JP2005099942A - Lightning strike protection simulation system and method, and its program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lightning strike protection simulation system for setting lightning equipment and a lightning strike protection range based on a rotary spherical method by using CAD-integrated drawings, and for clarifying the lightning equipment and lightning strike protection range of the whole building based on the rotary spherical method. <P>SOLUTION: A perspective view constituted by 3D-integrating building graphics where a building equipped with lightning facilities is plotted as drawing data is prepared with CAD-integrated drawings, and arc being one part of a rotary sphere with a predetermined spherical radius is applied to a desired position in the 3D-integrated building graphics so that it is possible to perform the simulation of the lightning equipment and lightning strike protection range of the building based on the rotary spherical method. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a lightning protection simulation system, a lightning protection simulation method, and a lightning protection simulation program, and in particular, prior to installing a lightning protection facility in a building based on a rotating sphere method, a lightning protection range of the building using CAD. The present invention relates to a lightning protection simulation system, a lightning protection simulation method, and a lightning protection simulation program that are used during design.

  JIS-A-4201 was established in 1927 as a standard for lightning protection equipment, but since its establishment, the implementation results and effects of lightning protection equipment have been reviewed and the content has been reviewed, and several revisions have been made so far. Has been added.

  In particular, the range of protection against lightning strikes is based on the results of theoretical and experimental studies so far, and in the conventional standards, the protection angle is 60 degrees for general buildings and the protection angle is 45 degrees for buildings that handle dangerous goods. Was decided. However, based on the lightning protection performance so far, it has been found that this value does not necessarily provide complete protection. In fact, there have been many reports of lightning strikes on rooftop parapets and roofs within 60 degrees of protection angle, and the need for review based on the latest lightning protection theory has been pointed out. In addition, electronic devices such as computers are frequently used, and the number of cases in which these electronic devices are damaged due to lightning surges that enter from distribution lines, etc., or potential differences that occur between buildings and wiring during lightning strikes to buildings is increasing. There was a need to consider the countermeasures.

  On the other hand, in recent years, research on lightning phenomena has progressed globally, and international standards and standards are being developed based on accumulated data. The IEC (International Electrotechnical Commission) discusses the creation of international standards. In 1990, IEC1024-1 “Lightning protection for buildings” was established and used internationally. This IEC1024-1 “Lightning protection of buildings” mainly uses the rotating sphere method based on the theory of lightning stroke distance, which is the final progress distance of lightning discharge, and the protection angle method equivalent to this, The mesh method is prescribed.

  The standard of JIS-A-4201 is to be internationally harmonized, and the standard is revised based on IEC 1024-1.

  In addition, the problem of the conventional JIS standard was “lightning protection equipment (lightning arrester) for buildings, etc.”.

  As described above, when setting the protection range of lightning protection equipment in the “JIS-A-4201 lightning protection for buildings, etc.”, which will be revised recently, it is basically specified to be based on the rotating sphere method. The Rukoto.

As shown in FIG. 13, the rotating sphere method defined in this JIS standard is in contact with two or more lightning sections (lightning protection equipment) at the same time, or is in contact with one or more lightning sections and the ground at the same time. In this way, when the sphere is rotated, the protected object side is protected from the envelope surface of the sphere surface, and as shown in FIG. 14, 4 is set for the object to be protected from lightning. For each protection level, the lightning stroke distance (sphere radius) R is divided into 20 m, 30 m, 45 m, and 60 m.
JIS-A-4201 IEC 1024-1

  When setting the lightning protection range of a building, based on the rotating sphere method, for example, when drawing an arc trajectory that is a part of a rotating sphere with respect to an architectural drawing drawn at a predetermined scale, a compass, a protractor, etc. Can be considered.

  However, the rotating sphere method calculates a portion where a building and a sphere whose radius is determined by the lightning stroke distance in a three-dimensional space, but the calculation amount is enormous. Therefore, it is difficult to clarify the lightning protection equipment and the lightning protection range of the entire building based on the rotating sphere method using a compass, a protractor, and the like.

  Further, there has been no system for setting a lightning arrester based on the rotating sphere method and a lightning protection range using CAD drawings for buildings.

  The present invention has been made in order to solve the above-mentioned problems, and it is possible to set the lightning protection equipment based on the rotating sphere method and the lightning protection range using the CAD drawing, and the construction based on the rotating sphere method. An object of the present invention is to provide a lightning protection simulation system, a lightning protection simulation method, and a lightning protection simulation program capable of clarifying the lightning protection equipment of the whole object, and the lightning protection range.

  In order to solve the above problems, the lightning strike protection simulation system according to claim 1 of the present invention uses a rotating sphere method using CAD (Computer Aided Design) prior to installing a lightning arrester in a building. A lightning protection simulation system used during design for setting the lightning protection equipment and lightning protection range of the building based on the above, and various drawings during or after the setting of the lightning protection equipment and the lightning protection range. Each element of the building graphic is displayed in accordance with the operator's input from the display unit for display, the operation input unit for inputting the operation command by the operator, and the building graphic called as the drawing data of the building. Building figure creation means for creating a 3D perspective view at a predetermined scale, and lightning protection on the building figure made into 3D by the building figure creation means by the operator's input A lightning protection device drawing means for drawing the lightning arc, and an arc which is a part of a rotating sphere of a predetermined scale with a predetermined sphere radius with respect to the building figure in which the lightning protection device is drawn by the lightning protection device drawing means, A lightning protection range that draws one or a plurality of lightning protection devices at the same time from the lightning protection device or two or more lightning protection devices by an operator input and indicates the lightning protection range on the building graphic side of the arc. An instruction arc drawing means; and a lightning protection protection range availability determination means for determining whether or not the arc drawn by the lightning protection protection range instruction arc drawing means indicates and displays a desired lightning protection range. It is provided.

  As a result, by applying an arc with a predetermined sphere radius to a 3D building figure, a simulation of the lightning arrester and the lightning protection range based on the rotating sphere method defined in the JIS standard is performed for the building. It is possible to provide a system capable of setting a lightning protection equipment having a lightning protection range based on the rotating sphere method.

  In addition, the lightning protection simulation system according to claim 2 of the present invention uses a CAD (Computer Aided Design) to provide a lightning protection system for the building based on the rotating sphere method prior to installing the lightning protection facility on the building. And a lightning protection simulation system for use in designing to set the lightning protection range, a display unit for displaying various drawings during or after setting the lightning protection equipment and the lightning protection range, and an operator A perspective view obtained by converting each element of the building figure into 3D according to an input from the operation input unit for inputting the operation command by the building figure and the building figure called as the drawing data of the building is predetermined. A building figure creating means for creating a lightning protection facility on the building figure made in 3D by the building figure creating means by an operator input And, with respect to the building figure in which the lightning protection equipment is drawn by the lightning protection equipment drawing means, an arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale is provided for the earth and the lightning protection equipment, or two Lightning protection range indicating arc drawing means for drawing one or a plurality of lightning protection facilities at the same time by an operator's input and indicating the lightning protection range on the building graphic side of the arc, and the lightning protection A lightning protection protection range availability determining means for determining whether or not the arc drawn by the protection range indicating arc drawing means indicates and displays a desired lightning protection protection range, and a lightning protection protection range availability determination means. Rotating sphere drawing means for drawing a rotating sphere of a predetermined scale with a predetermined sphere radius for a building figure whose lightning protection range is determined as desired.

  As a result, by applying an arc with a predetermined sphere radius to a 3D building figure, a simulation of the lightning arrester and the lightning protection range based on the rotating sphere method defined in the JIS standard is performed for the building. The lightning protection equipment having the lightning protection range based on the rotating sphere method can be set. Furthermore, by creating a drawing in which a rotating sphere is in contact with the building, a system capable of clearly displaying a location where the lightning is protected in the building can be provided.

  A lightning strike protection simulation system according to claim 3 of the present invention is the lightning strike protection simulation system according to claim 1 or 2, wherein two or more lightning protections in the building figure of the perspective view are provided with respect to the perspective view. The maximum trajectory of the rotating sphere with respect to the horizontal plane of the lightning arrester at the lower position when the rotating sphere is in contact with the equipment is displayed.

  Thereby, it can be clearly displayed that the lightning protection range has reached the shape of the corners and protrusions of the building.

  In addition, the lightning strike protection simulation system according to claim 4 of the present invention uses a CAD (Computer Aided Design) to provide a lightning protection system for the building based on the rotating sphere method prior to installing the lightning protection facility in the building. And a lightning protection simulation system for use in designing to set the lightning protection range, a display unit for displaying various drawings during or after setting the lightning protection equipment and the lightning protection range, and an operator A perspective view obtained by converting each element of the building figure into 3D according to an input from the operation input unit for inputting the operation command by the building figure and the building figure called as the drawing data of the building is predetermined. A building figure creating means for creating a lightning protection facility on the building figure made in 3D by the building figure creating means by an operator input And, with respect to the building figure in which the lightning protection equipment is drawn by the lightning protection equipment drawing means, an arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale is provided for the earth and the lightning protection equipment, or two Lightning protection range indicating arc drawing means for drawing one or a plurality of lightning protection facilities at the same time by an operator's input and indicating the lightning protection range on the building graphic side of the arc, and the lightning protection A lightning protection protection range availability determining means for determining whether or not the arc drawn by the protection range indicating arc drawing means indicates and displays a desired lightning protection protection range, and a lightning protection protection range availability determination means. A multi-view drawing obtained by adding at least one of a plan view and an elevation view of the building figure to the perspective view of the building figure in which the lightning protection equipment having the lightning protection range determined to be desired is drawn. Create A building figure whose lightning protection range is determined as desired by the multi-face drawing creation means and the lightning protection protection range availability judging means, or a building figure drawn in each drawing created by the multi-face drawing creation means On the other hand, there is provided rotating sphere drawing means for drawing a rotating sphere of a predetermined scale with a predetermined sphere radius.

  As a result, by applying an arc with a predetermined sphere radius to a 3D building figure, a simulation of the lightning arrester and the lightning protection range based on the rotating sphere method defined in the JIS standard is performed for the building. The lightning protection equipment having the lightning protection range based on the rotating sphere method can be set. Furthermore, by displaying a drawing in which the rotating sphere is in contact with the building from multiple directions, it is possible to provide a system that can easily confirm the location where the entire building is protected from lightning. .

  Moreover, the lightning strike protection simulation system according to claim 5 of the present invention is the lightning strike protection simulation system according to claim 4, wherein the multi-face drawing creation means displays the created multi-face drawing as one drawing. is there.

  Thereby, the lightning protection equipment and the lightning protection range of the building displayed from multiple directions can be confirmed at a glance.

  Moreover, the lightning strike protection simulation system according to claim 6 of the present invention is the lightning strike protection simulation system according to claim 4 or 5, wherein the perspective view and / or the plan view are the perspective view and / or Alternatively, the maximum locus of the rotating sphere with respect to the horizontal plane of the lightning arrester at the lower position when the rotating sphere is in contact with two or more lightning arresters in the building figure of the plan view is displayed.

  Thereby, it can be clearly displayed that the lightning protection range has reached the shape of the corners and protrusions of the building.

  Moreover, the lightning strike protection simulation system according to claim 7 of the present invention is the lightning strike protection simulation system according to any one of claims 1 to 6, wherein the predetermined sphere radius is any of 20 m, 30 m, 45 m, and 60 m. It's something like that.

  Thereby, it is possible to set the lightning protection equipment and the lightning protection range corresponding to each of the four protection levels defined in the JIS standard.

  A lightning protection simulation system according to claim 8 of the present invention is the lightning protection simulation system according to the rotating sphere method according to any one of claims 1 to 7, wherein the lightning protection equipment and the lightning protection range are set. Simulation result drawing creation means for performing the final finishing process.

  This makes it possible to easily confirm the type and installation position of lightning protection equipment, the lightning protection range, etc. of the building by performing hidden line processing on the building figures and finishing the lightning protection range with diagonal lines. it can.

  The lightning strike protection simulation system according to claim 9 of the present invention is the lightning strike protection simulation system according to claim 8, wherein the simulation result drawing creation means includes a drawing created via the operation input means. On the other hand, required information can be inserted.

  Thereby, setting conditions, such as a reduced scale and a spherical body radius, the kind of lightning protection equipment of the said building, length, etc. can be displayed clearly.

  The lightning strike protection simulation system according to claim 10 of the present invention is the lightning strike protection simulation system according to claim 8, wherein the simulation result drawing creation means includes the lightning arrester and the building figure in which the lightning protection range is set. Display / non-display of the trajectory of the arc drawn and / or the rotating sphere can be selected.

  Thus, by hiding the arc trajectory and / or the rotating sphere, it is possible to provide a drawing that makes it particularly easy to see the rotating sphere and the portion of the lightning protection device that overlaps the arc line.

  A lightning protection simulation system according to claim 11 of the present invention is the lightning protection simulation system according to any one of claims 1 to 10, wherein the perspective view of the building figure is displayed from a desired viewpoint. is there.

  As a result, it is also possible to display a complex-shaped portion of the building that is difficult to see, and to clarify the lightning protection equipment and the lightning protection range of the complex-shaped portion.

  Moreover, the lightning strike protection simulation system according to claim 12 of the present invention is the lightning strike protection simulation system according to claim 11, wherein the perspective view of the building figure is changed during the drawing display in each of the above means. It is possible.

  Thereby, even if it is a building which has the location of the complicated shape which is hard to see, the lightning protection equipment of the said whole building and the lightning protection range can be set.

  Moreover, the lightning strike protection simulation system according to claim 13 of the present invention is the lightning strike protection simulation system according to any one of claims 1 to 12, wherein the drawing created by each of the means has a desired scale. It is intended.

  Thereby, the lightning protection equipment and the lightning protection range can be clarified even in a fine-shaped portion of the building.

  Moreover, the lightning strike protection simulation system according to claim 14 of the present invention is the lightning strike protection simulation system according to the rotating sphere method according to claim 13, wherein the drawing created by each of the means is the scale of each drawing. It can be changed during the drawing display in the means.

  Thereby, even if it is a building which has the location of a fine shape, the lightning protection equipment of the whole said building, and the simulation of a lightning protection range can be performed.

  According to claim 15 of the present invention, the lightning protection simulation system according to claim 15 is the lightning protection simulation system according to any one of claims 1 to 14, wherein the data created by the above means is output as drawing data. An output means is provided.

  Thereby, drawing data can be output to a printer, a storage medium, etc., and drawing data can be confirmed also in systems other than the said system.

  According to a thunderbolt protection simulation method according to claim 16 of the present invention, the lightning protection equipment for the building based on the rotating sphere method, and the lightning protection range, using CAD before installing the lightning protection equipment in the building. A lightning protection simulation method used during design for setting up the building, wherein the building is called as a drawing data as a drawing data, and each element of the called building shape is inputted according to an operator's input A 3D building figure creating step for creating a perspective view of a predetermined scale obtained by converting 3D into a 3D structure, a lightning arresting equipment drawing step for drawing a lightning arresting facility with respect to the 3D building figure by an operator input, and the lightning protection For a building figure depicting equipment, an arc that is a part of a rotating sphere of a predetermined scale with a predetermined sphere radius is applied to the earth and lightning protection equipment, or simultaneously to two or more lightning protection equipment. A lightning protection range instructing arc drawing step for drawing one or a plurality of the lightning protection ranges on the building graphic side of the arc and displaying the lightning protection range instructing arc display step. A lightning protection range determination step for determining whether or not the drawn arc indicates and displays a desired lightning protection range, and whether or not the lightning protection range having the desired lightning protection range is obtained. Lightning protection equipment drawing step The following steps are repeated.

  As a result, by applying an arc with a predetermined sphere radius to a 3D building figure, a simulation of the lightning arrester and the lightning protection range based on the rotating sphere method defined in the JIS standard is performed for the building. The lightning protection equipment having the lightning protection range based on the rotating sphere method can be set.

  In addition, the lightning strike protection simulation method according to claim 17 of the present invention uses a CAD to provide a lightning protection equipment for the building based on the rotating sphere method, and a lightning protection range before installing the lightning protection equipment in the building. A lightning protection simulation method used at the time of design for setting the building, in which the building is called as a drawing data as a drawing data, and each element of the called building shape is set in response to an operator input. A 3D building figure creation step for creating a perspective view of a predetermined scale formed in 3D, a lightning arresting equipment drawing step for drawing a lightning arresting facility with respect to the 3D building figure by an operator input, and the lightning arresting equipment The arc that is a part of a rotating sphere of a predetermined scale with a predetermined sphere radius is connected to the ground and lightning protection equipment, or to two or more lightning protection equipment at the same time. A lightning protection range instructing arc drawing step for drawing one or a plurality of the lightning protection ranges on the building graphic side of the arc, and displaying the lightning protection range instructing arc in the lightning protection range instructing arc drawing step. A lightning protection range availability determination step for determining whether or not the drawn arc indicates and displays the desired lightning protection range, and the lightning protection equipment until the lightning protection equipment having the desired lightning protection range is obtained. The following steps after the drawing step are repeated, and a rotating sphere of a predetermined scale with a predetermined sphere radius is applied to a building figure in which the lightning protection range indicated in the instruction display is determined to be a desired one in the lightning protection range determination step. And a rotating sphere drawing step for drawing one or more.

  As a result, by applying an arc with a predetermined sphere radius to a 3D building figure, a simulation of the lightning arrester and the lightning protection range based on the rotating sphere method defined in the JIS standard is performed for the building. The lightning protection equipment having the lightning protection range based on the rotating sphere method can be set. Furthermore, by creating a drawing in which the rotating sphere is in contact with the building, it is possible to clearly display the location where the lightning of the building is protected.

  Moreover, the lightning strike protection simulation method according to claim 18 of the present invention is the lightning strike protection simulation method according to claim 16 or 17, wherein two or more lightning protections in the building figure of the perspective view with respect to the perspective view. The maximum trajectory of the rotating sphere with respect to the horizontal plane of the lightning arrester at the lower position when the rotating sphere is in contact with the equipment is displayed.

  Thereby, it can be clearly displayed that the lightning protection range has reached the shape of the corners and protrusions of the building.

  In addition, the lightning strike protection simulation method according to claim 19 of the present invention uses a CAD to provide a lightning protection equipment for the building based on the rotating sphere method, and a lightning protection range before installing the lightning protection equipment in the building. A lightning protection simulation method used at the time of design for setting the building, in which the building is called as a drawing data as a drawing data, and each element of the called building shape is set in response to an operator input. A 3D building figure creation step for creating a perspective view of a predetermined scale formed in 3D, a lightning arresting equipment drawing step for drawing a lightning arresting facility with respect to the 3D building figure by an operator input, and the lightning arresting equipment In response to an input from the operator, an arc that is a part of a rotating sphere of a predetermined scale with a predetermined sphere radius is connected to the earth and a lightning arrester, or two or more. A lightning protection range indicating arc drawing step for drawing one or a plurality of lightning protection facilities at the same time by an operator's input and indicating the lightning protection range on the building figure side of the arc, and the lightning protection range instruction A lightning protection protection range determination step for determining whether or not the arc drawn in the arc drawing step indicates and displays a desired lightning protection protection range, and a lightning protection facility having a desired lightning protection range is obtained. The lightning protection equipment drawing step and the following steps are repeated until the lightning protection protection range availability determination step shows the building figure in which the indicated lightning protection range is determined as a desired figure. A step of creating a multi-view drawing by adding at least one of a plan view and an elevation view of the figure; and A rotating sphere of a predetermined scale with a predetermined sphere radius is applied to a building graphic whose lightning protection range indicated as indicated by the group is determined to be a desired one, or a building graphic of each drawing created in the above-described multi-view drawing creation step. And a rotating sphere drawing step for drawing one or more.

  As a result, by applying an arc with a predetermined sphere radius to a 3D building figure, a simulation of the lightning arrester and the lightning protection range based on the rotating sphere method defined in the JIS standard is performed for the building. The lightning protection equipment having the lightning protection range based on the rotating sphere method can be set. Furthermore, by displaying a drawing in which the rotating sphere is in contact with the building from multiple directions, it is possible to easily confirm the location where the entire building is protected from lightning.

  Moreover, the lightning strike protection simulation method according to claim 20 of the present invention is the lightning strike protection simulation method according to claim 19, wherein the rotating sphere drawing step includes a polyhedral drawing in which the rotating sphere is drawn in each of the drawings. It is created as one drawing.

  Thereby, the lightning protection equipment and the lightning protection range of the building displayed from multiple directions can be confirmed at a glance.

  Furthermore, a lightning strike protection simulation method according to claim 21 of the present invention is the lightning strike protection simulation method according to claim 19 or 20, wherein the perspective view and / or the plan view are the perspective view and / or Alternatively, the maximum locus of the rotating sphere with respect to the horizontal plane of the lightning arrester at the lower position when the rotating sphere is in contact with two or more lightning arresters in the building figure of the plan view is displayed.

  Thereby, it can be clearly displayed that the lightning protection range has reached the shape of the corners and protrusions of the building.

  Moreover, the lightning strike protection simulation method according to claim 22 of the present invention is the lightning strike protection simulation method according to any one of claims 16 to 21, wherein the predetermined sphere radius is any of 20m, 30m, 45m, and 60m. It's something like that.

  Thereby, it is possible to set the lightning protection equipment and the lightning protection range corresponding to each of the four protection levels defined in the JIS standard.

  A lightning protection simulation method according to claim 23 of the present invention is the lightning protection simulation method according to any one of claims 16 to 22, wherein the lightning protection equipment and the lightning protection range are set. And a simulation result drawing creation step for final finishing.

  This makes it possible to easily confirm the type and installation position of lightning protection equipment, the lightning protection range, etc. of the building by performing hidden line processing on the building figures and finishing the lightning protection range with diagonal lines. it can.

  A lightning protection simulation method according to claim 24 of the present invention is the lightning protection simulation method according to claim 23, wherein the simulation result drawing creation step inserts information for the created drawing.

  Thereby, setting conditions, such as a reduced scale and a spherical body radius, the kind of lightning protection equipment of the said building, length, etc. can be displayed clearly.

  The lightning protection simulation method according to claim 25 of the present invention is the lightning protection simulation method according to claim 24, wherein the simulation result drawing creation step includes the lightning arrester and a building figure in which the lightning protection range is set. The trajectory of the circular arc drawn on and / or the rotating sphere is hidden.

  Thereby, it is possible to provide a drawing that makes it easy to see the part of the lightning protection device that overlaps with the rotating sphere and the arc line.

  The lightning strike protection simulation method according to claim 26 of the present invention is the lightning strike protection simulation method according to any one of claims 16 to 25, wherein the perspective view of the building figure is displayed from a desired viewpoint. is there.

  As a result, it is also possible to display a complex-shaped portion of the building that is difficult to see, and to clarify the lightning protection equipment and the lightning protection range of the complex-shaped portion.

  Moreover, the lightning strike protection simulation method according to claim 27 of the present invention is the lightning strike protection simulation method according to claim 26, wherein the perspective view of the building figure is changed during the drawing display in each step. It is possible.

  Thereby, even if it is a building which has the location of the complicated shape which is hard to see, the lightning protection equipment of the said whole building and the lightning protection range can be set.

  Further, the lightning strike protection simulation method according to claim 28 of the present invention is the lightning strike protection simulation method according to any one of claims 16 to 27, wherein the drawing created in each of the steps has a desired scale. It is intended.

  Thereby, the lightning protection equipment and the lightning protection range can be clarified even in a fine-shaped portion of the building.

  In addition, the lightning strike protection simulation method according to claim 29 of the present invention is the lightning strike protection simulation method according to the rotating sphere method according to claim 28, wherein the drawing created in each of the steps includes the scale of each drawing. It can be changed during the drawing display in the means.

  Thereby, even if it is a building which has the location of a fine shape, the lightning protection equipment of the whole said building, and the simulation of a lightning protection range can be performed.

  A thunderbolt protection simulation method according to a thirtieth aspect of the present invention is the lightning protection simulation method according to any of the thirteenth to thirty-ninth aspects, wherein the lightning protection simulation method according to any of the thirteenth to thirty-ninth aspects outputs the drawing created in each step as drawing data An output step is provided.

  Thereby, drawing data can be output to a printer, a storage medium, etc., and drawing data can be confirmed also in systems other than the said system.

  In addition, the lightning strike protection simulation program according to claim 31 of the present invention uses a CAD (Computer Aided Design) to install the lightning protection equipment for the building based on the rotating sphere method before installing the lightning protection equipment for the building. , And a lightning protection simulation program for use in designing to set a lightning protection range, and each element of the building figure is extracted from the building figure called as drawing data of the building according to the input of the operator. Building figure creating means for creating a perspective view of a predetermined scale formed in 3D, lightning protection equipment drawing means for drawing lightning protection equipment on the building figure made into 3D by the building figure creating means by an operator input, An arc which is a part of a rotating sphere having a predetermined sphere radius and a predetermined scale with respect to a building figure in which the lightning protection facility drawing means has drawn the lightning protection facility, Or one or a plurality of lightning protection area indicating arc drawing means for drawing and displaying the lightning protection range on the building figure side of the arc so as to be in contact with two or more lightning protection devices at the same time And a lightning protection range determination unit for determining whether or not the arc is indicating and displaying a desired lightning protection range whether or not the operator inputs a determination result.

  As a result, by applying an arc with a predetermined sphere radius to a 3D building figure, a simulation of the lightning arrester and the lightning protection range based on the rotating sphere method defined in the JIS standard is performed for the building. It is possible to provide a program capable of setting a lightning protection facility having a lightning protection range based on the rotating sphere method.

  According to a thirty-second lightning protection simulation program of the present invention, the lightning protection equipment for the building based on the rotating sphere method is used by using CAD (Computer Aided Design) prior to installing the lightning protection equipment in the building. , And a lightning protection simulation program for use in designing to set a lightning protection range, and each element of the building figure is extracted from the building figure called as drawing data of the building according to the input of the operator. Building figure creating means for creating a perspective view of a predetermined scale formed in 3D, lightning protection equipment drawing means for drawing lightning protection equipment on the building figure made into 3D by the building figure creating means by an operator input, An arc which is a part of a rotating sphere having a predetermined sphere radius and a predetermined scale with respect to a building figure in which the lightning protection facility drawing means has drawn the lightning protection facility, Or one or a plurality of lightning protection area indicating arc drawing means for drawing and displaying the lightning protection range on the building figure side of the arc so as to be in contact with two or more lightning protection devices at the same time A lightning protection range determination unit for determining whether or not the arc indicates the desired lightning protection range, and drawing the arc by the lightning protection range indicating arc drawing unit. The computer is caused to function as a rotating sphere drawing means for drawing a rotating sphere of a predetermined scale with a predetermined sphere radius for the building figure.

  As a result, by applying an arc with a predetermined sphere radius to a 3D building figure, a simulation of the lightning arrester and the lightning protection range based on the rotating sphere method defined in the JIS standard is performed for the building. The lightning protection equipment having the lightning protection range based on the rotating sphere method can be set. Furthermore, it is possible to provide a program that can create a drawing in which a rotating sphere is in contact with the building.

  According to a thirty-third lightning protection simulation program of the present invention, the lightning protection equipment for the building based on the rotating sphere method is used by using CAD (Computer Aided Design) prior to installing the lightning protection equipment in the building. , And a lightning protection simulation program for use in designing to set a lightning protection range, and each element of the building figure is extracted from the building figure called as drawing data of the building according to the input of the operator. A building figure creating means for creating a 3D perspective view at a predetermined scale; and a lightning arresting equipment drawing means for drawing a lightning arrester on the building figure made into 3D by the building figure creating means by an operator's input; An arc that is a part of a rotating sphere having a predetermined sphere radius and a predetermined scale with respect to a building figure in which the lightning arrester is drawn by the lightning arrester drawing means, Or one or a plurality of lightning protection areas indicating arcs which are drawn by an operator's input so as to be in contact with two or more lightning protection facilities at the same time, and indicate the lightning protection range on the building graphic side of the arc. A drawing means, a lightning protection range availability determination means for determining whether or not the arc indicates the desired lightning protection range, and a lightning protection range availability determination means for determining whether or not the lightning protection range availability determination means A multi-sided view for creating a multi-sided view by adding at least one of a plan view and an elevation view of the building figure to the perspective view of the building figure in which the lightning protection equipment having the lightning protection range determined to be A predetermined sphere radius with respect to the building figure in which the arc is drawn by the drawing creation means and the lightning protection range indicating arc drawing means, or the building figure drawn in each drawing created by the multi-face drawing creation means At Rotation sphere scale is intended to function and rotation sphere drawing means for drawing on a computer.

  As a result, by applying an arc with a predetermined sphere radius to a 3D building figure, a simulation of the lightning arrester and the lightning protection range based on the rotating sphere method defined in the JIS standard is performed for the building. The lightning protection equipment having the lightning protection range based on the rotating sphere method can be set. Furthermore, it is possible to provide a program that can display a drawing in which a rotating sphere is in contact with the building from multiple directions.

  A thunderbolt protection simulation program according to a thirty-fourth aspect of the present invention is the lightning protection simulation program according to the rotating sphere method according to any one of the thirty-first to thirty-third aspects, wherein the lightning arrester and the lightning protection range are set. Simulation result drawing creation means for performing the final finishing process.

  As a result, it is possible to provide a program that can perform a hidden line process of a building figure and a finish such as showing a lightning protection range by hatching.

  As described above, according to the lightning protection simulation system using the rotating sphere method according to the first aspect of the present invention, the rotating sphere method is used by using CAD (Computer Aided Design) before installing the lightning protection equipment in the building. A lightning protection simulation system used during design for setting the lightning protection equipment and lightning protection range of the building based on the above, and various drawings during or after the setting of the lightning protection equipment and the lightning protection range. Each element of the building graphic is displayed in accordance with the operator's input from the display unit for display, the operation input unit for inputting the operation command by the operator, and the building graphic called as the drawing data of the building. A lightning diagram is formed on the building graphic created in 3D by the building graphic creating means that creates a 3D perspective view at a predetermined scale and the operator's input. A lightning protection equipment drawing means for drawing the equipment, and an arc that is a part of a rotating sphere of a predetermined scale with a predetermined sphere radius with respect to the building figure in which the lightning protection equipment drawing means is drawn with the lightning protection equipment drawing means. Lightning protection that draws one or a plurality of lightning protection devices and / or lightning protection devices at the same time by an operator's input and indicates the lightning protection range on the building graphic side of the arc A range indicating arc drawing means; and a lightning protection protection range availability determining means for determining whether or not the arc drawn by the lightning protection protection range indicating arc drawing means indicates a desired lightning protection range. By applying an arc with a predetermined sphere radius to a 3D building figure, the lightning protection equipment based on the rotating sphere method defined in the JIS standard and the lightning protection range Can be performed simulation, there is an effect that it is possible to provide a system which can set a lightning protection installation with a lightning protection range based on the rotation sphere method.

  Further, according to the lightning strike protection simulation system according to claim 2 of the present invention, prior to installing a lightning protection facility in a building, CAD (Computer Aided Design) is used for the building based on the rotating sphere method. A lightning protection simulation system used at the time of designing to set a lightning protection device and a lightning protection range, a display unit for displaying various drawings during or after the setting of the lightning protection device and the lightning protection range, From the operation input part for inputting the operation command by the operator and the building graphic called as the drawing data of the building, a perspective view formed by converting each element of the building graphic into 3D according to the input of the operator , Building figure creation means created at a predetermined scale, and lightning protection equipment that draws lightning protection facilities on the building figure made 3D by the building figure creation means by the operator's input An arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale with respect to a building figure in which the lightning protection facility is drawn by the lightning protection device drawing means, A lightning protection range indicating arc drawing means for drawing one or a plurality of lightning protection facilities at the same time by an operator's input and indicating the lightning protection range on the building graphic side of the arc; A lightning protection range determination unit for determining whether or not the arc drawn by the lightning protection range indication arc drawing unit indicates and displays a desired lightning protection range, and a lightning protection range availability determination unit, And a rotating sphere drawing means for drawing a rotating sphere of a predetermined scale with a predetermined sphere radius for a building figure whose lightning protection range is determined to be a desired one. Shape By assigning a circular arc with a fixed sphere radius, it is possible to perform a simulation of the lightning protection equipment and the lightning protection range based on the rotating sphere method defined in the JIS standard for the building, based on the rotating sphere method. A lightning protection facility having a lightning protection range can be set. Furthermore, the effect which can provide the system which can display clearly the location where the lightning protection of the said building is displayed by creating the drawing which the rotating sphere touches with respect to the said building. There is.

  Moreover, according to the lightning strike protection simulation system according to claim 3 of the present invention, in the lightning strike protection simulation system according to claim 1 or 2, two or more in the building figure of the perspective view with respect to the perspective view. The maximum trajectory of the rotating sphere with respect to the horizontal surface of the lightning arrester at the lower position when the rotating sphere is in contact with the lightning arrester is displayed, so that the lightning protection range extends to the shape of the corners and protrusions of the building. There is an effect that it is possible to clearly display that

  Further, according to the lightning strike protection simulation system according to claim 4 of the present invention, prior to installing a lightning protection facility in a building, CAD (Computer Aided Design) is used for the building based on the rotating sphere method. A lightning protection simulation system used at the time of designing to set a lightning protection device and a lightning protection range, a display unit for displaying various drawings during or after the setting of the lightning protection device and the lightning protection range, From the operation input part for inputting the operation command by the operator and the building graphic called as the drawing data of the building, a perspective view formed by converting each element of the building graphic into 3D according to the input of the operator , Building figure creation means created at a predetermined scale, and lightning protection equipment that draws lightning protection facilities on the building figure made 3D by the building figure creation means by the operator's input An arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale with respect to a building figure in which the lightning protection facility is drawn by the lightning protection device drawing means, A lightning protection range indicating arc drawing means for drawing one or a plurality of lightning protection facilities at the same time by an operator's input and indicating the lightning protection range on the building graphic side of the arc; A lightning protection range determination unit for determining whether or not the arc drawn by the lightning protection range indication arc drawing unit indicates and displays a desired lightning protection range, and a lightning protection range availability determination unit, By adding at least one of a plan view and an elevation view of the building figure to the perspective view of the building figure in which the lightning protection equipment having the lightning protection range determined to be desired by the means is drawn Multi-face drawing It is drawn on the building figure that the lightning protection range is determined as desired by the multi-face drawing creation means and the lightning protection range availability judgment means, or each drawing created by the above-mentioned multi-face drawing creation means Rotating sphere drawing means for drawing a rotating sphere of a predetermined scale with a predetermined sphere radius with respect to the building figure, so that by applying an arc with a predetermined sphere radius to the 3D building figure, On the other hand, a lightning arrester based on the rotating sphere method defined by the JIS standard and a lightning protection range simulation can be performed, and a lightning arrester having a lightning protection range based on the rotating sphere method can be set. Furthermore, by displaying a drawing in which the rotating sphere is in contact with the building from multiple directions, it is possible to provide a system that can easily confirm the location where the entire building is protected from lightning. effective.

  According to the lightning strike protection simulation system according to claim 5 of the present invention, in the lightning strike protection simulation system according to claim 4, the multi-face drawing creation means displays the created multi-face drawing as one drawing. Therefore, the lightning protection equipment and the lightning protection range of the building displayed from multiple directions can be confirmed at a glance.

  According to a lightning protection simulation system according to claim 6 of the present invention, in the lightning protection simulation system according to claim 4 or 5, the perspective view and / or the plan view, And / or display the maximum trajectory of the rotating sphere with respect to the horizontal plane of the lightning arrester at the lower position when the rotating sphere is in contact with two or more lightning arresters in the building figure of the plan view. For example, it is possible to clearly indicate that the lightning protection range is reached.

  According to a lightning strike protection simulation system according to claim 7 of the present invention, in the lightning strike protection simulation system according to any one of claims 1 to 6, the predetermined spherical radius is set to 20 m, 30 m, 45 m, and 60 m. Therefore, there is an effect that it is possible to set the lightning protection equipment and the lightning protection range corresponding to each of the four protection levels defined in the JIS standard.

  According to a lightning protection simulation system according to claim 8 of the present invention, in the lightning protection simulation system according to the rotating sphere method according to any one of claims 1 to 7, the lightning protection equipment and the lightning protection range are set. The final result of the finished drawing is equipped with a simulation result drawing creation means, so the type of lightning protection equipment of the building by performing hidden line processing of the building figures and finishing the lightning protection range with diagonal lines etc. There is an effect that it is possible to create a drawing in which the installation position and the lightning protection range can be easily confirmed.

  According to the lightning protection simulation system according to claim 9 of the present invention, in the lightning protection simulation system according to claim 8, the simulation result drawing creation means is created via the operation input means. Since necessary information can be inserted into the drawing, it is possible to clearly display the setting conditions such as the scale and the sphere radius and the type and length of the lightning protection equipment of the building.

  Moreover, according to the lightning protection simulation system according to claim 10 of the present invention, in the lightning protection simulation system according to claim 8, the simulation result drawing creation means sets the lightning protection equipment and the lightning protection range. Since it is possible to select the display / non-display of the trajectory of the arc drawn on the building figure and / or the rotating sphere, the arc trajectory and / or the rotating sphere can be hidden. In addition, there is an effect that it is possible to provide a drawing in which a portion of the lightning protection device overlapping the arc line is easy to see.

  According to the lightning protection simulation system according to claim 11 of the present invention, in the lightning protection simulation system according to any one of claims 1 to 10, the perspective view of the building figure is displayed from a desired viewpoint. Therefore, it is also possible to display a complicated shape portion of the building that is difficult to see, and to clarify the lightning protection equipment and the lightning protection range of the complicated shape portion.

  According to the lightning strike protection simulation system according to claim 12 of the present invention, in the lightning strike protection simulation system according to claim 11, the perspective view of the building figure is displaying the viewpoint in the drawings of the respective means. Therefore, even if the building has a complicated shape that is difficult to see, the lightning protection equipment and the lightning protection range of the entire building can be set.

  According to a thunderbolt protection simulation system according to a thirteenth aspect of the present invention, in the thunderbolt protection simulation system according to any one of the thirteenth to thirteenth aspects, the drawing created by each of the above-mentioned means is reduced in scale. Since it was desired, there is an effect that the lightning protection equipment and the lightning protection range can be clarified even in a finely shaped part of the building.

  Further, according to the lightning strike protection simulation system according to claim 14 of the present invention, in the lightning strike protection simulation system according to the rotating sphere method according to claim 13, the drawing created by each of the above means has a reduced scale, Since it can be changed during the drawing display in each means, there is an effect that even if the building has a finely shaped part, it is possible to simulate the lightning protection equipment and the lightning protection range of the entire building.

  According to the lightning protection simulation system according to claim 15 of the present invention, in the lightning protection simulation system according to any one of claims 1 to 14, the drawing created by each of the above means is output as drawing data. Since the data output means is provided, it is possible to output the drawing data to a printer, a storage medium or the like, and there is an effect that the drawing data can be confirmed even in other systems.

  According to the lightning protection simulation method according to claim 16 of the present invention, prior to installing the lightning protection facility in the building, the lightning protection device for the building based on the rotating sphere method, and the lightning protection, using CAD. A lightning protection simulation method used at the time of design for setting a protection range, in which a building figure in which the building is drawn as drawing data is called, and the called building figure is called according to an operator input. A 3D building figure creation step for creating a perspective view of a predetermined scale formed by converting each element into 3D, and a lightning arrester drawing step for drawing a lightning arrester by an operator input on the 3D building figure, An arc that is a part of a rotating sphere of a predetermined scale with a predetermined sphere radius is applied to the earth and the lightning protection facility, or to two or more lightning protection facilities, with respect to the building figure depicting the lightning protection device. A lightning protection range instructing arc drawing step for drawing one or a plurality of the lightning protection areas on the building graphic side of the arc so as to be in contact with each other, and displaying the lightning protection range indicating the arc shape, and the lightning protection range instructing arc drawing step A lightning protection protection range determination step for determining whether or not the arc drawn in (1) indicates and displays a desired lightning protection range, and until a lightning protection facility having a desired lightning protection range is obtained. Since the lightning protection equipment drawing step and the following steps are repeated, the lightning protection equipment based on the rotating sphere method defined in the JIS standard is applied to the building by applying an arc with a predetermined sphere radius to the 3D building figure. , And to set up a lightning protection facility that can simulate the lightning protection range and has a lightning protection range based on the rotating sphere method There can be effectively.

  Further, according to the lightning strike protection simulation method of claim 17 of the present invention, prior to installing the lightning protection equipment in the building, the lightning protection equipment for the building based on the rotating sphere method, and the lightning protection, using CAD. A lightning protection simulation method used at the time of design for setting a protection range, in which a building figure in which the building is drawn as drawing data is called, and each of the called building figures is inputted according to an operator's input. A 3D building figure creating step for creating a perspective view of a predetermined scale obtained by converting the elements into 3D, a lightning arresting equipment drawing step for drawing a lightning arresting facility by an operator input on the 3D building figure, For a building figure depicting a lightning arrester, an arc that is a part of a rotating sphere of a predetermined scale with a predetermined sphere radius is connected to the ground and the lightning arrester, or to two or more lightning arresters. A lightning protection range instructing arc drawing step for drawing one or a plurality of touching objects to be in contact with an operator and indicating the lightning protection range on the building graphic side of the arc, and the lightning protection range instructing arc drawing step The lightning protection range determination step for determining whether or not the operator has input the determination result as to whether or not the arc drawn in (1) indicates and displays the desired lightning protection range, and the above lightning protection until a lightning protection device having the desired lightning protection range is obtained. The following steps after the equipment drawing step are repeated, and in the lightning protection protection range feasibility determination step, the rotating sphere of a predetermined scale with a predetermined sphere radius for the building figure whose lightning protection protection range indicated by the instruction is determined as desired. Is provided with a rotating sphere drawing step for drawing one or a plurality of objects, and by applying an arc having a predetermined sphere radius to a 3D building figure. A lightning arrester based on the rotating sphere method defined in JIS standard and a lightning protection range can be simulated for the building, and a lightning arresting facility having a lightning protection range based on the rotating sphere method is provided. Can be set. Further, by creating a drawing in which the rotating sphere is in contact with the building, there is an effect that the location where the lightning protection of the building is protected can be clearly displayed.

  Moreover, according to the lightning strike protection simulation method according to claim 18 of the present invention, in the lightning strike protection simulation method according to claim 16 or 17, in the lightning strike protection simulation method according to claim 16 or 2, two or more in the building figure of the perspective view. The maximum trajectory of the rotating sphere with respect to the horizontal surface of the lightning arrester at the lower position when the rotating sphere is in contact with the lightning arrester is displayed, so that the lightning protection range extends to the shape of the corners and protrusions of the building. There is an effect that it is possible to clearly display that

  In addition, according to the lightning protection simulation method according to claim 19 of the present invention, prior to installing a lightning protection facility in a building, the lightning protection device for the building based on the rotating sphere method, and the lightning protection, using CAD. A lightning protection simulation method used at the time of design for setting a protection range, in which a building figure in which the building is drawn as drawing data is called, and each of the called building figures is inputted according to an operator's input. A 3D building figure creating step for creating a perspective view of a predetermined scale obtained by converting the elements into 3D, a lightning arresting equipment drawing step for drawing a lightning arresting facility by an operator input on the 3D building figure, An arc that is a part of a rotating sphere of a predetermined scale with a predetermined sphere radius is input to the earth and the lightning protection facility, or 2 for the building figure depicting the lightning protection device. A lightning protection range indicating arc drawing step for drawing one or a plurality of lightning protection devices at the same time so as to be in contact with the lightning protection equipment at the same time by an operator's input and displaying the lightning protection range on the building graphic side of the arc. A lightning protection protection range determination step for determining whether or not the arc drawn in the range indication arc drawing step indicates and displays a desired lightning protection range, and a lightning protection facility having a desired lightning protection range. The lightning protection equipment drawing step is repeated until the lightning protection equipment drawing step is repeated, and the lightning protection protection range availability determination step repeats the steps shown in the lightning protection protection range to the desired figure. A step of creating a multi-view drawing including at least one of a plan view and an elevation view of the building figure; A rotating sphere of a predetermined scale with a predetermined sphere radius is applied to a building graphic in which the lightning protection range indicated by the step is determined to be a desired one or a building graphic of each drawing created in the above-described multi-view drawing creation step. And a rotating sphere drawing step for drawing one or a plurality of drawings. By applying an arc having a predetermined sphere radius to a 3D building figure, the rotating sphere defined by the JIS standard is applied to the building. The lightning protection equipment based on the law and the simulation of the lightning protection range can be performed, and the lightning protection equipment having the lightning protection range based on the rotating sphere method can be set. Furthermore, displaying the drawing in which the rotating sphere is in contact with the building from multiple directions has an effect of easily confirming the location where the entire building is protected from lightning.

  Further, according to the lightning strike protection simulation method according to claim 20 of the present invention, in the lightning strike protection simulation method according to claim 19, the rotating sphere drawing step is a multi-face diagram in which the rotating sphere is drawn in each of the drawings. Are created as one drawing, and there is an effect that the lightning protection equipment and the lightning protection range of the building displayed from multiple directions can be confirmed at a glance.

  According to a lightning strike protection simulation method according to claim 21 of the present invention, in the lightning strike protection simulation method according to claim 19 or 20, the perspective view and / or the plan view, And / or display the maximum trajectory of the rotating sphere with respect to the horizontal plane of the lightning arrester at the lower position when the rotating sphere is in contact with two or more lightning arresters in the building figure of the plan view. For example, it is possible to clearly indicate that the lightning protection range is reached.

  According to a thunderbolt protection simulation method according to claim 22 of the present invention, in the thunderbolt protection simulation method according to any of claims 16 to 21, the predetermined sphere radius is set to 20 m, 30 m, 45 m, and 60 m. Therefore, there is an effect that it is possible to set the lightning protection equipment and the lightning protection range corresponding to each of the four protection levels defined in the JIS standard.

  According to a lightning protection simulation method according to claim 23 of the present invention, in the lightning protection simulation method according to the rotating sphere method according to any of claims 16 to 22, the lightning protection equipment and the lightning protection range are set. The simulation result drawing preparation step for final finishing of the finished drawing is provided, so that the type of lightning protection equipment of the building can be determined by performing hidden line processing of the building figures and finishing the lightning protection range with diagonal lines etc. There is an effect that it is possible to create a drawing in which the installation position and the lightning protection range can be easily confirmed.

  According to a lightning protection simulation method according to claim 24 of the present invention, in the lightning protection simulation method according to claim 23, the simulation result drawing creation step inserts information for the created drawing. Therefore, there is an effect that it is possible to clearly display the setting conditions such as the scale and the sphere radius and the type and length of the lightning protection equipment of the building.

  According to the lightning protection simulation method according to claim 25 of the present invention, in the lightning protection simulation method according to claim 24, the simulation result drawing creation step sets the lightning protection equipment and the lightning protection range. Since the locus of the arc drawn on the building figure and / or the rotating sphere is hidden, there is an effect that it is possible to provide a drawing in which the rotating sphere and the portion of the lightning protection device overlapping the arc line can be easily seen. .

  Moreover, according to the lightning strike protection simulation method according to claim 26 of the present invention, in the lightning strike protection simulation method according to any one of claims 16 to 25, the perspective view of the building figure is displayed from a desired viewpoint. Therefore, it is possible to display a complicatedly shaped portion of the building that is difficult to see, and to clarify the lightning protection equipment and the lightning protection range of the complicated shape portion.

  According to a lightning strike protection simulation method according to claim 27 of the present invention, in the lightning strike protection simulation method according to claim 26, the perspective view of the building figure shows the viewpoint in the drawing display in each step. Therefore, even if the building has a complicated shape that is difficult to see, the lightning protection equipment and the lightning protection range of the entire building can be set.

  According to a lightning strike protection simulation method according to claim 28 of the present invention, in the lightning strike protection simulation method according to any one of claims 16 to 27, the drawing created in each of the above steps is reduced in scale. Since it was desired, there is an effect that the lightning protection equipment and the lightning protection range can be clarified even in a finely shaped part of the building.

  Further, according to the lightning strike protection simulation method according to claim 29 of the present invention, in the lightning strike protection simulation method according to the rotating sphere method according to claim 28, the drawing created in each of the above steps has a reduced scale, Since it can be changed during the drawing display in each means, there is an effect that even if the building has a finely shaped part, it is possible to simulate the lightning protection equipment and the lightning protection range of the entire building.

  According to a thunderbolt protection simulation method according to a thirty-third aspect of the present invention, in the thunderbolt protection simulation method according to any one of the thirteenth to thirty-ninth aspects, a drawing created in each of the above steps is output as drawing data. Since the data output step is provided, it is possible to output the drawing data to a printer, a storage medium, etc., and there is an effect that the drawing data can be confirmed even in other systems.

  According to the lightning strike protection simulation program of claim 31 of the present invention, prior to installing a lightning protection facility in a building, CAD (Computer Aided Design) is used for the building based on the rotating sphere method. A lightning protection simulation program for use in designing to set up lightning protection equipment and lightning protection range, in accordance with the operator's input, from each building figure called as drawing data of the building, Building figure creation means for creating a perspective view of a predetermined scale obtained by converting the elements into 3D, and lightning protection equipment drawing means for drawing the lightning protection equipment on the building figure that has been made into 3D by the building figure creation means in response to an operator input And an arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale with respect to a building figure in which the lightning arrester is drawn by the lightning arrester drawing means, One or a plurality of lightning protection ranges are drawn by an operator's input so as to contact with two or more lightning protection devices at the same time, and the lightning protection range on the building graphic side of the arc is indicated and displayed. Since the arc drawing means and the lightning protection protection range feasibility judgment means for judging the determination result input by the operator as to whether or not the arc indicates the desired lightning protection range are made to function as a computer, a 3D building figure By applying an arc with a predetermined sphere radius to the building, it is possible to perform a simulation of the lightning protection equipment and the lightning protection range based on the rotating sphere method defined in the JIS standard for the building. There is an effect that it is possible to provide a program capable of setting a lightning protection facility having a lightning protection range based on the above.

  According to the lightning strike protection simulation program of claim 32 of the present invention, prior to installing a lightning protection facility in a building, CAD (Computer Aided Design) is used for the building based on the rotating sphere method. A lightning protection simulation program for use in designing to set up lightning protection equipment and lightning protection range, in accordance with the operator's input, from each building figure called as drawing data of the building, Building figure creation means for creating a perspective view of a predetermined scale obtained by converting the elements into 3D, and lightning protection equipment drawing means for drawing the lightning protection equipment on the building figure that has been made into 3D by the building figure creation means in response to an operator input And an arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale with respect to a building figure in which the lightning arrester is drawn by the lightning arrester drawing means, One or a plurality of lightning protection ranges are drawn by an operator's input so as to contact with two or more lightning protection devices at the same time, and the lightning protection range on the building graphic side of the arc is indicated and displayed. The arc drawing means, the lightning protection range enable / disable judging means for discriminating the input of the judgment result by the operator as to whether or not the arc indicates the desired lightning protection range, and the lightning protection range indication arc drawing means A rotating sphere drawing means for drawing a rotating sphere of a predetermined scale with a predetermined sphere radius is made to function on the computer with respect to a building figure in which an arc is drawn, so that an arc having a predetermined sphere radius is assigned to the 3D building figure. Therefore, it is possible to perform a simulation of the lightning arrester and the lightning protection range based on the rotating sphere method defined in the JIS standard for the building. Can set the lightning protection equipment with a Zui was lightning protection range. Furthermore, there is an effect that it is possible to provide a program that can create a drawing in which a rotating sphere is in contact with the building.

  According to the lightning strike protection simulation program of claim 33 of the present invention, prior to installing a lightning protection facility in a building, CAD (Computer Aided Design) is used for the building based on the rotating sphere method. A lightning protection simulation program for use in designing to set up lightning protection equipment and lightning protection range, in accordance with the operator's input, from each building figure called as drawing data of the building, Building figure creation means for creating a 3D perspective view of the elements at a predetermined scale, and lightning protection equipment drawing for drawing lightning protection facilities on the building figure made into 3D by the building figure creation means by an operator input And an arc that is a part of a rotating sphere of a predetermined scale with a predetermined sphere radius with respect to a building figure in which the lightning protection facility is drawn by the lightning protection facility drawing means. One or a plurality of lightning protection ranges which are drawn by an operator's input so as to be in contact with the equipment or two or more lightning protection equipment at the same time, and indicate the lightning protection range on the building graphic side of the arc. A command arc drawing means, a lightning protection protection range availability judgment means for judging a judgment result input by an operator as to whether or not the arc indicates a desired lightning protection protection range, and a lightning protection protection range availability judgment means; A multi-view drawing is created by adding at least one of a plan view and an elevation view of the building figure to the perspective view of the building figure in which the lightning protection equipment having the lightning protection range determined to be the one is drawn. A predetermined figure with respect to a building figure drawn on each of the drawings created by the multi-view drawing creating means and the lightning protection range instruction arc drawing means drawn on the arc, or each drawing created by the multi-face drawing creating means Sphere half Since the rotating sphere drawing means for drawing a rotating sphere of a predetermined scale is made to function as a computer, a building having a predetermined sphere radius is assigned to a 3D building figure to determine the building in accordance with JIS standards. The lightning protection equipment based on the rotating sphere method and the lightning protection range can be simulated, and the lightning protection equipment having the lightning protection range based on the rotating sphere method can be set. Furthermore, there is an effect that it is possible to provide a program that can display a drawing in which the rotating sphere is in contact with the building from multiple directions.

  According to a thunderbolt protection simulation program according to a thirty-fourth aspect of the present invention, in the thunderbolt protection simulation program according to the rotating sphere method according to any of the thirty-first to thirty-third aspects, the lightning arrester and the thunder protection range are set. Since it has a simulation result drawing creation means for final finishing processing of the finished drawing, it is possible to provide a program that can perform hidden line processing of building figures and finishing of lightning protection range indicated by diagonal lines etc. There is.

(Embodiment 1)
FIG. 1 is a system configuration diagram for explaining a lightning protection simulation system according to Embodiment 1 of the present invention.

  In the figure, 100 indicates the design of the lightning protection equipment and the lightning protection range of the building based on the rotating sphere method using CAD (Computer Aided Design) prior to installing the lightning protection equipment in the building. 1 is a lightning protection simulation system according to Embodiment 1 of the present invention, wherein 101 is a memory functioning as a work memory, 102 is a lightning protection facility, and the building for setting a lightning protection range is converted to CAD as drawing data. A database in which various data for creating a simulation drawing such as a created building figure is recorded, 103 is an operation input unit for an operator to input an operation command with a keyboard and a mouse, 104 is a lightning protection device, and a lightning protection The display unit 105 for displaying various screen information such as a protection range setting screen, for example, prints the screen in the various screen information. Out printer, a data output unit such as a storage medium for storing the drawing data.

  106 is a control unit that includes a building figure creating means 107, a lightning protection equipment drawing means 108, a lightning protection range indicating arc drawing means 109, a lightning protection range availability determining means 110, and a rotating sphere drawing means 111, The operation of the control unit 106 is executed by a program.

  The building figure creation means 107 is a perspective view formed by converting each element of the building figure into 3D according to the input of the operator from the required building figure for setting the lightning protection equipment and the lightning protection range, which is called from the database 102. Is created with a drawing of a predetermined scale.

  The lightning arrester drawing means 108 draws the lightning arrester on the building figure created by the building figure creator 107 according to the input of the operator. As the lightning arrester, any one of the projecting needle, the horizontal conductor, and the mesh conductor is used. Draw. Note that the mesh conductor has a mesh width corresponding to the protection level as shown in FIG. 10, but may be drawn so that at least the installation location can be seen on the drawing created in the present invention. Further, the drawing of the mesh conductor may be performed during the finishing process of the drawing of the third embodiment described later.

  The lightning protection range instructing arc drawing means 109 is the protection level of the building among the protection levels defined in the JIS standard as shown in FIG. 10 for the building figure in which the lightning protection equipment is drawn by the lightning protection equipment drawing means 108. A circular arc that is a part of a rotating sphere of the same scale as the building figure is drawn with a predetermined sphere radius corresponding to the building figure, and the arc is touched to the ground and the lightning protection equipment, or to two or more lightning protection equipment at the same time. In addition, by drawing by an operator's input, it is possible to indicate and display the lightning protection range on the building graphic side of the arc locus.

  The lightning protection protection range enable / disable determination unit 110 determines whether or not the operator inputs a determination result as to whether or not the lightning protection range indicated by the lightning protection range instruction arc drawing unit 109 is a desired one.

  The rotating sphere drawing unit 111 draws a rotating sphere of the same scale with the same sphere radius as that of the arc with respect to the building figure whose lightning protection range is determined to be a desired one by the lightning protection range determination unit 110. Is.

  Next, a drawing created by each means of the lightning strike simulation system according to Embodiment 1 configured as described above will be described with reference to FIG.

  FIG. 2 shows the lightning protection simulation system according to Embodiment 1 of the present invention, which is created by each of the building graphic creation means 107, the lightning protection equipment drawing means 108, the lightning protection range indicating arc drawing means 109, and the rotating sphere drawing means 111. FIG.

  2A, 2B, 2C, and 2D show building figures created by the building figure creating means. FIG. 2A is a necessary building figure plan view 201 for setting the lightning protection equipment and the lightning protection range, which is called from the database 102, and FIG. 2B is a 3D building from the called building figure 201. FIG. 2C is a perspective view 202 for creating a figure, and FIG. 2C is a 3D building figure 203 created by giving a desired height to the perspective view 202 of FIG. FIG. 2D shows a building figure 204 with a tower created by giving a desired height to the tower floor plan 201a (shaded portion) when there is a tower in the called building figure.

  FIG. 2 (e) shows a building figure created by the lightning protection drawing means 108. The building figure 204 with a tower created by the building figure creating means 107 is added to a protruding needle 206 and a horizontal conductor (thick line portion) 207. As described above, the building figure 205 with a lightning arrester in which a desired lightning arrester is drawn by an operator input is created.

  FIG. 2 (f) shows a diagram created by the lightning protection range indicating arc drawing means 109, and the earth and lightning protection equipment in the building figure 205 with lightning protection equipment created by the lightning protection equipment drawing means 108, Alternatively, when the operator inputs a drawing position so as to be in contact with two or more lightning arresters at the same time, an arc 208 which is a part of a rotating sphere having the same scale as the building figure is drawn with a predetermined sphere radius, The lightning protection range 209 on the building graphic side of the arc 208 is indicated and displayed. In the first embodiment, the lightning protection range is indicated by a slanted line such as 209, but the presence or absence of the slanted line may be any as long as the operator can confirm the lightning protection range.

  FIG. 2 (g) shows a rotation with respect to a building figure in which the lightning protection range instructed by the lightning protection range instructing arc drawing unit 109 is determined to be a desired one. FIG. 9 shows a drawing of a rotating sphere drawn by the sphere drawing means 111, and a rotating sphere 211 having the same scale as the arc 208 drawn by the lightning protection range indicating arc drawing means 109 and the same scale, but the operator's request. FIG. At this time, a part of the plurality of rotating spheres to be drawn on the building figure may be drawn by the arc 208, thereby making it easy to see the lightning protection equipment and the lightning protection range of the building figure. Also, 210 shown in FIGS. 2 (f) and 2 (g) is a locus of a point where the rotating sphere 211 is in contact with the ground.

  Further, in FIGS. 2 (f) and 2 (g), as will be described later in the second embodiment, when the rotating sphere is applied so as to be in contact with two lightning arresters at the same time, the rotation with respect to the horizontal portion of the lightning arrester at a low position is performed. It is also possible to display the maximum trajectory of the sphere, whereby it is possible to clearly display whether the lightning protection range is covered in that part with respect to the corners and protrusions of the building.

  Next, a method of creating a simulation drawing performed by each means in the lightning strike protection simulation system according to Embodiment 1 of the present invention as described above will be described with reference to the flowchart of FIG.

  Each step described below is performed when an operator operates and inputs information on the operation input unit 103 while viewing a display screen such as a building graphic displayed on the display unit 104.

  As a building figure creation step, first, in step S301, a drawing scale is set. If printing of various drawings is required, the paper size is set, and a desired scale and a desired paper size are set. In step S302, a required building graphic is called out from the drawing data stored in the database 102, and the building graphic called in to set the lightning protection equipment and the lightning protection range is displayed on the display unit 104. In step S303, the height of the building figure called in step S302 is set and a 3D perspective view of the building figure is created. In step S304, it is confirmed whether or not there is a tower on the roof of the called building figure. If there is a tower, the process proceeds to step S305. If there is no tower, the process proceeds to step S306. In step S305, as in step S303, the height of the tower figure is set and a building figure with a tower is created.

  As a lightning arrester drawing step, in step S306, any one of a lightning arrester, a horizontal conductor, and a mesh conductor is drawn at a desired location of the 3D building figure created in the building figure creating step.

  As a lightning protection protection range designating arc drawing step, in step S307, a protection level (sphere radius) corresponding to the building from each of the sphere radii 20m, 30m, 45m, 60m corresponding to the four types of protection levels based on JIS standards. ) Is set. In step S308, the sphere radius set in step S307 so that the building graphic in which the lightning protection device is drawn in step S306 is in contact with the ground and the lightning protection device in the building graphic or simultaneously with two or more lightning protection devices, Then, by drawing an arc that is a part of the scaled sphere set in step S301, the lightning protection range on the building graphic side of the arc is indicated and displayed. In the first embodiment, the protection level is set in step S307, but it may be set in the steps up to the previous stage.

  In step S309, whether or not the lightning protection area and the lightning protection range displayed in step S308 are desired, that is, whether or not the entire building graphic is protected against lightning. The determination input by the operator is discriminated. If the lightning protection equipment and the lightning protection range are desired, the process proceeds to step S310. If the lightning protection equipment and the lightning protection range are not desired, the process returns to step S306. Reset (redraw) the installation position and length of the lightning protection equipment.

  As a rotating sphere drawing step, in step S310, when the lightning protection facility and the lightning protection range are determined as desired in the lightning protection range determination step, the desired figure of the lightning protection device and the lightning protection range are obtained. On the other hand, if the operator selects whether or not to draw the rotating sphere and does not draw the rotating sphere, the process ends, and if it is selected to draw the rotating sphere, the process proceeds to step S311 and is converted to 3D. A rotating sphere is drawn with respect to the building figure in the perspective view on which the building figure is displayed so as to be in contact with the ground and the lightning arresting equipment in the building figure or two or more lightning arresting equipment simultaneously.

  Next, in the lightning strike protection simulation system based on the rotating sphere method according to the first embodiment, an operation for setting the lightning protection equipment and the lightning protection range based on the rotating sphere method will be described with reference to FIGS. .

  First, when creating a new drawing, the operator sets a paper size and a drawing scale (step S301), and calls a building figure 201 for setting a lightning protection range and a lightning protection facility from the database 102 (step S302). Then, a perspective view such as a building figure 202 is created from the called building figure 201, the height of the building figure 202 is set by an operator input, and the called building figure 201 is converted into a 3D building. The figure 203 is created (step S303). Also, the operator checks whether or not there is a tower in the called building graphic 201 (step S304). If there is a tower, the height of the tower plan 201a is set on the 3D building graphic 203 by the operator's input. Then, the building figure 204 with a tower is created (step S305).

  Next, the building figure 205 with a lightning arrester is created in which the lightning arrester 206 and the horizontal conductor 207 are drawn on the 3D building figure 203 or the building figure 204 with a tower by an operator's input (step S306). Then, among the four types of protection levels defined in the JIS standard, the protection level of the building is set by the operator (step S307), and the arc 208 having a sphere radius corresponding to the set protection level is set to the earth. The lightning protection range 209 is displayed by drawing at a desired location by an operator input so as to contact with the lightning protection device or two or more lightning protection devices at the same time (step S308). Then, the operator checks whether or not the lightning protection equipment and the lightning protection range are desired (step S309). If the lightning protection equipment and the lightning protection range are desired, the lightning protection equipment and the lightning protection Complete the protection range setting. At this time, if the lightning protection equipment and the lightning protection range are not desired, the process returns to step S306 and the lightning protection equipment is set again. Thus, step S306 to step S309 are repeatedly performed until a desired lightning arrester and a lightning protection range can be set.

  Next, after completing the setting of the desired lightning protection equipment and the lightning protection range in step S309, the operator selects whether or not to draw a rotating sphere on the building figure 205 in which the lightning protection equipment and the lightning protection range are set ( In step S310), if it is selected to draw a rotating sphere, the rotating sphere 211 is drawn on the building figure 205 (step S311), and if the rotating sphere is not drawn, the process ends.

  By performing the above operation, a desired lightning protection range and lightning protection equipment for the building can be obtained. In addition, when outputting drawing data created by the above steps, such as during printing, the data is output to the data output unit 105 as needed.

  In the lightning protection simulation system according to Embodiment 1 of the present invention, the 3D building figure can be created from an arbitrary viewpoint, and the viewpoint may be changed during the simulation. The lightning protection equipment and the lightning protection range can be set and confirmed from the viewpoint, and the lightning protection equipment and the lightning protection range of the entire building can be clarified.

  In addition, the scale of the drawing is desired, and the scale may be changed during the simulation, so that it is possible to easily set the lightning protection equipment and the lightning protection range even in the invisible details of the building. .

  The lightning protection simulation system according to the rotating sphere method according to the first embodiment of the present invention as described above creates a 3D building figure from the called floor plan building figure, and rotates the entire building figure with a predetermined sphere radius. Since the arc that is a part of the sphere can be drawn, it is possible to simulate the lightning protection equipment and the lightning protection range of the entire building based on the rotating sphere method, and the lightning protection equipment and lightning protection of the whole building. The effect that the protection range can be clarified is obtained.

  In addition, since a rotating sphere having a predetermined sphere radius can be drawn on the entire 3D building figure, a simulation drawing in which the rotating sphere is in contact with the building can be created.

(Embodiment 2)
The lightning protection simulation system according to Embodiment 2 of the present invention is based on the lightning protection simulation of Embodiment 1 in order to clarify the lightning protection equipment and the lightning protection range of the building based on the rotating sphere method from multiple directions. A multi-view drawing creating means for creating a multi-view drawing in which at least one elevation and plan views are added to a perspective view of a building figure created by the system is provided.

  Hereinafter, a lightning protection simulation system according to Embodiment 2 of the present invention will be described with reference to FIGS. Only portions different from the first embodiment will be described.

  FIG. 4 is a block diagram showing a configuration of a lightning protection simulation system according to Embodiment 2 of the present invention.

  In the figure, reference numeral 406 denotes a lightning protection range by a building figure creation means 407, a lightning protection equipment drawing means 408, a lightning protection range indicating arc drawing means 409, a lightning protection range availability judgment means 410, and a lightning protection range availability judgment means 410. A multi-view drawing creation means 411 for creating a multi-view drawing obtained by adding at least one plan view and an elevation view of the building figure to the perspective view of the building figure determined to be desired, and a lightning protection range The lightning protection range indicating arc drawing means 409 is applied to the building figure whose lightning protection range is determined to be the desired one by the availability determination means 410 or each building figure of each drawing created by the multi-view drawing creation means 411. And a rotating sphere drawing unit 412 for drawing a rotating sphere having the same arc, radius and scale as described above. The operation of the control unit 406 is executed by a program. That.

  Next, each drawing of the multi-face drawing in which the rotating sphere is drawn, which is created by the multi-face drawing creating means 411 and the rotating sphere drawing means 412 in the second embodiment, will be described with reference to FIGS. .

  First, FIG. 5 is an elevational view of the building figure 205 of FIG. In the figure, reference numeral 501 denotes a building figure viewed from the direction A in FIG. 2G, and 502 denotes a rotating sphere of the same scale as the building figure with a predetermined sphere radius applied to the building figure 501. And as a lightning protection equipment, a needle 503 and a horizontal conductor (thick line portion) 504 are drawn. At this time, the rotating sphere 502 is drawn so as to be in contact with the ground GL (Ground Line) and the lightning arresting equipment, or simultaneously with two or more lightning arresting equipment, and the lightning protection range 505 in the elevation view is displayed. ing.

  Next, FIG. 6 is an elevation view of the building figure of FIG. In the figure, reference numeral 601 denotes a building figure of the building figure of FIG. 2G viewed from the B direction, and reference numeral 602 denotes a rotating sphere of the same scale as the building figure with a predetermined sphere radius applied to the building figure 601. As a lightning protection device, a needle 603 and a horizontal conductor (thick line portion) 604 are drawn. At this time, the rotating sphere 602 is drawn so as to be in contact with the earth GL and the lightning arresting equipment or simultaneously with two or more lightning arresting equipment, and the lightning protection range 605 in the elevation view is displayed.

  Next, FIG. 7 is a plan view of FIG. In the figure, 701 is a building figure when the building figure of FIG. 2 (g) is seen from directly above, 702 is a trajectory of a point where a rotating sphere touching the earth and the lightning arrester simultaneously touches the earth, and 703 This is the maximum trajectory of the rotating sphere with respect to the horizontal portion of the lightning arrester at a lower position when the rotating sphere is applied to two lightning arresters at the same time. In addition, as a lightning protection facility, a projecting needle 704 and a horizontal conductor (thick line portion) 705 are drawn.

  The presence or absence of the display of the maximum trajectory 703 of the rotating sphere is arbitrarily determined by the operator. It is possible to clearly display whether the lightning protection range is covered.

  In the second embodiment, the maximum trajectory 703 of the rotating sphere is displayed on the plan view of the building figure, but can be displayed on the perspective view of the building figure during or after the lightning protection range is set. It is possible to confirm at the simulation stage whether or not the lightning protection range is covered in the corners or protrusions of the building.

  FIG. 8 is a diagram illustrating an example in which a perspective view in a different direction from the perspective view is added to the perspective view used in the simulation. 8A is a perspective view of the building figure of FIG. 2G viewed from the C direction, and FIG. 8B is a perspective view of the same building figure as FIG. 2G. is there. 8A and 8B, reference numeral 801 denotes a 3D building figure, and reference numeral 802 denotes a rotating sphere of the same scale as the building figure with a predetermined sphere radius assigned to the building figure 801. Is an arc that is a part of the rotating sphere 802. As a lightning protection facility, a needle 804 and a horizontal conductor (thick line portion) 805 are drawn. At this time, the rotating sphere 802 and the arc 803 are drawn so as to be in contact with the ground and the lightning protection equipment, or simultaneously with two or more lightning protection equipment, and the lightning protection range 806 is indicated and displayed.

  In addition, although the perspective view from two directions was shown in FIG. 8, only one direction may be sufficient and there is no restriction | limiting in the number.

Next, the operation of the lightning strike protection simulation system according to the second embodiment will be described using the flowchart of FIG.
Steps S910 up to step S910 are the same as in the first embodiment, and a description thereof will be omitted.

  In the figure, if it is selected by the operator to draw a rotating sphere in step S910, it is determined in step S911 whether or not to display a multi-face drawing by the operator, and if multi-face drawing is to be displayed, go to step S913. Proceeding to create a multi-view figure by adding at least one elevation and plan view to the perspective view created up to step S909, and to each building figure in each drawing of the multi-view with a predetermined sphere radius A rotating sphere of a predetermined scale is drawn. If the multi-view is not displayed, the process proceeds to step S912, and a rotating sphere having a predetermined sphere radius is drawn on the perspective view.

  Further, when outputting drawing data created by the above steps, such as during printing, the data is output to the data output unit 405 as needed.

  As described above, the lightning strike protection simulation system according to Embodiment 2 of the present invention creates a multi-view drawing obtained by adding at least one elevation view and a plan view to a perspective view of a 3D building figure. Since the rotating sphere having a predetermined sphere radius is drawn on the building figure of each drawing of the multi-face drawing, the effect of the first embodiment is obtained and the lightning protection range of the building is clearly displayed from multiple directions. The effect which can be done is acquired.

  In addition, in this Embodiment 2, although the multi-view which consists of a perspective view, an elevation view, and a top view was each displayed individually, this multi-view can also be displayed on one drawing, Thereby, the said building The lightning protection equipment and the lightning protection range can be confirmed at a glance from multiple directions.

  Further, in the second embodiment, although shown in a five-face view including an elevation view 2, a plan view 1, and a perspective view 2, the present invention is not limited to this.

(Embodiment 3)
The lightning strike protection simulation system according to Embodiment 3 of the present invention is the same as that of Embodiment 1 or 2 in order to create a drawing in which the type, installation position, lightning protection range, etc. of the lightning protection facility of the building can be easily confirmed. The lightning strike protection simulation system includes simulation result drawing creation means capable of finishing processing such as hidden line processing of a building figure and oblique line display of a lightning protection range using an operation input means.

  A lightning protection simulation system according to the third embodiment will be described with reference to FIGS. In the third embodiment, an example will be described in which the finishing process of the drawing created by the lightning protection simulation system according to the second embodiment is performed.

  FIG. 10 is a block diagram showing a configuration of a lightning strike protection simulation system according to the third embodiment of the present invention. Only parts different from the first and second embodiments will be described.

  In the figure, reference numeral 1006 denotes a building figure creating means 1007, a lightning protection equipment drawing means 1008, a lightning protection range indicating arc drawing means 1009, a lightning protection protection range availability judging means 1010, a multi-face drawing creation means 1011 and a rotating sphere drawing means. 1012 and a perspective view of a building figure whose lightning protection range is determined to be desired by the lightning protection range determination unit 1010, a drawing of a rotating sphere on the perspective view, or a drawing of a rotating sphere on a multifaceted view On the other hand, the simulation result drawing that performs the hidden line processing of the building figure and the oblique line display of the lightning protection range, etc., by the operator's input, enables the insertion of characters, leader lines, etc., and finishes the final drawing The control unit includes a creating unit 1013. The operation of the control unit 1006 is executed by a program.

  Next, an example of the drawing finishing process by the simulation result drawing creating means will be described with reference to FIG.

  FIG. 11 is a diagram for explaining the finishing process by the simulation result drawing creating means.

  5 is an elevation view shown in FIG. 5, a building figure 501 in which the building figure of FIG. 2G is viewed from the A direction, and an elevation view shown in FIG. FIG. 8 is a building figure 601 when the building figure is viewed from the B direction, and a plan view shown in FIG. 7, a building figure 701 when the building figure of FIG. 2G is seen from directly above, and a perspective view shown in FIG. 8. Yes, a 3D building figure 801 viewed from two directions is displayed in one drawing.

  Then, information on each drawing is inserted into the drawing as a simulation result by the operator using ruled lines, lead lines, etc. with respect to the above drawing, and finally the hidden line processing etc. of each drawing is performed. A drawing to finish is created. For example, the dimensions, direction, sphere radius, scale, etc. of the building are inserted into a desired location in the figure, and as shown in the figure, the lead wire 1101 is inserted into the lightning protection equipment, the lightning protection range, etc. On the line 1101, enter the name and the like so that the type and installation position of the lightning protection equipment, the location of the lightning protection range, etc. are clear. At this time, for example, using the ruled line 1102 or the like, the type of drawing, the direction of the building, the dimensions, etc. are entered in the frame. In addition, a ruled line such as 1103 is provided, and a part of the protection level applied to the building is extracted from the protection level table as shown in FIG. 14 in the frame, and remarks such as setting conditions are described. It may be. Further, when a mesh conductor is required for the building, the mesh conductor 1104 is drawn at a location that is not protected from lightning by an operator input.

Next, the operation of the lightning protection simulation system according to Embodiment 3 of the present invention will be described.
Steps S1209 up to step S1209 are the same as those in the first and second embodiments, and a description thereof will be omitted.

  First, when it is determined in step S1210 that the operator does not draw the rotating sphere, the process proceeds to step S1214, where the operator selects whether to create a simulation result drawing in which information on the drawing is inserted, and the simulation result drawing. Is created using the operation input unit 1003 in step S1215, and if the simulation result drawing is not created, the process ends.

  If it is determined in step S1210 that the operator draws a rotating sphere, it is determined in step S1211 whether or not a multi-face drawing is displayed by the operator. If a multi-face drawing is displayed, the process advances to step S1213. Then, a polyhedral view is created by adding at least one elevation view and a plan view to the perspective view created up to step S1209, and each building figure in each drawing of the polyhedral view is predetermined with a predetermined sphere radius. In step S1215, the operator selects whether to create a simulation result drawing in which information or the like for the drawing is inserted and creates a simulation result drawing in step S1215. When drawing finishing processing is performed using the operation input unit 1003 and a simulation result drawing is not created, processing is performed as it is. To the end.

  If the step polyhedron view is not displayed in step S1211, the process proceeds to step S1212 to draw a rotating sphere having a predetermined sphere radius in the perspective view, and in step S1214, a simulation result drawing in which information on the drawing is inserted is displayed. If the operator selects whether or not to create a simulation result drawing, the drawing finishing process is performed using the operation input unit 1003 in step S1215. If the simulation result drawing is not created, the processing is performed as it is. Exit.

  In addition, when outputting drawing data created by the above steps, such as during printing, the data is output to the data output unit 105 as needed.

  As a result, by creating a drawing with hidden line processing for each drawing and inserting information on the drawing, a drawing that allows easy confirmation of the type of lightning protection equipment in the building, the installation position, the lightning protection range, etc. Can do.

  It should be noted that the contents of the information described in the drawing as the simulation result drawing or the presence or absence of the description may be as desired by the operator, and the ruled lines, lead lines, etc. may be as desired by the operator.

  In addition, the rotating spheres drawn on each building figure and the arc line may be hidden, and in particular, it is possible to provide a drawing in which the rotating sphere and the part of the lightning protection device overlapping the arc line are easy to see. it can.

  In the third embodiment, the mesh conductor is drawn during the finishing process. However, the mesh conductor may be drawn during the simulation.

  As described above, the lightning protection simulation system according to the third embodiment of the present invention includes a simulation result drawing creation means for performing final finishing processing of a drawing in which a lightning arrester having a desired lightning protection range can be obtained. Since it has the effect of Embodiment 1 or 2, while having the effect of creating a drawing that allows easy confirmation of the type and installation position of the lightning protection equipment of the building based on the rotating sphere method, the lightning protection range, etc. Can be obtained.

  As described above, the lightning protection simulation system, the lightning protection simulation method, and the lightning protection simulation program according to the present invention provide the type and scale of the lightning protection equipment prior to the installation of the lightning protection equipment for protecting buildings and the like from lightning strikes. This setting is useful when designing the above, and in particular, setting of lightning protection equipment and lightning protection range based on the rotating sphere method stipulated in "JIS-A-4201 lightning protection for buildings, etc." Suitable for

1 is a system configuration diagram illustrating a lightning strike protection simulation system according to a first embodiment of the present invention. It is a building figure top view drawn from the database. It is a perspective view for creating the 3D building figure from the building figure plan view. It is a 3D building figure created by the building figure creating means. It is a building figure with towers created by the building figure creation means. It is a building figure with a lightning protection created by a lightning protection equipment drawing means. It is a building figure in which a lightning protection protection range indicating arc having a predetermined sphere radius and scale created by the lightning protection range indicating arc drawing means is drawn. It is a building figure in which a rotating sphere of a predetermined sphere radius and scale created by rotating sphere drawing means is drawn. It is a flowchart for demonstrating the method of setting the lightning protection equipment and the lightning protection range of the said building based on the rotating sphere method in the lightning strike protection simulation system which concerns on Embodiment 1 of this invention. It is a system block diagram which shows the lightning strike protection simulation system which concerns on Embodiment 2 of this invention. It is the elevation seen from the A direction of Drawing 2 (g) created by the polyhedral drawing creation means. It is the elevation seen from the B direction of Drawing 2 (g) created by the polyhedral drawing creation means. It is the top view of FIG.2 (g) created with the polyhedral drawing creation means. It is the perspective view seen from the C direction of FIG.2 (g) created with a polyhedral drawing creation means. It is a perspective view of FIG.2 (g) displayed by a polyhedral drawing creation means. It is a flowchart for demonstrating the method of setting the lightning protection equipment and the lightning protection range of the said building based on the rotating sphere method in the lightning strike protection simulation system which concerns on Embodiment 2 of this invention. It is a system block diagram which shows the lightning strike protection simulation system which concerns on Embodiment 3 of this invention. It is a figure for demonstrating the example which finishes drawing in a simulation result drawing creation means. It is a flowchart for demonstrating the method of setting the lightning protection equipment of the said building based on the rotating ball method in the lightning strike protection simulation system which concerns on Embodiment 3 of this invention, and a lightning protection range. It is a figure for demonstrating the rotation sphere method. It is a conformity table for installing lightning protection equipment according to the protection level defined in JIS standards.

Explanation of symbols

100, 400, 1000 Lightning protection simulation system 101, 401, 1001 Memory 102, 402, 1002 Database 103, 403, 1003 Operation input unit 104, 404, 1004 Display unit 105, 405, 1005 Data output unit 106, 406, 1006 Control Part 107, 407, 1007 Building figure creation means 108, 408, 1008 Lightning protection equipment drawing means 109, 409, 1009 Lightning protection range instruction arc drawing means 110, 410, 1010 Lightning protection range availability judgment means 111, 412, 1012 Rotating sphere drawing Means 112 Simulation Result Drawing Creating Means 201 Lightning Arrangement and Building Graphic for Setting Lightning Protection Range 201a Tower Plan Plan 202 Perspective View of Building Graphic 201 203 3D Building Graphic 204 Building with Tower Figure 205 Building figure with lightning protection facilities 206, 503, 603, 704, 804 Projection needles 207, 504, 604, 705, 805 Horizontal conductor 208, 803 Arc 209, 505, 605, 806 Lightning protection range 210 , 702 Trajectory of the point where the rotating sphere touches the ground 211, 502, 602, 802 Rotating sphere 411 Multi-face drawing creation means 501 Building figure viewed from the A direction in FIG. 2 (g) 601 Viewed from the B direction in FIG. 2 (g) Building shape 701 Building shape seen from right above FIG. 2 (g) 703 Maximum trajectory of the rotating sphere with respect to the horizontal part of the lightning arrester at a lower position when the rotating sphere touches the two lightning arresters at the same time 801 3D building figure 1013 Simulation result drawing creation means 1101 Lead line 1102, 1103 Ruled line 1104 Mesh conductor

Claims (34)

Lightning protection simulation to be used at the time of designing to set the lightning protection equipment and lightning protection range of the building based on the rotating sphere method using CAD (Computer Aided Design) before installing the lightning protection equipment in the building A system,
A display unit for displaying various drawings during or after setting of the lightning protection equipment and the lightning protection range;
An operation input unit for inputting an operation command by an operator;
A building figure creating means for creating a perspective view of each element of the building figure in 3D according to an input from the building figure called as the drawing data of the building at a predetermined scale;
A lightning arrester drawing means for drawing a lightning arrester on a building figure that has been made into 3D by the building figure creating means, according to an operator's input;
With respect to the building figure in which the lightning protection equipment is drawn by the lightning protection equipment drawing means, an arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale is formed on the ground and the lightning protection equipment, or two or more A lightning protection range indicating arc drawing means for drawing one or a plurality of lightning protection facilities at the same time by an operator's input and indicating the lightning protection range on the building graphic side of the arc;
A lightning protection protection range availability determining means for determining whether or not the arc drawn by the lightning protection protection range indicating arc drawing means indicates a desired lightning protection protection range and whether or not a judgment result is input by an operator.
Lightning protection simulation system characterized by that. Lightning protection simulation to be used at the time of designing to set the lightning protection equipment and lightning protection range of the building based on the rotating sphere method using CAD (Computer Aided Design) before installing the lightning protection equipment in the building A system,
A display unit for displaying various drawings during or after setting of the lightning protection equipment and the lightning protection range;
An operation input unit for inputting an operation command by an operator;
A building figure creating means for creating a perspective view of each element of the building figure in 3D according to an input from the building figure called as the drawing data of the building at a predetermined scale;
A lightning arrester drawing means for drawing a lightning arrester on a building figure that has been made into 3D by the building figure creating means, according to an operator's input;
With respect to the building figure in which the lightning protection equipment is drawn by the lightning protection equipment drawing means, an arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale is formed on the ground and the lightning protection equipment, or two or more A lightning protection range indicating arc drawing means for drawing one or a plurality of lightning protection facilities at the same time by an operator's input and indicating the lightning protection range on the building graphic side of the arc;
A lightning protection protection range availability determining means for determining a determination result input by an operator as to whether or not the arc drawn by the lightning protection protection range indicating arc drawing means indicates and displays a desired lightning protection protection range;
Rotating sphere drawing means for drawing a rotating sphere of a predetermined scale with a predetermined sphere radius for a building figure whose lightning protection range is determined to be desired by the lightning protection range determination unit. ,
Lightning protection simulation system characterized by that. In the lightning strike protection simulation system according to claim 1 or 2,
Displaying the maximum trajectory of the rotating sphere with respect to the horizontal plane of the lightning arrester at the lower position when the rotating sphere touches two or more lightning arresters in the building figure of the perspective view with respect to the perspective view;
Lightning protection simulation system characterized by that. Lightning protection simulation to be used at the time of designing to set the lightning protection equipment and lightning protection range of the building based on the rotating sphere method using CAD (Computer Aided Design) before installing the lightning protection equipment in the building A system,
Display means for displaying various drawings during or after setting the lightning protection equipment and the lightning protection range;
Operation input means for inputting an operation command by an operator;
A building figure creating means for creating a perspective view of each element of the building figure in 3D according to an input from the building figure called as the drawing data of the building at a predetermined scale;
A lightning arrester drawing means for drawing a lightning arrester on a building figure that has been made into 3D by the building figure creating means, according to an operator's input;
With respect to the building figure in which the lightning protection equipment is drawn by the lightning protection equipment drawing means, an arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale is formed on the ground and the lightning protection equipment, or two or more A lightning protection range indicating arc drawing means for drawing one or a plurality of lightning protection facilities at the same time by an operator's input and indicating the lightning protection range on the building graphic side of the arc;
A lightning protection protection range availability determining means for determining a determination result input by an operator as to whether or not the arc drawn by the lightning protection protection range indicating arc drawing means indicates and displays a desired lightning protection protection range;
In the perspective view of the building graphic in which the lightning protection equipment having the lightning protection range determined to be desired by the lightning protection range determination unit, the plan view of the building graphic, and at least the elevation view A multi-view drawing creation means for creating a multi-view drawing by adding one;
With respect to the building figure in which the lightning protection range is determined to be desired by the lightning protection range determination unit or the building figure drawn on each drawing created by the multi-face drawing creation unit, a predetermined Rotating sphere drawing means for drawing a rotating sphere of a predetermined scale with a sphere radius,
Lightning protection simulation system characterized by that. In the lightning protection simulation system according to claim 4,
The multi-face drawing creation means displays the created multi-face drawing as one drawing.
Lightning protection simulation system characterized by that. In the lightning strike protection simulation system according to claim 4 or 5,
With respect to the perspective view and / or plan view, the rotation relative to the horizontal plane of the lightning arrester at the lower position when the rotating sphere is in contact with two or more lightning arresters in the building diagram of the perspective view and / or plan view Display the maximum trajectory of the sphere,
Lightning protection simulation system characterized by that. The lightning protection simulation system according to any one of claims 1 to 6,
The predetermined sphere radius is any one of 20 m, 30 m, 45 m, and 60 m.
Lightning protection simulation system characterized by that. In the lightning strike protection simulation system by the rotating sphere method according to any one of claims 1 to 7,
A simulation result drawing creation means for performing final finishing processing of the drawing in which the lightning protection equipment and the lightning protection range are set,
Lightning protection simulation system characterized by that. The lightning strike protection simulation system according to claim 8,
The simulation result drawing creation means can insert required information into the created drawing via the operation input means.
Lightning protection simulation system characterized by that. The lightning strike protection simulation system according to claim 8,
The simulation result drawing creation means can select the display / non-display of the trajectory of the arc drawn on the figure of the building set with the lightning protection equipment and the lightning protection range, and / or the rotating sphere,
Lightning protection simulation system based on the rotating sphere method. In the lightning strike protection simulation system according to any one of claims 1 to 10,
The perspective view of the building figure is displayed from a desired viewpoint.
Lightning protection simulation system characterized by that. In the lightning strike protection simulation system according to claim 11,
In the perspective view of the building figure, the viewpoint can be changed during the drawing display in each of the above means.
Lightning protection simulation system characterized by that. The lightning strike protection simulation system according to any one of claims 1 to 12,
The drawings created by each of the above means have the desired scale.
Lightning protection simulation system characterized by that. In the lightning strike protection simulation system by the rotating sphere method according to claim 13,
The drawings created by the above means can be changed in scale while the drawings are displayed in the respective means.
Lightning protection simulation system characterized by that. The lightning protection simulation system according to any one of claims 1 to 14,
A data output means for outputting the drawing created by each means as drawing data;
Lightning protection simulation system characterized by that. Before installing lightning protection equipment in a building, it is a lightning protection simulation method used at the time of designing to set the lightning protection equipment of the building based on the rotating sphere method and the lightning protection range using CAD.
A 3D building that calls a building figure in which the building is drawn as drawing data and creates a perspective view of a predetermined scale formed by converting each element of the called building figure into a 3D according to the input of the operator Drawing step,
A lightning protection equipment drawing step for drawing the lightning protection equipment by the operator's input on the 3D building figure,
A circular arc, which is a part of a rotating sphere having a predetermined sphere radius and a predetermined scale, is touched to the ground and the lightning protection facility or to two or more lightning protection devices at the same time with respect to the building figure depicting the lightning protection device. A lightning protection range indicating arc drawing step that draws one or a plurality of lightning protection ranges that are drawn by an operator's input and that indicates the lightning protection range on the building graphic side of the arc;
A lightning protection protection range availability determination step for determining whether or not the arc drawn in the lightning protection protection range instruction arc drawing step indicates a desired lightning protection protection range, and whether or not a judgment result is input by an operator,
Repeat the steps below the lightning protection equipment drawing step until obtaining a lightning protection equipment having a desired lightning protection range,
A lightning protection simulation method characterized by the above. Before installing lightning protection equipment in a building, it is a lightning protection simulation method used at the time of designing to set the lightning protection equipment of the building based on the rotating sphere method and the lightning protection range using CAD.
A 3D building figure that calls a building figure in which the building is drawn as drawing data, and creates a perspective view of a predetermined scale obtained by converting each element of the called building figure into a 3D according to the input of the operator Creation steps,
A lightning protection equipment drawing step for drawing the lightning protection equipment by the operator's input on the 3D building figure,
A circular arc, which is a part of a rotating sphere having a predetermined sphere radius and a predetermined scale, is touched to the ground and the lightning protection facility or to two or more lightning protection devices at the same time with respect to the building figure depicting the lightning protection device. A lightning protection range indicating arc drawing step that draws one or a plurality of lightning protection ranges that are drawn by an operator's input and that indicates the lightning protection range on the building graphic side of the arc;
A lightning protection protection range feasibility determination step for determining whether or not the arc drawn in the lightning protection protection range instruction arc drawing step indicates the desired lightning protection protection range;
The steps after the lightning protection equipment drawing step are repeated until a lightning protection equipment having a desired lightning protection range is obtained, and in the lightning protection range availability determination step, the indicated lightning protection range is determined to be a desired building figure. On the other hand, a rotating sphere drawing step for drawing one or a plurality of rotating spheres of a predetermined scale with a predetermined sphere radius,
A lightning protection simulation method characterized by the above. In the lightning strike protection simulation method according to claim 16 or 17,
Displaying the maximum trajectory of the rotating sphere with respect to the horizontal plane of the lightning arrester at the lower position when the rotating sphere touches two or more lightning arresters in the building figure of the perspective view with respect to the perspective view;
A lightning protection simulation method characterized by the above. Before installing lightning protection equipment in a building, it is a lightning protection simulation method used at the time of designing to set the lightning protection equipment of the building based on the rotating sphere method and the lightning protection range using CAD.
A 3D building figure that calls a building figure in which the building is drawn as drawing data, and creates a perspective view of a predetermined scale obtained by converting each element of the called building figure into a 3D according to the input of the operator Creation steps,
A lightning protection equipment drawing step for drawing the lightning protection equipment by the operator's input on the 3D building figure,
An arc that is a part of a rotating sphere of a predetermined scale with a predetermined sphere radius is formed on the ground and the lightning protection facility, or two or more lightning protection devices are drawn on the building figure depicting the lightning protection device. A lightning protection range indicating arc drawing step that draws one or more so as to be in contact with the facility at the same time by an operator's input, and displays the lightning protection range on the building graphic side of the arc.
A lightning protection protection range feasibility determination step for determining whether or not the arc drawn in the lightning protection protection range instruction arc drawing step indicates the desired lightning protection protection range;
Steps after the lightning protection equipment drawing step are repeated until a lightning protection equipment having the desired lightning protection range is obtained, and the lightning protection range indicated in the lightning protection range determination step is a building figure in which the indicated lightning protection range is determined to be a desired one. A multi-face drawing creation step for creating a multi-face drawing by adding at least one of a plan view of the building figure and an elevation view to the perspective view of the building figure;
Predetermined with a predetermined sphere radius for the building graphic whose lightning protection range indicated by the lightning protection range determination step is determined as desired or for the building graphic of each drawing created in the multi-view drawing creation step A rotating sphere drawing step of drawing one or a plurality of rotating spheres of a scale of
A lightning protection simulation method characterized by the above. The lightning protection simulation method according to claim 19,
The rotating sphere drawing step creates a multi-view drawing in which rotating spheres are drawn in the respective drawings as one drawing.
A lightning protection simulation method characterized by the above. The lightning protection simulation method according to claim 19 or 20,
With respect to the perspective view and / or plan view, the rotation relative to the horizontal plane of the lightning arrester at the lower position when the rotating sphere is in contact with two or more lightning arresters in the building diagram of the perspective view and / or plan view Display the maximum trajectory of the sphere,
A lightning protection simulation method characterized by the above. The lightning strike protection simulation method according to any one of claims 16 to 21,
The predetermined sphere radius is any one of 20 m, 30 m, 45 m, and 60 m.
A lightning protection simulation method characterized by the above. In the lightning strike protection simulation method by the rotating sphere method according to any one of claims 16 to 22,
A simulation result drawing creation step for final finishing of the drawing in which the above lightning protection equipment and the lightning protection range are set is provided.
A lightning protection simulation method characterized by the above. In the lightning strike protection simulation method according to claim 23,
The simulation result drawing creation step is to insert information for the created drawing.
A lightning protection simulation method characterized by the above. In the lightning strike protection simulation method according to claim 24,
The simulation result drawing creation step is to hide the arc trajectory and / or rotating sphere drawn on the building figure in which the lightning protection equipment and the lightning protection range are set.
A lightning protection simulation method characterized by the above. The lightning protection simulation method according to any one of claims 16 to 25,
The perspective view of the building figure is displayed from a desired viewpoint.
A lightning protection simulation method characterized by the above. The lightning protection simulation method according to claim 26,
In the perspective view of the building figure, the viewpoint can be changed during the drawing display in each step.
A lightning protection simulation method characterized by the above. The lightning protection simulation method according to any one of claims 16 to 27,
The drawings created in each of the above steps have the desired scale.
A lightning protection simulation method characterized by the above. The lightning protection simulation method according to the rotating sphere method according to claim 28,
The drawings created in the above steps can be changed in scale while the drawings are displayed in the respective means.
A lightning protection simulation method characterized by the above. 30. The lightning strike protection simulation method according to any one of claims 16 to 29,
A data output step of outputting the drawing created in each step as drawing data;
A lightning protection simulation method characterized by the above. Lightning protection simulation to be used at the time of designing to set the lightning protection equipment and lightning protection range of the building based on the rotating sphere method using CAD (Computer Aided Design) before installing the lightning protection equipment in the building A program,
A building figure creation means for creating a perspective view of a predetermined scale obtained by converting each element of the building figure into 3D from the building figure called as drawing data of the building in response to an input from the operator;
A lightning arrester drawing means for drawing a lightning arrester on a building figure that has been made into 3D by the building figure creating means, according to an operator's input;
With respect to the building figure in which the lightning protection equipment is drawn by the lightning protection equipment drawing means, an arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale is formed on the ground and the lightning protection equipment, or two or more A lightning protection range indicating arc drawing means for drawing one or a plurality of lightning protection facilities at the same time by an operator's input and indicating the lightning protection range on the building graphic side of the arc;
Causing the computer to function as a lightning protection protection range availability determining means for determining whether or not the arc is indicating and displaying a desired lightning protection range.
A lightning protection simulation program. Lightning protection simulation to be used at the time of designing to set the lightning protection equipment and lightning protection range of the building based on the rotating sphere method using CAD (Computer Aided Design) before installing the lightning protection equipment in the building A program,
A building figure creation means for creating a perspective view of a predetermined scale obtained by converting each element of the building figure into 3D from the building figure called as drawing data of the building in response to an input from the operator;
A lightning arrester drawing means for drawing a lightning arrester on a building figure that has been made into 3D by the building figure creating means, according to an operator's input;
With respect to the building figure in which the lightning protection equipment is drawn by the lightning protection equipment drawing means, an arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale is formed on the ground and the lightning protection equipment, or two or more A lightning protection range indicating arc drawing means for drawing one or a plurality of lightning protection facilities at the same time by an operator's input and indicating the lightning protection range on the building graphic side of the arc;
A lightning protection protection range availability determination means for determining input of a determination result by an operator as to whether or not the arc indicates a desired lightning protection range;
Causing the computer to function as a rotating sphere drawing means for drawing a rotating sphere of a predetermined scale with a predetermined sphere radius with respect to a building figure in which the arc is drawn by the lightning protection protection range indicating arc drawing means;
A lightning protection simulation program. Lightning protection simulation to be used at the time of designing to set the lightning protection equipment and lightning protection range of the building based on the rotating sphere method using CAD (Computer Aided Design) before installing the lightning protection equipment in the building A program,
A building figure creating means for creating a perspective view of each element of the building figure in 3D from a building figure called as drawing data of the building in accordance with an input from the operator at a predetermined scale;
A lightning arrester drawing means for drawing a lightning arrester on a building figure that has been made into 3D by the building figure creating means, according to an operator's input;
With respect to the building figure in which the lightning protection equipment is drawn by the lightning protection equipment drawing means, an arc that is a part of a rotating sphere with a predetermined sphere radius and a predetermined scale is formed on the ground and the lightning protection equipment, or two or more A lightning protection range indicating arc drawing means for drawing one or a plurality of lightning protection facilities at the same time by an operator's input and indicating the lightning protection range on the building graphic side of the arc;
A lightning protection protection range availability determination means for determining input of a determination result by an operator as to whether or not the arc indicates a desired lightning protection range;
In the perspective view of the building graphic in which the lightning protection equipment having the lightning protection range determined to be desired by the lightning protection range determination unit, the plan view of the building graphic, and at least the elevation view It is drawn on the figure of the building created by the above-mentioned arc drawing by the above-mentioned arc drawing by the above-mentioned arc drawing by the above-mentioned arc drawing by the above-mentioned arc drawing by the above-mentioned lightning protection range indicating arc drawing means. Causing a computer to function as a rotating sphere drawing means for drawing a rotating sphere of a predetermined scale with a predetermined sphere radius with respect to the building figure,
A lightning protection simulation program. In the lightning strike protection simulation program by the rotating sphere method according to any one of claims 31 to 33,
A simulation result drawing creation means for performing final finishing processing of the drawing in which the lightning protection equipment and the lightning protection range are set,
A lightning protection simulation program.

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