Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
JP5837862B2 - Outer edge explicit processing device and outer edge explicit processing program - Google Patents
[go: Go Back, main page]

JP5837862B2 - Outer edge explicit processing device and outer edge explicit processing program - Google Patents

Outer edge explicit processing device and outer edge explicit processing program Download PDF

Info

Publication number
JP5837862B2
JP5837862B2 JP2012168778A JP2012168778A JP5837862B2 JP 5837862 B2 JP5837862 B2 JP 5837862B2 JP 2012168778 A JP2012168778 A JP 2012168778A JP 2012168778 A JP2012168778 A JP 2012168778A JP 5837862 B2 JP5837862 B2 JP 5837862B2
Authority
JP
Japan
Prior art keywords
color
component
outer edge
node
setting
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
JP2012168778A
Other languages
Japanese (ja)
Other versions
JP2014026609A (en
Inventor
中島 徹
徹 中島
Original Assignee
株式会社ア−キテック
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 株式会社ア−キテック filed Critical 株式会社ア−キテック
Priority to JP2012168778A priority Critical patent/JP5837862B2/en
Publication of JP2014026609A publication Critical patent/JP2014026609A/en
Application granted granted Critical
Publication of JP5837862B2 publication Critical patent/JP5837862B2/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Processing Or Creating Images (AREA)
  • Image Generation (AREA)

Description

本発明は、外縁明示処理装置及びその処理プログラムに関し、例えば、鉄筋構造物の配筋処理を行う装置及びそのプログラムにおいて、長手方向に連続する鉄筋の端点を明示する処理の様に、近接する部材の外縁を明示する処理に関する。   BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an outer edge explicit processing device and a processing program thereof, for example, an apparatus for performing reinforcing bar arrangement processing and a program for the same, such as a processing for clearly indicating end points of reinforcing bars continuous in the longitudinal direction. It relates to the processing to specify the outer edge of.

従来、三次元作図システムにおいて、光源の存在によって立体物に生じる陰影を表す手法としてグラデーション表示処理が一般的に行われているが(例えば、下記特許文献1参照。)、それは、図面に臨場感を与えることが専らの目的であって、場合によっては、グラデーション表示の存在によって、当該立体物に組み合わされた部材等の組み立てが不明確となる場合がある。   Conventionally, in a three-dimensional drawing system, gradation display processing is generally performed as a technique for representing a shadow generated in a three-dimensional object due to the presence of a light source (see, for example, Patent Document 1 below). In some cases, the presence of the gradation display may make the assembly of the member combined with the three-dimensional object unclear.

特開平09−297859号公報JP 09-297859 A

例えば、三次元施工図を作図するシステムも種々提供されており、個々の建築構造物の設計に応じて所定の規則に応じた三次元配筋図を表示する機能を有するが、鉄筋や躯体等の要素をそれぞれ単色で表示していては、それらの要素が複数折り重なった図面では、要素の外縁が不明瞭となって、個々の要素の目視による区別が困難となる。   For example, various systems for drawing three-dimensional construction drawings are also provided, and it has a function to display a three-dimensional bar arrangement diagram according to a predetermined rule according to the design of each building structure. In the drawing in which these elements are displayed in a single color, the outer edges of the elements become unclear in a drawing in which a plurality of these elements are folded, making it difficult to visually distinguish individual elements.

本発明は、上記実情に鑑みてなされたものであって、作図システムにおいて作図要素の区別を容易にする外縁明示処理装置及びその処理プログラムの提供を目的とする。   The present invention has been made in view of the above circumstances, and an object thereof is to provide an outer edge explicit processing device and a processing program for facilitating the distinction of the drawing elements in the drawing system.

上記課題を解決するためになされた本発明による作図システムにおける外縁明示処理装置は、構成要素の位置座標から当該構成要素の始端と終端との間、及び、始端若しくは終端とその間の節との間の距離を導く距離算出手段と、構成要素の属性に応じて始端面と終端面の色をそれぞれ設定する色設定手段と、構成要素の軸の始端から終端に至る各節の節面に、始端面又は終端面のいずれか一方の色を初期色とし他方の色を終期色として一方の端からの長さに応じた変化率を乗じた中間色を設定する濃淡設定手段と、前記初期色、中間色、及び終期色の色情報を受けて前記構成要素に当該色情報に応じた色彩を付して表示する表示手段を備えることを特徴とする。 In order to solve the above problems, the outer edge explicit processing device in the drawing system according to the present invention is based on the position coordinates of a component, between the start and end of the component, and between the start or end and a node between them. A distance calculation means for deriving the distance of the element, a color setting means for setting the colors of the start face and the end face in accordance with the attribute of the component, and a start face at the node face of each node from the start end to the end of the axis of the constituent element. A shade setting means for setting an intermediate color obtained by multiplying a change rate according to a length from one end by setting one of the color of the surface or the end surface as an initial color and the other color as an end color, and the initial color and the intermediate color And display means for receiving the color information of the final color and displaying the component with a color corresponding to the color information.

上記課題を解決するためになされた本発明による作図システムにおける外縁明示処理プログラムは、コンピュータに、構成要素の位置座標から当該構成要素の始端と終端との間、及び、始端若しくは終端とその間の節との間の距離を導く距離算出手段、構成要素の属性に応じて始端面と終端面の色をそれぞれ設定する色設定手段、構成要素の軸の始端から終端に至る各節の節面に、始端面又は終端面のいずれか一方の色を初期色とし他方の色を終期色として一方の端からの長さに応じた変化率を乗じた中間色を設定する濃淡設定手段、前記初期色、中間色、及び終期色の色情報を受けて前記構成要素に当該色情報に応じた色彩を付して表示する表示手段として機能させることを特徴とする。 The outer edge clarification processing program in the drawing system according to the present invention, which has been made to solve the above-mentioned problems, causes a computer to determine between the position coordinates of a component between the start and end of the component, and the start or end and the section between them. The distance calculation means for deriving the distance between the color, the color setting means for setting the colors of the start face and the end face according to the attribute of the component, the node face of each node from the start end to the end of the axis of the component, A shade setting means for setting an intermediate color by multiplying a change rate according to a length from one end with either one of the start end surface or the end surface as an initial color and the other color as an end color, the initial color and the intermediate color And, it receives the color information of the final color, and functions as display means for displaying the component with a color corresponding to the color information.

以上の如く本発明によれば、例えば、三次元施工図の作図システムにおいて、個々の建築構造物の設計に応じて所定の規則に応じた三次元配筋図を表示又はプリントアウト等出力する際に、それらの要素が複数折り重なった図面にあっても、要素の始端から終端にかけて色又は濃淡のグラデーション表示が行われることによって、要素の外縁が明瞭となって、個々の要素の目視による区別が容易となる(図3参照)。   As described above, according to the present invention, for example, in a three-dimensional construction drawing drawing system, when a three-dimensional bar arrangement diagram according to a predetermined rule is displayed or printed out according to the design of an individual building structure. In addition, even in a drawing in which these elements are folded multiple times, color or shade gradation display is performed from the beginning to the end of the elements, so that the outer edges of the elements become clear and the individual elements can be visually distinguished. It becomes easy (see FIG. 3).

本発明による外縁明示処理装置の実施態様例を示すブロック図である。It is a block diagram which shows the embodiment example of the outer edge explicit processing apparatus by this invention. 本発明による外縁明示処理装置の外縁明示処理の要部を示す説明図である。It is explanatory drawing which shows the principal part of the outer edge explicit process of the outer edge explicit processing apparatus by this invention. 本発明による外縁明示処理装置の処理による結果の一例を示す表示画像である。It is a display image which shows an example of the result by the process of the outer edge explicit processing apparatus by this invention. 本発明による外縁明示処理の一部を示す説明図である。It is explanatory drawing which shows a part of outer edge clarification process by this invention. 本発明による外縁明示処理の一部を示す説明図である。It is explanatory drawing which shows a part of outer edge clarification process by this invention. 本発明による外縁明示処理の一部を示す説明図である。It is explanatory drawing which shows a part of outer edge clarification process by this invention. 本発明による外縁明示処理の一部を示す説明図である。It is explanatory drawing which shows a part of outer edge clarification process by this invention.

以下、本発明による外縁明示処理装置及びその処理プログラムの実施の形態を、三次元配筋システムの例に基づき、図面を示しつつ詳細に説明する。
図に示す例は、編集作業等の際に各種データを入力するための入力部1と、各種データの蓄積及び演算処理を行う制御部2と、各種データ及び各種データの処理結果を出力する出力部3とで構成される。
Hereinafter, embodiments of an outer edge explicit processing device and a processing program thereof according to the present invention will be described in detail with reference to the drawings based on an example of a three-dimensional bar arrangement system.
In the example shown in the figure, an input unit 1 for inputting various data at the time of editing work, a control unit 2 for storing and calculating various data, and an output for outputting various data and processing results of the various data. Part 3.

前記入力部1は、キーボード、マウス、又はタブレット等の対人インターフェース、又は他の機器から各種データをインポートするための対機インターフェースであり、前記出力部は、プリンタ、ディスプレイ装置等の対人インターフェース、又は他の機器へ各種データを出力するための対機インターフェースである。   The input unit 1 is a personal interface such as a keyboard, mouse, or tablet, or a personal interface for importing various data from other devices, and the output unit is a personal interface such as a printer or a display device, or This is a machine interface for outputting various data to other devices.

前記制御部2は、前記入力部1からの各種データに基づき建築物の構造を編集する処理を行う建築構造処理部4、前記入力部1からの各種データに基づき鉄筋の配置を編集する処理を行う鉄筋配置処理部5、鉄筋相互の干渉を検出し回避する処理を行う干渉回避処理部6、鉄筋の配置に関するルールを蓄積する配筋ルール蓄積部7、建築物を構成する要素の表示ルールを蓄積する表示ルール蓄積部8、事件別に建築物の構造データや配筋データ等を保存する事件別データ蓄積部9、及び前記各処理部において必要な演算処理を行いその演算結果を出力する演算部10を備える。   The control unit 2 performs a process of editing the structure of a building based on various data from the input unit 1 and a process of editing the arrangement of reinforcing bars based on the various data from the input unit 1. Reinforcing bar arrangement processing unit 5 to perform, interference avoidance processing unit 6 for performing processing for detecting and avoiding interference between reinforcing bars, reinforcing bar rule accumulation unit 7 for accumulating rules relating to the arrangement of reinforcing bars, and display rules for elements constituting the building A display rule storage unit 8 for storing, a case-specific data storage unit 9 for storing structure data and bar arrangement data for each case, and a calculation unit for performing necessary calculation processing in each processing unit and outputting the calculation result 10 is provided.

本発明による外縁明示処理プログラムは、前記制御部(演算部10)2の一部を制御し、コンピュータを、構成要素の位置座標から当該構成要素の始端と終端との間、及び、始端若しくは終端とその間の節との間の距離を導く距離算出手段10a、構成要素の属性に応じて始端と終端の色をそれぞれ設定する色設定手段10b、構成要素の軸の始端から終端に至る側面に単純増加又は単純減少のグラデーションを設定する濃淡設定手段10c、前記初期色、中間色、及び終期色の色情報を受けて前記構成要素に当該色情報に応じた色彩を付して表示する表示手段10dとして機能させ、前記各手段を備える外縁明示処理装置(図1参照)を構成する。 The outer edge clarification processing program according to the present invention controls a part of the control unit (arithmetic unit 10) 2 and controls the computer between the start and end of the component from the position coordinates of the component and the start or end. Distance calculating means 10a for deriving the distance between the node and the node between them, color setting means 10b for setting the colors of the start and end in accordance with the attribute of the component, and simple on the side from the start to the end of the axis of the component A shade setting means 10c for setting an increase or a simple decrease gradation, and a display means 10d for receiving the color information of the initial color, intermediate color, and final color, and displaying the component with a color corresponding to the color information. An outer edge explicit processing device (see FIG. 1) including the above-described means is configured to function.

<鉄筋の処理>
前記距離算出手段10aは、例えば、鉄筋11の中心を通る軸線12の始端Oから終端Pまでの直線距離を、前記事件別データ蓄積部9に保存されている構成要素の位置座標から求め、当該構成要素の長さとする(図4参照)。
鉄筋11又はその軸線12に曲線部分11aが存在する場合には、前記鉄筋配置処理部5によって曲線部分11aを複数の直線部分11bの連続に変換し、当該複数の直線部分の連結部、又は一定長以上の直線部分を一定距離毎に区切った領域を節13として、前記始端O若しくは終端Pとその間の節点(前記軸線12上における節13で区切られた点。以下同じ。)13aとの間の直線距離及び節13と節13との間(以下、節間14と記す。ここでは、前記節点13aと節点13aとの間。)の直線距離の和(図4では、L1+L2+L3+L4+L5+L6)として求める(図5参照)。
<Rebar treatment>
The distance calculation means 10a obtains, for example, a linear distance from the start end O to the end P of the axis 12 passing through the center of the reinforcing bar 11 from the position coordinates of the components stored in the case-specific data storage unit 9, The length of the component (see FIG. 4).
When there is a curved portion 11a on the reinforcing bar 11 or its axis 12, the reinforcing bar arrangement processing unit 5 converts the curved portion 11a into a series of a plurality of straight portions 11b, and a connecting portion of the plurality of straight portions or a fixed portion. A region obtained by dividing a straight line portion longer than a certain distance by a certain distance is defined as a node 13, and between the start end O or the end P and a node between them (a point delimited by the node 13 on the axis 12; the same applies hereinafter) 13a. And the sum of the linear distances between the nodes 13 and 13 (hereinafter referred to as the node 14; here, between the node 13a and the node 13a) (L1 + L2 + L3 + L4 + L5 + L6 in FIG. 4) ( (See FIG. 5).

前記色設定手段10bは、前記表示ルール蓄積部8から、建築物を構成する要素の属性に割り当てられた色を導き当該構成要素の始端Oと終端Pでの色を設定する。   The color setting means 10b derives the color assigned to the attribute of the element constituting the building from the display rule accumulation unit 8, and sets the color at the start end O and the end point P of the component.

前記濃淡設定手段10cは、構成要素の軸線12の始端Oから終端Pに至る各節間14の側面15に、前記始端O又は終端Pのいずれか一方の色を初期色とし他方の色を終期色として一方の端からの長さに応じた変化率を乗じた中間色を設定する。   The shading setting means 10c has an initial color as one of the colors of the start end O or the end P and an end color at the side face 15 of each internode 14 from the start end O to the end P of the axis 12 of the component. As the color, an intermediate color is set by multiplying the rate of change according to the length from one end.

例えば、その構成要素が鉄筋11の場合には、前記色設定手段10bで鉄筋11の始端Oの色(明度や濃度等(ドットの密度等でもよい))として導かれた色を初期値として前記軸線12における始端Oから節点13aまでの距離に変化率(始終端OPの色差/鉄筋11の全長)を乗じた色を、各節13の色に設定する。   For example, when the constituent element is a reinforcing bar 11, the color set by the color setting means 10b as the color of the starting end O of the reinforcing bar 11 (lightness, density, etc. (or dot density, etc.) may be used as the initial value. A color obtained by multiplying the distance from the starting end O to the node 13 a on the axis 12 by the rate of change (color difference of the starting end OP / total length of the reinforcing bar 11) is set as the color of each node 13.

例えば、RGB(赤×緑×青)からなる色を混合して構成要素の長さに応じたグラデーションを設定する場合には、始端Oの位置を0とし終端Pの位置を1として、始端Oから当該構成要素の特定位置までの距離を位置Q(0〜1)に換算し、鉄筋11に割り当てられた色が赤であり、始端Oから終端Pにかけてその赤がCo0からCo1に変化するものとして、
混合色=Co0×(1−Q)+Co1×Q
から各節間14の色(中間色)を決める。
For example, when a gradation according to the length of the component is set by mixing colors of RGB (red × green × blue), the position of the start end O is 0, the position of the end P is 1, and the start end O The distance from the specific position of the component to the specific position is converted to position Q (0 to 1), the color assigned to the reinforcing bar 11 is red, and the red changes from Co0 to Co1 from the start O to the end P As
Mixed color = Co0 x (1-Q) + Co1 x Q
Then, the color (intermediate color) of each internode 14 is determined.

前記表示手段10dは、例えば、円筒状の鉄筋11を多角柱と定義し、その側面を複数の四辺形(例えば、長方形等。)に分割し、更に、各四辺形を一対の三角形に分割し表示単位15aとする。
前記表示手段10dは、各節13の側面15を構成する各表示単位15aに、前記色設定手段10b及び濃淡設定手段10cで決めた色情報を与えて塗装する。
上記塗装処理は、例えば、DirectXなどのグラフィックモジュールを用い、前記三角形の角頂点にCo0とCo1を与えるなどすることにより表示する。
The display means 10d defines, for example, the cylindrical reinforcing bar 11 as a polygonal column, divides the side surface into a plurality of quadrilaterals (for example, rectangles, etc.), and further divides each quadrangle into a pair of triangles. The display unit is 15a.
The display means 10d applies the color information determined by the color setting means 10b and the shade setting means 10c to each display unit 15a constituting the side surface 15 of each node 13 and paints it.
The painting process is displayed, for example, by using a graphic module such as DirectX and giving Co0 and Co1 to the corner vertices of the triangle.

鉄筋11に曲線部分11aが存在する場合には、前記鉄筋配置処理部5によって曲線部分11aを複数の直線部分11bの連続に変換し、当該複数の直線の連結部、又は一定距離毎に区切った領域を節13としてそれぞれ多角柱と定義し、その側面15を複数の四辺形に分割し、各四辺形を一対の三角形に分割し表示単位15aとする。
端面16については、前記始端Oと終端Pにあっては、軸線12に対して垂直な面を採用し、各節13における断面については、相交差する二本の軸線に対して垂直な二種類の面を平均して得られる中間面17を採用する(図4及び図5参照)。
When there is a curved portion 11a in the reinforcing bar 11, the reinforcing bar arrangement processing unit 5 converts the curved portion 11a into a series of a plurality of straight line portions 11b, and divides the connecting portions of the plurality of straight lines or at predetermined intervals. Each region is defined as a polygonal column as a node 13, its side 15 is divided into a plurality of quadrilaterals, and each quadrilateral is divided into a pair of triangles to form a display unit 15a.
As for the end face 16, a plane perpendicular to the axis 12 is adopted at the start end O and the end P, and the cross section at each node 13 is two types perpendicular to two intersecting axes. An intermediate surface 17 obtained by averaging these surfaces is employed (see FIGS. 4 and 5).

本発明による外縁明示処理プログラムにより機能する外縁明示処理装置は、以上の如く構成され、鉄筋等の構成要素が多数混在し、フープなど始端と終端が同位置になるような閉鎖型図形の場合であっても、何処が接合点であるかを明確に認識することができる(図3参照)。   The outer edge explicit processing device functioning by the outer edge explicit processing program according to the present invention is configured as described above, and in the case of a closed graphic in which a large number of components such as reinforcing bars are mixed and the start end and the end of the hoop are in the same position. Even if it exists, it can recognize clearly where it is a junction (refer FIG. 3).

<鉄骨の処理>
前記距離算出手段10aの処理は、例えば、鉄骨18にあっても同様である。
即ち、その中心を通る軸線12の始端Oから終端Pまでの直線距離を、前記事件別データ蓄積部9に保存されている構成要素の位置座標から求め、当該構成要素の長さとする(図6参照)。
鉄骨18又はその軸線12に屈曲部分18aが存在する場合には、前記鉄筋配置処理部5によって屈曲部分18aを複数の直線部分18bの連続に変換し、当該複数の直線部分18bの連結部、又は一定長以上の直線部分18bを一定距離毎に区切った領域を節13として、前記始端O若しくは終端Pとその間の節点13aとの間の直線距離及び節間14の直線距離の和(図6では、L1+L2+L3+L4+L5+L6)として求める(図7参照)。
<Processing of steel frames>
The processing of the distance calculation means 10a is the same for the steel frame 18, for example.
That is, the linear distance from the start end O to the end P of the axis 12 passing through the center is obtained from the position coordinates of the component stored in the case-specific data storage unit 9 and is used as the length of the component (FIG. 6). reference).
When the bent portion 18a exists in the steel frame 18 or the axis 12 thereof, the bent portion 18a is converted into a series of a plurality of straight portions 18b by the reinforcing bar arrangement processing unit 5, and a connecting portion of the plurality of straight portions 18b, or A region obtained by dividing the straight portion 18b having a certain length or longer at a predetermined distance is defined as a node 13, and the sum of the linear distance between the starting end O or the terminal P and the node 13a therebetween and the linear distance between the nodes 14 (in FIG. 6). , L1 + L2 + L3 + L4 + L5 + L6) (see FIG. 7).

前記色設定手段10b及び前記濃淡設定手段10cの処理も、鉄筋11における処理と同じであって、鉄骨18に割り当てられている色が異なり、当該色に応じて前記始端Oから終端Pにかけてその色がCo0からCo1に変化する。   The processing of the color setting means 10b and the shading setting means 10c is the same as the processing in the reinforcing bar 11, the color assigned to the steel frame 18 is different, and the color from the start end O to the end P according to the color. Changes from Co0 to Co1.

前記表示手段10dは、例えば、鉄骨18をその断面形状が一様な多角柱と定義し、その側面を複数の四辺形に分割し、更に、各四辺形を一対の三角形に分割し表示単位15aとする。
前記表示手段10dは、各節の側面15を構成する各表示単位15a、前記色設定手段10b及び濃淡設定手段10cで決めた色情報を与えて塗装する。
The display means 10d defines, for example, the steel frame 18 as a polygonal column having a uniform cross-sectional shape, divides the side face into a plurality of quadrilaterals, and further divides each quadrilateral into a pair of triangles to display units 15a. And
The display means 10d applies the color information determined by each display unit 15a constituting the side face 15 of each node, the color setting means 10b, and the shade setting means 10c, and paints.

鉄骨18に屈曲部分18aが存在する場合には、前記鉄筋配置処理部5によって屈曲部分18aを複数の直線部分18bの連続に変換し、当該複数の直線部分18bの連結部、又は一定距離毎に区切った領域を節13としてそれぞれ多角柱と定義し、その側面15を平面ごとに分割し、(曲面を有する場合は、当該曲面を複数の四辺形に分割し、)各四辺形を一対の三角形に分割し表示単位15aとする。   When the bent portion 18a is present in the steel frame 18, the bent portion 18a is converted into a series of a plurality of straight portions 18b by the reinforcing bar arrangement processing unit 5, and the connecting portions of the plurality of straight portions 18b or at regular intervals. Each divided area is defined as a polygonal column as a node 13 and its side surface 15 is divided into planes (if it has a curved surface, the curved surface is divided into a plurality of quadrilaterals). Into a display unit 15a.

端面16については、前記始端Oと終端Pにあっては、軸線12に対して垂直な面を採用し、各節13における断面については、相交差する二本の軸線に対して垂直な二種類の面を平均して得られる中間面17を採用する(図6及び図7参照)。   As for the end face 16, a plane perpendicular to the axis 12 is adopted at the start end O and the end P, and the cross section at each node 13 is two types perpendicular to two intersecting axes. An intermediate surface 17 obtained by averaging these surfaces is employed (see FIGS. 6 and 7).

本発明による外縁明示処理プログラムにより機能する外縁明示処理装置は、以上の如く構成され、鉄骨等の異形構成要素が多数混在し、始端と終端が同位置になるような連結型図形の場合であっても、何処が接合点であるかを明確に認識することができる(図示省略)。   The outer edge explicit processing device functioning by the outer edge explicit processing program according to the present invention is configured as described above, and is a case of a connected figure in which a large number of deformed components such as steel frames are mixed and the start end and the end are in the same position. However, it is possible to clearly recognize where the junction is (not shown).

O 始端,P 終端,
1 入力部,2 制御部,3 出力部,
4 建築構造処理部,5 鉄筋配置処理部,6 干渉回避処理部,
7 配筋ルール蓄積部,8 表示ルール蓄積部,9 事件別データ蓄積部,
10 演算部,
10a 距離算出手段,10b 色設定手段,
10c 濃淡設定手段,10d 表示手段,
11 鉄筋,11a 曲線部分,11b 直線部分,
12 軸線,
13 節,13a 節点,
14 節間,
15 側面,15a 表示単位,16 端面,17 中間面,
18 鉄骨,18a 屈曲部分,18b 直線部分,
O start, P end,
1 input unit, 2 control unit, 3 output unit,
4 building structure processing unit, 5 reinforcing bar arrangement processing unit, 6 interference avoidance processing unit,
7 Bar arrangement rule storage unit, 8 Display rule storage unit, 9 Case-specific data storage unit,
10 arithmetic unit,
10a distance calculation means, 10b color setting means,
10c density setting means, 10d display means,
11 Reinforcing bars, 11a Curved part, 11b Straight part,
12 axes,
13 nodes, 13a nodes,
14 verses,
15 side faces, 15a display unit, 16 end faces, 17 intermediate faces,
18 steel frame, 18a bent part, 18b straight part,

Claims (2)

構成要素の位置座標から当該構成要素の始端と終端との間、及び、始端若しくは終端とその間の節との間の距離を導く距離算出手段と、
構成要素の属性に応じて始端と終端の色をそれぞれ設定する色設定手段と、
構成要素の軸の始端から終端に至る各節の節面に、始端又は終端のいずれか一方の色を初期色とし他方の色を終期色として一方の端からの長さに応じた変化率を乗じた中間色を設定する濃淡設定手段と、
前記初期色、中間色、及び終期色の色情報を受けて前記構成要素に当該色情報に応じた色彩を付して表示する表示手段を備えることを特徴とする作図システムにおける外縁明示処理装置。
Between the position coordinates of the components of the beginning and end of the component, and a distance calculation means for guiding the distance between the beginning or end and between sections,
Color setting means for setting the start and end colors according to the attributes of the component elements;
On the node surface of each node from the beginning to the end of the axis of the component, the rate of change according to the length from one end is set with either the starting color or the ending color as the initial color and the other color as the final color. A shade setting means for setting the multiplied intermediate color;
An outer edge clarification processing apparatus in a drawing system, comprising display means for receiving color information of the initial color, intermediate color, and final color, and displaying the component with a color corresponding to the color information.
コンピュータに、
構成要素の位置座標から当該構成要素の始端と終端との間、及び、始端若しくは終端とその間の節との間の距離を導く距離算出手段、
構成要素の属性に応じて始端面と終端面の色をそれぞれ設定する色設定手段、
構成要素の軸の始端から終端に至る各節の節面に、始端又は終端のいずれか一方の色を初期色とし他方の色を終期色として一方の端からの長さに応じた変化率を乗じた中間色を設定する濃淡設定手段、
前記初期色、中間色、及び終期色の色情報を受けて前記構成要素に当該色情報に応じた色彩を付して表示する表示手段として機能させることを特徴とする作図システムにおける外縁明示処理プログラム。
On the computer,
Between the position coordinates of the components of the beginning and end of the component, and the distance calculating means for guiding the distance between the beginning or end and between sections,
Color setting means for setting the colors of the start and end faces according to the attributes of the component elements,
On the node surface of each node from the beginning to the end of the axis of the component, the rate of change according to the length from one end is set with either the starting color or the ending color as the initial color and the other color as the final color. A shade setting means for setting the multiplied intermediate color,
An outer edge clarification processing program in a drawing system, which receives color information of the initial color, intermediate color, and final color, and causes the component to display a color according to the color information.
JP2012168778A 2012-07-30 2012-07-30 Outer edge explicit processing device and outer edge explicit processing program Active JP5837862B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2012168778A JP5837862B2 (en) 2012-07-30 2012-07-30 Outer edge explicit processing device and outer edge explicit processing program

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2012168778A JP5837862B2 (en) 2012-07-30 2012-07-30 Outer edge explicit processing device and outer edge explicit processing program

Publications (2)

Publication Number Publication Date
JP2014026609A JP2014026609A (en) 2014-02-06
JP5837862B2 true JP5837862B2 (en) 2015-12-24

Family

ID=50200157

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2012168778A Active JP5837862B2 (en) 2012-07-30 2012-07-30 Outer edge explicit processing device and outer edge explicit processing program

Country Status (1)

Country Link
JP (1) JP5837862B2 (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105653807A (en) * 2016-01-06 2016-06-08 浪潮集团有限公司 Automatic alignment method based on Cadence Via

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2731041B2 (en) * 1991-03-20 1998-03-25 株式会社クボタ Hydraulic analyzer
JP2000008426A (en) * 1998-06-26 2000-01-11 Akira Hayashi Pipe network simulation device
JP2004145714A (en) * 2002-10-25 2004-05-20 Denso Corp Design support system

Also Published As

Publication number Publication date
JP2014026609A (en) 2014-02-06

Similar Documents

Publication Publication Date Title
Lyche et al. Spline methods draft
JP4481931B2 (en) Method for approximating and displaying three-dimensional CAD data, and system for executing the method
CN111260750B (en) Processing method and device for openFL drawing vector graphics and electronic equipment
TWI613510B (en) Electron beam drawing device, electron beam drawing method, and recording medium
CN101071508A (en) Image processing apparatus, image processing method, and image processing program
US20240265635A1 (en) Automated mesh generation
JP5837862B2 (en) Outer edge explicit processing device and outer edge explicit processing program
JP4339675B2 (en) Gradient image creation apparatus and gradation image creation method
CN110869945A (en) Image processing apparatus
EP2372659A1 (en) Method and system for rapidly vectorizing image by gradient meshes based on parameterization
CN102262785A (en) Edge smooth method and scale method for bitmap font and recording media
JP2003162728A (en) Image processing device and image output device
CN106846498B (en) Laser point cloud rendering method and device
JP5159949B2 (en) Vector drawing equipment
US10943384B2 (en) Utilizing smooth shading patches in image rendering
CN115098163A (en) Multi-end adaptation method based on configuration visualization product
JP5492911B2 (en) Character creation method and character creation device
US20200043144A1 (en) System and method for applying antialiasing to images
TW201616216A (en) Method for calculating pattern correction amount, method for calculating pattern correction amount, and recording medium
JP6742768B2 (en) Image image output device and image image output program
CN101751665A (en) Method and system for detecting whether current pixel is located in polygon
CN106485767B (en) Method and device for drawing symbols
JPH1115994A (en) Surface creation method
WO2013175520A1 (en) Character drawing device
JP2006318336A (en) Figure drawing device

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20140602

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20150512

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20150519

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20150525

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20151020

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20151106

R150 Certificate of patent or registration of utility model

Ref document number: 5837862

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250