JP2021131579A - Reinforcing-bar length display system and reinforcing-bar length display program - Google Patents

Abstract

To provide a reinforcing-bar length display system and a reinforcing-bar length display program which can easily recognize a dimension of a reinforcing-bar group forming a reinforcing-bar line shape of a skeleton by a reinforcing-bar line shape unit.SOLUTION: A reinforcing-bar length display system and a reinforcing-bar length display program comprise: cutting size acquisition means which gathers cutting sizes of a reinforcing-bar group forming a reinforcing-bar line shape of a reinforcing-bar included in a skeleton; connection information creation means which edits cutting size connection information on the reinforcing-bar group forming the reinforcing-bar line shape when receiving the cutting size gathered by the cutting size acquisition means, and links the reinforcing-bar line shape to the cutting size connection information; and connection information display means which outputs the cutting size connection information linked to the reinforcing-bar line shape as summarizing display linked to a part of display of the reinforcing-bar line shape formed by the reinforcing-bar group. The summarizing display is display in which the cutting size of the reinforcing-bar group forming the reinforcing-bar line shape is collectively arranged according to arrangement of the reinforcing-bar group.SELECTED DRAWING: Figure 1

Description

The present invention relates to a reinforcing bar length display system and a reinforcing bar length display program for displaying a reinforcing bar length on a reinforcing bar diagram in a reinforcing bar design support system for editing a reinforcing bar arrangement image of a skeleton using a computer.

Today, a plurality of devices that support the bar arrangement design of the skeleton using a computer and programs that give the computer a function of supporting the bar arrangement of the skeleton are provided (see, for example, Patent Document 1 below), and the bar arrangement diagram is relatively easy. It is an era that can be created in.

Japanese Unexamined Patent Publication No. 5-061946

Reinforcing bar products are prepared according to the JIS standard of 3.5m to 12.0m (in 0.5m increments), and depending on the length of the reinforcing bar alignment that forms the skeleton, the reinforcing bar groups that make up the reinforcing bar alignment are connected via joints. The method of doing is adopted.
For the reinforcement design of the skeleton, a method is adopted in which a plan is first made on the desk and displayed on paper or a computer screen. At that time, the length dimension of each reinforcing bar constituting the reinforcing bar group is the center of each reinforcing bar. It is supposed to be displayed separately. (See Fig. 2 or Fig. 4 dotted line)

As a result, even though it is a reinforcing bar that constitutes one skeleton, if it is a bar arrangement diagram output on paper, it is necessary to move the line of sight every time it is necessary to check the dimensions, even if it is a computer screen. For example, there is a problem that the numbers must be scrolled according to a visually recognizable scale each time the dimensions need to be confirmed.
If it is merely convenient to reduce the movement of the line of sight, it is sufficient to display them collectively in a numerical table or the like, but that makes it difficult to identify which dimension is which reinforcing bar.

Also, in general, in areas where the density of reinforcing bars is high, there is not enough space to enter dimensions, and the size of the numerical value is reduced or a vacant space is searched for and entered, but such a situation is frequent. If this happens, the visual connection with the reinforcing bar having the dimension is weakened, and the visual connection with the reinforcing bar linear constituting the skeleton is also weakened, which makes it difficult to read the dimension with certainty.
Further, conventionally, since the dimensions of the reinforcing bars are individually linked as attributes of the reinforcing bars, it is easier to arrange the dimensions close to each reinforcing bar or manage each reinforcing bar. There is also an aspect that the readability of the reinforcing bar diagram and the visibility of the cut size are reduced.

On the other hand, in the drawing, the joint that connects the reinforcing bars is displayed as intervening in the connecting part of the reinforcing bar group that forms the reinforcing bar alignment. I have a similar problem.
In particular, when "overlapping" or "pressure welding" is adopted, it is necessary to confirm that the reinforcing bars are arranged in the conforming area according to the reinforcing bar calculation rule, so the reinforcing bars are arranged to contribute to the confirmation. It is an issue to improve the reading comprehension of the figure and the visibility of the type and arrangement of the joints.

The present invention has been made in view of the above circumstances, and is a reinforcing bar length display system capable of easily recognizing the dimensions of the reinforcing bar group forming the reinforcing bar alignment of the skeleton and the information of the joint connecting the reinforcing bar groups in the reinforcing bar linear unit. The purpose is to provide a reinforcing bar length display program.

The reinforcing bar length display system according to the present invention, which has been made to solve the above problems, has a cutting size acquisition means for collecting the cutting size of the reinforcing bar group forming the reinforcing bar alignment of the reinforcing bars contained in the skeleton, and the cutting size acquiring means. In addition to editing the cut size connection information of the reinforcing bar group that forms the reinforcing bar alignment in response to the cut size, the connection information creating means for associating the cutting size connection information with the reinforcing bar alignment and the reinforcing bar alignment are linked. The integrated display is provided with a connection information display means for outputting the cut size connection information as an aggregated display associated with a part of the reinforcing bar alignment formed by the reinforcing bar group, and the aggregated display outputs the cutting size of the reinforcing bar group forming the reinforcing bar alignment to the reinforcing bar group. It is characterized in that it is a collective arrangement following the arrangement of.

A cutting size acquisition means for collecting the cut size of the reinforcing bar group that forms the reinforcing bar alignment of the reinforcing bars contained in the skeleton, and a cutting size connection of the reinforcing bar group that receives the cutting size collected by the cutting size acquisition means and forms the reinforcing bar alignment. While editing the information, the cut size connection information and the number of reinforcing bar linears to be collectively displayed and the connection information creating means for associating the reinforcing bar alignments, and the cutting size connection information linked to the reinforcing bar alignments and collectively displayed. It is provided with a connection information display means for outputting the number of reinforcing bar alignments as an aggregated display associated with a part of the reinforcing bar alignments formed by the reinforcing bar group, and the aggregated display displays the cut size and collective display of the reinforcing bar groups forming the reinforcing bar alignment. It can be configured as a reinforcing bar length display system that outputs the number of linear reinforcing bars as a set arrangement subordinate to the arrangement of the reinforcing bar group.
As the aggregated display, the connection information display means outputs a series of character strings in which the cutting dimensions of the reinforcing bars constituting the reinforcing bar alignment are connected to the end portion of the reinforcing bar alignment along the skeleton axis or the reinforcing bar alignment. Features

It is determined whether or not the joint setting means for deriving the joint data consisting of the types and arrangements of the joints connecting the reinforcing bars forming the reinforcing bar alignment and the joints arranged based on the joint data are arranged according to the rules. The connection information creating means can be configured as a reinforcing bar length display system including joint inspection means and performing a process of reflecting the determination result in a separator between cuts in the aggregated display.

The reinforcing bar length display program according to the present invention, which has been made to solve the above problems, has a cutting size acquisition means for collecting the cutting size of the reinforcing bar group forming the reinforcing bar alignment of the reinforcing bars contained in the skeleton, and the cutting size acquisition. In addition to editing the cut size connection information of the reinforcing bar group that forms the reinforcing bar alignment by receiving the cutting size collected by the means, the connection information creating means for linking the cutting size connection information and the reinforcing bar alignment, and the string to the reinforcing bar alignment. It is provided with a connection information display means that outputs the attached cutting size connection information as an aggregated display linked with a part of the reinforcing bar alignment formed by the reinforcing bar group, and displays the aggregated display as the cutting size of the reinforcing bar group forming the reinforcing bar alignment. It is characterized in that it functions as a reinforcing bar length display system that outputs as a collective arrangement following the arrangement of the reinforcing bar group.

A cutting size acquisition means for collecting the cut size of the reinforcing bar group forming the reinforcing bar alignment of the reinforcing bar contained in the skeleton, and a reinforcing bar group forming the reinforcing bar alignment by receiving the cutting size collected by the cutting size acquisition means. While editing the cut size connection information, the cut size connection information and the connection information creating means for associating the number of the reinforcing bar linears displayed collectively with the reinforcing bar alignment, and the cut size connection information and the batch linked to the reinforcing bar alignments. It is provided with a connection information display means for outputting the number of displayed reinforcing bar alignments as an aggregated display associated with a part of the reinforcing bar alignments formed by the reinforcing bar group, and the aggregated display is the cutting size of the reinforcing bar group forming the reinforcing bar alignment and the cutting size of the reinforcing bar group. It can be configured as a reinforcing bar length display program that functions as a reinforcing bar length display system that outputs the number of reinforcing bar linears displayed collectively as a collective arrangement following the arrangement of the reinforcing bar group.
Reinforcing bar length that causes the connection information display means to output a series of character strings in which the cutting dimensions of the reinforcing bars constituting the reinforcing bar alignment are connected to the end of the reinforcing bar alignment as the aggregated display along the skeleton axis or the reinforcing bar alignment. It can be configured to function as a display system.

Whether or not the joint setting means for guiding the joint data consisting of the types and arrangements of the joints connecting the reinforcing bars forming the reinforcing bar alignment to the computer and the joints arranged based on the joint data are arranged according to the rules. The reinforcing bar length according to any one of the above, wherein the connecting information creating means functions as a reinforcing bar length display system that performs a process of reflecting the determination result in a separator between cuts in the aggregated display. It can also be configured as a display program.

According to the reinforcing bar length display system and the reinforcing bar length display program according to the present invention, the reinforcing bar lengths constituting one reinforcing bar alignment are collected and displayed without interruption in a horizontal row from the cutting size connection information associated with the reinforcing bar alignment. Since the reinforcing bar length character string (aggregated display) is created, it is possible to confirm the arrangement and composition of the reinforcing bar groups constituting the reinforcing bar alignment with less movement of the line of sight from the display position of the reinforcing bar length.
In addition, since the cutting dimensions are not scattered and can be displayed side by side in an orderly manner, it is possible to grasp at a glance the entire reinforcing bar alignment that constitutes the skeleton and the reinforcing bar configuration, and to confirm the arrangement of the reinforcing bars after designing. It can be done easily.
Furthermore, since the arrangement of the cutting dimensions is secondary to the arrangement of the reinforcing bars, there is an advantage that it is easy for the viewer to understand the alignment of the reinforcing bars and the reinforcing bar (cutting size) group, and the correspondence between the reinforcing bars and the cutting dimensions. be.

It is explanatory drawing and a partially enlarged view which show an example of the image displayed by the reinforcing bar length display system and the reinforcing bar length display program by this invention. It is explanatory drawing and a partially enlarged view which shows an example of the image displayed by the conventional reinforcing bar length display system and the reinforcing bar length display program. It is explanatory drawing and a partially enlarged view which show an example of the image displayed by the reinforcing bar length display system and the reinforcing bar length display program by this invention. It is explanatory drawing and a partially enlarged view which shows an example of the image displayed by the conventional reinforcing bar length display system and the reinforcing bar length display program. It is a block diagram which shows an example of the functional structure of the reinforcing bar length display system and the reinforcing bar length display program by this invention. It is a block diagram which shows the structural example of the information used in the reinforcing bar length display system and the reinforcing bar length display program according to this invention. It is a flowchart which shows an example of the determination process of the character string display position performed by the reinforcing bar length display system and the reinforcing bar length display program according to this invention. It is explanatory drawing which shows an example of the determination process of the character string display position performed by the reinforcing bar length display system and the reinforcing bar length display program according to this invention. It is explanatory drawing which shows an example of the character string arrangement processing performed by the reinforcing bar length display system and the reinforcing bar length display program according to this invention. It is a flowchart which shows an example of the character string interference avoidance processing performed by the reinforcing bar length display system and the reinforcing bar length display program by this invention. It is explanatory drawing which shows an example of the character string arrangement processing performed by the reinforcing bar length display system and the reinforcing bar length display program according to this invention. It is explanatory drawing which shows an example of the reinforcing bar length character string creation processing performed by the reinforcing bar length display system and the reinforcing bar length display program by this invention. It is explanatory drawing which shows an example of the summary data creation processing performed by the reinforcing bar length display system and the reinforcing bar length display program according to this invention. It is explanatory drawing which shows an example of the summary number detection processing performed by the reinforcing bar length display system and the reinforcing bar length display program according to this invention. It is explanatory drawing which shows an example of the summary linear detection process performed by the reinforcing bar length display system and the reinforcing bar length display program by this invention. It is explanatory drawing which shows an example of the display rearranging processing performed by the reinforcing bar length display system and the reinforcing bar length display program according to this invention. It is explanatory drawing explaining an example of the summary data creation processing performed by the reinforcing bar length display system and the reinforcing bar length display program according to this invention. It is explanatory drawing which shows the display example of the reinforcing bar alignment and the joint in the reinforcing bar length display system and the reinforcing bar length display program by this invention. It is explanatory drawing which shows an example of the conforming section of the joint position in a skeleton. According to the reinforcing bar length display system and the reinforcing bar length display program according to the present invention, (A): an explanatory diagram showing an example of a process of dividing a conforming section of a joint position in a skeleton into blocks, and (B): an explanation showing an example of a displayed image. It is a figure. It is explanatory drawing which shows an example of the image displayed by the reinforcing bar length display system and the reinforcing bar length display program according to this invention. It is a flowchart explaining an example of the separator color determination process performed by the reinforcing bar length display system and the reinforcing bar length display program according to this invention.

Hereinafter, embodiments of the reinforcing bar length display system and the reinforcing bar length display program according to the present invention will be described in detail with reference to the drawings.
FIG. 5 is a block diagram showing a functional configuration of a reinforcing bar design support device including a reinforcing bar length display system according to an embodiment of the present invention.

This bar arrangement design support device is designed to create design skeleton data consisting of an input means in which an input operation is performed in accordance with the design specifications and a cross section list of the skeleton and axis position data based on the input information obtained from the input means. Based on the skeleton data creation means, the design skeleton information storage unit that stores the design skeleton data, the design skeleton data, and the reinforcing bar calculation rules, the reinforcing bars of the reinforcing bars to be arranged in the skeleton and the reinforcing bars forming the reinforcing bar alignment. Reinforcement calculation means for creating reinforcement data such as attributes, reinforcement cover, fixing length, hook claw length, bending R portion, etc., reinforcement storage unit for storing the reinforcement data, and the reinforcement data from the design skeleton data. In addition, a reinforcing bar calculation rule storage unit that stores the reinforcing bar calculation rule for deriving joint data such as the arrangement and type of joints used for connecting the reinforcing bars constituting the reinforcing bar alignment, and three-dimensional skeleton skin data from the design skeleton data. The skeleton skin calculation means for creating, the reinforcement skin calculation means for creating three-dimensional reinforcement skin data from the reinforcement data, the graphic data (skeleton skin data and the reinforcement) derived by the skeleton skin calculation means and the reinforcement skin calculation means. A graphic data storage unit that stores skin data, etc.) in a predetermined file format, a data search means for searching information specified from each storage unit, and the graphic data searched by the data search means are imaged. It is provided with an image editing means for outputting.

This bar arrangement design support device functions as the bar arrangement design support device by installing the bar arrangement design support program in the computer system, and arranges the various functional means and each storage unit in a plurality of computers on the network. It is also possible to deploy it as a distributed object type that operates in cooperation.

In this example, the reinforcing bar design support device is provided with a reinforcing bar length display system.
The reinforcing bar length display system forms a reinforcing bar alignment of the skeleton based on a reinforcing bar calculation rule from the reinforcing bar detection means and a reinforcing bar detecting means for acquiring the reinforcing bar alignment included in the skeleton from the reinforcing bar data output by the reinforcing bar calculation means. The cutting size acquisition means for calculating the cutting size of the reinforcing bar group and the cutting size connection information of the reinforcing bar group forming the reinforcing bar alignment by receiving the cutting size calculated by the cutting size acquisition means are edited and included in the skeleton. A part of the display of the reinforcing bar alignment in which the reinforcing bar group forms the cutting dimension connecting information linked to the reinforcing bar alignment and the connection information creating means for associating the cutting dimension connecting information as the attribute of the reinforcing bar alignment of the reinforcing bar (tip). It is provided with a concatenated information display means for outputting as an aggregated display linked with.

Here, when the series of reinforcing bars is divided into a group of reinforcing bars in which a plurality of reinforcing bars are connected via joints, the cutting dimensions include the end points of each reinforcing bar included in the reinforcing bar group, each joint, and the like. It is the dimension of each line segment sandwiched between the connecting points to be formed, including the anchor portion and the hook.
The cutting dimension acquisition means is a position where the joint is interposed in a series of reinforcing bars linearly and the joint thereof from the reinforcing bar alignment of the reinforcing bar data and the fixing length, hook claw length, bending R portion, etc. of the reinforcing bars included in the reinforcing bar alignment by the joint setting means. A unit dimension detection process is performed in which the dimensions (cutting dimensions) of the reinforcing bars belonging to the reinforcing bar alignment are sequentially derived from the starting point of the reinforcing bar alignment by the joint setting process for setting the type of the reinforcing bar and the dimension detecting means.
In the unit dimension detection process, for example, if the total length of the reinforcing bar linear is 13 m, following the linear ID, the total length of the reinforcing bar linear 13000 is divided into three by 4000, and the remainder 1000 is added at the end to add a series of dimension data "ID". , 4000,4000,4000,1000 ”(cutting size connection information) is saved as a unit record, and a record group associated with the reinforcing bar linear data of each reinforcing bar linear is formed (see FIG. 6 (A)).

As one of the attributes of the reinforcing bar linear data, the cut size connection information may have a configuration in which the linear coordinates for specifying the alignment are followed and connected. The linear coordinates and the cut size connection information can be separated by, for example, interposing "TAB".
The cut size acquisition means extracts one line segment (cut size) from the reinforcing bar data, and another line segment having an end point on the end point of the line segment, or the end point of the line segment of the reinforcing bar. It is also possible to adopt a unit dimension detection process that specifies the reinforcing bar alignment while searching for and specifying a line segment having an end point at a considerable distance within the range of the radius.
Reinforcing bar linear data including a series of dimensional data can also be read from a file written in another recording medium.

Next, the connection information creating means is a reinforcing bar length character string (reinforcing bars constituting one reinforcing bar alignment) in which the dimensions derived by the cutting dimension acquisition means are connected in order from the start point of the reinforcing bar alignment, following the linear ID. The lengths are collected and displayed in a horizontal row without interruption along with the cut-and-cut connection information. Hereinafter referred to as "character string".) For example, the character string creation process for creating "ID 4000-4000-4000-3000" (See FIG. 12 (A)).

Further, when the connected information creating means is included in the skeleton in a state where a plurality of reinforcing bar alignments of the same form run in parallel, and a part or all of them are shown in parallel in the drawing image, "D25". It is also possible to adopt a configuration in which the batch data creation process is performed as an aggregated display in which the cutting dimensions and the number of lines are collectively displayed, such as "4000-4000-4000-3000 x3" (see FIG. 13).

The summary data creation process is a process of extracting reinforcing bars to be collectively displayed by adding a number to the character string for the purpose of avoiding the congestion of displays due to overlapping and displaying the same information and for convenience of reading. And it is done by the summary data creation means.
At that time, the summary data creating means calculates the start distance, the end distance, the start anchor length and the end anchor length following the linear ID, and if there is a linear number attribute, obtains the number, and if not, obtains the number. Performs processing with the number (initial value) as one.
Then, the dimension data derived by the cutting dimension acquisition means is connected in order from the start point of the reinforcing bar alignment, for example, in the form of "linear ID, 180,5030,300,300,2500,4000,4000,2150, number". Reinforcing bar comparison data (α) m is saved (see FIG. 6 (B)), (a) the start point distance and the end point distance on the axis are the same, (b) the start anchor length and the end anchor length are the same, (C) Designation of the designated orientation of the reinforcing bar linear group (hereinafter referred to as "same linear group") that satisfies the three requirements (connection configuration) that the number of connections and the cutting dimensions are the same and they are connected in the same order. A process of detecting from the reinforcing bar linear group displayed in the drawing image of the formed layer is performed (see FIGS. 13 and 15).

According to the example of FIG. 17B, the start distance of the reinforcing bar linear (a) is P0 to SPA, the end distance is P0 to EPa, and the start distance of the reinforcing bar linear (b) is P0 to SPb. , The end distance is P0 to EPb.
The anchor length is the length of the bent portion provided at the end of the reinforcing bar, excluding the hook portion.
For example, the starting anchor length of the reinforcing bar linear (a) is the length of the bent portion, there is no starting anchor length of the reinforcing bar linear (b), and the ending anchor length is the length of the bent portion.

The summary data creation means determines whether the above (a), (b) and (c) are satisfied within a certain range as the summary data creation process ((β) group loop) (summary linear detection process: (Α) group loop), the summary data (β) n consisting only of the linear ID of the reinforcing bar linear satisfying the above (a), (b) and (c) is stored (FIGS. 6 (C), 13 to 13 to FIG. 15).
In this example, the same range of the distance is ± 50 mm, the anchor length, each connection length (cutting size), and the same range of the connection total length are ± 2.5 mm.

The connection information creating means extracts the linear ID recorded at the beginning of each summary data (β) n, and reinforces comparison data of the reinforcing bar linear (hereinafter referred to as “specific linear”) associated with the linear ID. (Α) m is adopted as the reinforcing bar ID and the dimension data to be described in the character string (aggregated display), hyphens are inserted between each dimension of the dimension data, and the summary data (β) is further used as the summary number detection process. A character string creation process is performed in which the number m is derived from the total number item of n and added after the "x" at the end (see FIG. 12 (A)).
Further, in order to improve the visibility of the drawing image, the connection information creating means hides the reinforcing bar linear character string (aggregated display) related to the reinforcing bar ID other than the specific linear as the display rearranging process (FIG. 16). reference).

The summary data (β) n is created by the summary data creation means for each skeleton and a reinforcing bar linear connection configuration included in each skeleton according to a given condition such as a designated orientation.
At that time, the summary data creation means classifies the same reinforcing bar alignment included in the skeleton into a plurality of layers and performs a summary data creation process.

The summary data creating means has a direction to be cut as a drawing and a plurality of layers orthogonal to the direction (hereinafter referred to as "cut layer"), the reinforcing bar linear and the main body portion of the reinforcing bar included in the skeleton excluding the anchor length. The linear extraction process that guides the cut size of the reinforcing bar that forms the reinforcing bar, the depth detection process that derives the distance (depth) from the outer surface in the good direction of each node of the line segment connected to form the reinforcing bar alignment, and the order of shallower depth. The reinforcing bar arrangement layer setting process for setting the layer is performed, and the number m of the reinforcing bar alignments to be summarized among the reinforcing bar alignments existing inside the cut-out layer is detected.
When the drawing target is a beam, for example, when the beam is viewed from directly above, the summary data creating means can set a cutting layer on which an upper bar, a suspended bar, or a lower bar is drawn.
In this example, the linear extraction process is performed by the bar arrangement detecting means and the cutting size acquiring means.
In addition, the suspended muscles may be arranged in layers over a plurality of layers.

The contributions of the above summary data creation process are as follows, for example.
That is, the joints included in the reinforcing bar linear include "overlap", "pressure welding" and "machine", and when "overlap" or "pressure welding" is adopted, the joint is placed in the applicable range based on the reinforcing bar calculation rules and the like. It is required to arrange.
For example, it is required that adjacent joints are arranged so as to be offset by 500 mm or more.
As an example, when the upper streaks are two identical alignments, use different dimensions of 5000 mm and 5500 mm as the cutting dimensions located at the beginning of each, and use the same dimensions as the cutting dimensions located in the middle. By using 3500 mm and 3000 mm, respectively, as the cutting dimensions located at the end, it is required that the total length is the same and the positions of the joints of both are deviated by 500 mm.
Even if dozens of rebar alignments using "overlap" or "pressure welding" joints are arranged adjacent to each other, it is sufficient to display the two types of connection configurations together, and good visibility is achieved. You can get sex.

The image editing means separates the skeleton skin data, the reinforcing bar skin data, the reinforcing bar data, etc. searched by the data search means in layer units of the upper bar, the suspended bar, or the lower bar, and in a designated direction. Create a drawing image with hidden line processing and output it with necessary explanations.
The images of each layer can be arbitrarily selected and displayed individually by the user's selection operation, or the images of all layers can be arranged and displayed so as not to overlap each other.
Further, the connection information display means is a part of the display of the reinforcing bar linearity formed by the reinforcing bar group on the drawing image, in which the series of aggregated displays linked to the reinforcing bar linearity of the reinforcing bar displayed in the image is formed. And output in an information aggregated display that gives positional unity or unity via a leader line.

The connection information display means is based on the reinforcing bar skin data, the skeleton skin data, and the reinforcing bar data, and the skeleton axis passing through the starting point P of the reinforcing bar alignment (in the case of a beam, the alignment passing through the center of the beam or an element constituting the alignment). The foot AP of (linear) is obtained, and the intersection KP with the skeleton line (outer line formed by the skin of the skeleton) in the direction perpendicular to the axis V is set as the starting point of the display position of the character string (see FIGS. 7 and 8).
With this, the starting point of the reinforcing bar linear in which the character string represents the dimension can be known, and the unity between the reinforcing bar linear and the aggregated display is given (FIG. 8).
When the intersection KP detects interference (fog, etc.) between the character string and the skeleton line from the reinforcing bar data in order to avoid overlapping of the character string and the skeleton line, the connection information display means further , The center line (character center line) of the character string is moved in the V direction by the character height by the skeleton interference eliminating means (see FIG. 9).

In the connection information display means, the intersection KP is used as the start point of the character string, and a line segment parallel to the linear or reinforced linear line constituting the skeleton axis is used as the center line of the character string created by the connection information creating means. Each character constituting the character string to be displayed is arranged along the center line of the character string so that the axis can correspond to a curved line (see FIGS. 1, 3, 8 and 9).
When a plurality of the character strings share a display position, the plurality of character strings overlap in one place. Therefore, the connection information display means is used by the character string interference eliminating means for each character string having the same start point. In addition, a process of shifting the center line of the character string in the V direction in units of the character height of the character string is performed (see FIG. 10).

The connection information display means provides a base point SP of a character string on the character center line, and displays characters and separators (hyphens) connecting the cut dimensions according to the direction (character center line direction) SV in which the center of the character is lined up (character center line direction). (See FIG. 11).
For the character string, the center of the first character string (first linear dimension) is placed at the base point SP, and the separator is displayed centering on the new base point SP moved by the first character string in the direction SV at the base point SP. ..

The above is repeated by the number of cutting dimensions to complete a character string in which the cutting dimensions of the reinforcing bar group forming the reinforcing bar alignment are collectively arranged according to the arrangement of the reinforcing bar group. (See FIGS. 1 and 3)
According to the above processing, even if the skeleton line and the center line of the character string are curved lines, a character string that follows them can be displayed.

In this example, information about the joint is included in the aggregate display in addition to the cut size connection information.
In this example, based on the above-mentioned reinforcing bar calculation rule, a joint suitable for connecting the reinforcing bars constituting each reinforcing bar alignment is derived, and the pressure welding and the mechanical joint or the lap joint are represented by the symbol shape (circle, columnar, etc.) and color. It distinguishes and gives a function of joint information to a separator such as a hyphen intervening between the dimensions of the character string, and distinguishes the difference and suitability of the joint by color and thickness (see FIG. 18).

As a result, in the drawings printed on paper, not only can the arrangement of the cutting dimensions that make up the reinforcing bar alignment be confirmed at a glance, but also the joints used to connect the cutting dimensions can be recognized at a glance, and construction and confirmation can be performed. be able to.
On the other hand, in the drawing on the screen, the joint symbol is displayed at the connecting position of the reinforced linear cutting dimension, and the design is performed by interposing a separator that can distinguish the type and arrangement of the joint between the dimensions of the character string. The operator can easily know whether the value is met.

In order to satisfy the above request, this example is a joint inspection means for determining whether or not the arrangement of the joint guided by the joint setting process of the cut size acquisition means is arranged in the conforming section according to the type of the joint. To be equipped.

Hereinafter, the main processing of the joint inspection means will be described with reference to the drawings.
In general, the conforming section of the joint arrangement is indicated by the design value as a section between a quarter of both ends of the beam span and an intermediate portion sandwiched between the both ends (see FIG. 19).
In the case of the process of calculating the conforming section of the upper bar range from the beam cross section and the beam shaft of FIG. 19, first, for all the beam spans, the upper half of the beam cross section is cut and the matching section of the beam shaft is cut. Then, a block of the conforming section (hereinafter referred to as “adapted block”) is set (see FIG. 20).

Next, the joint inspection means determines whether or not the connection position P to which the selected joint is attached is in the conforming block, and if it is in the conforming block, it is "passed", and it must be in the conforming block. If so, "Fail" is output.
In addition, even if it is in the conforming block, if it is close to the pass / fail boundary surface within a certain distance, "Caution" is output.

The output of the joint inspection means is displayed by the joint display means as a predetermined symbol symbol at the connecting position of the reinforcing bar linear in the drawing.
The joint display means derives the type and arrangement of the joint based on the joint data derived by the joint setting process by the cut size acquisition means. indicate.
At that time, the diameter of the sphere is, for example, about 1.2 to 3 times the thickness of the reinforcing bar linear.
On the other hand, the diameter of the base of the cylinder is the same as that of the sphere, and the height (length) thereof is a length predetermined according to the type of the mechanical joint or the lap joint.
The center line of the cylinder is a section from "start distance point = P point-joint length / 2" to "end distance point = P point + joint length / 2" of the reinforcing bar alignment (see FIG. 18 (C)).

Further, the joint display means takes in the determination result of the joint inspection means, and performs a process of including the determination result in the symbol of the joint in the display of the reinforcing bar linear.
At that time, the output of the joint inspection means is displayed as a symbol or a difference in color displayed by the joint display means. For example, if the sphere and the cylinder are adopted, the color is displayed as "pass" in green. "Caution" is displayed in yellow, and "Fail" is displayed in red.

Further, the output of the joint inspection means is displayed by the connection information creating means as a difference in a separator such as a hyphen connecting the gaps of the character string.
When creating the character string, the connection information creating means detects the position of each joint together with the cutting size configuration of the reinforcing bar linear based on the cutting size connection information, and the above-mentioned "pass" from the positional relationship of the joints in each block. , "Caution" or "Fail", and the determination result is included in the aggregated display (see FIG. 11 (B) or FIG. 12 (B)).

That is, when the connection information creating means creates a reinforcing bar length character string in which the dimensions derived by the cutting dimension acquisition means are connected in order from the start point of the reinforcing bar alignment following the linear ID, for example, a hyphen divided into two. Each dimension is connected with, and the colors of the first half and the second half of each hyphen are expressed as follows, for example.
If the position of the joint is "failed" in both the first half and the second half, it is displayed as "first half / second half = red / red" of the hyphen, and if both the first half and the second half are "passed", it is displayed in "first half".・ If "second half = green / green", both first half / second half are "caution", then "first half / second half = yellow / yellow", and if only the first half or second half is "failed", then "first half / second half =""Red / ○ or ○ / Red", "Caution" only in the first half or the second half, "First half / Second half = Yellow / ○ or ○ / Yellow", and "Pass" in the first half or the second half, "Pass" Create a reinforcing bar length character string in which the hyphens are color-coded with "first half / second half = green / 〇 or 〇 / green" (see FIG. 22).
The reinforcing bar length character string created as described above is output by the connection information display means.

In this way, by displaying differently according to the type and arrangement of the joint, it is possible to move a small amount of line of sight to see how the position of the joint sandwiched between the two cuts has a positional relationship with respect to the applicable range. Can be easily confirmed with.
It is also recognizable that the cut size adjacent to the "Caution" symbol is at risk of being out of range if the length from the boundary is reduced, and conversely closer to the center of the range if it is increased. It is convenient for the operator because it can be done.

P start point, V direction, AP foot, KP intersection,
SP base point, SV direction,

Claims (8)

A cutting size acquisition means for collecting the cutting size of the reinforcing bar group that forms the reinforcing bar alignment of the reinforcing bars contained in the skeleton, and
The cutting size connection information of the reinforcing bar group forming the reinforcing bar alignment in response to the cutting size collected by the cutting size acquisition means is edited, and the connection information creating means for associating the cutting size connection information with the reinforcing bar alignment.
It is provided with a connection information display means for outputting the cut size connection information linked to the reinforcing bar linear as an aggregated display linked to a part of the reinforcing bar linear display formed by the reinforcing bar group.
The aggregated display is a reinforcing bar length display system characterized in that the cutting dimensions of the reinforcing bar groups forming the reinforcing bar alignment are collectively arranged in accordance with the arrangement of the reinforcing bar groups. A cutting size acquisition means for collecting the cutting size of the reinforcing bar group that forms the reinforcing bar alignment of the reinforcing bars contained in the skeleton, and
In addition to editing the cutting size connection information of the reinforcing bar group that forms the reinforcing bar alignment in response to the cutting size collected by the cutting size acquisition means, the cut size connection information, the number of reinforcing bar alignments displayed collectively, and the reinforcing bar alignment are displayed. A means of creating linked information and
It is provided with a connection information display means that outputs the cut size connection information linked to the reinforcing bar alignment and the number of the reinforcing bar alignments to be collectively displayed as an aggregated display linked to a part of the reinforcing bar alignment display formed by the reinforcing bar group.
The aggregated display is a reinforcing bar length display system characterized in that the cut size of the reinforcing bar group forming the reinforcing bar alignment and the number of the reinforcing bar alignments collectively displayed are collectively arranged in accordance with the arrangement of the reinforcing bar group. As the aggregated display, the connection information display means outputs a series of character strings in which the cutting dimensions of the reinforcing bars constituting the reinforcing bar alignment are connected to the end portion of the reinforcing bar alignment along the skeleton axis or the reinforcing bar alignment. The reinforcing bar length display system according to any one of claims 1 and 2, wherein the reinforcing bar length is displayed. A joint setting means for deriving joint data consisting of the types and arrangements of joints connecting the reinforcing bar groups forming the reinforcing bar alignment, and
A joint inspection means for determining whether or not a joint arranged based on the joint data is arranged in accordance with the rules is provided.
The reinforcing bar length display system according to any one of claims 1 to 3, wherein the connection information creating means performs a process of reflecting the determination result on the separator between the cuts in the aggregated display. On the computer
A cutting size acquisition means for collecting the cutting size of the reinforcing bar group that forms the reinforcing bar alignment of the reinforcing bars contained in the skeleton, and
The cutting size connection information of the reinforcing bar group forming the reinforcing bar alignment in response to the cutting size collected by the cutting size acquisition means is edited, and the connection information creating means for associating the cutting size connection information with the reinforcing bar alignment.
It is provided with a connection information display means for outputting the cut size connection information linked to the reinforcing bar linear as an aggregated display linked to a part of the reinforcing bar linear display formed by the reinforcing bar group.
A reinforcing bar length display program characterized in that the aggregated display functions as a reinforcing bar length display system that outputs the cut dimensions of the reinforcing bar groups forming the reinforcing bar alignment as a set arrangement subordinate to the arrangement of the reinforcing bar groups. On the computer
A cutting size acquisition means for collecting the cutting size of the reinforcing bar group that forms the reinforcing bar alignment of the reinforcing bars contained in the skeleton, and
In addition to editing the cutting size connection information of the reinforcing bar group that forms the reinforcing bar alignment in response to the cutting size collected by the cutting size acquisition means, the cut size connection information, the number of reinforcing bar alignments displayed collectively, and the reinforcing bar alignment are displayed. A means of creating linked information and
It is provided with a connection information display means that outputs the cut size connection information linked to the reinforcing bar alignment and the number of the reinforcing bar alignments to be collectively displayed as an aggregated display linked to a part of the reinforcing bar alignment display formed by the reinforcing bar group.
To make the aggregated display function as a reinforcing bar length display system that outputs the cut size of the reinforcing bar group forming the reinforcing bar alignment and the number of the reinforcing bar alignments displayed collectively as a set arrangement subordinate to the arrangement of the reinforcing bar group. Reinforcing bar length display program to be characterized. As the aggregated display, the connection information display means outputs a series of character strings in which the cutting dimensions of the reinforcing bars constituting the reinforcing bar alignment are connected to the end portion of the reinforcing bar alignment along the skeleton axis or the reinforcing bar alignment. The reinforcing bar length display program according to any one of claims 5 or 6, which is characterized. On the computer
A joint setting means for deriving joint data consisting of the types and arrangements of joints connecting the reinforcing bar groups forming the reinforcing bar alignment, and
A joint inspection means for determining whether or not a joint arranged based on the joint data is arranged in accordance with the rules is provided.
The connection information creating means according to any one of claims 5 to 7, wherein the connection information creating means functions as a reinforcing bar length display system that performs a process of reflecting the determination result in a separator between cuts in the aggregated display. Reinforcing bar length display program.

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