JPH08161372A - Data transformation system in component pick-up system - Google Patents

Abstract

PURPOSE: To provide a data transformation system in a component pick-up system whereby input work is facilitated, processing quantity relaying on a computer is reduced and the increase of a cost is restricted. CONSTITUTION: The data transformation system is the system of construction plan data in the component pick-up system where a memory for recording construction plan data and a component picking-up means picking-up the components required for a construction plan based on the construction plan data which is stored in the memory are provided. A place where the parts are arranged in the construction plan is coordinate-expressed by at least one of a module line 31, a module surface 32 or the intersection 33 of them used in the construction plan and construction plan data concerning the component is transformed into data for the memory from the coordinates and the name of the component.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data conversion system in a parts picking system in which parts are picked up by a computer in an industrial house such as a unit house.

[0002]

2. Description of the Related Art In an industrialized house such as a unit house, necessary parts are selected from a large amount of information covered in a plan (plan) of a building that defines a plan such as a floor plan. It is generally called picking up parts).

Recently, for example, Japanese Patent Laid-Open No. 5-23373 has been proposed as a support for automating the parts picking work.
As shown in Japanese Patent Publication No. 4, a memory for recording building plan data inputted based on the building plan, and a parts pick-up for picking up parts required for the building plan based on the building plan data recorded in this memory. There is known a part picking system including a discharging means.

By the way, in addition to the name of the part to be used, the above-mentioned information of the architectural plan includes the positional relationship between the part and other parts adjacent thereto (for example, the gap size between the panels and the wall thickness). In the conventional parts picking system, all of these necessary numerical information are input as data.

[0005]

However, in the method of directly inputting a large amount of data as described above, not only a huge amount of time is required for the input work, but also the amount of processing depending on the computer becomes enormous and the cost is reduced. There was a problem that was increased.

The present invention has been made against the background of such circumstances, and simplifies the input work, and reduces the amount of processing depending on the computer to suppress the increase in cost. The purpose is to provide a data conversion method in the system.

[0007]

In order to achieve the above-mentioned object, the present invention is based on a memory for recording building plan data input based on a building plan and the building plan data recorded in this memory. A data conversion method of the building plan data in a parts picking system, which comprises a parts picking means for picking up parts required for the building plan, wherein the parts are arranged on the building plan, Coordinates are expressed by at least one of a module line or a module plane used for a construction plan, or an intersection thereof, and the construction plan data on the part is converted into data for the memory from the coordinates and the name of the part. It is characterized by doing.

[0008]

[Operation] According to the present invention, the location where the components of the building are arranged on the building plan is represented by at least one of the module line used for the building plan, the module surface, or their intersections. Then, based on this coordinate and the name of the part, the building plan data relating to the part is converted into data for the memory. Therefore, if the information on whether or not the part and another part are adjacent to each other is recorded in the memory, the coordinates (point coordinates, line coordinates, plane coordinates) and the name of the part are specified. As a result, the central processing unit provided in the parts picking system can judge the adjacency relationship and pick up the target part.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a data conversion system in a parts picking system according to the present invention will be described below with reference to the drawings.

First, an outline of a parts picking system will be described.

In FIG. 3, reference numeral 1 denotes a floppy disk on which a construction plan drawing drawn by CAD or the like is recorded. The floppy disk 1 has, for example, a wall structure of one room as shown in FIG. The shown building plan is recorded as drawing data (building plan data). The room 20 shown in the figure is located at the corner of the building and is divided into two outer wall panels 21 and 23 and two inner wall panels 25 and 27.

Reference numeral 3 denotes a read circuit for reading the architectural plan view recorded on the floppy disk 1 via the magnetic head 4.
Is a memory for recording the architectural floor plan read by the reading circuit 3, 6 is a display for displaying the architectural floor plan recorded in the memory 5, and 7 is a printer for printing out predetermined data.

Reference numeral 8 is a control circuit for controlling the reading circuit 3, the memory 5, the display 6, the printer 7 and the like on the basis of various commands by operating the keyboard 9, which is composed of a microcomputer or the like. In addition, the control circuit 8
Is a parts picking-out means for picking up parts required for the building plan from the building plan data recorded in the memory 5 and collecting the kind of parts corresponding to the building plan data and the number of each part. In addition to the function of picking up parts, it also has a counting function.

The control circuit 8 is adapted to perform the following arithmetic processing. That is, FIG. 1 (A)
Exterior wall panel 2 as a component in the building plan shown in
1, 22, 23, 24, inner wall panels 25, 26, 27,
Places to be placed on each building plan of the pillar 28,
As shown in FIG. 1 (B), the module line 31, the module surface 32, or their intersections 33, 34, 35, and 36 used in this construction plan are expressed as coordinates, and the coordinates and the parts It has a function of converting the construction plan data on the part from the name (for example, outer wall panel) into data for the memory 5. The conversion data representing each component is shown below. The intersection 34 is set to (0, 0) and the module length is set to 1. The room 20 has a square shape in plan view, and the length of one side is 10.

The outer wall panel 21 has (0,0) * (0,1)
0), the outer wall panel 23 is (0,0) * (10,0), the inner wall panel 25 is (0,10) * (10,10), and the inner wall panel 27 is (10,10) * (10,0). , The pillar 28 is (0,0), and the floor panel 29 is (0,0) * (10,1).
It is given a unique conversion data of 0).

If at least one of the coordinates forming the conversion data of each part coincides with at least one of the coordinates forming the conversion data of another part, those parts are adjacent to each other. In such an adjoining relationship, the unique clearance dimension, wall thickness, etc. are recorded in the memory 5 in advance. Therefore, the target component can be selected from only the conversion data while considering the adjacency relationship with another adjacent component.

The conversion data representing each component may be as follows in addition to the above expression system. That is, the outer wall panel 21 has vertical lines (0, 0), the outer wall panel 23 has horizontal lines (0, 0), and the inner wall panel 25 has horizontal lines (0, 0).
0), the inner wall panel 27 is a vertical line (10, 10), and the floor panel 29 is a surface (0, 0), such as a word (line or surface) indicating the plan view shape of the corresponding part and the position of the part. It may be a combination of one of the coordinate points.

Next, the order in which the parts are picked up by the data conversion method in the parts picking-up system having such a configuration will be described.

First, by operating the keyboard 9, a predetermined building plan recorded on the floppy disk 1 (drawing)
Select By this selection, for example, the construction plan as shown in FIG. 1A is read out by the readout circuit 3, stored in the memory 5, and displayed on the display 6.

Next, when a start command is issued, the construction plans (see FIG. 1A) stored in the memory 5 are sequentially
Parts (for example, the outer wall panel 21) are picked up, and the picked up parts are recorded in the memory built in the control circuit 8. The conversion data is used for this recording.

Then, it is judged whether or not at least one of the coordinates forming the conversion data of each part matches at least one of the coordinates forming the conversion data of another part.

For example, on the plane (10, 10), the adjacent points are the points (10, 10), the points (10, 20), the points (2).
0, 10) and points (20, 20). Also, in terms of planes, there are adjacency relationships between 6 vertical lines, 6 horizontal lines, and 8 planes.

These adjacency relations (correspondence relation of the coordinates)
In other words, that is, when the outer wall panel 21 and the outer wall panel 23 share the coordinates (0, 0) and the inner wall panel 25 and the inner wall panel 27 share the coordinates (10, 10). Alternatively, when the outer wall panel 21 represented by the vertical line and the outer wall panel 23 represented by the horizontal line share the coordinates (0, 0), those parts are adjacent to each other. Therefore, the memory 5 refers to the specific clearance dimension, wall thickness, and the like regarding the parts having such an adjacency relationship, and the part is selected in consideration of the adjacency relationship with other adjacent parts.

The parts thus selected are listed and printed out. In this case, in addition to printout, it may be displayed on the display 6.

As shown in FIG. 2, this series of picking-ups is carried out in the order of the block pattern of the building, the stairs, and the opening.

As described above, the location where the components of the building are arranged on the building plan is expressed by the coordinates of at least one of the module line or the module surface used for the building plan or their intersections, and the coordinates By converting the building plan data relating to the part into data for the memory based on the name of the part, it is determined whether the parts recorded in the memory are adjacent to each other. Then, based on this information, the coordinates (point coordinates, line coordinates, surface coordinates) related to the part
By specifying the name and its name, the central processing unit provided in the part picking system can judge the adjacency relationship and pick up the target part.

Although the embodiment has been described above with reference to the drawings, the specific configuration is not limited to this embodiment, and the present invention can be applied even if there is a design change or the like within the scope not departing from the gist of the present invention. Of course, it is included in.

For example, in the embodiment of the present invention, the picking up of the outer wall panel and the inner wall panel has been described, but it goes without saying that the invention can be applied to all parts.

[0029]

As described above, according to the present invention, the place where the parts constituting the building are arranged on the construction plan is the module line or the module surface used in the construction plan, or the intersection thereof. Coordinates are expressed by at least one. Then, based on this coordinate and the name of the part, the building plan data relating to the part is converted into data for the memory. Therefore, if the information on whether or not the part and another part are adjacent to each other is recorded in the memory, the coordinates (point coordinates, line coordinates, plane coordinates) and the name of the part are specified. This has the effect that the central processing unit provided in the component picking-up system can pick up the target component by judging the adjacency relationship.

[Brief description of drawings]

1A and 1B show a building plan used in a parts picking system according to the present invention, in which FIG. 1A is a plan view and FIG.
[Fig. 3] is a building plan diagram in which data is converted by the present invention.

FIG. 2 is a step showing the order of picking up parts.

FIG. 3 is a block diagram showing a configuration of a parts picking system.

[Explanation of symbols]

 5 Memory 8 Control Circuit (Parts Pickup Means) 31 Module Line 32 Module Surface 33, 34, 35, 36 Intersection Point

Claims (1)

[Claims] 1. A memory for recording building plan data input based on a building plan, and a parts picking-out means for picking up parts required for the building plan based on the building plan data recorded in the memory. It is a data conversion method of the building plan data in a parts pick-up system that is provided, wherein a location where the parts are arranged on the building plan is a module line used for the building plan, or a module surface, or an intersection thereof. A data conversion method in a parts picking-up system, wherein the construction plan data concerning the part is converted into data for the memory by expressing the coordinates by at least one of the above.