KR20230060198A - Automatic design method for bucket assembly using automated design modeling program - Google Patents

Abstract

The present invention relates to a method for designing a bucket assembly using an automatic design modeling program.
A method of designing a bucket assembly using an automatic design modeling program according to the present invention includes the step of pre-creating and inputting a main side drawing that is the standard of a bucket assembly to be manufactured, pre-creating and inputting a part drawing other than the main side drawing, Preparing and inputting the applied thickness for each weight type for the main side drawing and the parts drawing in advance, combining the parts drawing for the main side drawing, and automatically modeling and selecting the bucket assembly using a user selection UI and automatically generating a drawing of the bucket assembly using the user selection UI.
According to the present invention, it is possible to improve design efficiency, select a desired model through a user UI, and generate automatic modeling and manufacturing drawings.

Description

Automatic design method for bucket assembly using automated design modeling program}

The present invention relates to a method for automatically designing a bucket assembly using an automatic design modeling program, and more particularly, to a bucket assembly using an automatic design modeling program that automatically models a bucket assembly using a user selection UI (User Interface). It is about an automatic design method.

In the current design environment, over time, design targets to be manufactured are complex and large, making production and management difficult. Therefore, there is a difficulty in production and management with the existing manpower.

However, by implementing design automation, it is possible to optimize and increase efficiency in the design and construction stages.

Design automation is to fully automate the system from the guidelines to manufacturing after determining the manufacturing guidelines of the product.

A program used to implement design automation is an automatic design program.

Automatic design programs are mainly used in machinery and manufacturing fields such as mold design, and are representative software that will lead the smart factory market, one of the representative fields of the 4th industrial revolution.

Recently, it is a field where continuous R&D is being conducted, such as building a design automation system by applying AI.

By implementing design automation, engineering knowledge and intent can be captured and reused. Design automation not only reduces errors and shortens the time required for repetitive model work, but also expands the scope of application and can be used in subsequent development processes.

In general, a designer can design manually by designing with an automatic design program, or call and insert saved part drawings using a library.

If a designer designs by hand, it takes a lot of time and there is a high probability of design errors. In addition, when using a library, in the case of parts having variable dimensions, it is difficult to apply because there are many types of parts and it is cumbersome to find desired parts one by one.

Korean Registered Patent No. 10-807061

Accordingly, an object of the present invention has been drawn to solve the problems of the prior art as described above, and to provide an automatic bucket assembly design method using an automatic design modeling program.

According to a feature of the present invention for achieving the above object, pre-creating and inputting a main side drawing that is a standard of a bucket assembly to be manufactured, pre-creating and inputting parts drawings other than the main side drawing Step, pre-creation and input of the applied thickness for each type of weight for the main side drawing and the parts drawing, combining the parts drawing with respect to the main side drawing, automatically modeling the bucket assembly using a user selection UI and selecting, automatically generating a drawing of the bucket assembly using the user selection UI.

The bucket assembly is characterized in that it comprises a bucket assembly for 20 tons, a bucket assembly for 25 tons, a bucket assembly for 30 tons, a bucket assembly for 38 tons, or a bucket assembly for 48 tons.

The combining of the parts drawing with respect to the main side view may be performed by designating a position of the parts drawing with respect to the main side view.

Designating the location of the component drawing is characterized in that the component drawing is combined in the order of combination of the bucket assembly with respect to the main side view.

Combining the parts drawing in the order of combination of the bucket assembly for the main side view first combines the second lower plate and body reinforcement drawing on the main side view of the bucket assembly, and then the body of the bucket assembly. It is characterized in that the parts are combined, and finally, the part parts of the bucket assembly are combined.

The method for automatically designing a bucket assembly using an automatic design modeling program according to the present invention has the following effects.

The present invention has the advantage of improving design efficiency.

In the present invention, a desired model can be selected through a user UI and automatic modeling and manufacturing drawings can be generated.

In the present invention, there is an advantage of rapid delivery to the manufacturing step.

1 is a main side view of a bucket assembly according to an embodiment of the present invention.
2 is a three-dimensional view for explaining a bucket assembly according to an embodiment of the present invention.
3 is a diagram illustrating a step of automatically modeling and selecting a bucket assembly using a user selection UI according to an embodiment of the present invention.
Figure 4 is a figure shown to explain the step of automatically generating a drawing of the bucket assembly using a user selection UI according to an embodiment of the present invention.

An object of the present invention is to provide an automatic bucket assembly design method using an automatic design modeling program, certain advantages and novel features will become more apparent from the following detailed description and preferred embodiments taken in conjunction with the accompanying drawings. .

In addition, it should be noted that in the present specification, in adding reference numerals to components of each drawing, the same components have the same numbers as much as possible even if they are displayed on different drawings.

And the present invention can be implemented in many different forms, and is not limited to the embodiments described herein. And, in describing the present invention, detailed descriptions of related known technologies that may unnecessarily obscure the subject matter of the present invention will be omitted.

Hereinafter, a preferred embodiment of a method for automatically designing a bucket assembly using an automatic design modeling program according to the present invention will be described with reference to the drawings.

As shown in FIGS. 1 to 4, an embodiment of an automatic bucket assembly design method using an automatic design modeling program according to the present invention is shown.

As shown in these drawings, the method of automatically designing a bucket assembly using an automatic design modeling program according to the present invention includes the steps of pre-creating and inputting a main side view that is a standard of a bucket assembly to be manufactured, other than the main side view. Pre-creating and inputting parts drawings, pre-creating and inputting the applied thickness for each weight type for the main side drawing and the parts drawing, combining the parts drawing for the main side drawing, user selection UI and automatically modeling and selecting the bucket assembly using the user selection UI, and automatically generating a drawing of the bucket assembly using the user selection UI.

The step of pre-creating and inputting the main side drawing, which is the reference of the bucket assembly to be manufactured, is to pre-create the main side drawing of the bucket assembly to be manufactured in an automatic design modeling program and input the created main side drawing will be.

In addition, the automatic bucket assembly design method using the automatic design modeling program according to the present invention is to manufacture a bucket assembly for 20 tons, a bucket assembly for 25 tons, a bucket assembly for 30 tons, a bucket assembly for 38 tons, and a bucket assembly for 48 tons. It is a bucket assembly.

That is, the bucket assembly may include a 20-ton bucket assembly, a 25-ton bucket assembly, a 30-ton bucket assembly, a 38-ton bucket assembly, or a 48-ton bucket assembly.

Since the size of a part varies depending on the type of bucket assembly to be manufactured, the part drawing designed according to the type of bucket assembly may be different.

Therefore, for the main side view and the main side view of each of the 20-ton bucket assembly, the 25-ton bucket assembly, the 30-ton bucket assembly, the 38-ton bucket assembly, or the 48-ton bucket assembly, The part drawing may be prepared in advance and input into the automatic design modeling program.

The step of pre-creating and inputting the parts drawings other than the main side view is the step of pre-creating and inputting the part drawings other than the main side view for each bucket assembly.

The bucket assembly may largely include a bucket assembly body portion and a bucket assembly part portion.

The bucket assembly body is composed of plates constituting the shape of a general bucket assembly, and includes a bucket extension plate 14, a first side plate 12, a second side plate 13, a first lower plate 10, It may be configured including 2 lower plates 11 and coupling plates 15.

The bucket extension plate 14, the first side plate 12, the second side plate 13, and the coupling plate 15 are plates having no curvature or very little curvature, but the first lower plate (10) and the second lower plate 11 may be plates having a large curvature.

Since the first lower plate 10 is located below the bucket assembly and has a curvature, it can move smoothly when the bucket assembly is moved by construction equipment.

And since the first side plate 12 and the first lower plate 10 are points where a lot of friction with the outside and a large force are applied, the first side plate 12 and the first lower plate 10 A separate plate may be added to prevent this breakage and bending.

That is, the second side plate 13 may be attached to the first side plate 12 , and the second lower plate 11 may be attached to the first lower plate 10 .

The first side plate 12 may be connected to left and right sides of the first lower plate 10, respectively. That is, one of the first side plates 12 may be connected to the left side of the first lower plate 10 and one of the first side plates 12 may be connected to the right side of the first lower plate 10, so that the first lower plate ( 10), a total of two of the second side plates 13 may be connected.

In order for the first side plate 12 to be connected to the first lower plate 10, the point where the first side plate 12 is connected to the first lower plate 10 is the first lower plate ( 10) may have an arc shape with a corresponding curvature.

In addition, since the second side plate 13 is also attached to the first side plate 12, it may have a shape similar to that of the first side plate 12. Accordingly, the second side plate 13 may have an arc shape having a curvature corresponding to that of the first lower plate 10 .

The bucket extension plate 14 may be connected to the front of the first lower plate 10 and the coupling plate 15 may be connected to the rear of the first lower plate 10 .

The bucket assembly part may include a coupling plate connecting portion, a connecting portion reinforcing member 18, and a body reinforcing member 19.

The coupling plate connecting portion is provided on the coupling plate 15 and may have a fastening portion so that the bucket assembly can be connected to an arm of construction equipment.

The coupling plate connection portion may include a first connection portion 16 and a second connection portion 17, and the first connection portion 16 and the second connection portion 17 may include the fastening portion, respectively. .

The first connection part 16 and the second connection part 17 may be spaced apart in parallel from each other and provided perpendicularly to the coupling plate 15 .

The connecting part reinforcing member 18 is a reinforcing material for preventing bending of the combining plate connecting part and may be provided perpendicular to the combining plate connecting part and the combining plate 15 .

The body reinforcing member 19 may be provided inside the bucket assembly to prevent bending and breakage of the body of the bucket assembly.

Therefore, the step of pre-creating and inputting the parts drawings other than the main side drawing is the step of pre-creating and inputting the parts drawings including the bucket assembly body drawing and the bucket assembly part drawing into the automatic design modeling program. am.

The step of pre-creating and inputting the applied thickness for each type of weight for the main side view and the part drawing is to preliminarily apply thickness standards of the parts of the bucket assembly applied according to the weight and type of the bucket assembly to the automatic design modeling program. This is the step of writing and entering.

Specifically, the thickness standards and intervals for each part of the 20-ton bucket assembly, the 25-ton bucket assembly, the 30-ton bucket assembly, the 38-ton bucket assembly, or the 48-ton bucket assembly are described above. It can be input into an automatic design modeling program.

In the method of automatically designing a bucket assembly using an automatic design modeling program according to the present invention, by including these steps, a part drawing of the bucket assembly suitable for the main side drawing can be automatically designed.

The combining of the component drawings with respect to the main side drawing is a step of automatically selecting and combining components suitable for the bucket assembly to be manufactured based on pre-created and input data in the automatic design modeling program.

When combining the parts drawing of the bucket assembly with respect to the main side drawing, the reference position of the part drawing may be designated and combined.

Further, when combining the parts drawings of the bucket assembly with respect to the main side drawing, a reference position may be designated in the order of combining the parts drawings.

The order of combination of the component drawings may designate a reference position in the order of the second lower plate 11, the bucket assembly body, and the bucket assembly part.

Specifically, in the order of combination of the parts drawing with respect to the main side drawing, first, the reference positions of the second lower plate 11 and the body reinforcing member 19 may be designated.

Next, the order of combination of the component drawings for the main side view may designate reference positions of the bucket assembly body except for the second lower plate 11 .

Finally, the order of combining the parts drawings with respect to the main side view may be completed by designating the reference positions of the bucket assembly parts other than the body reinforcing member 19 .

The step of automatically modeling and selecting the bucket assembly using the user selection UI is a step of automatically modeling and selecting a model suitable for the position of each designated part of the bucket assembly.

That is, automatically modeling and selecting the bucket assembly using the user selection UI Selecting a model using the user selection UI for the bucket assembly to produce the part drawings pre-input into the automatic design modeling program , This is a step of automatically modeling the bucket assembly.

Specifically, by using the user selection UI, the OEM (Original Equipment Manufacturer: a company that manufactures products to be sold by attaching the orderer's trademark according to the orderer's request), type and width of each part of the bucket assembly are selected and automatically can be modeled.

The step of automatically generating a drawing of the bucket assembly using the user selection UI is a step of selecting a model and generating a manufacturing drawing of the bucket assembly using the user selection UI.

Specifically, a production drawing may be generated by selecting the OEM, type, and width of each component of the bucket assembly using the user selection UI.

In addition, the manufacturing drawing may be generated by the same principle as combining the component drawing of the bucket assembly.

That is, the manufacturing drawing may be manufactured by combining the parts drawings, and the manufacturing drawings may be generated by combining the parts drawings in order by designating a reference position of the parts drawings with respect to the main side drawing.

In the present invention, there is an advantage of improving design efficiency, and a desired model can be selected through the user selection UI, and automatic modeling and manufacturing drawings can be generated.

In addition, the present invention has the advantage of fast delivery to the manufacturing step.

The scope of the present invention is not limited to the embodiments exemplified above, and many other modifications based on the present invention will be possible for those skilled in the art within the above technical scope.

1. Bucket assembly 10. First lower plate
11. Second lower plate 12. First side plate
13. Second side plate 14. Bucket extension plate
15. Coupling plate 16. First connection part
17. Second connection part 18. Connection part reinforcement
19. Body stiffeners

Claims (5)

Pre-creating and inputting a main side drawing that is a standard of a bucket assembly to be manufactured;
Creating and inputting parts drawings other than the main side drawings in advance;
pre-creating and inputting the applied thickness for each type of weight for the main side drawing and the part drawing;
combining the parts drawing to the main side drawing;
automatically modeling and selecting the bucket assembly using a user selection UI;
Automatic bucket assembly design method using an automatic design modeling program, characterized in that it comprises the step of automatically generating a drawing of the bucket assembly using the user selection UI. The method of claim 1, wherein the bucket assembly
Bucket assembly automatic design method using an automatic design modeling program comprising a bucket assembly for 20 tons, a bucket assembly for 25 tons, a bucket assembly for 30 tons, a bucket assembly for 38 tons or a bucket assembly for 48 tons. 2. The method of claim 1, wherein combining the parts drawing to the main side drawing comprises:
Bucket assembly automatic design method using an automatic design modeling program, characterized in that for combining by designating the position of the parts drawing relative to the main side drawing. 4. The method of claim 3, wherein specifying the location of the parts drawing comprises:
Bucket assembly automatic design method using an automatic design modeling program, characterized in that for combining the parts drawings in the order of combination of the bucket assembly for the main side view. The method of claim 4, wherein combining the parts drawing in the order of combining the bucket assembly for the main side view first combines the second lower plate and the body reinforcement drawing on the main side view of the bucket assembly, Bucket assembly automatic design method using an automatic design modeling program, characterized in that for combining the body part of the bucket assembly, and finally combining the part part of the bucket assembly.

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