JP2006214472A - Editing method for working drawing of piping support, drawing editing system, and editing support device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To further accurately edit a working drawing for piping supports corresponding to an actual state of a working site. <P>SOLUTION: A processing part 13 of a server 10 reads out a planned position corresponding to a hardware number d2, which is read by a reader/writer 50 from an IC tag 80a mounted to embedded hardware, from a hardware list 122 and compares the read planned position with a position, which is measured by a position measuring instrument 60, of the embedded hardware after placing concrete. The processing part 13 calculates a displacement amount showing a degree of displacement between both of the embedded hardware and selects a reinforcing material used as a countermeasure against the displacement amount on the basis of reinforcing material selecting conditions 125. The processing part 13 generates editing conditions, which are for editing a working drawing f1 for piping supports, into a working drawing f2 for piping supports used for constructing the piping supports with the selected reinforcing material and makes a CAD device 30 edit the working drawing f2 for piping supports after transmitting the editing conditions to the CAD device 30. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a drawing editing system for editing a piping support construction drawing using an IC tag (Radio Frequency Identification, RFID).

Conventionally, the supply pipe is managed by reading information on the supply pipe from an IC tag attached to the supply pipe buried in the ground (see, for example, Patent Document 1).
JP-A-8-305744 (paragraph 0006)

However, in the method described in Patent Document 1, although the supply pipe is managed using the IC tag, it has not been used for editing the construction drawing of the piping support. Piping support needs to be installed when constructing a plant, etc., and when installing a piping support, the installer should attach it with an embedded hardware while checking the contents of the construction drawing on site. Become. In the construction drawing, the type and installation position of the embedded hardware are described in detail.
However, at the time of construction, for example, the placement position of the embedded metal may not be as described in the construction drawing due to the position adjustment with the structure of the building or other equipment.
Therefore, in such a case, in order to smoothly perform the piping support construction, the piping support construction drawing had to be edited more accurately according to the actual situation at the site.

  The present invention has been made under such circumstances, and an object thereof is to edit the construction drawing of the piping support more accurately according to the actual situation at the site.

  In order to solve the above problems, the present invention provides a drawing editing apparatus for editing a first piping support construction drawing used for constructing a piping support at a planned position with an embedded metal fitting, and editing the first piping support construction drawing. A piping support construction drawing editing method in a computer system comprising an editing support device for supporting the position, wherein the editing support device measures the position after placing the embedded hardware described in the first piping support construction drawing. The position after placement of the embedded metal measured by the instrument and the hardware identification information of the embedded hardware read by the reader of the IC tag attached to the embedded metal are received in association with each other. A plan position of the embedded hardware corresponding to the received hardware identification information is read from the storage unit, and the read planned position of the embedded hardware and the received post-placement A step of calculating a displacement, a step of calculating a displacement amount indicating a degree of displacement between both embedded metal fittings by the comparison, and a reinforcement selection for selecting a reinforcement used as a countermeasure against the displacement A condition is read from the storage unit, and based on the reinforcing material selection condition, a step of selecting a reinforcing material that matches the calculated displacement amount, the embedded metal post-placement, and the selected reinforcing material Generating an editing condition for editing the first piping support construction diagram in a second piping support construction diagram used for constructing the piping support, and transmitting the generated editing condition to the drawing editing apparatus; And execute. In addition, the drawing editing device receives the editing conditions from the editing support device, reads the first piping support construction drawing related to the received editing conditions from the storage unit, based on the editing conditions, The step of editing the first piping support construction drawing into the second piping support construction drawing and the step of outputting the edited second piping support construction drawing to the outside are executed.

  ADVANTAGE OF THE INVENTION According to this invention, the construction drawing of piping support can be edited more correctly according to the actual condition of the field.

FIG. 1 is a block diagram showing the overall configuration of a drawing editing system according to an embodiment of the present invention. Here, a case where a construction drawing of a plant piping support (hereinafter referred to as “piping support construction drawing”) installed at the time of building construction such as a power plant is described as an example.
In FIG. 1, the drawing editing system includes a server (editing support device) 10, a CAD device (drawing editing device) 30, an administrator terminal 40, a reader / writer (reader) 50, and a position measuring device 60. The server 10 is connected to a CAD device 30 and a manager terminal 40 via a LAN (Local Area Network) 20. The server 10, the CAD device 30, and the manager terminal 40 are all installed in a management room, for example.

On the other hand, the reader / writer 50 and the position measuring device 60 are used by the installer on site. The reader / writer 50 is for reading information recorded in the IC tags 70a and 80a in a non-contact manner or writing information in the IC tags 70a and 80a in a non-contact manner. The IC tags 70a and 80a are non-contact type IC chips with built-in antennas. Note that the reader / writer 50 is prepared to be portable.
The IC tag 70a is attached to each piping support 70 described later, and the IC tag 80a is also attached to each embedded metal 80 described later. A support number (support identification information) d1 for uniquely identifying each piping support 70 is recorded on the IC tag 70a, and each embedded hardware 80 is also uniquely identified on the IC tag 80a. A hardware number (identification information for hardware) d2 for specifying is recorded.

  The position measuring device 60 is, for example, a known non-contact three-dimensional measuring device using a laser or a CCD camera, and after placing the embedded metal 80 to be described later based on each point of the obtained measurement point group. The position d26 and the actual dimension of the pipe support 70 to be described later are measured. Hereinafter, the server 10, the CAD device 30, and the administrator terminal 40 will be described in detail.

  First, the CAD device 30 will be described in detail. The CAD device 30 is for editing piping support construction drawings f1 and f2 to be described later. Specifically, the input unit 31, the display unit 32, the communication unit 33, the storage unit 34, and a processing unit for controlling them. 35. The input unit 31 is an input device such as a keyboard and a mouse, and the display unit 32 is a display device such as a computer display. The communication unit 33 is a communication interface such as a LAN board, and the storage unit 34 is a storage device such as a memory or a hard disk. The processing unit 35 is a processing device such as a CPU.

The storage unit 34 stores piping support construction drawings f1 and f2. The piping support construction drawing (first piping support construction drawing) f1 was originally planned to realize the construction of the piping support 70 to be described later. Construction will be performed.
The piping support construction diagram (second piping support construction diagram) f2 is obtained by editing the piping support construction diagram f1 according to the progress of construction.

Here, first, an example of the piping support construction drawing f1 described above is shown in FIG. According to FIG. 2, the piping support 70 fixed to the wall surface by the embedded metal 80 is described separately from the side view and the front view. The front view represents a view of the pipe support 70 as viewed from the front of the wall, that is, the X1-X1 arrow view described in the side view.
Further, in this piping support construction drawing f1, a support number d1, an arrangement number, and a position number are described, and further, a support dimension d13 indicating a design dimension of the pipe support 70 is described. The support number d1 is the same as the support number d1 recorded on the IC tag 70a shown in FIG. As a result, the correspondence between the piping support 70 described in the piping support construction diagram f1 and the piping support 70 attached to the IC tag 70a becomes a one-to-one relationship, and both the piping supports 70 can be associated with each other. Become.
As the support dimension d13, each dimension of “A” and “B” described in the side view and “C” described in the front view is described. The breakdown of the support dimension d13 may be changed.

Subsequently, an example of the above-described piping support construction drawing f2 is shown in FIG. According to FIG. 3, the position of the embedded metal 80 located at the center of the embedded metal 80 shown in FIG. 2 is shifted downward, and the gap between the embedded metal 80 and the pipe support 70 that is shifted downward. A reinforcing member 81 as a plate is interposed in the plate.
That is, the feature of the piping support construction drawing f2 is that the piping support construction drawing f1 is edited to reflect the position of the embedded metal fitting 80 actually placed.
For example, at the site, the builder attempts to place the embedded metal piece 80 at the position as described based on the piping support construction drawing f1 shown in FIG. There is a case where the position is changed and placed. In such a case, the piping support construction diagram f1 is re-created as described in the position of the actually placed embedding 80, and this piping support is shown as a construction drawing of the piping support 70 thereafter. It is construction drawing f2. In addition, the value corresponding to this editing content is described in the support dimension d13 of FIG.

As described above, the installer first installs the embedded metal fitting 80 based on the piping support construction drawing f1, and the position is set based on the layout shown in FIG. The layout shown in FIG. 4 shows a placement position of the embedded metal 80 in a certain construction work area.
Specifically, spans composed of “R5”-“R6” streets and “RC”-“RD” streets are described, and the placement positions of the embedded metal piece 80 are plotted with square marks on the spans. . The plot also includes a hardware number d2 such as “1”. The hardware number d2 is the same as the hardware number d2 recorded on the IC tag 80a shown in FIG. As a result, the correspondence between the embedded metal 80 shown in the piping support construction diagram f1 shown in FIG. 2 and the embedded metal 80 attached to the IC tag 80a shown in FIG. 1 becomes a one-to-one relationship. , It becomes possible to associate both the embedded metal pieces 80.

In this layout diagram, the planned position d25, the type d21, and the request source d3 are described for each hardware number d2.
The planned position d25 includes “X”, “Y”, and “Z”, which are based on the core. Specifically, “X” represents a position in the R5-R6 direction, “Y” represents a position in the RC-RD direction, and “Z” represents a position in the height direction. For example, “X” describes the distance from the R5 street, “Y” describes the distance from the RC street, and “Z” describes the elevation (height from the reference).
The type d21 includes, for example, the shape and size, and the request source d3 includes, for example, a plant manufacturer. Thereby, the builder can install the individual embedded metal objects 80 at the planned position d25.

  Returning to FIG. 1, the server 10 will be described in detail. The server 10 is for supporting the editing of the above-described piping support construction drawings f1 and f2, and specifically includes a communication unit 11, a storage unit 12, and a processing unit 13 for controlling them. The processing unit 13 is a processing device such as a CPU. The communication unit 11 is for realizing communication among the reader / writer 50, the CAD device 30, and the manager terminal 40. For example, a communication interface such as a wireless board or a LAN board corresponds to this.

The storage unit 12 is a storage device such as a memory or a hard disk. The storage unit 12 stores a hardware support-specific correspondence table 121, a piping support list 122, a hardware list 123, a positional deviation amount list 124, and a reinforcing material selection condition 125. Hereinafter, these will be described in detail in order.
In the hardware correspondence table 121 by piping support, as shown in FIG. 5, the correspondence between the support number d1 (see FIGS. 1, 2 and 3) and the hardware number d2 (see FIGS. 1 and 4). Relationships are stored. Thereby, it becomes possible to manage the combination pattern of the piping support 70 and the embedded metal piece 80 described in the piping support construction drawings f1 and f2.

  In the piping support list 122, as shown in FIG. 6, the support number d1 (see FIGS. 1, 2 and 3), the type d11, the restraining direction / load d12, the support dimension d13 (FIGS. 2 and 3). And the planned position d14 are associated with each other. The type d11 is for specifying the shape and size. The constraint direction / load d12 includes conditions such as a load in the vertical direction. Thereby, it becomes possible to manage the list of the piping supports 70 described in the piping support construction drawings f1 and f2 (see FIGS. 2 and 3).

  In the hardware list 123, as shown in FIG. 7, the above-mentioned hardware number d2 (see FIGS. 1 and 4), type d21 (see FIG. 4), allowable load d22, shape / dimension d23, stud dowel d24 and plan The position d25 (see FIG. 4) is associated with each other. Examples of the type d21 include the size of the plate and the number of stud gibbles. The stud dowel d24 means a rod-like leg welded to the plate.

  As shown in FIG. 8, the positional deviation amount list 124 includes the hardware number d2 (see FIGS. 1 and 4), the planned position d25 (see FIG. 4), the post-placement position d26 and the positional deviation amount d27. Are associated with each other. The post-placement position d26 here means a position where the embedded metal 80 described in the piping support construction drawing f1 is actually placed. The positional deviation amount d27 means the degree of positional deviation between the position d26 after placement and the planned position d25 (see FIG. 4).

  The reinforcing material selection condition 125 is a condition for selecting the reinforcing material 81 described in the piping support construction diagram f2. That is, it is a condition for selecting a reinforcing member 81 such as a plate used to reinforce the piping support 70 after the embedded metal 80 described in the piping support construction drawing f1 is placed. Specifically, this includes a combination of the pipe support 70 and the embedded metal fitting 80 that conforms to the positional deviation amount d27 shown in FIG. The term “conformity” here means that there is no problem by comprehensively evaluating performance such as strength.

  Returning to FIG. 1, the administrator terminal 40 is, for example, a personal computer, and includes an input device such as a mouse, a display device such as a computer display, a storage device such as a memory, and a processing device such as a CPU.

Next, the installer automatically edits the piping support construction diagram f2 (see FIG. 3) to reflect the construction results while referring to the piping support construction diagram f1 (see FIG. 2) and the layout diagram (see FIG. 4). A processing procedure to be performed will be described.
FIG. 9 is a diagram showing a processing procedure for editing a piping support construction drawing using the drawing editing system. Here, description will be made on the premise that the construction person manufactures the embedded metal piece 80 and places it at a predetermined position by site adjustment or the like. Further, the description will be made on the assumption that the installer writes the corresponding hardware number d2 in the IC tag 80a of the embedded hardware 80 by using the reader / writer 50 at the time of placing. In addition to the hardware number d2, a type d21 or the like may be written in the IC tag 80a.

In this case, first, the position measuring device 60 sets the position of the embedded metal 80 placed by the installer, that is, the position d26 after the embedded metal 80 is placed, by the operation of the position measuring device 60 by the installer. Measure and send to the reader / writer 50 (S1). This transmission is performed, for example, after the installer has connected the position measuring device 60 and the reader / writer 50 with a dedicated cable.
Subsequently, the installer uses the reader / writer 50 to read the hardware number d2 recorded on the IC tag 80a attached to the embedded hardware 80. Then, by the operation of the reader / writer 50 by the installer, the reader / writer 50 transmits the position d26 after placement transmitted from the position measuring device 60 to the server 10 for each hardware number d2 (S2). In this way, the position of the embedded metal piece 80 placed by the installer with reference to the piping support construction drawing f1 is transmitted to the server 10 as the position d26 after placement.
In S2, the hardware number d2 of the embedded hardware 80 is transmitted, but the type d21 of the embedded hardware 80 may also be transmitted. In S2, the reader / writer 50 transmits the position d26 after placement measured by the position measuring device 60 to the server 10. For example, the position measuring device 60 places the position d26 after placement. May be transmitted directly to the server 10 in association with the hardware number d2.

Next, in response to transmission from the reader / writer 50, the processing unit 13 of the server 10 receives the position d26 after placement for each hardware number d2 (S3). Subsequently, the processing unit 13 reads the planned position d25 corresponding to the received hardware number d2 from the hardware list 123 (see FIG. 7) in the storage unit 12, and the post-placement position d26 received in S3 and the reading The planned position d25 is compared for each hardware number d2 (S4).
If the positions match as a result of the comparison (Yes in S5), the processing unit 13 transmits that fact to the reader / writer 50 (S6). Thereby, for example, the fact of the agreement is displayed on the display panel on the reader / writer 50, and the builder confirms that the embedded hardware 80 has been placed according to the planned position d25 of the piping support construction drawing f1. It becomes possible. In this case, the installer will continue construction using the piping support construction diagram f1.

  On the other hand, if the two positions do not match as a result of the comparison (No in S5), the processing unit 13 calculates a positional deviation amount d27 indicating the degree of the positional deviation between the two (S7). The positional deviation amount d27 includes “X”, “Y”, and “Z” as in the planned position d25 illustrated in FIG. Thereby, it is possible to objectively indicate the degree of displacement of the embedded metal piece 80. The positional deviation amount d27 calculated in S7 is registered for each hardware number d2 in the positional deviation amount list 124 of FIG.

When the processing unit 13 of the server 10 performs the comparison in S4, the hardware number d2 corresponding to the post-placement position d26 received in S3 and the hardware number d2 in the hardware list 123 of FIG. The collation is performed, and the collation result (mismatch or coincidence) may be transmitted to the reader / writer 50 and displayed on the reader / writer 50. If it does in this way, a contractor will be able to perform the confirmation operation | work of the necessity of the embedding | fitting metal 80.
And when a construction person transmits the information to the effect that the confirmation work of the necessity of the embedded object 80 is complete | finished to the server 10 using the reader / writer 50, the process part 13 of the server 10 is as follows. Such processing may be performed. First, the processing unit 13 compares the hardware number d2 of the checked embedded hardware 80 with the hardware number d2 in the hardware list 123 of FIG. To do. Then, the processing unit 13 transmits the determination result (presence / absence of check omission) to the reader / writer 50. If it does in this way, a contractor will be able to confirm the presence or absence of the check omission of embedding metal object 80, and smooth construction will be promoted.

  Next, in S <b> 8, the processing unit 13 of the server 10 selects the reinforcing material 81 that matches the misalignment amount d <b> 27 calculated in S <b> 7 based on the reinforcing material selection condition 125 of the storage unit 12. And the process part 13 produces | generates the edit conditions for editing the piping support construction drawing f1 to the piping support construction drawing f2 for constructing the piping support 70 with the reinforcement material 81. FIG. The editing conditions include information (size, dimensions, etc.) regarding the reinforcing material 81, the support dimension d13 of the pipe support 70 after editing, the support number d1 of the corresponding pipe support 70, and the like. Then, the processing unit 13 transmits the editing conditions to the CAD device 30 via the LAN 20 (S9).

In this case, even if the embedded metal piece 80 is not placed at the planned position d25 as shown in the piping support construction drawing f1, the reinforcing material 81 corresponding to the situation is selected as a countermeasure against the displacement of the embedded metal piece 80. And it becomes possible to show as the piping support construction figure f2 which mentions the concrete method of constructing the piping support 70 with the reinforcement material 81 later.
Note that the processing unit 13 updates the piping support list 122 in FIG. 6 and the hardware list 123 in FIG. 7 so as to match the editing conditions at the time of transmission of S9.

  Next, in S10, in response to the transmission from the server 10, the processing unit 35 of the CAD device 30 receives the editing conditions described above, reads the piping support construction diagram f1 related to the editing conditions from the storage unit 34, and the piping. A piping support construction diagram f2 reflecting the editing conditions is created in the support construction diagram f1. The pipe support construction drawing f1 is read using, for example, the support number d1 included in the editing conditions as a key.

  Thereby, after that, when the administrator operates, for example, using the input unit 31 of the CAD device 30, the piping support construction drawing f <b> 2 created in S <b> 10 is output to the display unit 32 of the CAD device 30. Will be displayed. Further, the piping support construction diagram f2 is externally output to a printer (not shown) and printed. If it does in this way, a contractor will be able to continue construction of piping support 70, referring to piping support construction drawing f2 of FIG.

Next, a processing procedure for automatically creating a completed drawing f3 of the piping support 70 will be described, reflecting the result of the construction performed by the installer with reference to the piping support construction drawing f2.
FIG. 10 is a diagram showing a processing procedure for creating a completed piping support drawing using the drawing editing system.
First, when manufacturing the pipe support 70 described in the pipe support construction drawing f2 and assembling it on site, the installer reads the support number d1 of the IC tag 70a attached to the pipe support 70 using the reader / writer 50. . Then, the installer uses the reader / writer 50 to transmit the support number d1 to the server 10 wirelessly. Then, in response to this transmission, the processing unit 13 of the server 10 receives the support number d1 (S20).

  Further, using the reader / writer 50, the installer reads the hardware number d2 of the IC tag 80a attached to the embedded hardware 80 that engages with the piping support 70. Then, the installer uses the reader / writer 50 to wirelessly transmit the hardware number d2 to the server 10. Then, in response to this transmission, the processing unit 13 of the server 10 receives the hardware number d2 (S21).

  Next, the processing unit 13 of the server 10 collates the correspondence between the support number d1 received in S20 and the hardware number d2 received in S21 with the hardware correspondence table 121 by piping support in FIG. 5 (S22). As a result, if they do not match (No in S23), the fact is transmitted to the reader / writer 50 (S24). Thereby, for example, the inconsistency is displayed on the display panel of the reader / writer 50, and the installer can review the combination of the pipe support 70 and the embedded hardware 80. In such a case, the reader / writer 50 may receive the transmission from the server 10 and notify the user with a sound such as an alarm.

  On the other hand, as a result of the collation described above, if the correspondence between the two matches (Yes in S23), the processing unit 13 of the server 10 transmits that fact to the reader / writer 50 (S25). As a result, for example, the match is displayed on the display panel of the reader / writer 50, and the installer can confirm that the pipe support 70 may be installed as scheduled. Thereby, the installer can engage the pipe support 70 with the embedded metal piece 80 with peace of mind.

In this way, when the builder assembles the pipe support 70, the builder then measures the actual dimension of the pipe support 70 after the construction using the position measuring device 60. The actual dimensions referred to here mean the dimensions “A”, “B”, and “C” of the pipe support 70 shown in FIG.
Then, the installer uses the position measuring device 60 to transmit the measured actual dimensions of the pipe support 70 to the reader / writer 50. As a result, the position measuring device 60 transmits the actual dimensions of the pipe support 70 to the reader / writer 50 (S26).

Subsequently, the reader / writer 50 transmits the actual dimensions of the pipe support 70 transmitted in S26 to the server 10 for each support number d1 of the corresponding pipe support 70 by the operation of the reader / writer 50 by the installer. The support number d1 is read from the IC tag 70a attached to the piping support 70 by the reader / writer 50.
Then, receiving this transmission, the processing unit 13 of the server 10 receives the actual dimensions of the piping support 70 for each support number d1 (S27).

Here, a completed example of the piping support 70 assembled by the installer in this way is shown in FIG. FIG. 11A is a view of the piping support 70 viewed from the side of the wall, and FIG. 11B is a view of the piping support 70 viewed from the front of the wall.
According to FIG. 11A, each pipe support 70 is fixed on the wall surface by each embedded metal part (solid line part) 80 and a reinforcing material 81. Each pipe support 70 is attached with an IC tag 70a attached by the installer. The embedded object 80 indicated by a broken line corresponds to the original planned position, that is, the planned position d25 described in the layout drawing (see FIG. 4).
Further, according to FIG. 11B, an IC tag 80a pasted by the installer is attached to each embedded metal piece 80. In this way, the pipe support 70 is assembled to the wall surface with the embedded metal 80 and the reinforcing material 81.

Returning to FIG. 11, the description will be continued. In next S28, the processing unit 13 of the server 10 first reads the support dimension d13 corresponding to the support number d1 received in S27 from the piping support list 122 (see FIG. 6) of the storage unit 12. The read support dimension d13 is a design dimension of the pipe support 70 described in the pipe support construction drawing f2.
Then, the processing unit 13 calculates a dimensional difference between the actual dimension of the pipe support 70 received in S27 and the read support dimension d13 (S28). The dimension difference here means each dimension difference of "A", "B", and "C" of the piping support 70 shown in FIG. Thereby, it becomes possible to objectively indicate how much the dimensional difference has occurred in the pipe support 70 actually assembled by the installer as compared with the pipe support 70 described in the pipe support construction drawing f2. .
Then, the processing unit 13 transmits the dimensional difference calculated in S28 to the CAD device 30 via the LAN 20 in association with the support number d1 of the corresponding pipe support 70 (S29).

Then, in response to the transmission from the server 10, the processing unit 35 of the CAD device 30 receives the dimensional difference transmitted in S29, reads the piping support construction drawing f2 related to the dimensional difference from the storage unit 34, and the piping support. The completed drawing f3 of the piping support 70 is created by reflecting the dimensional difference in the construction drawing f2 (S30). Note that the piping support construction drawing f1 is read using, for example, the support number d1 as a key.
And the process part 35 transmits the completed drawing f3 after creation to the server 10 (S31). As a result, the processing unit 13 of the server 10 reads the completed drawing f3 transmitted in S31 from the storage unit 12 in response to a request from the administrator terminal 40, and externally outputs (display, print) to the administrator terminal 40. ). An output example of the completed drawing f3 is shown in FIG.

  According to FIG. 12, each piping support 70 is fixed on the wall surface by each embedded metal 80 and the reinforcing material 81, and the support dimensions at this time are described. That is, it is described as corresponding to a completed example of the piping support 70 shown in FIGS. Thereby, the administrator can confirm the completed drawing f3 of the piping support 70 at any time, which is useful.

  The present invention is not limited to the embodiment described above. The configuration, data structure, and processing procedure of the drawing editing system may be changed and configured without departing from the spirit of the present invention. For example, although the case where the server 10 and the CAD device 30 are used for the configuration has been described, the configuration may be configured using one or three computers. For example, the CAD device 30 may be configured to have the function of the server 10.

1 is a block diagram showing a drawing editing system according to an embodiment of the present invention. It is a figure which shows an example of a piping support construction drawing. It is a figure which shows the example of an edit of the piping support construction drawing shown in FIG. It is a layout view showing the placement position of the embedded metal. It is explanatory drawing which shows an example of the hardware support according to piping support shown in FIG. It is explanatory drawing which shows an example of the piping support list shown in FIG. It is explanatory drawing which shows an example of the hardware list shown in FIG. It is explanatory drawing which shows an example of the positional offset amount list | wrist shown in FIG. It is a figure which shows the process sequence which edits a piping support construction drawing using a drawing editing system. It is a figure which shows the process sequence which produces the completion drawing of piping support using drawing editing system. It is a figure which shows the completion example of a piping support, The figure (a) is the side view which looked at the piping support from the wall side, The figure (b) is the front view which looked at the piping support from the wall front. It is a figure which shows an example of the completion figure of piping support.

Explanation of symbols

10 server (editing support device)
12, 34 Storage unit 13, 35 Processing unit 30 CAD device (drawing editing device)
50 Reader / Writer
60 Position measuring device 70a, 80a IC tag d1 Support number (support identification number)
d2 Hardware number (identification number for hardware)

Claims (10)

A computer system comprising a drawing editing device for editing a first piping support construction drawing used for constructing a piping support at a planned position with an embedded hardware, and an editing support device for supporting editing of the first piping support construction drawing. Editing method of piping support construction drawing in
The editing support device is
After placement of the embedded metal object described in the first piping support construction drawing, the position after placement of the embedded metal object measured by the position measuring device, and the IC tag attached to the embedded metal object Receiving in association with the hardware identification information of the embedded hardware read by the reader;
Reading the planned position of the embedded hardware corresponding to the received hardware identification information from the storage unit, and comparing the read planned position of the embedded hardware with the received post-placement position;
Calculating a misregistration amount indicating a degree of misregistration between the two embedded metal objects by the comparison;
A step of reading out a reinforcing material selection condition for selecting a reinforcing material to be used as a countermeasure for the positional deviation from the storage unit, and selecting a reinforcing material that matches the calculated positional deviation amount based on the reinforcing material selection condition; ,
A step of generating an editing condition for editing the first piping support construction drawing in a second piping support construction drawing used for constructing the piping support with the embedded metal fitting after placement and the selected reinforcing material; When,
Transmitting the generated editing conditions to the drawing editing device; and
The drawing editing apparatus comprises:
Receiving the editing conditions from the editing support device;
Reading out the first piping support construction drawing related to the received editing conditions from the storage unit, and editing the first piping support construction drawing into the second piping support construction drawing based on the editing conditions;
Outputting the edited second piping support construction drawing to the outside;
A method for editing a piping support construction diagram, characterized in that is executed. In the second piping support construction drawing, the design dimensions of the piping support are described.
The editing support device includes:
It was read by the reader of the IC tag attached to the piping support and the actual dimension of the piping support measured by the position measuring device after the piping support described in the second piping support construction drawing. Receiving in association with identification information for support of the pipe support;
Reading a design dimension of the pipe support corresponding to the received support identification information from the storage unit, and calculating a dimensional difference between the design dimension and the actual dimension of the received pipe support;
Transmitting the calculated dimensional difference to the drawing editing device; and
The drawing editing apparatus comprises:
Receiving the dimensional difference from the editing support device;
Reflecting the received dimensional difference in the second piping support construction drawing and creating a completed drawing of the piping support after the completion of construction;
The piping support construction drawing editing method according to claim 1, further comprising the step of externally outputting the created completed drawing. Drawing editing apparatus comprising a drawing editing device for editing a first piping support construction drawing used for constructing a piping support at a planned position with an embedded hardware, and an editing support device for supporting the editing of the first piping support construction drawing. A system,
The editing support device is
After the placement of the embedded metal object described in the first piping support construction drawing, the position of the embedded metal object measured by the position measuring device and the IC tag attached to the embedded metal object A process of receiving in association with the hardware identification information of the embedded hardware read by the reader;
A process of reading the planned position of the embedded hardware corresponding to the received hardware identification information from the storage unit, and comparing the read planned position of the embedded hardware with the received post-placement position;
A process of calculating a misregistration amount indicating a degree of misregistration between the two embedded metal objects by the comparison;
A process of selecting a reinforcing material selection condition for selecting a reinforcing material to be used as a countermeasure for the positional deviation from the storage unit, and selecting a reinforcing material that matches the calculated positional deviation amount based on the reinforcing material selection condition; ,
Processing for generating an editing condition for editing the first piping support construction diagram in the second piping support construction diagram used for constructing the piping support with the embedded metal fitting and the selected reinforcing material When,
A process of transmitting the generated editing condition to the drawing editing device;
The drawing editing device,
Processing for receiving the editing conditions from the editing support device;
Reading out the first piping support construction drawing related to the received editing conditions from the storage unit, and editing the first piping support construction drawing into the second piping support construction drawing based on the editing conditions;
Processing to output the edited second piping support construction drawing to the outside;
The drawing editing system characterized by executing. In the second piping support construction drawing, the design dimensions of the piping support are described.
The editing support device includes:
It was read by the reader of the IC tag attached to the piping support and the actual dimension of the piping support measured by the position measuring device after the piping support described in the second piping support construction drawing. A process of receiving the identification information for support of the pipe support in association with the information;
A process of reading the design dimension of the pipe support corresponding to the received support identification information from the storage unit, and calculating a dimensional difference between the design dimension and the actual dimension of the received pipe support;
A process of transmitting the calculated dimensional difference to the drawing editing apparatus; and
The drawing editing apparatus comprises:
Processing for receiving the dimensional difference from the editing support device;
A process of reflecting the received dimensional difference in the second piping support construction drawing and creating a finished drawing of the piping support after the completion of construction;
4. The drawing editing system according to claim 3, further comprising a process of externally outputting the created completed drawing. In the storage unit of the editing support device, the correspondence between the piping support and the embedded hardware described in the second piping support construction drawing uses the correspondence between the identification information for support and the identification information for hardware. Stored,
When the edit support device calculates a dimensional difference between the design dimension of the pipe support and the actual dimension of the pipe support,
Receiving the support identification information read by the reader in association with the hardware identification information read by the reader;
Collating the correspondence between the received hardware identification information and the support identification information with the correspondence stored in the storage unit;
5. The drawing editing system according to claim 4, wherein the dimensional difference is calculated on the condition that the correspondence between the two matches as a result of the collation. The editing support device includes:
The drawing editing system according to claim 5, wherein, as a result of the collation, if the correspondence between the two does not match, information to that effect is transmitted to the reader. An editing support device for supporting the editing of the first piping support construction drawing used to construct the piping support at the planned position with the embedded hardware,
An information storage unit and a processing unit;
The processing unit is
After placement of the embedded metal object described in the first piping support construction drawing, the position after placement of the embedded metal object measured by the position measuring device, and the IC tag attached to the embedded metal object A process of receiving in association with the hardware identification information of the embedded hardware read by the reader;
A process of reading the planned position of the embedded hardware corresponding to the received hardware identification information from the storage unit, and comparing the read planned position of the embedded hardware with the received post-placement position;
A process of calculating a misregistration amount indicating a degree of misregistration between the two embedded metal objects by the comparison;
A process of selecting a reinforcing material selection condition for selecting a reinforcing material to be used as a countermeasure for the positional deviation from the storage unit, and selecting a reinforcing material that matches the calculated positional deviation amount based on the reinforcing material selection condition; ,
Processing for generating an editing condition for editing the first piping support construction drawing in the second piping support construction drawing used for constructing the piping support with the embedded metal fitting after placement and the selected reinforcing material When,
In order to edit the first piping support construction drawing into the second piping support construction drawing based on the generated editing conditions, a process of transmitting the editing conditions to the drawing editing device;
An editing support apparatus characterized by executing In the second piping support construction drawing, the design dimensions of the piping support are described.
The processor is
It was read by the reader of the IC tag attached to the piping support and the actual dimension of the piping support measured by the position measuring device after the piping support described in the second piping support construction drawing. A process of receiving the identification information for support of the pipe support in association with the information;
A process of reading the design dimension of the pipe support corresponding to the received support identification information from the storage unit, and calculating a dimensional difference between the design dimension and the actual dimension of the received pipe support;
In order to reflect the calculated dimensional difference in the second piping support construction drawing and create a completed drawing of the piping support after completion of the construction, a process of transmitting the dimensional difference to the drawing editing device;
The editing support apparatus according to claim 7, further comprising: In the storage unit, the correspondence between the pipe support and the embedded hardware described in the second piping support construction drawing is stored using the correspondence between the support identification information and the hardware identification information. ,
When the processing unit calculates the dimensional difference between the design dimension of the pipe support and the actual dimension of the pipe support,
Receiving the support identification information read by the reader in association with the hardware identification information read by the reader;
Collating the correspondence between the received hardware identification information and the support identification information with the correspondence stored in the storage unit;
9. The editing support apparatus according to claim 8, wherein the dimensional difference is calculated on the condition that the correspondence between both matches as a result of the collation. The processor is
The editing support apparatus according to claim 9, wherein, as a result of the collation, if both correspondences do not match, information to that effect is transmitted to the reader.

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