JPH0778199A - Production information processor for building structure in industrial building - Google Patents

Abstract

PURPOSE:To execute information processing relating to a building structure with an aperture such as a building unit and to easily and quickly attain work required for the production of the building structure. CONSTITUTION:Information relating to the position and size of an aperture part in a building unit is inputted to an information input part 31, the frame picture of the building unit having no aperture part and numerical information relating to the length of a frame material in the frame and the number of frame materials are stored in a storage part 33 and an operation part 32 computes the frame picture of a building unit with an aperture and numerical information relating to the length of a frame material in the frame and the number of frame materials based upon the information inputted from the input part 31 and the information stored in the storage part 33. A control part 34 drives a plotter 36 and prepares a frame picture and an information output part 35 outputs the numerical information calculated by the operation part 32.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a production information processing apparatus for a building component which is a building component of an industrialized building, and can be applied to an industrialized building employing a unit construction method or a panel construction method.

[0002]

BACKGROUND ART An industrialized building using a unit construction method is constructed by producing a plurality of building units, which are building components, at a factory, and combining these building units at a construction site. The structure of a building unit, which is a building structure, consists of four columns at four corners, four upper and lower beams suspended between the upper and lower ends of these columns, and two parallel upper beams. It is composed of a ceiling girder suspended between and a floor joist suspended between two parallel lower girders.
The lower beam, the ceiling beam, and the floor joist are frame materials that form the frame.

The ceiling of the building unit is formed by an upper beam and a ceiling girder, and the floor is formed by a lower beam and a floor joist. An opening is formed in the floor for installing a bus unit, for passing a staircase, for providing an entrance space, or for providing an underfloor storage. In addition, an opening is formed in the ceiling to pass, for example, stairs. In order to provide such an opening in the floor or ceiling, it is necessary to omit the floor joists and ceiling joists at the positions corresponding to the openings or change the length thereof.

In order to produce a building unit with an opening in a factory, a building unit production drawing is necessary. Such a building unit production drawing is an entire building created based on a user's request of a unit type building. It is made by the design department designing each building unit from the floor plan. A skeleton diagram of each building unit is also created in the design department, and this skeleton diagram is displayed including the above-mentioned opening, and the floor joists and ceiling beam at the position corresponding to the opening are omitted or Is shortened and displayed.

[0005]

By the way, the position and size of the opening provided on the floor or ceiling of the building unit are determined according to the installation position and size of, for example, a bus unit or stairs in the building. Since the installation position and size of these are determined based on the user's request, the position and size of the opening provided in the building unit are different in each building. Therefore, it is necessary to create a skeleton diagram of a building unit in which the position and size of the opening are different for each user of the building, and this work requires a lot of time and effort.

Further, in order to produce a building unit,
The floor joists and ceiling beams that form the framework of the building unit and the number of them must be calculated by the accumulating department, but conventionally, building units with different opening positions and different sizes for each user are produced. Therefore, the user had to perform this calculation for each different building, and this work also took a lot of time and effort.

An object of the present invention is to perform information processing on a building component with an opening such as a building unit and to facilitate and speed up the work required to produce this building component. The present invention is to provide an information processing apparatus for producing building components in another industrialized building.

[0008]

According to a first aspect of the present invention, there is provided a production information processing apparatus for building components in an industrialized building,
A building that has an information input unit, a storage unit, a calculation unit, and a control unit, and in the information input unit, a frame is formed by a plurality of frame members and an opening is provided at the position of the frame members. Information about the structure, which includes information on the position of the opening and its dimensions, is input, and the storage unit stores frame image information of a plurality of frame members for the building structure without the opening. , The calculation unit calculates the frame image of the building structure with the opening based on the information input to the information input unit and the information stored in the storage unit, and the control unit based on the calculation result of the calculation unit. It is designed to drive and control a drawing device that creates a drawing of a building structure with an opening.

A production information processing apparatus for building components in an industrialized building according to a second aspect of the present invention has an information input section, a storage section, a calculation section, and an information output section.
The information input section is information about a building structure in which a frame is formed by a plurality of frame members and an opening is provided at the position of the frame member, and information including the position of the opening and data of its dimensions. The storage unit stores information about the lengths and the numbers of the plurality of frame members that form the framework of the building structure without openings, and the calculation unit stores the information input to the information input unit and the storage unit. Based on the information stored in the section, the length and number of frame materials that form the framework of the building structure with openings are calculated, and the information output section outputs the calculation results in the calculation section. There is.

Further, a production information processing apparatus for building components in an industrialized building according to a third aspect of the present invention is the information input section according to the first and second aspects of the invention, the control section according to the first aspect of the invention, and the second aspect of the invention. It has an information output unit, and also has a storage unit and a calculation unit. In the memory, the first
The same information as the information in the invention, that is, the frame image information of a plurality of frame materials for a building structure without openings, and the same information as the information in the second invention, that is, the structure of the building structure without openings is formed. Information about the length and number of multiple frame materials to be stored,
The calculation unit includes an image processing unit and a numerical processing unit, and the image processing unit uses the frame image of a building structure with an opening based on the information input to the information input unit and the frame image information stored in the storage unit. The numerical processing unit calculates the skeleton of the building structure with the opening based on the information input to the information input unit and the information about the lengths and the numbers of the plurality of frame materials stored in the storage unit. The length and number of frame materials to be formed are calculated, and the control unit drives and controls the drawing device that creates the drawing of the building structure with the opening based on the calculation result in the image processing unit. The calculation result in the numerical processing unit is output.

In the above, the drawing of the building structure created by the drawing device may be a three-dimensional perspective view, or a two-dimensional plan view, bottom view, side view, or the like.

Further, the present invention can be applied to a building unit of a building constructed by a unit construction method, and can also be applied to a floor panel, a ceiling panel, a wall panel, etc. of a building constructed by a panel construction method.

[0013]

According to the present invention, in the storage unit, the image information of the frame by the plurality of frame members for the building structure without the opening and the lengths of the plurality of frame members forming the frame of the building structure without the opening, Since the information about the number is stored, it is the information about the building structure in which the frame is formed by the plurality of frame members and the opening is provided at the position of the frame member in the information input unit. When the information including the data of the position and the dimension thereof is input, the skeleton image of the building structure with the opening is calculated by the information input to the information input section and the skeleton image information stored in the storage section in the calculation section. Or the frame that constitutes the framework of the building structure with the opening, based on the information input to the information input section and the information about the lengths and the numbers of the plurality of frame materials stored in the storage section. A frame that can calculate the length and number of frame materials, and as a result, create a frame drawing of a building structure with an opening by a drawing device and form a frame of a building structure with an opening by the information output unit Since it is possible to output the length and number of materials, it is possible to create the drawings necessary to produce building components at the factory and the length and number of frame materials that form the framework of the building components. It is possible to achieve easy and speedy calculation work.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. The device according to the present embodiment is applied to a building of a unit construction method constructed by combining a plurality of box-shaped building units. FIG. 1 is a floor plan drawing 10 of a building created based on a user's request, and although omitted in FIG. 1, a kitchen unit, a partition wall, and the like are displayed in the drawing 10. The building shown in FIG. 10 is a combination of a total of seven building units 1-7. FIG. 3 shows the framework of the building unit. This skeleton includes four pillars 11 at four corners, two long-side upper beams 12 and two short-side upper beams 13 connecting upper ends of the pillars 11, and the pillar 1.
Two long-side lower beams 14 and two short-side lower beams 15 that connect the lower ends of 1 to each other, a ceiling beam 16 that is extended between a pair of long-side upper beams 12 at equal intervals, and a long-side lower beam It consists of floor joists 17 that are laid across 14 at equal intervals. A ceiling portion 18 is formed by the upper beams 12 and 13 and the ceiling beam 16, and the lower beams 14 and 1 are formed.
The floor portion 19 is formed by 5 and the floor joist 17.

Two types (A, B) of building units are shown in the drawing 10 of FIG. 1, and these building units have the same height and short side dimension and the long side dimension (L in FIG. 5).
₁ and L ₄ ), and therefore the number of the ceiling beam 16 and the floor joist 17 is different. Building unit numbers from No. 1 (NO1) to No. 7 (NO7) are determined for a total of 7 building units in FIG.
Reference numerals 1 to 7 given to each building unit in FIG. 1 are made to correspond to this building unit number.

In the present embodiment, the floor portion 19 of the first building unit 1 must be provided with an opening 8 for installing, for example, a bus unit, and the floor portion 19 of the fifth building unit 5 must be provided. The floor portion 19 must be provided with an opening 9 to form, for example, an entrance soil. The positions of these openings 8 and 9 are the positions corresponding to one or more floor joists 17 arranged in the floor 19.

Floor plan 10 shows building units 1-7.
20 is displayed for each building unit 1-7. This information 20 is the first to seventh data 21 to 2 for the building units 1 and 5 having the openings 8 and 9.
7 other building units without openings 2
For 4, 6, and 7, the first and second data 21 and 22 are included. The first data 21 is the building unit number described above, and the second data 22 is the type of the building unit (A and B described above). The third data 23 indicates whether the opening is provided on the ceiling 18 or the floor 19 of the building unit, and the fourth and fifth data 24 and 25 indicate that the opening is the reference point of the building unit. From which position is provided by the coordinates in two orthogonal horizontal directions, and the sixth and seventh data 26, 27 indicate the dimensions (horizontal dimension, vertical dimension) of the opening in the two orthogonal horizontal directions. .

The above information 20 is displayed in the bracket 28 which can be read by the information input unit 31 of the computer 30 shown in FIG.

In FIG. 2, the computer 30 includes an information input section 31, an arithmetic section 32, a storage section 33, and a control section 3.
4 and an information output unit 35. The information input section 31 is
The floor plan 10 is equipped with the reading device of FIG.
The information output unit 35 drives and controls the automatic drawing device 36, and includes a screen for displaying the calculation result obtained by the calculation unit 32 and a printing device for printing out.

In the storage unit 33, the frame image information 37 (see FIG. 3) of the standard building unit having no opening.
And information (numerical information) about the length and the number of the pillars 11, the beams 12 to 15, the ceiling joists 16, and the floor joists 17, which are the frame materials forming the framework of this standard building unit.
(See FIG. 5) are stored. The information 37 and 38 stored in the storage unit 33 is information for each of the two types of building units A and B.

The calculation section 32 has an image processing section 39 and a numerical processing section 40. The image processing unit 39 is connected to the control unit 34, and the numerical processing unit 40 is connected to the information output unit 35.

When the floor plan 10 is set in the information input section 31, the information 20 displayed for each building unit 1-7 is displayed.
Is read by the information input unit 21 and sent to the arithmetic unit 32. In these pieces of information 20, the building unit number is the first data 21, and the building unit type is the second data 21.
The data 22 is used to determine each. Further, in the information 20 having the third to seventh data 23 to 27, it is determined by the third data 23 whether the opening is provided in the ceiling 18 or the floor 19 of the building unit, and the opening is determined. Is determined by the fourth and fifth data 24 and 25, and the vertical and horizontal dimensions of the opening are determined by the sixth and seventh data 26 and 27, respectively.

The arithmetic unit 3 to which such information 20 is input
2 is information 20, the frame image information 37, and numerical information 3
8, the frame image 41 of the building unit with an opening shown in FIG. 4, the pillar 11, the beams 12 to 15, the ceiling beam 16, which forms the frame of the building unit with the opening.
The numerical value 42 shown in FIG. 6 regarding the size and the number of floor joists 17 is calculated.

Explaining this for the building unit 1 having the building unit number 1 and the type A, it is determined from the third data 23 that the opening portion 8 is provided on the floor portion 19, and the fourth to seventh portions. Since the position and size of the opening 8 are determined by the data 24 to 27, the image processing unit 39 of the calculation unit 32 is determined by the frame image information 37 of the building unit of type A stored in the storage unit 33. In, the opening portion 8 is provided at a predetermined position of the floor portion 19, and
The frame image 41 of the building unit shown in FIG. 4 in which the floor joists inside the opening 8 are deleted is calculated. When the frame image 41 is calculated, the frame material 43 necessary for edging the opening 8 is also calculated, and the frame image 41 also includes the frame material 43. Further, in the storage unit 33, the type is A
Since the numerical information 38 about the building unit of No. 1 is also stored, the numerical processing unit 40 of the arithmetic unit 32 stores the numerical value of the building unit number 1 of the numerical information 42 shown in FIG. The length and the number of columns 11, beams 12 to 15, ceiling joists 16 and floor joists 17 necessary to form the skeleton of the building unit 1 in which the portion 42A is calculated and the opening 8 is provided in the floor 19 are calculated. In addition to being calculated, the length and the number of the frame members 43 are also calculated.

The above-described calculation work in the image processing unit 39 and the numerical processing unit 40 of the calculation unit 32 is also performed for the second to seventh building units 2 to 7 whose building unit numbers are determined by the first data 21. Done these building units 2 ~
A skeleton image 41 and numerical information 42 regarding 7 are calculated. Building units 2 to 4, 6 and 7 without openings
The frame image 41 of is the same as the frame image of these building units stored in the storage unit 33,
Further, the numerical information 42 about these building units 2 to 4, 6, and 7 is basically the same as the numerical information 38 about these building units stored in the storage unit 33, and the number of frame materials is the same. The only difference is that is zero (see FIG. 6).

In the numerical processing section 40, after the calculation for all the building units 1 to 7 is completed, the pillar 1 of the entire building constructed by these building units 1 to 7 is completed.
1, beams 12 to 15, ceiling beam 16, floor joist 17, frame member 4
The length of 3 and the number are calculated, and the numerical information of the calculation result is shown by 42B in FIG.

Skeleton image 4 calculated by the image processing unit 39
The signal about 1 is sent to the control unit 34, and the control unit 34 drives and controls the automatic drawing device 36, and thereby the frame drawing of the building unit with or without the opening is created in the drawing device 36. It This skeleton drawing is created for each building unit 1 to 7, and each drawing is given the building unit number of the second data 21. Then, these frame drawings are sent to a factory for building the frame of the building unit and used as a frame production drawing. Further, the numerical information 42 calculated by the numerical processing unit 40 is the information output unit 35.
Is output, and is displayed on the screen or printed out. The numerical information 42 obtained in this way is sent to the integrating section which calculates the materials required for producing each building unit 1 to 7, and the integrating section uses this numerical information 4
Order the necessary materials to the material production factory based on 2.

As described above, according to the present embodiment, the storage unit 33 stores the frame image information 37 about the building unit having no opening and the columns and beams which are the frame materials forming the frame of this building unit. , Numerical information 38 about the length of the ceiling joist, the floor joist, and the number are stored. Therefore, the information input unit 31 is information about the building unit in which the opening is provided, and the position of the opening and its position. When the information 20 including the dimension data is input, the arithmetic unit 32
A skeleton image 41 of a building unit with an opening and numerical information 42 about the length and the number of floor joists forming the skeleton of the building unit with an opening can be calculated, and the opening is the building unit. Regardless of the position of the building and the size of the opening, it is easy to create a building unit frame drawing for producing a building unit and to calculate the material of this frame. , Will be able to do it quickly.

Further, the floor plan 10 shown in FIG. 1 may be a drawing showing a state in which construction materials such as walls and equipment materials such as kitchen units are arranged. Therefore, the floor plan 10 is prepared in the sales department based on the user's request. It is only necessary to display the information 20 on the drawing, and the material used for inputting the information to the information input unit 31 can be easily created.

Although the building of the embodiment described above is based on the unit construction method, the present invention is not limited to this.
It can also be applied to a panel construction building. In this panel construction building, the building components are floor panels, ceiling panels, wall panels, etc., and the present invention is applicable to any opening provided at the position of the frame material forming the frame. Applicable for building components. Further, although the computer 30 and the drawing device 36 are separate bodies in the above-described embodiment, the computer may include a drawing device.

[0031]

According to the present invention, it becomes possible to perform information processing on a building structure with an opening constituting a building,
It becomes possible to easily and quickly perform the drawing work and the skeleton material calculation work required for producing this building structure, and the work efficiency can be improved.

[Brief description of drawings]

FIG. 1 is a diagram showing a floor plan of a unit construction building that is built by combining a plurality of building units that are building components, and is a diagram in which information about an opening provided in the building unit is displayed.

FIG. 2 is a schematic diagram showing a block diagram of an apparatus according to an embodiment of the present invention.

3 is information stored in a storage unit of FIG.
It is a figure which shows the frame image information of the building unit without an opening part.

FIG. 4 is a diagram showing a frame image of a building unit with an opening, which is calculated by a calculation unit in FIG.

5 is information stored in a storage unit of FIG.
It is a figure which shows the information regarding the length of the member which comprises the framework of the building unit without an opening, and the number.

FIG. 6 is a diagram showing information regarding the length and the number of members forming the skeleton of the building unit with an opening, which is calculated by the calculation unit in FIG.

[Explanation of Codes] 1-7 Building unit which is a building component 8, 9 Opening 10 Floor plan 11 Column 12-15 Beam 16 Ceiling beam 17 Floor joist 20 Information 21-27 Data 30 Computer 31 Information input section 32 Calculation Part 33 Storage part 34 Control part 35 Information output part 36 Drawing device 37 Frame image information 38 Numerical information 39 Image processing part 40 Numerical processing part 41 Frame image 42 Numerical information

Claims (3)

[Claims] 1. An information input unit, a storage unit, a calculation unit, and a control unit, wherein the information input unit has a skeleton formed of a plurality of frame members, and an opening is formed at the position of the frame members. The information about the building composition provided with, the information including the data of the position and the dimension of the opening is input, the storage unit, the plurality of building structures without the opening. Frame image information of a frame material is stored, and the calculation unit uses the information input to the information input unit and the information stored in the storage unit to obtain a frame image of the building component with the opening. In the industrialized building, the control unit drives and controls a drawing device that creates a drawing of the building structure with the opening based on a calculation result in the calculation unit. Production information processing apparatus of the things composition. 2. An information input unit, a storage unit, a calculation unit, and an information output unit, wherein the information input unit has a skeleton formed of a plurality of frame members and has an opening at the position of the frame members. Information about a building structure in which a section is provided, including information on the position of the opening and its dimensions, and the storage unit forms a skeleton of the building structure without the opening. Information about the length and the number of the plurality of frame materials to be stored is stored, and the arithmetic unit is provided with the opening by the information input to the information input unit and the information stored in the storage unit. The length of the frame material forming the skeleton of the building composition, the number of pieces is calculated, the information output unit outputs the calculation result in the calculation unit, the building structure in the industrialized building Raw The information processing apparatus. 3. An information input unit, a storage unit, a calculation unit including an image processing unit and a numerical processing unit, a control unit, and an information output unit, wherein the information input unit has a plurality of frame members. Information about a building structure in which a frame is formed by the frame member and an opening is provided at the position of the frame member, and information including data on the position of the opening and its dimensions is input, and the storage unit, Frame image information by the plurality of frame members for the building structure without the opening,
The length of the plurality of frame members forming the framework of the building structure without the opening, information about the number is stored, the image processing unit, the information input to the information input unit and the The frame image of the building structure with the opening is calculated based on the frame image information stored in the storage section, and the control section includes the opening section based on the calculation result of the image processing section. Driving control of a drawing device that creates a drawing of the building structure, the numerical processing unit, the information input to the information input unit and the length of the plurality of frame members stored in the storage unit, The length of the frame material forming the frame of the building structure with the opening and the number of pieces are calculated based on the information about the number, and the information output section outputs the calculation result of the numerical processing section. An information processing system for producing building components in an industrialized building.