KR100835636B1 - 3d data create method of hole that using for nc machine - Google Patents

Abstract

A method for extracting 3D(Dimensional) hole data recognizable to an NC(Numeric Control) machine is provided to recognize the data conveniently, remove risk for incorrect operation, shorten a processing time, and reduce a processing cost by automatically extracting the 3D(Dimensional) hole data recognizable to the NC machine. A user selects a plane figure output in a drawing. The user fixes X/Y coordinates for processing a hole on the plane figure. Z+/Z- axis coordinates for processing the hole are fixed in a modeling shape. A face matched with a Z+ coordinate direction is collected. The hole found in the collected face is collected. It is determined whether the collected hole has attribute. The hole is classified into each hole type when the attribute is found, and the type, a radius, and a depth of the hole are collected when the attribute is not found. The face matched with a Z- coordinate direction is collected. The hole found in the collected face is collected. It is determined whether the collected hole has the attribute. The hole is classified into each hole type when the attribute is found, and the type, the radius, and the depth of the hole are collected when the attribute is not found. A list of the collected holes is written. NC data for processing the hole is generated based on the list.

Description

3D data create method of hole that using for NC machine

The present invention relates to a three-dimensional data derivation method of a hole (Hole), and more particularly to a three-dimensional data derivation method of a hole that can be recognized by processing machines such as NC lathes.

In general, all information about the hole, such as the size of the hole and the change of the cross section, must be input to the processing machine such as NC lathe by using separate software, and the processing machine processes the hole corresponding to the input information with the input information. can do.

Therefore, there is a problem that cumbersome and malfunctioning risks exist by directly making NC data that can be recognized by the processing machine or manually inputting the x and y coordinates of the hole to the processing machine.

In addition, there is a problem that the processing time is longer and the processing cost is increased because the operator has to input a variety of tools (Tool) required for the hole processing directly to the processing machine.

The present invention has been proposed to solve the above problems, the object of which is to automatically derive three-dimensional data such as holes so that the processing machine can recognize the data is easy to recognize and there is no risk of malfunction In addition, the present invention provides a method for deriving three-dimensional data of a hole that can be recognized by a processing machine, which can shorten processing time and reduce processing cost.

In order to achieve the above object, the method for deriving three-dimensional data of a hole that can be recognized by a processing machine according to the present invention includes the steps of (a) selecting a plan view output inside the drawing; Specifying X, Y) coordinates in the floor plan, (c) specifying jet plus and jet minus (Z +, Z-) axis coordinates in the modeling geometry for machining, and (d) jet plus (Z +) coordinates. Collecting a plane coinciding with the direction, (e) collecting a hole existing inside the surface collected in step (d), and (f) collecting the hole collected in step (e). Determining whether an attribute exists; and (g) if it is determined that the attribute of the hole exists in the step (f), classify it according to the type of the hole, and in step (f), determine that the attribute of the hole does not exist. If determined, the hole type, the hole radius, and the hole depth Collecting dimensions with respect to, (h) collecting planes coincident with the jet minus (Z-) coordinate direction, and (i) collecting holes existing within the surface collected in step (h). (J) determining whether there is an attribute of a hole collected in the step (i); and (k) if it is determined that an attribute of a hole exists in the step (j), the classification is performed according to the type of the hole. If it is determined in step (j) that there is no property of the hole, collecting the size of the hole type, the radius of the hole, and the depth of the hole; and (l) a list of the holes collected in step (k). And (m) generating NC (NC) data for hole machining based on the list created in step (l).

Hereinafter, a method of deriving three-dimensional data of a hole that can be recognized by a processing machine according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

According to an embodiment of the present invention, a method for deriving three-dimensional data of a hole that can be recognized by a processing machine includes steps (a), (b), (c), (d), (e) and steps (f), (g), (h), (i), (j), (k), (l), and (m) have.

Step (a) is a step of selecting a plan view output in the drawing.

Step (b) is a step of designating X-Y coordinates for processing in a plan view.

In the step (c), the jet plus and jet minus (Z +, Z−) axis coordinates for machining are designated in the modeling shape.

Step (d) is a step of collecting a plane coincident with the jet plus (Z +) coordinate direction.

Step (e) is a step of collecting a hole (Hole) existing inside the surface collected in the step (d).

Step (f) is a step of determining whether the attributes of the holes collected in the step (e) exist.

The step (g) is classified according to the type of the hole if it is determined that the property of the hole in step (f), and the type of the hole and the radius of the hole if it is determined in step (f) that the property of the hole does not exist And collecting dimensions relating to the depth of the hole.

Step (h) is a step of collecting a plane coincident with the jet minus (Z−) coordinate direction.

Step (i) is a step of collecting holes existing in the surface collected in the step (h).

Step (j) is a step of determining whether there is an attribute of the holes collected in the step (i).

The step (k) is classified according to the type of the hole if it is determined that the property of the hole in step (j), and the type of the hole and the radius of the hole if it is determined in step (j) that the property of the hole does not exist And collecting dimensions relating to the depth of the hole.

Step (l) is a step of preparing a list of holes collected in step (k).

Step (m) is a step of generating NC (NC) data for hole machining based on the list created in step (l).

It will be described in more detail the three-dimensional data derivation method of the hole that can be recognized by the processing machine according to an embodiment of the present invention having the above configuration.

First, a plan view output inside the drawing is selected.

Subsequently, the X-Y (X, Y) coordinates for processing are specified in the plan view.

The jet plus and jet minus (Z +, Z-) axis coordinates for the machining are then specified in the modeling shape.

Then, the plane coinciding with the jet plus (Z +) coordinate direction is collected.

Then, a hole (Hole) existing inside the collected surface is collected.

Subsequently, it is determined whether an attribute of a collected hole exists through the above process.

Subsequently, as described above, it is determined whether or not the property of the hole exists, and if it is determined that the property of the hole exists, it is classified according to the type of the hole. If it is determined that the property of the hole does not exist, the type of the hole, the radius of the hole, Collect dimensions regarding the depth of the hole.

Then, the plane coincident with the jet minus (Z−) coordinate direction is collected.

Then, holes existing inside the collected surface are collected.

Then, it is determined whether there is an attribute of the collected hole.

Subsequently, if it is determined that there is an attribute of the hole, it is classified according to the type of the hole. If it is determined that the attribute of the hole does not exist in step (j), the size of the hole, the radius of the hole, and the depth of the hole are collected. .

Next, a list of collected holes is prepared.

Next, NC (NC) data for hole making is generated based on the created list.

As described above, according to the method for deriving three-dimensional data of a hole that can be recognized by a processing machine according to the present invention, recognition of the data is simplified and malfunctions by automatically deriving three-dimensional data such as a hole so that the processing machine can recognize the same. There is no risk, the processing time is shortened, there is an effect that the processing cost can be reduced.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, it is intended to be illustrative, and those skilled in the art will understand that various modifications and equivalent embodiments are possible from this. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

Claims (1)

(a) selecting a plan view output inside the drawing; (b) specifying X-Y (X, Y) coordinates in the plan view for processing; (c) designating jet plus, jet minus (Z +, Z-) axis coordinates in the modeling shape for machining; (d) collecting a plane coincident with the jet plus (Z +) coordinate direction; (e) collecting holes existing in the surface collected in step (d); (f) determining whether an attribute of a hole collected in step (e) exists; (g) If it is determined in step (f) that the property of the hole exists, classify according to the type of the hole. If it is determined in step (f) that the property of the hole does not exist, the type of the hole, the radius of the hole, and Collecting dimensions in terms of depth; (h) collecting a plane coincident with the jet minus (Z−) coordinate direction; (i) collecting holes existing in the surface collected in the step (h); (j) determining whether the attributes of the holes collected in step (i) exist; (k) If it is determined that the attribute of the hole exists in the step (j), it is classified according to the type of the hole. If it is determined that the attribute of the hole does not exist in the step (j), the type of the hole, the radius of the hole, and Collecting dimensions in terms of depth; (l) creating a list of holes collected in step (k); (m) generating NC (NC) data for hole machining based on the list created in step (l). 3.