KR100841459B1 - Mean thickness calculate method of 3d object - Google Patents

Abstract

A mean thickness calculating method of a 3D object is provided to obtain a mean thickness of the 3D object with parts of different thicknesses within a short time. A mean thickness calculating method of a 3D object includes a dividing step(S1) of dividing the 3D object into a plurality of cells; a first thickness input step(S2) of inputting the number of adjacent cells not including an empty cell in one direction among x, y, and z axes, as thickness information of each cell; a second thickness input step(S3) of inputting the number of adjacent cells not including an empty cell in a direction different from that in the first thickness input step, as thickness information of each cell; a third thickness input step(S4) of inputting the number of adjacent cells not including an empty cell in a direction different from those in the first and second thickness input steps, as thickness information of each cell; and a mean thickness calculating step(S5) of calculating a mean thickness by dividing a sum of the final thickness information by the number of the cells.

Description

How to calculate average thickness of 3D object {MEAN THICKNESS CALCULATE METHOD OF 3D OBJECT}

1 is a flow chart of a method for calculating the average thickness of a three-dimensional object according to an embodiment of the present invention,

2 to 6 are explanatory views showing specific examples of the thickness calculation method according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

S1: dividing step, S2: first thickness input step,

S3: second thickness input step, S4: third thickness input step,

S5: Average thickness calculation step.

The present invention relates to a method for calculating the average thickness of a three-dimensional object, and more particularly, to a method for calculating the average thickness of a three-dimensional object that can quickly and approximate the average thickness of a three-dimensional object having a different thickness using a computer program. .

Various shapes, that is, average thicknesses for three-dimensional objects having different thicknesses of respective parts are required.

The average thickness is a factor that is basically required in the design of various products and also in forming an optimum environment for casting or die casting.

However, there is no way to calculate the average thickness of the three-dimensional object quickly and approximate, so that the user must measure and calculate the numerical value directly, it is time-consuming and difficult to calculate the exact average thickness.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and provides a method of calculating the average thickness of a three-dimensional object that can quickly and approximately calculate the average thickness of three-dimensional objects having different thicknesses using a computer program. There is this.

In order to achieve the above object, the method of calculating the average thickness of a three-dimensional object of the present invention comprises dividing a product into a plurality of cells, and before empty spaces appear among cells adjacent to each cell in the x, y, and z directions. Characterized in that the total number is inputted by the thickness information of each cell.

A method for calculating the average thickness of a three-dimensional object of the present invention includes a dividing step of dividing a product into a plurality of cells; A first thickness input step of inputting, as for each cell, the total number of cells before the empty space among adjacent cells based on one of x, y, and z directions as thickness information of each cell; The total number of cells before the empty space comes out of the adjacent cells in a direction different from the first thickness input step is corrected and inputted as the thickness information of each cell, and based on the thickness information given in the first thickness input step. A cell having a smaller number than the number of cells to be calculated first is regarded as an empty space, and the number of cells and the number of cells to be calculated first are not modified for the corresponding cell without modifying the thickness information input in the first thickness input step. The second thickness input step of correcting and inputting the total number of cells before the empty space is made into the thickness information of each cell for the cells having the same or larger number; The total number of cells before the empty space comes out of the adjacent cells in a direction different from the first thickness input step and the second thickness input step is corrected and inputted by the thickness information of each cell, but the thickness given in the second thickness input step Based on the information, a cell having a smaller number than that of the cell to be calculated currently is regarded as an empty space, and the thickness information input in the first thickness input step and the second thickness input step is not modified for the corresponding cell. A third thickness input step of correcting and inputting the total number before the empty space is made into the thickness information for each cell having a number equal to or greater than the number of cells to be calculated; And an average thickness calculation step of calculating the average thickness by dividing the sum of the final thickness information of each cell obtained by the third thickness input step by the total number of cells.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a flow chart of a method for calculating the average thickness of a three-dimensional object according to an embodiment of the present invention, Figures 2 to 6 are explanatory views showing a specific example of the thickness calculation method according to an embodiment of the present invention.

As shown in Fig. 1, the present invention provides a division step S1, a first thickness input step S2, a second thickness input step S3, a third thickness input step S4, and an average thickness. The calculation step (S5) is made.

The dividing step S1 is a step of dividing a three-dimensional product having an arbitrary shape into a plurality of unit cells, and dividing the three-dimensional product into a plurality of cells as shown in FIG. 2.

At this time, the shape of the three-dimensional product is preferably input to the STL file.

The STL file is an abbreviation of Standard Transfer Language, which is well described in Korean Patent Publication No. 10-2004-0002250, and a detailed description thereof will be omitted.

In Figures 2 to 6, the shape of the product is expressed in two dimensions, which is merely expressed in order to make the description of the present invention easier.

In the first thickness input step S2, the total number of cells until the empty space of the adjacent cells comes out based on one of the x, y, and z axes with respect to each cell as thickness information of each cell. Entering steps.

For example, as shown in FIG. 3, the number of cells until a blank space is displayed among cells adjacent in the horizontal direction is input as thickness information of each cell.

In the case of the top horizontal line in FIG. 3, there is a blank space in the fourth horizontal cell in the horizontal direction, and the number 3 of cells up to the horizontal third cell is input.

In addition, without inputting a number into the empty space, 3, which is the number of cells from the horizontal 5th cell to the horizontal 8th cell, is input from the horizontal 5th cell to the horizontal 8th cell.

In the second thickness input step S3, the total number of cells before the empty space is released from the cells adjacent in the direction different from the first thickness input step S2 is corrected and inputted as thickness information of each cell. Based on the thickness information given in the first thickness input step S2, a cell having a smaller number than the number of cells to be calculated first is regarded as an empty space, and the first thickness input step S2 for the corresponding cell. This is a step of modifying and inputting the total number of cells before the empty space as the thickness information of each cell, without modifying the thickness information entered in .

For example, as shown in FIG. 4, the number of cells until the empty spaces appear among the cells adjacent in the vertical direction is input as thickness information of each cell.

In FIG. 4, when the bottom cell of the far left vertical line is referred to as the vertical first cell, as shown in FIG. 3, the vertical first cell and the vertical second cell in the first thickness input step S2 are shown as thickness information. Is 3, and the third to fifth cells are smaller than three, and the sixth cell is three.

Therefore, since the third through fifth cells are smaller than the size of the first through one cell, they are ignored as empty spaces and do not modify the thickness information of the cells.

The first cell and the second cell are modified to 2, which is the total number before the third cell is considered empty, and the sixth cell is modified to 1.

When the remaining vertical cells modify the thickness information in the same manner as shown in FIGS. 5 and 6.

In FIG. 5, the diagonally processed portion, unlike the empty space in the center, is a portion smaller than the size of the first cell and is ignored and treated as empty space.

In the third thickness input step S4, the total number of cells before the empty spaces appear in the cells adjacent to each other in the direction different from the first thickness input step S2 and the second thickness input step S3 is determined. The correction information is input to the thickness information, but a cell having a smaller number than the number of cells currently to be calculated based on the thickness information provided in the second thickness input step S3 is regarded as an empty space, and the cell is described above. An empty space appears for a cell having a number equal to or greater than the number of cells to be calculated first without modifying the thickness information input in the first thickness input step S2 and the second thickness input step S3. Correcting and inputting the total number of previous cells as thickness information of each cell.

That is, the third thickness input step S4 is a step of correcting the thickness information of the cell in the same manner as mentioned in the second thickness input step S3.

The average thickness calculating step S5 is a step of calculating the average thickness by dividing the sum of the final thickness information of each cell obtained by the third thickness input step S4 by the total number of cells.

By the above average thickness calculation method, the average thickness of a three-dimensional object can be calculated quickly and very closely.

The method of calculating the average thickness of the three-dimensional object of the present invention is not limited to the above-described embodiment, and may be variously modified within the range to which the technical idea of the present invention is permitted.

According to the method for calculating the average thickness of the three-dimensional object of the present invention as described above, it is possible to quickly and very closely calculate the average thickness of the three-dimensional object having a different thickness of each portion using a computer program.

Claims (2)

Three-dimensionally characterized by dividing the product into a plurality of cells, and inputting the total number of cells before the empty space of the adjacent cells in the x, y, z axis direction for each cell with the thickness information of each cell How to calculate the average thickness of an object. According to claim 1, Dividing the product into a plurality of cells; A first thickness input step of inputting, as for each cell, the total number of cells before the empty space among adjacent cells based on one of x, y, and z directions as thickness information of each cell; The total number of cells before the empty space comes out of the cells adjacent to each other in the direction different from the first thickness input step is corrected and inputted as the thickness information of each cell, but the first is based on the thickness information given in the first thickness input step. A cell having a number smaller than the number of cells to be calculated is regarded as an empty space, and the same as the number of cells to be calculated first without modifying the thickness information input in the first thickness input step for the corresponding cell. The second thickness input step of correcting and inputting the total number of cells before the empty space is made into the thickness information of each cell for the cells having a large number or a large number; The total number of cells before the empty space comes out of the adjacent cells in a direction different from the first thickness input step and the second thickness input step is corrected and inputted by the thickness information of each cell, but the thickness given in the second thickness input step Based on the information, a cell having a smaller number than that of the cell to be calculated currently is regarded as an empty space, and the thickness information input in the first thickness input step and the second thickness input step is not modified for the corresponding cell. A third thickness input step of correcting and inputting the total number before the empty space is made into the thickness information for each cell having a number equal to or greater than the number of cells to be calculated; And an average thickness calculation step of calculating the average thickness by dividing the sum of the final thickness information of each cell obtained by the third thickness input step by the total number of cells.

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