^24312 之難題。 【發明内容】 鑒於上述習知技術之種種確實,本發明之主要目的在 於提供-種物件管理系統及方法,其係應用於一印刷電路 j (PnntedCircuitB〇ard; pcB)之佈線軟體中,以供 刷電:板上物件之相關性’並於其中-物件移動時 該物件是否可移動,藉以縮短佈線時間, &升佈線作業之效率。 為達上述及其他目的,本發明提出一種物件管理 統,係應用於-印刷電路板之佈線軟 卜 :該印刷電路板上之物件,其係包括:設定模组::: =定二物件於該印刷電路板上之位置關聯參數;運= 該設定模組所設定的該位置關聯參數;算 L一物件中—物件相對於另—物件之可移動 杈組,係用以於位置相關聯之二 f ^ - π± /μ 刀r之物件位置袄哇 該物件之移動範圍是否超出該運算運曾 付出的移動範圍;以及提示模組,係 ^運斤 亥谓測結果對應之提示訊息輸出以接 不該物件是否可移動。 “别®以^ =明之物件管理系統復包括記錄模 經移動後之該二物件之間之位置關聯參數。己錄 於本發明中,上述關聯 ,及相對距離參數。上述物 子疋位點或過孔(Via)其中之一者。 ’、…孔、光 H0115 7 本發明復提出一物件管 板之佈線軟體中,用以^理方法係應用於—印刷電路 件,該方法係包括以下;:佈=該:刷電路板上之物 電路板上之位置)()以二物件於該印刷 聯參數運算㈣4 :3)當於該印刷電路板上移動該二物件之中:一 得出的移動範圍,若是則超出步驟⑺運算 下-步驟(5 ),·⑷^ '驟(4),否則進至 輪出;以及(5)t=:不可移動之提示訊息 本發明之物杜—^牛可私動之提示訊息輸出。 物件之間之位括記錄經移動後之該二 之二數係包括該二物件 孔、,位點或過二物件係指零件'螺絲 過二=先=明::件管理系統及方法,主要係透 參數,以供運曾w物件於印刷電路板上的位置關聯 運曾出V Γ設定模組所設的位置關聯史數 圍…物件之可移_ 時,=二:: = 上進行移動 運算得出的移動範圍,俾令提亍超出該運算模組 挪結果作出相應的提示,進而可⑽莫組之谓 間,增加佈線作業效率,且可避路板佈線時 光出錯及遺漏之情形發生。 110115 Γ’ί角度參數(…)及相對距離參數“、Μ,並 例如則表示該二物件相對位置係為固定。、 兔ΙΟτ 的距離不得大於8inch,透過設定模 可心二光學定位點之位置關聯參 =36°),相對距離參數為(。,8)。又例如散二 螺絲孔之相對距離為〇·2ι_,二螺 水 =角為45度’透過設定模組可設定二螺絲孔之位置 ^ m 11 ^1 ^ ^ ^ 可移動r門Γ "一物件相對於另一物件之 之門之而言之,運算模組11係依據該二物件 出二二數“、石)及相對距離參數“、b)運算 動二鬥/中—物件相對於另—物件之可移動範圍,該移 動乾圍係透過一向詈n 如光學定㈣之=……“、,。例 教b 之間向I函數為f[(G、36G)( 〇、8)],散 〇熱2片)]之。二螺絲孔之間的向量函數為·5、45)(0·2、 ΡΟβΓΓΙ模^12係用以於上述二物件中之—物件於該 11運管得移料’谓測該物件是否係於運算模組 二侍出的私動範圍内移動,並據以產生價測結果。 產生係用以依據偵測模组13產生的债測結果 π訊唬以提示該物件是否可移動 細組12偵測到該物件係於運算模組η運算:出的: 110115 10 動乾圍内和動,則提示模組】3相應 動之提示訊息輪出;反之杨件可移 係移動至f軍W 12偵測到該物件 係私動至於運料幻〗運算得㈣移動範料 模組13相應的產生一哕必生 徒不^24312 The problem. SUMMARY OF THE INVENTION In view of the above various conventional techniques, the main object of the present invention is to provide an object management system and method for use in a wiring circuit of a printed circuit j (PnntedCircuitB〇ard; pcB) for Brushing: The correlation of the object on the board' and the object is movable when the object moves, thereby shortening the wiring time, and the efficiency of the wiring operation. To achieve the above and other objects, the present invention provides an object management system for applying to a printed circuit board: an object on the printed circuit board, comprising: a setting module::: = two objects are The position-related parameter on the printed circuit board; the position-associated parameter set by the setting module; the movable group of the object in the L-object relative to the other object is used for position correlation Two f ^ - π± /μ The position of the object of the knife r 袄Wow the moving range of the object exceeds the moving range that the operation has paid; and the prompting module, the system prompts the output of the prompt message corresponding to the test result Can the object be moved? "Do not use the object management system of the ^=ming to include the positional correlation parameter between the two objects after recording the movement of the mold. The invention has been recorded in the present invention, the above correlation, and the relative distance parameter. One of the vias (Via). ',... hole, light H0115 7 The present invention re-proposes the wiring software of an object tube sheet, and the method is applied to the printed circuit board, and the method includes the following; : cloth = the: the position on the circuit board on the brush circuit board) () with two objects in the printing joint parameter operation (4) 4:3) when moving the two objects on the printed circuit board: one The range of movement, if it is beyond the step (7) operation - step (5), (4) ^ 'throw (4), otherwise go to the round; and (5) t =: immovable prompt message the object of the invention du - ^ The message can be outputted by the cow. The position between the objects includes the two digits of the record after the movement, including the two object holes, and the position or the two objects are the parts of the screw. ::Part management system and method, mainly through parameters, for transporting objects in printed circuits The positional association on the upper position has been set by the V Γ setting module. The position history of the object is set to move. _, ==2:: = The movement range obtained by the movement operation is increased. The module moves the result to make corresponding prompts, and then the (10) Mo group can increase the efficiency of the wiring operation, and the situation of the circuit board wiring time error and omission can occur. 110115 Γ'ί angle parameter (...) and relative distance parameter ", Μ, and, for example, means that the relative positions of the two objects are fixed. The distance between the rabbit and the ΙΟτ is not more than 8 inches. The relative position parameter is (., 8). For example, the relative distance between the two screw holes is 〇·2ι_, the second screw water = the angle is 45 degrees. The position of the two screw holes can be set through the setting module ^ m 11 ^1 ^ ^ ^ movable r threshold quot " In the case of the object relative to the door of the other object, the computing module 11 calculates the second bucket/middle-object relative to the other according to the two-two ", stone" and relative distance parameters ", b) of the two objects. - the movable range of the object, the moving trunk is transmitted through the first direction 如n as optically determined (4) = ... ",. Between the teaching b and the I function is f [(G, 36G) ( 〇, 8)] 2, the heat of the two pieces)]. The vector function between the two screw holes is ·5, 45) (0·2, ΡΟβΓΓΙ模^12 is used in the above two objects - the object is in the 11th tube The "feeding material" measures whether the object moves within the private range of the operating module 2 and generates a price measurement result. The generating system is used to generate a price measurement result according to the detection module 13 Prompt whether the object can move the fine group 12 to detect that the object is in the operation module η operation: out: 110115 10 move dry inside and move, then prompt module] 3 corresponding The prompt message is rotated; otherwise, the Yang piece can be moved to the f-arm W 12 to detect the object. The private movement is the result of the operation. (4) The mobile fan module 13 correspondingly produces a must-have
Mil \ 不可㈣之提示訊息輸出。Mil \ can't (4) prompt message output.
錄換、,且14係用以記錄移動後之該二物件於該PCB 上的位置關聯參數,即纪好 、 相針距賴"物件之肖度參數及 ====續PCB設計人員可依據記錄模組所記錄 的内奋獲悉該PCB上物件之位置移動訊息。 理方^過本發明之物件管理系統1執行本發明之物件管 :如第2圖所示。該物件管理方法係包括如 i t;之Π_〇,透過設定模組1〇設定二物件於 二夫數」ϋ關聯參數。於本發明中,設定模組H)係 二介面,當進行嶋計時,於請上選取 = :::: =即可產生該參數設定介面以供設 係包括該二物件之二=广=位置關聯參數 數(a、b),束角度參數(《、幻及相對距離參 位置係為固定r接著㈣則表示該二物件相對 ^ 接者,進至步驟S21。 於步驟S21,令運瞀禮έ彳〗 定模組10戶斤讯定…:核、11依據步驟S20中透過設 件相對於聯參數運算出該二物件中一物 如中,運管=可移動範圍°更詳而言之,於步驟 (α #吴,、且係依據該二物件之間之角度參數 物件相對於另b)運算出該二物件中-、 牛之可移動範圍,該移動範圍係透過一 110115 11 ^24312 向量、幻(a、b)]得出。接著,進至步驟S22。 7驟S22’當上述二物件中之—物件於該咖上移 组㈣測該物件是㈣於運算模組u :::出的移動範圍内移動,若是則進至步 進至步驟S24。Recording, and 14 series are used to record the position-related parameters of the two objects on the PCB after moving, that is, the good and the phase distance are the parameters of the object and the ==== continued PCB designer can According to the record recorded by the recording module, the location movement information of the object on the PCB is learned. The object management system 1 of the present invention executes the object tube of the present invention: as shown in Fig. 2. The object management method includes, for example, i t; Π _ 〇, through the setting module 1 〇 setting two objects in the two-digit number ϋ associated parameters. In the present invention, the setting module H) is a two-interface, and when the 嶋 timing is performed, the parameter setting interface can be generated by selecting :::::= on the request to provide the second object including the two objects = wide = position The number of associated parameters (a, b), the beam angle parameter (", phantom and relative distance parameter position is fixed r and then (4) means that the two objects are opposite to each other, and proceeds to step S21. In step S21, the operation is performed. έ彳 〗 〖Set the module 10 households to determine...: Core, 11 according to step S20 through the set of components relative to the joint parameters to calculate an object in the two items, such as the transport tube = movable range ° in more detail In the step (α #吴, and according to the angle parameter between the two objects, the object is relative to the other b), the movable range of the -, the cow is calculated, and the moving range is transmitted through a 110115 11 ^ 24312 The vector, illusion (a, b)] is obtained. Then, the process proceeds to step S22. 7 Step S22' When the object in the above two objects is moved on the coffee machine (4), the object is (4) in the operation module u :: : moving within the range of movement of the exit, if yes, proceeding to step S24.
&步驟S23, 訊息輸出。 &步驟S24, 之訊息輪出。 令提示模組13產生一該物件可移動之 令提示模組13產生一該物件不可移動 _此外,本發明之方法復包括步驟S25,於步驟S25中 令記錄模組14記錄移動後之二物件於該pcB上的位 聯參數,即記錄移動後之二物件於該pCB上的角度參數^ 相對距離參數。 - 、请參閱第3圖,其係顯示本發明之物件管理系統及方 法的一應用實施例示意圖。如圖所示,印刷電路板板(未 蜃圖不)上係設置有光學定位點Α、β,透過上述設定模組 ' 10設定光學定位點之關聯參數為(α、々)以及(a、b), .經運算模組11藉由向量函數f[(a、p)(a、b)]得出光 學定位點B僅能在如第3圖所示之陰影區域内移動,若於 印刷電路板2上移動光學定位點B,偵測模組12偵測到 光學定位點B係於該陰影區域内移動則令提示模組產生 光學定位點B可移動之提示訊息輸出,並令記錄模組η 記錄移動後之光學定位點之位置關聯參數,否則令提示模 組13產生光學定位點B可移動之提示訊息輪出。 、 110115 12 丄 法心二::二圖例其Λ顯示本發明之物件管理系統及方 圖示)上=:::==印刷電路板板(未 方向夹角為45产“ 2耐,螺絲孔與水準 置關聯參數中可設定二螺絲孔之位 (〇.2,〇.2),經運算模%11养由&向旦相對距離參數為 45)( 〇. 2、〇. 2)]得出螺絲孔 T1 :T2 :广y [(45、 位置係為固定,其移動範圍係為一固定I占刷^路板2上的 板2上移動螺絲孔T2,㈣j模;^ 右於印刷電路 偵而杈、、且12偵測到螺絲孔a係 = 之外’則令提示模組13產生螺絲孔Η不可 移動之提示訊息輸出。 絲上所述,本發明之物件管理系統及方法,主 =定模組預先設定二物件於印刷電路板上的位置關聯 供運算模組依據該設定模組所設的位置關聯參數 ""δ亥一物件中一物件相對於另一物件之可移動範 =,以便當該二物件中一物件於該印刷電路板上進行移動 時^貞測模組傾測該物件《移動範圍是否超出該運算模組 運算得出的移動範圍’俾令提示模組依據該債測模組之債 測結果作tM目應的提*,進而可縮短印刷電路板佈線時 間,增加佈線作業效率,且可避免出錯及遺漏之情形發 生。因而可避免習知技術中透過人工以手動方式對物件之 間之相關性進行控制使得PCB佈線時間増長,佈線作業不 具效率’且容易產生錯誤及遺漏之缺失。 110115 13 1324312 上述實施例僅例示性說明本發明之原理及其功效,而 非用於限制本發明。任何熟習此項技藝之人士均可在不達 背本發明之精神及範疇下,對上述實施例進行修飾與改 變。因此,本發明之權利保護範圍,應如後述之申請專利 範圍所列。 【圖式簡單說明】 第1圖係顯示本發明之物件管理系統之基本架構方 .· 塊示意圖; 脅 第2圖係顯示本發明之物件管理方法之步驟流程示 第3圖係顯示本發明之故姓μ 之物件f理系統及方法的一應 用實施例示意圖;以及 ^ 第4圖係顯示本發明之物々 處m — 奶件官理系統及方法的另一 應用實施例示意圖。 【主要元件符號說明】 1 10 11 12 13 14 A、B ΤΙ、T2 S20-S25 物件管理系統 設定模組 運算模組 偵測模組 提示模組 記錄模組 光學定位點 螺絲孔 步驟 110115 14& Step S23, message output. & Step S24, the message is rotated. The prompting module 13 generates an object movable, and the prompting module 13 generates an object that is not movable. Further, the method of the present invention further includes step S25, and in step S25, the recording module 14 records the moved two objects. The bit-coordinate parameter on the pcB, that is, the angle parameter ^ relative distance parameter of the two objects on the pCB after the movement is recorded. - Please refer to Fig. 3, which is a schematic diagram showing an application embodiment of the object management system and method of the present invention. As shown in the figure, the printed circuit board (not shown) is provided with optical positioning points β, β, and the associated parameters of the optical positioning points are set by the setting module '10 (α, 々) and (a, b), by the operation module 11 by the vector function f[(a, p) (a, b)], the optical positioning point B can only move in the shaded area as shown in Fig. 3, if printing The optical positioning point B is moved on the circuit board 2, and the detecting module 12 detects that the optical positioning point B moves in the shadow area, so that the prompting module generates the optical positioning point B to move the prompt message output, and makes the recording mode The group η records the position-related parameters of the optical positioning point after the movement, otherwise the prompting module 13 generates a prompt message for the optical positioning point B to move. 110115 12 丄法心二:: The second illustration shows the object management system and the graphic diagram of the present invention) =:::== Printed circuit board (the angle of the non-directional angle is 45) "2 resistance, screw hole The position of the two screw holes (〇.2, 〇.2) can be set in the parameter associated with the level. The relative distance parameter of the & dan is calculated by the operation module %11 (〇. 2, 〇. 2)] Find the screw hole T1:T2: wide y [(45, the position is fixed, its moving range is a fixed I accounted for the moving screw hole T2 on the plate 2 on the brush board 2, (four) j mode; ^ right to print When the circuit detects, and 12 detects the screw hole a system = outside, the prompt module 13 generates a screw hole Η non-movable prompt message output. The object management system and method of the present invention, The main=fixed module pre-sets the positional relationship between the two objects on the printed circuit board, and the operation module selects a parameter according to the position set by the setting module. The object in the object is relative to the other object. Moving the range=, so that when an object in the two objects moves on the printed circuit board, the detection module tilts the object to move the range Whether the movement range calculated by the operation module is exceeded or not, the prompting module can make a tM according to the debt measurement result of the debt testing module, thereby shortening the wiring time of the printed circuit board and increasing the wiring operation efficiency. Moreover, it can avoid the occurrence of errors and omissions, thereby avoiding the manual control of the correlation between objects by manual control in the prior art, so that the PCB wiring time is long, the wiring operation is not efficient, and the errors and omissions are easily lost. 110115 13 1324312 The above-described embodiments are merely illustrative of the principles of the present invention and its effects, and are not intended to limit the present invention. Any person skilled in the art can practice the above without departing from the spirit and scope of the present invention. The embodiments are modified and changed. Therefore, the scope of protection of the present invention should be as listed in the scope of the patent application described later. [Simplified description of the drawings] Fig. 1 shows the basic structure of the object management system of the present invention. FIG. 2 is a flow chart showing the steps of the object management method of the present invention. FIG. 3 is a view showing the name of the present invention. A schematic diagram of an application embodiment of a system and method; and FIG. 4 is a schematic view showing another application embodiment of the object management system and method of the present invention. [Description of main component symbols] 1 10 11 12 13 14 A, B ΤΙ, T2 S20-S25 Object Management System Setting Module Operation Module Detection Module Prompt Module Recording Module Optical Positioning Point Screw Hole Step 110115 14