of the format after being distributed by the distribution device, and The aforementioned configuration map is preferentially changed to the designated location. The printed circuit board inspection apparatus according to the first or second aspect of the invention, wherein the image data generating apparatus receives a desired observation range from a desired direction in the arrangement map. Specifying information, and generating appearance image data of the aforementioned observation range visible from the specified direction according to the aforementioned measurement value; and the person having the specified information, and making the above-mentioned configuration map on the display A printed circuit board inspection apparatus according to the third aspect of the invention, characterized in that the image of the image is generated by the month ι ι 图像 图像 图像 贡 贡 贡 贡 贡 贡 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷 印刷The device accepts the specified information of the desired observation range from the desired direction on the aforementioned configuration map, and generates the appearance image data of the aforementioned secret range that can be seen from the specified direction according to the aforementioned measurement value; f具有接受前述指定資訊,並在所顯示的前述配置圖 ^則述所希望的觀察範圍可辨識地進行顯示之顯示控制 6甘如申明專利範圍第4項所述的印刷電路板檢 置’其特徵在於: 為否=2定=括位置資訊’特定前述判定裝置判定 4=定並在具有複數個判定為否的位置之情況下, 項所述的印刷電路板檢查裝 7·如申請專利範圍第5 置’其特徵在於: =述指定資訊包括位置資訊 ^的位置’並在具有複數個 置& 進行依次設定。 j疋為否的位置之情況下, 8·如申請專利範圍第4 置,其特徵在於: 、斤述的印刷電路板檢查裝 前述指定資訊包括位置資訊 9.如申請專利範圍第5 T任思地進行設定。 、厅述的印刷電路板檢查裝 27 I274863〇pif.d〇c 置,其特徵在於: 前述指定資訊包括位置資訊,可任意地進行設定。 ίο.如申請專利範圍第6項所述的印刷電路板檢查裝 置,其特徵在於: 前述指定資訊包括位置資訊,可任意地進行設定。 11.如申請專利範圍第7項所述的印刷電路板檢查裝 置,其特徵在於: 前述指定資訊包括位置資訊,可任意地進行設定。 28f having a display control that accepts the above-mentioned designation information and identifiably displays the desired observation range in the above-described configuration map, and the printed circuit board inspection described in claim 4 of the patent scope is The feature is: No = 2 = = Position information 'Specificly the above-mentioned determination means determines 4 = and in the case where there are a plurality of positions of the determination No, the printed circuit board inspection device 7 as described in the patent application scope The fifth setting 'is characterized by: = the specified information includes the location of the location information ^' and is set in sequence with a plurality of sets & In the case where the position is no, 8) If the scope of the patent application is set to 4, it is characterized in that: the printed circuit board inspection device includes the location information. 9. If the patent application scope is 5th Set the ground. The printed circuit board inspection device 27 I274863〇pif.d〇c is characterized in that: the specified information includes position information, and can be arbitrarily set. The printed circuit board inspection apparatus according to claim 6, wherein the specified information includes position information and can be arbitrarily set. 11. The printed circuit board inspection apparatus according to claim 7, wherein the specified information includes position information and can be arbitrarily set. 28
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