JPH05114012A - Device for supporting detailed design of piping supporting device - Google Patents

Abstract

PURPOSE:To sharply reduce manhour, to shorten a design time based upon an integrated automatic detailed design and to attain a balanced design. CONSTITUTION:This detailed design supporting device consists of plural storage devices 1a to 1n for storing respective data for designing a wiring supporting device which are inputted from an input means 7, an arithmetic processor 2 for reading out respective data from the storage devices 1a to in and executing respective processing such as the strength inspection of supporting parts, that of a frame shape and that of an embedded fitting, a calculation list output device 5, and a drawing output device 6. The processor 2 stores the contents of these processed strength inspection as intermediate data, forms a strength calculation list from the intermediate data, outputs the list to the device 5, reads out support detailed design data stored in the devices 1a to 1n, automatically forms a support working drawing based upon the read data, and then outputs the formed drawing to the device 6.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention performs automatic detailed design of a piping support structure in a plant facility such as chemistry, thermal power and nuclear power, and creates a strength calculation sheet and a support construction drawing.
The present invention relates to a pipe support device detailed design support device for outputting.

[0002]

2. Description of the Related Art In a nuclear power plant, the support for supporting the weight of piping, trays, etc. is 10 per plant.
There are as many as 000 points, and there are many shapes due to the relationship between the load, the restraining direction, and the surrounding space. In the conventional support design, a plastic model is used for each support to check the surrounding conditions and determine the schematic structure. Next, based on the support design conditions, support structure analysis by manual input,
Also, the standard product was manually selected to determine the detailed structure of the support. Support construction drawing is also manually input C
It was created by AD. Note that all the data related to these are managed in books, and the management of these huge amounts of books was done manually.

[0003]

In the conventional detailed design of the piping support, many people are involved in the design of the support of up to 10,000 points per plant, so there is a possibility that the design may vary. In addition, since a person intervenes between a series of work, the same work may be repeated or may lead to a mistake. Furthermore, the amount of related books is enormous, and the time required for this book management is also enormous. An object of the present invention is to achieve a drastic reduction in man-hours and design time by a consistent automatic detailed design, as compared with the conventional detailed design of piping support by hand, and further to perform a unified design. is there.

[0004]

[Means for solving the problems] A storage device for storing each data for designing a pipe support device input from an input device, a support pattern set by reading each data from this storage device, a selected support catalog product and support Based on the design conditions, it consists of an arithmetic processing unit that carries out each process of support component strength examination, frame shape strength examination, and embedded metal strength examination, a statement output device, and a drawing output device. In addition to storing the strength examination content as intermediate data, a strength calculation sheet is created from this intermediate data, output as a strength calculation sheet to the calculation sheet output device, and the support detailed design data stored in the storage device. , And automatically create a support construction drawing based on this data, and output it to the drawing output device.

[0005]

The storage device stores each data for designing the pipe support device and manages the data as integrated data, and the arithmetic processing device reads each data from the storage device to examine the strength of support parts, Since each process of frame shape strength examination and embedded metal strength examination is performed and the strength calculation sheet and support construction drawing are output to the calculation sheet or drawing output device, it is possible to use centralized data. Detailed design can be done consistently. As a result, the selection of support catalog products, the analysis of support structure, the creation of strength calculation, and the creation of support construction drawings, which have so far relied on manpower, are automatically performed.As a result, the work time and work man-hours are reduced. It is possible to reduce the number of designs, to make the designs uniform, and to design with high accuracy and high reliability.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be specifically described below with reference to the drawings. First, FIG. 4 shows a schematic view of an example in which the pipe 100 is supported by the wall 101. Hardware 102 on the wall 101
A frame 103 is attached to the metal 102, and the pipe 100 is supported at the tip of the restrent 104 via a clamp 105 and a stopper 106 which are support members. Fig. 4 is an outline of the piping support. Generally, when designing the piping support in detail, the piping layout, support model, support mounting position, skeleton and surrounding arrangement state,
It must be designed in consideration of data such as embedded metal model, support member size set for pipe diameter and series of various supports, support catalog products, support design conditions, related support parts, and frame shape.

Therefore, FIG. 1 shows an embodiment of the detailed support system for piping support according to the present invention. Reference numeral 1 denotes a storage device. The storage device 1 stores data necessary for detailed design of piping support, that is, piping layout graphic data 1a,
Support pattern figure data 1b for each model, support mounting position data 1c, frame and surrounding arrangement information data 1d, embedded metal model data 1e, support member size set for pipe diameter and various support data 1 in series
f, support catalog product data 1g, support design condition data 1h, related support component data 1i, and frame shape data 1j are stored. Furthermore, the storage device 1 stores the determined primary support data 1k, embedded hardware data 1l, secondary support data 1m, and support detailed design data 1n. Reference numeral 2 denotes an arithmetic processing unit, which is a data reading unit 2 for reading data from the arithmetic processing unit 2a, the processing procedure storage unit 2b, the input unit 2c, the output unit 2d, and the storage devices 1a to 1n.
e, a data writing unit 2f that writes data in the storage devices 1k to 1n, and an intermediate data storage unit 2g. The processing procedure stored in the processing procedure storage unit 2b is sequentially called from the arithmetic processing unit 2a and executed. In addition, the arithmetic processing unit 2
The processing content calculated by a is sequentially stored in the intermediate data storage unit 2g. Reference numeral 3 is a display device, and 4 is an image processing device, which includes an image data storage unit 4a and an image processing unit 4b. Reference numeral 5 is a calculation output device, 6 is a drawing output device, and a calculation output unit. Reference numeral 7 is an input device.

FIG. 2a shows the outline of the processing order executed by the arithmetic processing unit 2, and FIGS. 2b to 2e show the details thereof as an embodiment. Hereinafter, the processing procedure of this embodiment will be described according to the operation of the apparatus according to the present invention. First,
The outline of the processing procedure of FIG. 2a is as follows. In <Step 8>, the support type is set, the support pattern is selected, and the embedded hardware is automatically set to create initial support data. <Step 9> selects support in consideration of support design conditions in the initial support data. In <Step 10>, based on the selection of the support, the strength of related support parts, the strength of the frame, and the strength of the embedded metal are examined to create detailed support design data. <Step 11> creates a support construction drawing based on the support detailed design data.

Hereinafter, each step will be described in detail. Figure 2b
Is a processing procedure of the initial support data creation 8. In the processing procedures 8a to 8d, the piping layout graphic data 1a, the type-specific support pattern graphic data 1b, the support mounting position data 1c, the skeleton and the surrounding arrangement information are respectively stored in the storage device 1. In the process procedure 8e, the data 1d is read, and the read data is read from the read data through the image processing device 4 including the image data storage unit 4a and the image processing unit 4b, and the display device 3 is provided with a support pattern for each model as shown in FIG. Output and display graphic data. Note that FIG. 3 shows the drawing numbers R-01 to
This is an example in which various types of restrent patterns such as R-04 are output and displayed. In the processing procedure 8f, from among the type-specific support pattern graphic data displayed,
The support type is set, and in the processing procedure 8g, the support pattern of the set type is selected by the input device 7. Next, in the processing procedures 8h and 8i, the embedded hardware model data 1e, the support member size set to the pipe diameter, various support data 1f serialized, and related support component data 1i are read from the storage device 1, respectively, and the processing procedure is performed. In 8j, the model of the embedded metal item is automatically set from the data and the support pattern selected in the processing procedure 8f. In the processing procedure 8k, the set support pattern and the automatically set embedded hardware are registered in the storage device 1 as primary support data 1k and embedded hardware data 1l, respectively.

Next, FIG. 2c shows a processing procedure of support selection 9. In processing procedures 9a to 9c, primary support data 1k, support design condition data 1h, and support catalog product data 1g are read from the storage device 1, respectively. In the processing procedure 9d, the input device 7 selects a support catalog item from the read data. If there is a standard product of the support catalog product selected in processing procedure 9e, the standard product is selected, and if the standard product does not have the corresponding support, a special product is selected in processing procedure 9f. In the processing procedure 9f, secondary support data is formed and registered in the storage device 1 as the secondary support data 1m. In this way, the conceptual design is performed using the various databases stored in the storage device 1 and necessary for the detailed design of the piping support.

Next, FIG. 2d shows the processing procedure of the strength examination 10. In the processing procedures 10a to 10c, the secondary support data 1m, the support design condition data 1h, and the related support component data 1i are read from the storage device 1, respectively. Further, in the processing procedures 10e to 10g, the frame shape data 1j and the embedded hardware data 1l are read, respectively. Processing procedure 1
In 0d, 10f, and 10h, the strength is examined in order of the related support parts, the frame shape, and the embedded metal object in the arithmetic processing unit 2a based on the respective data. Then, the strength examination result is stored in the intermediate data storage unit 2g. Processing procedure 1
At 0i, the strength examination result stored in the intermediate data storage unit 2g is created as a strength calculation sheet in the arithmetic processing unit 2a, and is output from the calculation sheet output device 5. Further, in the processing procedure 10j, the strength examination result is registered in the storage device 1 as the support detailed design data 1n. This completes the detailed design of the piping support.

Finally, FIG. 2e shows a support construction drawing creation 1
In the processing procedures 10a to 10c, in the processing procedure 11a, the support detailed design data 1n stored in the storage device 1 is read, and in the processing procedure 11b, the support detailed design data is stored in the arithmetic processing unit 2a. In step 11c, the support work drawing is automatically created, the support work drawing is output from the drawing output device 6, and this processing ends.

[0013]

EFFECTS OF THE INVENTION According to the present invention, since unified data is used with almost no human intervention and consistent automatic design from conceptual design to detailed design is performed, it is necessary for the conventional detailed design of piping support. It is possible to process with man-hours of about 1/10, and it is possible to design with high accuracy, uniformity, and high reliability. Further, since all the data is managed in the database, it is possible to reduce a great amount of time conventionally required for managing books. In addition, design progress management becomes easy, and accurate management becomes possible.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention.

FIG. 2a shows an outline of a processing procedure in the present invention.

FIG. 2b shows a processing procedure for creating initial support data.

FIG. 2c shows a processing procedure of support selection.

FIG. 2d shows a processing procedure for strength examination.

FIG. 2e shows a processing procedure for creating a support construction drawing.

FIG. 3 shows an example of support pattern graphic data in one embodiment of the present invention.

FIG. 4 is a schematic view of a piping support.

[Explanation of symbols]

 1 Storage Device 2 Arithmetic Processing Device 3 Display Device 4 Image Processing Device 5 Calculation Sheet Output Device 6 Drawing Output Device 7 Input Device 8-11 Processing Procedure

─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] October 27, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

Title of piping support device detailed design support device

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention performs automatic detailed design of a piping support structure in a plant facility such as chemistry, thermal power and nuclear power, and creates a strength calculation sheet and a support construction drawing.
The present invention relates to a pipe support device detailed design support device for outputting.

[0002]

2. Description of the Related Art In a nuclear power plant, the support for supporting the weight of piping, trays, etc. is 10 per plant.
There are as many as 000 points, and there are many shapes due to the relationship between the load, the restraining direction, and the surrounding space. In the conventional support design, a plastic model is used for each support to check the surrounding conditions and determine the schematic structure. Next, based on the support design conditions, support structure analysis by manual input,
Also, the standard product was manually selected to determine the detailed structure of the support. Support construction drawing is also manually input C
It was created by AD. Note that all the data related to these are managed in books, and the management of these huge amounts of books was done manually.

[0003]

In the conventional detailed design of the piping support, many people are involved in the design of the support of up to 10,000 points per plant, so there is a possibility that the design may vary. In addition, since a person intervenes between a series of work, the same work may be repeated or may lead to a mistake. Furthermore, the amount of related books is enormous, and the time required for this book management is also enormous. An object of the present invention is to achieve a drastic reduction in man-hours and design time by a consistent automatic detailed design, as compared with the conventional detailed design of piping support by hand, and further to perform a unified design. is there.

[0004]

[Means for solving the problems] A storage device for storing each data for designing a pipe support device input from an input device, a support pattern set by reading each data from this storage device, a selected support catalog product and support Based on the design conditions, it consists of an arithmetic processing unit that carries out each process of support component strength examination, frame shape strength examination, and embedded metal strength examination, a statement output device, and a drawing output device. In addition to storing the strength examination content as intermediate data, a strength calculation sheet is created from this intermediate data, output as a strength calculation sheet to the calculation sheet output device, and the support detailed design data stored in the storage device. , And automatically create a support construction drawing based on this data, and output it to the drawing output device.

[0005]

The storage device stores each data for designing the pipe support device and manages the data as integrated data, and the arithmetic processing device reads each data from the storage device to examine the strength of support parts, Since each process of frame shape strength examination and embedded metal strength examination is performed and the strength calculation sheet and support construction drawing are output to the calculation sheet or drawing output device, it is possible to use centralized data. Detailed design can be done consistently. As a result, the selection of support catalog products, the analysis of support structure, the creation of strength calculation, and the creation of support construction drawings, which have so far relied on manpower, are automatically performed.As a result, the work time and work man-hours are reduced. It is possible to reduce the number of designs, to make the designs uniform, and to design with high accuracy and high reliability.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be specifically described below with reference to the drawings. First, FIG. 8 shows a schematic view of an example in which the pipe 100 is supported by the wall 101. Hardware 102 on the wall 101
A frame 103 is attached to the metal 102, and the pipe 100 is supported at the tip of the restrent 104 via a clamp 105 and a stopper 106 which are support members. FIG. 8 is an outline of the piping support. Generally, when designing the piping support in detail, the piping layout, support model, support mounting position, skeleton and surrounding arrangement state,
It must be designed in consideration of data such as embedded metal model, support member size set for pipe diameter and series of various supports, support catalog products, support design conditions, related support parts, and frame shape.

Therefore, FIG. 1 shows an embodiment of the detailed support system for piping support according to the present invention. Reference numeral 1 denotes a storage device. The storage device 1 stores data necessary for detailed design of piping support, that is, piping layout graphic data 1a,
Support pattern figure data 1b for each model, support mounting position data 1c, frame and surrounding arrangement information data 1d, embedded metal model data 1e, support member size set for pipe diameter and various support data 1 in series
f, support catalog product data 1g, support design condition data 1h, related support component data 1i, and frame shape data 1j are stored. Furthermore, the storage device 1 stores the determined primary support data 1k, embedded hardware data 1l, secondary support data 1m, and support detailed design data 1n. Reference numeral 2 denotes an arithmetic processing unit, which is a data reading unit 2 for reading data from the arithmetic processing unit 2a, the processing procedure storage unit 2b, the input unit 2c, the output unit 2d, and the storage devices 1a to 1n.
e, a data writing unit 2f that writes data in the storage devices 1k to 1n, and an intermediate data storage unit 2g. The processing procedure stored in the processing procedure storage unit 2b is sequentially called from the arithmetic processing unit 2a and executed. In addition, the arithmetic processing unit 2
The processing content calculated by a is sequentially stored in the intermediate data storage unit 2g. Reference numeral 3 is a display device, and 4 is an image processing device, which includes an image data storage unit 4a and an image processing unit 4b. Reference numeral 5 is a calculation output device, 6 is a drawing output device, and a calculation output unit. Reference numeral 7 is an input device.

FIG. 2 shows an outline of the order of processing performed by the arithmetic processing unit 2, and FIGS. 3 to 6 show the details thereof as one embodiment. Hereinafter, the processing procedure of this embodiment will be described according to the operation of the apparatus according to the present invention. First, the outline of the processing procedure of FIG. 2 is as follows. In <Step 8>, the support type is set, the support pattern is selected, and the embedded hardware is automatically set to create initial support data. <Step 9> selects support in consideration of support design conditions in the initial support data. In <Step 10>, based on the selection of the support, the strength of related support parts, the strength of the frame, and the strength of the embedded metal are examined to create detailed support design data. <Step 11> creates a support construction drawing based on the support detailed design data.

Hereinafter, each step will be described in detail. Figure 3
In the processing procedure of the initial support data creation 8, in the processing procedures 8a to 8d, the piping layout graphic data 1a, the type-specific support pattern graphic data 1b, the support mounting position data 1c, the skeleton and surrounding arrangement information data 1d are stored in the storage device 1, respectively. In the procedure 8e, the image data storage unit 4 is read from the read data as shown in FIG.
via the image processing device 4 including a and the image processing unit 4b,
The support pattern graphic data for each model is output and displayed on the display device 3. Note that FIG. 7 shows the drawing numbers R-01 to R-.
This is an example in which various types of restrent patterns are output and displayed as in 04. In the processing procedure 8f, the support type is set from the displayed type-specific support pattern graphic data, and in the processing procedure 8g, the support pattern of the set type is selected by the input device 7.
Next, in the processing procedures 8h and 8i, the embedded hardware model data 1e, the support member size set to the pipe diameter, various support data 1f serialized, and related support component data 1i are read from the storage device 1, respectively, and the processing procedure is performed. In 8j, the model of the embedded metal item is automatically set from the data and the support pattern selected in the processing procedure 8f. In the processing procedure 8k, the set support pattern and the automatically set embedded hardware are registered in the storage device 1 as primary support data 1k and embedded hardware data 1l, respectively.

Next, FIG. 4 shows a processing procedure of support selection 9. In processing procedures 9a to 9c, the primary support data 1k, the support design condition data 1h, and the support catalog product data 1g are read from the storage device 1, respectively. In the processing procedure 9d, the input device 7 selects a support catalog item from the read data. If there is a standard product of the support catalog product selected in processing procedure 9e, the standard product is selected, and if the standard product does not have the corresponding support, a special product is selected in processing procedure 9f. Processing procedure 9
In f, secondary support data is formed and registered in the storage device 1 as the secondary support data 1m. in this way,
A conceptual design is performed using various databases required for detailed piping support design stored in the storage device 1.

Next, FIG. 5 shows a processing procedure of the strength examination 10. In the processing procedures 10a to 10c, the secondary support data 1m, the support design condition data 1h, and the related support component data 1i are read from the storage device 1, respectively. Further, in the processing procedures 10e to 10g, the frame shape data 1j and the embedded hardware data 1l are read, respectively. Processing procedure 1
In 0d, 10f, and 10h, the strength is examined in order of the related support parts, the frame shape, and the embedded metal object in the arithmetic processing unit 2a based on the respective data. Then, the strength examination result is stored in the intermediate data storage unit 2g. Processing procedure 1
At 0i, the strength examination result stored in the intermediate data storage unit 2g is created as a strength calculation sheet in the arithmetic processing unit 2a, and is output from the calculation sheet output device 5. Further, in the processing procedure 10j, the strength examination result is registered in the storage device 1 as the support detailed design data 1n. This completes the detailed design of the piping support.

Finally, FIG. 6 shows a support construction drawing 11
Is a processing procedure of, and in processing procedures 10a to 10c,
In the processing procedure 11a, the support detailed design data 1n stored in the storage device 1 is read, and in the processing procedure 11b,
The calculation processing unit 2a automatically creates a support construction drawing based on the support detailed design data, and in the processing procedure 11c, the support construction drawing is output from the drawing output device 6 and the present processing ends.

[0013]

EFFECTS OF THE INVENTION According to the present invention, since unified data is used with almost no human intervention and consistent automatic design from conceptual design to detailed design is performed, it is necessary for the conventional detailed design of piping support. It is possible to process with man-hours of about 1/10, and it is possible to design with high accuracy, uniformity, and high reliability. Further, since all the data is managed in the database, it is possible to reduce a great amount of time conventionally required for managing books. In addition, design progress management becomes easy, and accurate management becomes possible.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention.

FIG. 2 shows an outline of a processing procedure in the present invention.

FIG. 3 shows a processing procedure for creating initial support data.

FIG. 4 shows a processing procedure for support selection.

FIG. 5 shows a processing procedure for strength examination.

FIG. 6 shows a processing procedure for creating a support construction drawing.

FIG. 7 shows an example of support pattern graphic data in one embodiment of the present invention.

FIG. 8 is a schematic view of a piping support.

[Explanation of reference numerals] 1 storage device 2 arithmetic processing device 3 display device 4 image processing device 5 statement output device 6 drawing output device 7 input device 8-11 processing procedure

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Correction target item name] All drawings

[Correction method] Change

[Correction content]

[Figure 1]

[Fig. 2]

[Figure 3]

[Figure 4]

[Figure 5]

[Figure 6]

[Figure 7]

[Figure 8]

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Shinichi Hisatsune 3-1-1, Saiwaicho, Hitachi City, Ibaraki Hitachi Ltd., Hitachi Plant (72) Inventor Shinho Goto 3-chome, Hitachi City, Ibaraki Prefecture No. 1-1 Hitachi Ltd., Hitachi Plant (72) Inventor Toshiaki Yoshinaga 3-1-1, Saiwaicho, Hitachi City, Ibaraki Hitachi Ltd., Hitachi Plant

Claims (4)

[Claims] 1. An input device, and a storage device for storing each data for designing a pipe support device input from the input device,
An arithmetic processing unit that reads each data from this storage device and performs each process of support component strength examination, frame shape strength examination, embedded metal strength examination based on the set support pattern, selected support catalog product and support design condition, The calculation processing device stores the contents of the strength examination processed by the calculation processing device as intermediate data, creates a strength calculation document from the intermediate data, and outputs it to the calculation output device as a strength calculation document. A detailed support system for a detailed design of a pipe support device. 2. The pipe support device detailed design support device according to claim 1, wherein the intermediate data is stored in the storage device as support detailed design data. 3. Each data for designing the piping support device is set for each of piping layout graphic data, model-specific support pattern graphic data, support mounting position data, skeleton and surrounding layout information data, embedded metal model data, and pipe diameter. The pipe support device detailed design support device according to claim 1, characterized in that the support member size and various support data serialized, support catalog product data, support design condition data, related support component data, and frame shape data. 4. The arithmetic processing device reads support detailed design data from a storage device, automatically creates a support construction drawing based on this data, and outputs it to a drawing output device. 3. Pipe support device detailed design support device.