B04165 九、發明說明: 【發明所屬之技術領域】 系統本發明侧於-種產品檢測系統,特別係、—種電子產品檢測 【先前技術】 ㈣電子產品的品t,通常f要在電子產品的製造過 元成後對產品進行品質檢測。在進行檢猶,通常需要 糟由=將制電子產科接至檢測設備,賴成完整檢測電路要 7麥閱第一圖,係先前技術中一種檢測系統之示音 f fj系統⑽包括—傳輸台11G、複數傳輸板120、複^ 置130、複數腳踏開關14〇、一檢測機台16〇及一接口二 ηο^ίί。120侧職子產㈣,並能沿該傳輪台 下:1練Ϊ 13G設置於該傳輸台11G上’該制動裝置130可 署穿:置130下壓時該傳輸板120保持移動, 田〇制動凌置130弹起呀可阻止該傳輸板12〇移動。 ,位於該傳輸台11G雜下方用於控制該 =如4 ,、下堅或彈起。該制動裝置130非制動時為彈起狀態,卷 踏動該腳踏開關140時,該制動裝置13〇下壓。 〜田 =„台16。配備有—名操作M,以操作該檢測機台_ 對°亥待測電子產品180進行檢測。 雜ΞΪΙΪ路17G經由導線連接至該檢測機台i6G,檢測時,將 ς 電子產品18G連接至該接σ電路17〇,即可構成完整檢测電 則時’該待測電子產品180放置在該傳輸板120上 〇移動傳輸,該傳輸板120之一側接觸該制動F ,〇枯停止移動,操作員將待測電子產品180連接至該接口二 門待H成客完整檢測電路後即可進行檢測。檢測完_操作員ί 開待測電子產品18〇與該接σ電路17G之連接並踏動該腳踏= 6 1304165 140,^制=置u〇下壓,使該傳輸板i2〇繼續移動。 輸板120上之待測電子產品= ^ «ί "i#:r ° 制傳輸板。特別是進行多項^時來控 需連接及斷開多次,使得檢測較不方便。,、μ來協助,且 【發明内容】 %要較方便之電子產品檢測系統。 換單元及:ίί;ΐ22ίί元Ιϊ—ί=台、-第-傳輸轉 早7L之間可猎由紅外線訊號傳輸檢測峨。,—傳輸轉換 用導線連接,使得檢測較為方便。 〗核似號’避免使 【實施方式】B04165 IX. Description of the invention: [Technical field of invention] The present invention is directed to a product inspection system, in particular, an electronic product inspection [prior art] (4) an electronic product product t, usually f in an electronic product Quality inspection of products after manufacturing. In the inspection, it is usually necessary to connect the electronic obstetrics to the testing equipment. The complete detection circuit is required to be the first picture. The sounding f fj system (10) of the prior art is included in the transmission station. 11G, a plurality of transmission boards 120, a reset 130, a plurality of foot switches 14A, a detection machine 16A, and an interface two ηο^ίί. 120 side jobs (four), and can be placed under the wheel: 1 training 13G is set on the transmission table 11G 'The brake device 130 can be worn: the transmission plate 120 keeps moving when the 130 is pressed down, Tian Wei When the brake is set to 130, it can prevent the transport plate 12 from moving. , located below the transmission station 11G for controlling the = such as 4, down or bouncing. When the brake device 130 is not braked, it is in a pop-up state, and when the foot switch 140 is stepped on, the brake device 13 is depressed. ~田=„台16. Equipped with the name operation M to operate the inspection machine _ Detecting the electronic product 180 to be tested. The choke road 17G is connected to the inspection machine i6G via a wire. ς When the electronic product 18G is connected to the sigma circuit 17〇, the complete detection power is formed, and the electronic product 180 to be tested is placed on the transmission board 120 for mobile transmission, and one side of the transmission board 120 contacts the brake. F, the stagnation stops moving, the operator can connect the electronic product 180 to be tested to the interface and the second door to the H-customer complete detection circuit can be detected. After the detection _ operator ί open the electronic product to be tested 18 〇 and the connection σ The circuit 17G is connected and the pedal is stepped = 6 1304165 140, and the pressing plate is pressed to make the transmission board i2〇 continue to move. The electronic product to be tested on the transmission board = ^ «ί "i# : r ° system transmission board. Especially when a number of ^ time control is required to connect and disconnect multiple times, making the detection less convenient., μ to assist, and [invention content] % more convenient electronic product detection system. Change unit and: ίί;ΐ22ίί元Ιϊ—ί=台,-第第传输转早7L Between the signal transmission can be detected by the infrared hunting Bauer, - transmits the converted wire connection, so that the detection more convenient〗 nuclear like number 'avoid [Embodiment.
U閱第二圖’係本發明f子產品檢·統—較施 不思圖。㈣子產品檢測系統包括—傳輪A 、J ,220、複數制練置23()、一檢測機台綱、: 早'27〇及複數第二傳輸轉換單元⑺。 #傳輸轉換 21〇3輸板22咖於裝載待測電子產品跡並能沿該傳輸台 该制動裝置230設置於該傳輸台21〇 ±,該制動梦 处 或彈起,當該制動裝置23。下壓時該傳輸板4 3二月b 指彈起時可阻止該傳輸板220移動,S3 ’ 巧動裝置230連接至該檢測機台26〇Ht= 台⑽觸發該制動裝置现下壓,使該傳輸板測機 於4?:=°用於對待測電子產品28°進行檢測、設置 輸板22G上之待測電子產品i 7 1304165 、5玄第一傳輸轉換單元270設置於該傳輸台21〇邊緣且與該檢 測機台260藉由導線連接。該第二傳輸轉換單元271設置於該傳 輸板220上,且與該待測電子產品28〇藉由導線連接,當該傳輸 板j巧由該制動裝置230制動停止時,該第二傳輸轉換單元271 與§玄第-傳輸轉換單元27〇可it行紅外線全雙卫或半雙工訊號傳 輸。 、 明,芩閱第二圖,係該二傳輸轉換單元之結構示意圖。該 傳輸轉換單元270、271分別包括依錢接之接口 273、接口電路 274、單晶片微處理器275、編碼/解碼電路276及紅 2 ,與該接〇 273、接口電路274、單晶片微處理器^編碼/ 77碼電路276及紅外收發器2:77皆相連提供電源之電源電路 278。 该接口 273由導線與檢測機台26〇絲測電子產品28〇相 其,於收發電子訊號。該接口電路274用於訊號轉換或訊號處理。 该早晶片微處理器275用於訊號處理或控制。該編碼/解瑪電路276 用於:K號的編碼祕碼該紅外收發n π麟發射或接收紅外 線虎。 進行檢測别,先將該第二傳輸轉換單元271與待測雷子產σ 280連接並放置在該傳輸板220上沿該傳輸台21G移動、於= 側接觸該制動裝置23G時停止移動。在檢測ΐ,ίίΐ 單ΐ271接到該侧訊號ί ϊ第二 該第:傳輸轉換單”70以喊。當該第—傳輸轉換 到该第一傳輸轉換單疋271之摘測回應訊號則代表該傳輸板如 匕到連。 偵測成功後該第一傳輸轉換單元27〇則向該第二 元271發出第-次握手訊號,該握手訊號用於 換單元27人讀態是否正常,若無該第二傳輸轉換單 一次握手訊5虎回應’该第一傳輸轉換單元270不ϋ/ίΆ— 第 手訊號,當發出 < 次數握手訊 8 1304165 單元270可向檢測機台260發送錯誤報告,該次數可以設定,通 • 常為二次至五次。當第一傳輸轉換單元270接收到第一次握手訊 號^應時,該第一傳輸轉換單元270將發出第二次握手訊號。當 連續兩次接收到握手訊號回應時,則表示握手成功,然後開始傳 . 輸檢測訊號。 在進行檢測訊號傳輸時,該檢測機台260先將類比訊號傳給 - 第一傳輸轉換單元270,該第一傳輸轉換單元270之接口 273接到 , 類比訊號後傳給接口電路274,該接口電路274將類比訊號轉換為 數字訊號並傳給單晶片微處理器275,該單晶片徼處理器275再將 該數字訊號傳給編碼/解碼電路276,該編碼/解碼電路276對該數 字訊號進行編碼並傳給紅外收發器277,該紅外收發器277將編碼 訊號以紅外線訊號的形式傳向該第二傳輸轉換單元271。 9 該第二傳輸轉換單元271之紅外收發器277接到第一傳輸轉 換單元270發出之紅外線後,將紅外線訊號轉換為編碼訊號傳給 編碼/解碼電路276,該編碼/解碼電路276將編碼訊號進行解碼為 數字訊號並傳給單晶片微處理器275,該單晶片微處理器275再將 該數字訊號傳給接口電路274,該接口電路274將數字訊號轉換為 類比訊號並傳給接口 273,該接口 273將類比訊號再傳給該待測電 子產品280以完成檢測訊號傳輸。 該待測電子產品280接收到檢測訊號後將產生一檢測結果訊 號,該檢測結果訊號將傳給該第二傳輸轉換單元271,該第二傳輸 轉換單元271可將檢測結果傳回該第一傳輸轉換單元270,然後由 φ 該第一傳輸轉換單元2川傳至該檢測機台260以完成檢測:然後, 該檢測機台260觸發該制動裝置230下壓,使該傳輸板220繼螬 移動。 、 該電子產品檢測系統利用第一傳輸轉換單元270及第二傳輪 轉換單元271傳輸紅外線偵測訊號實現自動控制,且利用第一傳 輸轉換單元270及第二傳輸轉換單元271以紅外線訊號形式傳輸 檢測訊號,避免了導線連接,使得檢測較為方便。 u 當檢測過程較簡單時’該二傳輸轉換單元270、271亦可進行 單工訊號傳輸,即第一傳輸轉換單元270將檢測訊號轉換為纟工外 線訊號發射,第二傳輸轉換單元271接收紅外線訊號並轉換為檢 •1304165 測訊號,或由第二傳輸轉換單元271將檢測訊號轉換為紅外 號發射,第一傳輸轉換單元270接收紅外線訊號並轉換為檢 f虎。 ' 第二傳輸轉換單元271亦具有發射偵測訊號的功能。 該傳輸台210、傳輸板220及制動裝置230亦可為复他报^ 之流水線代替,如傳送帶式流水線或滾輪式流水線。 ” 綜上所述,本發明符合發明專利要件,爰依法提出 惟,以上所述者僅為本發明之較佳實施方式,本 以上述實施方式為限,舉凡熟悉本案技藝之人士,錢== Κίΐΐΐΐί修飾或變化,皆應包含於以下中請專利☆内U read the second picture, which is the invention of the invention. (4) The sub-product detection system includes - transmission wheels A, J, 220, complex system 23 (), a detection machine platform,: early '27 〇 and plural second transmission conversion unit (7). #传输切换 The 21〇3 transmission board 22 is loaded with the electronic product trace to be tested and can be placed along the transmission station. The braking device 230 is disposed on the transmission table 21〇, the braking dream or bouncing up, as the braking device 23. When the pressing plate is pressed, the transmission plate 4 3 b b can prevent the transmission plate 220 from moving when the bounce is started, and the S3 ' smart device 230 is connected to the detecting machine 26 〇 Ht = the table (10) triggers the braking device to be pressed down, so that the The transmission board measuring machine is used for detecting the 28° of the electronic product to be tested at 4?:=°, and the electronic product to be tested i 7 1304165 and the 5th first transmission converting unit 270 on the transmission board 22G are disposed on the transmission stage 21〇. The edge is connected to the inspection machine 260 by wires. The second transmission conversion unit 271 is disposed on the transmission board 220 and connected to the electronic product 28 to be tested by a wire. When the transmission board j is braked and stopped by the braking device 230, the second transmission conversion unit 271 and § Xuandi-transmission conversion unit 27 can perform infrared full-duplex or half-duplex signal transmission. , Ming, see the second figure, is a schematic diagram of the structure of the two transmission conversion unit. The transmission conversion units 270, 271 respectively include an interface 273, an interface circuit 274, a single-chip microprocessor 275, an encoding/decoding circuit 276, and a red 2, and the interface 273, the interface circuit 274, and a single-chip micro-processing. The device ^ code / 77 code circuit 276 and the infrared transceiver 2: 77 are all connected to provide a power supply circuit 278. The interface 273 is connected to the detection machine 26 by means of a wire 26 for detecting and receiving electronic signals. The interface circuit 274 is used for signal conversion or signal processing. The early wafer microprocessor 275 is used for signal processing or control. The encoding/dissolving circuit 276 is used for: K-coded secret code. The infrared transceiver n π-Lin transmits or receives infrared line tiger. To perform the detection, the second transmission conversion unit 271 is first connected to the to-be-detected thunder product σ 280 and placed on the transport plate 220 to move along the transport table 21G, and stops when the = side contacts the brake device 23G. After detecting ΐ, ίίΐ unit 271 receives the side signal ί ϊ second: the transmission conversion sheet "70" to shout. When the first transmission is converted to the first transmission conversion unit 271, the response response signal represents After the detection is successful, the first transmission conversion unit 27 sends a first handshake signal to the second element 271, and the handshake signal is used to change whether the unit 27 is in a normal state, if not The second transmission conversion single-handshake 5 tiger responds 'the first transmission conversion unit 270 does not ϋ/ίΆ-the first hand signal, when the < number handshake 8 1304165 unit 270 can send an error report to the detection machine 260, The number of times can be set, usually from two to five times. When the first transmission conversion unit 270 receives the first handshake signal, the first transmission conversion unit 270 will send a second handshake signal. When the handshake signal is received, the handshake is successful, and then the transmission detection signal is transmitted. When the detection signal transmission is performed, the detection machine 260 first transmits the analog signal to the first transmission conversion unit 270, the first transmission The interface 273 of the switching unit 270 is connected, and the analog signal is transmitted to the interface circuit 274. The interface circuit 274 converts the analog signal into a digital signal and transmits it to the single-chip microprocessor 275. The single-chip processor 275 then digitizes the number. The signal is transmitted to the encoding/decoding circuit 276, and the encoding/decoding circuit 276 encodes the digital signal and transmits it to the infrared transceiver 277, and the infrared transceiver 277 transmits the encoded signal to the second transmission conversion unit in the form of an infrared signal. 271. The infrared transceiver 277 of the second transmission conversion unit 271 is connected to the infrared ray emitted by the first transmission conversion unit 270, and then converts the infrared signal into an encoded signal and transmits it to the encoding/decoding circuit 276. The encoding/decoding circuit 276 The encoded signal is decoded into a digital signal and passed to a single-chip microprocessor 275, which in turn transmits the digital signal to an interface circuit 274, which converts the digital signal into an analog signal and transmits it to the interface. 273, the interface 273 transmits the analog signal to the electronic product to be tested 280 to complete the detection signal transmission. The electronic product to be tested 280 receives the inspection. After the signal, a detection result signal is generated, and the detection result signal is transmitted to the second transmission conversion unit 271, and the second transmission conversion unit 271 can transmit the detection result back to the first transmission conversion unit 270, and then by φ. A transmission conversion unit 2 is transmitted to the detection machine 260 to complete the detection: then, the detection machine 260 triggers the braking device 230 to be depressed, so that the transmission plate 220 is subsequently moved. The electronic product detection system utilizes the first The transmission conversion unit 270 and the second transmission conversion unit 271 transmit the infrared detection signal for automatic control, and use the first transmission conversion unit 270 and the second transmission conversion unit 271 to transmit the detection signal in the form of an infrared signal, thereby avoiding the wire connection. Detection is more convenient. When the detection process is relatively simple, the two transmission conversion units 270, 271 can also perform simplex signal transmission, that is, the first transmission conversion unit 270 converts the detection signal into the completion external signal transmission, and the second transmission conversion unit 271 receives the infrared signal. The signal is converted into a test 1304165 test signal, or the second transmission conversion unit 271 converts the detection signal into an infrared number transmission, and the first transmission conversion unit 270 receives the infrared signal and converts it into a test. The second transmission conversion unit 271 also has a function of transmitting a detection signal. The transmission station 210, the transmission plate 220, and the braking device 230 can also be replaced by a pipeline of a complex, such as a conveyor belt assembly or a roller-type assembly line. In summary, the present invention complies with the requirements of the invention patents, and is only the preferred embodiment of the present invention. The above description is limited to the above embodiments, and those who are familiar with the skill of the present invention, money == Κίΐΐΐΐί Modifications or changes should be included in the following patents ☆
第一圖係先前技術之一種電子產品檢測系滅之示咅 第二圖係本發明電子產品檢測系統一較佳實施方:立 弟三圖=二騎示€子產品檢_統之傳輸轉換單示意The first figure is an indication of the destruction of an electronic product detection system of the prior art. The second picture is a preferred embodiment of the electronic product detection system of the present invention: Lidi three pictures = two-ride display product inspection _ unified transmission conversion list Signal
【主要元件符號說明】 ^子產品檢測系統 傳輸台 傳輸板 制動裝置 檢測機台 芝一傳輸轉換單元 第二傳輸轉換單元 200 接口 210 220 230 260 270 271 接口電路 單晶片微處理器 編碼/解碼電路 紅外收發器 電源電路 待測電子產品 273 274 275 276 277 278 280 10[Main component symbol description] ^Sub-product detection system transmission station transmission board brake device detection machine Taiwan-transmission conversion unit second transmission conversion unit 200 interface 210 220 230 260 270 271 interface circuit single-chip microprocessor encoding/decoding circuit infrared Transceiver Power Circuits Electronics to Be Tested 273 274 275 276 277 278 280 10