JPS62296274A - Method and device for generation of reinforced concrete processing diagram - Google Patents

Abstract

PURPOSE:To substantially shorten time required for generating a reinforced concrete processing diagram by drawing the possible lines of arranging reinforced concrete on a section obtained by the prescribed scale model. CONSTITUTION:The lines of arranging reinforced concrete are drawn in paper scaled in some representative fraction. When coordinate values are inputted along the nodes from an input part 1, an analysis control part 2 obtains coordinate values converted according to the defined scale. A length measurement part 7 calculates a distance between the coordinate values. Where normal and reverse bending angles in the nodes is '+' and '-', respectively, an angle measurement part 8 calculates angles. They are processed to generate and output a reinforced concrete processing diagram. If not only the distance but also the directions of angles are calculated and outputted, a person in charge of processing reinforced concrete can reduce errors in the bending direction in terms of processing.

Description

Detailed Description of the Invention 3. Detailed Description of the Invention [Industrial Field of Application] The present invention relates to a method and apparatus for creating reinforcing bar working diagrams suitable for creating reinforcing bar working diagrams for special structures such as rock formations and Buddhist statues.

[Conventional technology]

Rockwork, which involves constructing special structures such as rock formations and Buddhist statues, involves the work of laying steel frames, reinforcing pipes, lath pasting, and plastering. Especially when the rock work is large-scale and has large height differences, it becomes difficult to manufacture it on site. Therefore, it is necessary to unitize the lockwork and produce it in a factory to make on-site construction as easy as possible.

Therefore, in such construction, a reinforcing bar machining diagram is created according to its cross section and shape, and a reinforcing bar of a special shape is machined by looking at the reinforcing bar machining diagram.

Conventionally, the process of creating this reinforcing bar processing drawing has been to create a full-size drawing for each reinforcing bar tree and manually creating the processing drawing.

[Problem that the invention seeks to solve]

As mentioned above, the creation of conventional reinforcing bar machining drawings is a manual process and is therefore time-consuming. Furthermore, for large-scale rock work, reinforcing bar machining drawings may be created from the model according to its cross section and shape, but in such cases, the machining drawings must be created while converting according to the scale factor of the model. Otherwise, a great deal of time and effort will be required to create the reinforcing bar machining drawings.

The present invention solves the above-mentioned problems, and aims to provide a method and apparatus for creating a reinforcing bar processing surface that can easily create a reinforcing bar processing diagram from a cross section of a model.

[Means for solving problems]

To this end, the reinforcing bar processing surface creation method of the present invention involves slicing a model of a structure, pressing paper against the cross section of the sliced piece, and writing reinforcing bar placement lines on the paper. This system is characterized by inputting coordinates into a reinforcing bar machining space creation device to create a reinforcing bar machining drawing. Input means for inputting coordinate values from the paper as well as unit length and other key information, calculating the length and bending angle of reinforcing bars from the input coordinate values and key information, and creating a table of reinforcing bar lengths and bending angles. The present invention is characterized by comprising an arithmetic processing means for creating reinforcing bar machining diagram data such as the shape of the reinforcing bar, and an output means for outputting the reinforcing bar machining diagram data.

[Effect]

In the reinforcing bar processing surface creation method and device of the present invention, reinforcing bar placement lines are drawn on a piece of paper with a cross-sectional shape obtained by slicing a structure model, so the reinforcing bar placement lines can be easily drawn.
Furthermore, the system automatically calculates the coordinate values by inputting the coordinates according to the reinforcing bar placement line to create and process the reinforcing bar length, angle, and other necessary data, making it easier to create reinforcing bar processing drawings. In addition, the data necessary for reinforcing bar processing can be easily obtained.

〔Example〕

Examples will be described below with reference to the drawings.

Fig. 1 is a diagram showing the configuration of one embodiment of the reinforcing bar machining diagram creation system according to the present invention, Fig. 2 is a diagram for explaining the round cutting process of a model, and Fig. 3 is a diagram showing the reinforcing bar machining diagram from the round cut model. FIG. 3 is a diagram for explaining the flow of creation processing. In the figure,
1 is the input section, 2 is the analysis processing section, 3 is the output control section, 4 is the display section, 5 is the drawing control section 11, 6 is the prong, 7 is the length measurement section, 8 is the angle measurement section, 9 is the four arithmetic operations 11 is the model piece, 12 is the height, 13 is the predicted placement line of the reinforcing bars, 14 is the piece name, 15 is the angle, 16 is the length between nodes, 17 is the cumulative length of the reinforcing bars, 18 is the shape of the reinforcing bars. show.

In Fig. 1, the input unit l consists of a coordinate input means for inputting coordinate values from a panel using a stylus bear, etc., and a key input means, and a menu sheet is attached to a specific coordinate area of the coordinate input means. Key input information may be defined and the coordinate input means may also be used as the key input means. As key input information, a scale designation key, numeric keypad, calculation designation key, human output command key, etc. are defined. In this case, the analysis control unit 2 has a built-in memory and reads coordinate values from the input unit (coordinate input means) 11, determines whether the coordinate values are in a specific coordinate area (menu sheet area), and determines whether or not the coordinate values are in a specific coordinate area (menu sheet area). It performs analysis processing of key input information, defines units and scales based on the analyzed results, and furthermore, according to the content of key input and coordinate input, the length measurement section 7, angle measurement section 8, and four rules The calculation section 9 is activated. The output control section 3 is
It controls the output to the display section 4 and the drawing control section 5 according to commands from the analysis control section 2, and the drawing system? Ij part 5
controls the output of the reinforcing bar machining diagram to the plotter 6.

Therefore, when a predicted placement line for reinforcing bars is drawn on a piece of paper with a size according to the scale dimension, and coordinate values are input from the input unit 1 along the nodes, the coordinate values converted according to the definition of the scale are calculated in the analysis control unit 2. The length measurement unit 7 calculates the distance between the coordinate values. Further, in the angle measurement unit 8, the forward/reverse bending angle at the node is calculated using, for example, "+" in the forward direction and "=" in the reverse direction. By processing these calculation results, a reinforcing bar machining diagram is created and output. By calculating and outputting the angular direction in this way, the reinforcing bar fabricator can reduce errors in the bending direction during fabrication.

Next, the work of creating a reinforcing bar machining diagram according to the present invention will be explained.

When creating a reinforcing bar processing diagram from a model, the model is first cut into slices as shown in FIG. 2, for example. and,
When the sliced model 11 as shown in FIG.
Expected placement line 13 of reinforcing bars as shown in Figure Q) l
Write on paper 12.

After that, place this zigzag 12 on the panel of the coordinate input means of the input unit 1, and use, for example, a stylus pen to draw the node Fil - "2" - along the predicted placement line 13 of the reinforcing bars.
...=Input the coordinates of "lO". Note that before inputting these coordinates, input the scale.

The analysis processing unit 2 reads the coordinate values of each node by inputting the coordinates of the nodes, starts the length measurement unit 7 and the angle measurement unit 8, and calculates the length and angle between the nodes of the reinforcing bar according to the specified scale. . The results of these calculations are sequentially stored in the built-in memory and displayed on the display section 4 through the output control section 3, and the reinforcing bar machining diagram is outputted to block-6.

The reinforcing bar processing diagram consists of a table showing the shape 18 of the reinforcing bar, the length between each node, and the angle between each node for each piece of the model, as shown in FIG. 3 tdl, for example.

To specify the scale, if you know the scale in advance, enter 1000 on the numeric keypad to set it to 1/1.
000 scale, and if the scale is unknown, enter the coordinates between two points of a certain length (for example, 1000 length) on the drawing, and enter that length as 1000 using the numeric keypad. The scale may be defined by coordinate values input from the input unit and numerical values input from the numeric keypad. In the system shown in FIG. 1, these processes are performed by the analysis control M unit 2.

Note that the present invention can be modified in various ways and is not limited to the above embodiments. For example, we have shown an example of a configuration consisting of an analysis control section, output control section, drawing control section, length measurement section, angle measurement section, and four arithmetic calculation sections as means for processing input data, but reinforcing bar processing with these configurations It may be modified as appropriate depending on the contents of the drawing. In addition, programs that recognize coordinate value areas and programs that identify key information and perform processing corresponding to each key information can be created according to the contents of the menu sheet, so they can be stored in replaceable memory such as ROM. However, it may be possible to replace the menu sheet as it is pasted, or a separate keyboard may be provided as the key input means instead of in the specific area of the coordinate input means.

〔Effect of the invention〕

As is clear from the above description, according to the present invention, a reinforcing bar machining diagram according to the original size can be automatically created by drawing expected reinforcing bar placement lines on a cross section of a predetermined scale model. Therefore, the time required to create reinforcing bar processing drawings can be significantly reduced. Therefore, the cost of creating reinforcing bar processing drawings can be significantly reduced. In addition, since the predicted placement lines of the reinforcing bars are drawn on the cross section of the model, there are fewer errors, and the reliability of the reinforcing bar machining drawings can be improved.

[Brief explanation of drawings]

Fig. 1 is a diagram showing the configuration of one embodiment of the reinforcing bar machining diagram creation system according to the present invention, Fig. 2 is a diagram for explaining the round cutting process of a model, and Fig. 3 is a diagram showing the reinforcing bar machining diagram from the round cut model. FIG. 3 is a diagram for explaining the flow of creation processing. ■...Input section, 2...Analysis processing section, 3...Output control 11 section, 4...Display section, 5...Drawing control 11 section,
6...Profter 17...Length measuring section, 8...Angle change measuring section, 9...Four arithmetic calculation section, 11...Model piece, 12...Paper, 13...Reinforcing bar Expected placement line, 14.
... Piece name, 15... Angle, 16... Length between nodes, 17... Cumulative length of reinforcing bars, 18... Shape of reinforcing bars.

Claims (5)

[Claims] (1) A method for creating a reinforcing bar drawing for a structure, in which reinforcing bar placement lines are written on a sheet that describes the outline of the structure, and coordinates of the reinforcing bar placement lines on the sheet are transferred to a reinforcing bar drawing creation device. A reinforcing bar processing drawing creation method characterized by inputting information and creating a reinforcing bar processing drawing. (2) The reinforcing bar machining drawing creation method according to claim 1, characterized in that the model of the structure is sliced, and a sheet is pressed against the cross section of the sliced piece to mark the outer shape of the structure. (3) The reinforcing bar machining drawing creation method according to claim 1, characterized in that coordinate values of each node of the reinforcing bar placement line are input. (4) A device that creates reinforcing bar processing drawings by writing reinforcing bar placement lines on a sheet that describes the external shape of a structure, where the sheet with reinforcing bar placement lines written on it is placed and the coordinates are calculated from the sheet. Input means for inputting the unit length and other key information, calculates the length and bending angle of the reinforcing bar from the input coordinate values and key information, and displays the reinforcing bar such as a table of reinforcing bar length and bending angle, and the shape of the reinforcing bar. 1. A reinforcing bar machining diagram creation device comprising: arithmetic processing means for creating machining diagram data; and an output means for outputting reinforcing bar machining diagram data. (5) The reinforcing bar machining diagram creation apparatus according to claim 4, wherein the reinforcing bar machining diagram creation apparatus slices a model of the structure and presses a sheet against the cross section of the sliced piece to mark the outer shape of the structure.