JP2017151538A - Facility member information compensation device, facility member information compensation method and program - Google Patents
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Abstract
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本願発明は、設備部材情報補填装置、設備部材情報補填方法及びプログラムに関し、特に、設計データに情報を補填する設備部材情報補填装置等に関する。 The present invention relates to an equipment member information compensation apparatus, an equipment member information compensation method, and a program, and more particularly, to an equipment member information compensation apparatus that supplements information to design data.
従来、見積額を算出するための積算作業では、CADデータから資材・数量を取り込んでいた。 Conventionally, in the integration work for calculating the estimated amount, materials and quantities are taken from CAD data.
非特許文献1には、積算作業時に、BIMデータにインプットされた属性情報を活かして、効率的に積算作業を行うことが記載されている。ここで、BIMはビルディング・インフォメーション・モデリングのことで、実物と同じ形、構造、大きさで3次元の仮想の建物を作って表現するものである。BIMデータでは、設置される部材等には属性情報が付与されている。 Non-Patent Document 1 describes that the integration work is efficiently performed using the attribute information input to the BIM data during the integration work. Here, BIM refers to building information modeling, and represents a 3D virtual building with the same shape, structure, and size as the real thing. In the BIM data, attribute information is given to a member or the like to be installed.
従来の積算作業は、設計データから見積もりに必要なデータを抽出するものである。設計データは、建物を特定するものと、設備を特定するものを含む。建物を特定する部分については、設計時に一応の情報が与えられており、概算見積もりでも一応の効率化を図ることができる。 Conventional integration work is to extract data necessary for estimation from design data. The design data includes information specifying a building and data specifying equipment. As for the part that identifies the building, information is given at the time of design, and it is possible to improve efficiency even if it is estimated roughly.
しかしながら、設備については、通常、設計時には十分な情報が与えられていない。なお、近時、策定された設備IFCデータ利用標準では、設備についての情報を付与することができることとなったが、設計時には、十分に活用されていない。 However, for equipment, sufficient information is usually not given at the time of design. In recent years, the equipment IFC data utilization standard that has been established can provide information on equipment, but it is not fully utilized at the time of design.
そのため、従来のBIMソフトと見積もりソフトの連携は、専ら建物を特定する部分についてのものであった。設備については、単に積算ソフトにBIMモデルを読み込ませて設計データの範囲内で積算作業を行っても、十分な合理化を実現することはできなかった。 Therefore, the conventional linkage between the BIM software and the estimation software is only for the part that specifies the building. As for the equipment, even if the BIM model is simply read into the integration software and the integration work is performed within the range of the design data, sufficient rationalization cannot be realized.
そこで、本願発明は、BIMデータのように属性情報を入力可能な設計データを用いて、建物だけでなく設備に関しても効率的な積算処理を実現することが可能な設備部材情報補填装置等を提案することを目的とする。 Therefore, the present invention proposes an equipment member information compensation device and the like that can realize efficient integration processing not only for buildings but also for equipment using design data that can be input with attribute information such as BIM data. The purpose is to do.
本願発明の第1の観点は、設計データに情報を補填する設備部材情報補填装置であって、前記設計データは、設計対象となる建物を特定する建物データと、前記建物の設備を特定する設備データを含み、前記建物データから前記建物の施工空間を抽出し、施工空間を分割して複数の分割施工空間を特定する空間特定手段と、前記各分割施工空間の性質を決定する性質決定手段と、前記設備データの各設備に対して、当該設備が設置される前記分割施工空間の性質を示す性質情報を付加する補填手段を備えるものである。 A first aspect of the present invention is a facility member information supplementing apparatus that supplements information to design data, wherein the design data includes building data for identifying a building to be designed and facilities for identifying the facility of the building Including data, extracting the construction space of the building from the building data, dividing the construction space to identify a plurality of divided construction spaces, and a property determining means for determining the properties of each of the divided construction spaces In addition, for each facility of the facility data, supplementary means for adding property information indicating the property of the divided construction space in which the facility is installed is provided.
本願発明の第2の観点は、第1の観点の設備部材情報補填装置であって、前記補填手段が付加した前記性質情報を用いて積算処理を行う積算処理手段を備えるものである。 According to a second aspect of the present invention, there is provided an equipment member information compensation device according to the first aspect, comprising an integration processing means for performing an integration process using the property information added by the compensation means.
本願発明の第3の観点は、第1又は第2の観点の設備部材情報補填装置であって、前記性質決定手段が決定する前記分割施工空間の性質には、少なくとも、階高が基準値以上である屋内露出と階高が基準値未満の屋内隠蔽を含み、前記分割施工空間の一つにおいて、階高が基準値以上の空間の上及び/又は下に階高が基準値未満の空間が存在し、両者が狭まって接続している場合に、前記空間特定手段は、前記建物データにおける情報を参照してこれらを分割し、前記性質決定手段は、それぞれ、屋内露出と屋内隠蔽とするものである。 A third aspect of the present invention is the equipment member information supplementing apparatus according to the first or second aspect, wherein at least the floor height is a reference value or more for the property of the divided construction space determined by the property determining means. In one of the divided construction spaces, there is a space where the floor height is below the reference value above and / or below the space where the floor height is above the reference value. In the case where both exist and are narrowly connected, the space specifying means divides them by referring to the information in the building data, and the property determining means is used as indoor exposure and indoor concealment, respectively. It is.
本願発明の第4の観点は、設計データに情報を補填する設備部材情報補填装置における設備部材情報補填方法であって、前記設計データは、設計対象となる建物を特定する建物データと、前記建物の設備を特定する設備データを含み、前記設備部材情報補填装置が備える空間特定手段が、前記建物データから前記建物の施工空間を抽出し、施工空間を分割して複数の分割施工空間を特定する空間特定ステップと、前記設備部材情報補填装置が備える性質決定手段が、前記各分割施工空間の性質を決定する性質決定ステップと、前記設備部材情報補填装置が備える補填手段が、前記設備データの各設備に対して、当該設備が設置される前記分割施工空間の性質を示す性質情報を付加する補填ステップを含むものである。 A fourth aspect of the present invention is a facility member information supplementing method in a facility member information supplementing apparatus that supplements information to design data, wherein the design data includes building data for specifying a building to be designed, and the building The space specifying means included in the equipment member information compensation device includes the equipment data for specifying the equipment, extracts the construction space of the building from the building data, and divides the construction space to specify a plurality of divided construction spaces A space determining step, a property determining unit included in the equipment member information compensation device, a property determining step for determining a property of each of the divided construction spaces, and a compensation unit included in the equipment member information compensation device, each of the facility data It includes a supplementing step of adding property information indicating the property of the divided construction space in which the facility is installed to the facility.
本願発明の第5の観点は、コンピュータを、第1から第3のいずれかの観点の設備部材情報補填装置として機能させるためのプログラムである。 A fifth aspect of the present invention is a program for causing a computer to function as the equipment member information compensation device according to any one of the first to third aspects.
なお、本願発明を、第5の観点のプログラムを定常的に記憶するコンピュータ読み取り可能な記録媒体として捉えてもよい。 The present invention may be regarded as a computer-readable recording medium that regularly stores the program according to the fifth aspect.
本願発明の各観点によれば、設備データにおける各設備に対して、当該設備が設置される空間の属性情報を付加する作業を拾い出し作業と位置付けることができ、積算処理の合理化を実現することが可能になる。すなわち、従来の拾い出し作業は、設計データの範囲内で行うものであった。それに対し、本願発明は、設備そのものだけでなく、設備が設置される空間、特に、建物における各分割施工空間の役割に着目した。そして、各設備に対して、属性情報として、当該設備が設置される分割施工空間の性質を付与する。この情報を付与することによって、第2の観点にあるように積算処理を実現することができる。このような発想は、BIMデータのように、設計モデルにおける各設備に付属情報を付与できるために実現できるようになったものである。 According to each aspect of the present invention, for each facility in the facility data, a task of adding attribute information of a space in which the facility is installed can be positioned as a pick-up operation, and rationalization of integration processing can be realized. Is possible. That is, the conventional picking work is performed within the range of the design data. On the other hand, this invention paid attention to the role of not only the equipment itself but the space where the equipment is installed, in particular, each divided construction space in the building. And the property of the division | segmentation construction space where the said installation is installed is provided with respect to each installation as attribute information. By adding this information, integration processing can be realized as in the second aspect. Such an idea can be realized because attached information can be given to each facility in the design model like BIM data.
さらに、本願発明の第3の観点によれば、階高によって屋内露出と屋内隠蔽を区別する。さらに、仮に設計ミス等により屋内露出と屋内隠蔽の空間がつながっていても、設計データにおける天井高の情報などを用いて空間を分割し、屋内露出と屋内隠蔽の空間を適切に分割することが可能になる。 Furthermore, according to the 3rd viewpoint of this invention, indoor exposure and indoor concealment are distinguished by floor height. Furthermore, even if the indoor exposure and indoor concealment spaces are connected due to a design error, etc., the space can be divided using the ceiling height information in the design data, etc., and the indoor exposure and indoor concealment spaces can be appropriately divided. It becomes possible.
以下では、図面を参照して、本願発明の実施例について説明する。なお、本願発明は、この実施例に限定されるものではない。 Hereinafter, embodiments of the present invention will be described with reference to the drawings. The present invention is not limited to this embodiment.
図1は、本願発明の実施の形態に係る設備部材情報補填装置の構成の一例を示すブロック図である。図2は、図1の設備部材情報補填装置1の動作の一例を示すフロー図である。 FIG. 1 is a block diagram showing an example of the configuration of the equipment member information compensation apparatus according to the embodiment of the present invention. FIG. 2 is a flowchart showing an example of the operation of the equipment member information compensation device 1 of FIG.
図1の設備部材情報補填装置1は、ICFデータ記憶部3と、空間モデル生成部5と、空間モデル記憶部7と、性質決定部9と、情報補填処理部11と、更新後IFCデータ記憶部13と、積算処理部15を備える。 1 includes an ICF data storage unit 3, a space model generation unit 5, a space model storage unit 7, a property determination unit 9, an information compensation processing unit 11, and an updated IFC data storage. Unit 13 and integration processing unit 15.
IFCデータ記憶部3は、設計者により設計された設計データであるIFCデータを記憶する。IFCデータは、設計された建物を示す建物データと、建物に設置される設備を示す設備データを含む。図4(a)は、IFCデータの一例を示す。図4(b)は、図4(a)の外観を示す。 The IFC data storage unit 3 stores IFC data that is design data designed by a designer. The IFC data includes building data indicating a designed building and facility data indicating equipment installed in the building. FIG. 4A shows an example of IFC data. FIG. 4B shows the appearance of FIG.
空間モデル生成部5は、IFCデータ記憶部3に記憶された建物データを読み出し、建物の空間を抽出し、建物の空間を分割して空間モデルを生成する(図2のステップST1)。空間モデル記憶部7は、生成された空間モデルを記憶する。 The space model generation unit 5 reads the building data stored in the IFC data storage unit 3, extracts the building space, divides the building space, and generates a space model (step ST1 in FIG. 2). The space model storage unit 7 stores the generated space model.
図4(c)は、図4(a)及び(b)の全体空間を示す。図4(d)は、図4(a)及び(b)の建物の分割施工空間を示す。 FIG. 4 (c) shows the entire space of FIGS. 4 (a) and 4 (b). FIG.4 (d) shows the division | segmentation construction space of the building of Fig.4 (a) and (b).
図5は、建築モデルの1フロア分を示す。図5(a)は天井内のカットモデルである。図5(b)は室内のカットモデルである。図5(c)は1フロア分の分割施工空間を示す。図5(d)は、1フロア分の全体空間を示す。 FIG. 5 shows one floor of the building model. FIG. 5A shows a cut model in the ceiling. FIG. 5B is an indoor cut model. FIG. 5C shows a divided construction space for one floor. FIG. 5D shows the entire space for one floor.
性質決定部9は、空間モデルにおける各分割空間の性質を決定する(図2のステップST2)。例えば、次のように決定する。屋内の空間で、階高が基準値(例えば2000mm)以上は、屋内露出とする。上記未満の階高は、屋内隠蔽とする。また、最短幅が基準値の空間はシャフトとする。厚みが基準値の壁・柱・梁内は、屋内隠蔽とする。厚みが基準値のスラブ内は、コンクリート埋設とする。また、グランドレベル(GL)より上で建物外は、屋外露出とする。GLより低い建物外は、屋外埋設とする。GLより低く最下位フロアの床下は、屋内埋設とする。さらに、設置する部材によって、空間の性質を決定してもよい。例えば、空間内に特定部材が含まれる場合は、機械室とする。空間内に衛生器具が含まれる場合は、便所とする。 The property determining unit 9 determines the property of each divided space in the space model (step ST2 in FIG. 2). For example, it is determined as follows. If the floor height is a reference value (for example, 2000 mm) or more in an indoor space, the exposure is indoors. Floor heights below the above are concealed indoors. In addition, the space where the shortest width is the reference value is a shaft. The walls, pillars, and beams with standard thicknesses will be concealed indoors. Concrete is buried in the slab whose thickness is the reference value. Also, outside the building above the ground level (GL) is exposed outdoors. Outside the building below GL, it will be buried outdoors. The floor below the GL below the bottom floor will be buried indoors. Furthermore, you may determine the property of space by the member to install. For example, when a specific member is included in the space, the machine room is used. If sanitary equipment is included in the space, use a toilet.
図4(c)及び(d)では、濃い部分は屋内遮蔽を示し、薄い部分は屋内露出を示す。 In FIGS. 4 (c) and (d), the darker portions indicate indoor shielding and the lighter portions indicate indoor exposure.
なお、図3(a)にあるように、設計段階で全ての空間が分割されていれば、全体空間を容易に分割施工空間に分割することができる。他方、図3(b)にあるように、設計ミス等により空間が連続している場合が考えられる。特に、屋内露出の空間に上下等に隣接して屋内遮蔽の空間がある場合に、これらが連続しているが、その連続している部分が極めて狭く、人が通れないような場合には、屋内遮蔽の空間は、屋内露出の空間と連続しているからといって、屋内露出と扱う必要はない。そのため、このように、隣接する空間が狭まって連続している場合(例えば所定値よりも幅が狭い場合)に、例えば天井高の情報や各部材の付属情報(例えば、天井か、壁か、床かなど)などを用いて、図3(c)の点線にあるように空間を分割し、個別に屋内露出と屋内遮蔽等の性質の判断をする。これにより、各空間の性質に合った分割を行うことができる。 As shown in FIG. 3A, if all the spaces are divided at the design stage, the entire space can be easily divided into divided construction spaces. On the other hand, as shown in FIG. 3B, a case where the space is continuous due to a design error or the like can be considered. In particular, when there is an indoor shielding space adjacent to the indoor exposure space vertically, etc., these are continuous, but when the continuous portion is extremely narrow and people cannot pass, The indoor shielded space need not be treated as indoor exposure just because it is continuous with the indoor exposed space. Therefore, in this way, when adjacent spaces are narrowed and continuous (for example, when the width is narrower than a predetermined value), for example, information on the ceiling height and information attached to each member (for example, the ceiling or the wall, The space is divided as indicated by the dotted line in FIG. 3C using a floor or the like, and properties such as indoor exposure and indoor shielding are individually determined. Thereby, the division | segmentation suitable for the property of each space can be performed.
情報補填処理部11は、設計モデルの各部材が設置される空間の性質を示す情報を、各部材の付属情報として補填する(図2のステップST3)。更新後IFCデータ記憶部17は、IFCデータ記憶部の建物データと、補填後の設備データを記憶する。 The information compensation processing unit 11 compensates information indicating the property of the space in which each member of the design model is installed as attached information of each member (step ST3 in FIG. 2). The updated IFC data storage unit 17 stores the building data of the IFC data storage unit and the equipment data after compensation.
図6は、各分割施工空間の性質を、色を分けて表示し、部材を表示したものである。例えば、空間S1は屋内露出であり、空間S2は屋内遮蔽である。部材Mは、空間S2に設置される。そのため、屋内隠蔽の付属情報を補填する。このように、BIM(IFC)データを利用すると、部材が設置される分割施工空間の性質を得たり、各部材に、その性質を示す情報を補填したりすることができる。 FIG. 6 shows the properties of each divided construction space by displaying colors and displaying members. For example, the space S 1 is indoor exposure and the space S 2 is indoor shielding. Member M is placed in the space S 2. Therefore, supplementary information for indoor concealment is provided. As described above, by using BIM (IFC) data, it is possible to obtain the properties of the divided construction space in which the members are installed, or to supplement each member with information indicating the properties.
積算処理部15は、補填後のIFCデータを読み出し、拾い出し作業をして積算処理を行う(図2のステップST4)。なお、IAI日本で作成されている「設備IFCデータ利用標準」に準拠したIFCデータを対象とすることにより、設備CADのデータをすべて読み込むことができる。そして、補填された情報を利用することにより、施工場所(施工空間)を識別することができ、歩掛りや保温材・仕上げ材および塗装、防振支持、断熱支持、更には消音・遮音工事の可否の判断が可能となる。また地中埋設部に関しては、掘削などの土工事にかかわる金額の算出も可能となる。また、例えば、外壁より所定の長さ(距離)までは、保温を行うなどを考慮するようにしてもよい。 The integration processing unit 15 reads the compensated IFC data, picks it up, and performs integration processing (step ST4 in FIG. 2). In addition, all the data of equipment CAD can be read by making into object IFC data based on the "equipment IFC data utilization standard" created in IAI Japan. And by using the supplemented information, it is possible to identify the construction site (construction space), and whether or not it can be used as a step, a heat insulating material / finishing material, painting, anti-vibration support, heat insulation support, and also silence / sound insulation work Can be determined. In addition, for the underground section, it is possible to calculate the amount related to earth work such as excavation. In addition, for example, heat insulation may be taken into consideration up to a predetermined length (distance) from the outer wall.
なお、本願発明によれば、設計状態の確認を容易にすることができる。例えば、パイプシャフト、階段、エレベータ等の防火区画の空間を識別した場合、防火区画から防火区画外へ貫通するダクトについて、設計時にFD(ファイヤーダンパー)の設置がなければ、設置を促すことなどが可能となる。 In addition, according to this invention, confirmation of a design state can be made easy. For example, when the space of a fire prevention section such as a pipe shaft, stairs, and elevator is identified, if a FD (fire damper) is not installed at the time of designing a duct that penetrates from the fire prevention section to the outside of the fire prevention section, the installation may be promoted. It becomes possible.
1 設備部材情報補填装置、3 IFCデータ記憶部、5 空間モデル生成部、7 空間モデル記憶部、9 性質決定部、11 情報補填処理部、13 更新後IFCデータ記憶部、15 積算処理部 DESCRIPTION OF SYMBOLS 1 Equipment member information compensation apparatus, 3 IFC data memory | storage part, 5 Spatial model production | generation part, 7 Spatial model memory | storage part, 9 Property determination part, 11 Information compensation processing part, 13 IFC data storage part after update, 15 Accumulation processing part
Claims (5)
前記設計データは、設計対象となる建物を特定する建物データと、前記建物の設備を特定する設備データを含み、
前記建物データから前記建物の施工空間を抽出し、施工空間を分割して複数の分割施工空間を特定する空間特定手段と、
前記各分割施工空間の性質を決定する性質決定手段と、
前記設備データの各設備に対して、当該設備が設置される前記分割施工空間の性質を示す性質情報を付加する補填手段を備える設備部材情報補填装置。 An equipment member information compensation device for supplementing information to design data,
The design data includes building data for specifying a building to be designed, and facility data for specifying equipment of the building,
Extracting the construction space of the building from the building data, dividing the construction space and specifying a plurality of divided construction spaces;
Property determining means for determining the properties of each of the divided construction spaces;
A facility member information compensation device comprising compensation means for adding property information indicating the property of the divided construction space in which the facility is installed to each facility of the facility data.
前記分割施工空間の一つにおいて、階高が基準値以上の空間の上及び/又は下に階高が基準値未満の空間が存在し、両者が狭まって接続している場合に、前記空間特定手段は、前記建物データにおける情報を参照してこれらを分割し、前記性質決定手段は、それぞれ、屋内露出と屋内隠蔽とする、請求項1又は2に記載の設備部材情報補填装置。 The properties of the divided construction space determined by the property determining means include at least indoor exposure where the floor height is greater than or equal to a reference value and indoor concealment where the floor height is less than the reference value,
In one of the divided construction spaces, when there is a space above and / or below the space where the floor height is higher than the reference value and the floor height is less than the reference value and both are narrowed and connected, the space identification The facility member information supplementing apparatus according to claim 1 or 2, wherein the means divides them with reference to information in the building data, and the property determining means sets indoor exposure and indoor concealment, respectively.
前記設計データは、設計対象となる建物を特定する建物データと、前記建物の設備を特定する設備データを含み、
前記設備部材情報補填装置が備える空間特定手段が、前記建物データから前記建物の施工空間を抽出し、施工空間を分割して複数の分割施工空間を特定する空間特定ステップと、
前記設備部材情報補填装置が備える性質決定手段が、前記各分割施工空間の性質を決定する性質決定ステップと、
前記設備部材情報補填装置が備える補填手段が、前記設備データの各設備に対して、当該設備が設置される前記分割施工空間の性質を示す性質情報を付加する補填ステップを含む設備部材情報補填方法。 A facility member information compensation method in a facility member information compensation device for supplementing information to design data,
The design data includes building data for specifying a building to be designed, and facility data for specifying equipment of the building,
The space specifying means provided in the equipment member information compensation device extracts the construction space of the building from the building data, divides the construction space and specifies a plurality of divided construction spaces, and
The property determining means provided in the equipment member information compensation device, a property determining step for determining the property of each divided construction space,
A facility member information compensation method including a compensation step in which the compensation means included in the facility member information compensation device adds property information indicating the property of the divided construction space in which the facility is installed to each facility of the facility data. .
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