KR20240088162A - Multi face cutting mct apparatus - Google Patents

Abstract

Regarding the multi-faceted composite processing MCT device,
An MCT main body that cuts the upper surface of a hexahedral workpiece through a rotary tool of a machining unit that is provided on the upper part of the work table and moves in the vertical and horizontal directions; A rotary table that is fixedly installed on one side of the upper part of the work table of the MCT main body and on which a hexahedral workpiece is chucking on one side; An angle head that is detachably installed on the processing unit of the MCT main body; a connection part where the angle head is detachably coupled to the spindle of the processing unit of the MCT main body; a switching unit provided at the lower part of the connection unit and switching the rotation direction of the spindle from left and right to up and down; Through a technical configuration that includes a tool chuck provided on one side of the switching section,
With one setting, it is possible to process all five sides of the hexahedral workpiece (flat, front, bottom, back, and left) excluding the right side, which is the chucking surface, without changing the origin, thus improving the processing quality of the workpiece and reducing processing time. In addition to being able to shorten the processing time, it is also possible to reduce processing manpower and processing costs, which can greatly contribute to improving productivity and reducing costs.

Description

Multi-faceted composite processing MCT device {MULTI FACE CUTTING MCT APPARATUS}

The present invention relates to a multi-faceted composite machining MCT device, and more specifically, to a machine capable of cutting five sides excluding the chucking surface of a hexahedral workpiece through a rotary table and angle head installed on the MCT main body.

In general, in the case of complex hexahedral workpieces such as military parts, mold parts, electronic parts, and automobile parts, which are small ultra-precision assembled parts, completing most of the cutting processing in one setting is very effective in improving processing quality, shortening delivery time, improving productivity, and reducing costs. It becomes advantageous.

Accordingly, in the past, when cutting the multiple sides of a hexahedral workpiece with one setting, there were many cases of using an expensive 5-axis machining machine.

Patent Document 1 below includes a processing chamber unit for processing an input workpiece using either a tool that moves in the vertical or horizontal direction or a tool that rotates; and a clamping jig including a processing jig portion for aligning and fixing the workpiece processed by the tool on the bed.

Patent Document 2 below discloses a universal jig device for MCT machining that includes a jig portion for fastening a workpiece to perform a machining process by the MCT machining device.

Republic of Korea Patent Publication No. 10-2175181 (registered on October 30, 2020) Republic of Korea Patent Publication No. 10-2206669 (registered on January 18, 2021)

Conventional 5-axis machining machines are capable of cutting 5 sides of a cube with a single setting, but because the price of the equipment is too expensive, there is a problem in that the equipment costs are high, causing a cost increase.

The present invention is intended to solve the problems of the 5-axis processing machine according to the prior art, and its purpose is to machine all five sides except the chucking surface of a hexahedral workpiece in one setting using MCT equipment, which is relatively inexpensive compared to the 5-axis processing machine. The purpose is to provide a multi-faceted composite processing MCT device that enables processing.

In order to achieve the above-mentioned object, the multi-faceted composite machining MCT device according to the present invention is provided on the upper part of the work table and cuts the upper surface of the hexahedral workpiece through the rotary tool of the machining unit that moves in the vertical and horizontal directions. MCT body; A rotary table that is fixedly installed on one side of the upper part of the work table of the MCT main body and on which a hexahedral workpiece is chucking on one side; An angle head that is detachably installed on the processing unit of the MCT main body; a connection part where the angle head is detachably coupled to the spindle of the processing unit of the MCT main body; a switching unit provided at the lower part of the connection unit and switching the rotation direction of the spindle from left and right to up and down; It is characterized in that it includes a tool chuck provided on one side of the switching part.

According to the multi-faceted composite machining MCT device according to the present invention, it is possible to process all five sides except the chucking surface of a hexahedral workpiece without changing the origin in one setting using MCT equipment, which is relatively inexpensive compared to a 5-axis processing machine. The processing quality of the workpiece can be improved, the processing time can be shortened, and processing manpower and processing costs can be reduced, greatly contributing to improving productivity and reducing costs.

According to the multi-faceted composite machining MCT device according to the present invention, workpieces can be processed without changing the origin, and machined parts can be assembled most accurately, so that military parts, automobile parts, electronic parts, and mold parts that require ultra-precision assembly can be manufactured. etc. can be easily processed and produced.

1 is a front view of the workpiece plane, bottom, front, and back of the multi-faceted composite machining MCT device to which the present invention relates;
Figure 2 is a front view of the left side cutting state of the workpiece of the multi-faceted composite machining MCT device to which the present invention relates.

Hereinafter, the multi-faceted composite processing MCT device according to the present invention will be described in detail based on the attached drawings. For reference, the sizes of components, thickness of lines, etc. shown in the drawings used to describe the present invention may be somewhat exaggerated for ease of understanding.

In addition, the terms used in the description of the present invention are defined in consideration of the functions of the present invention and may vary depending on the user, operator intention, custom, etc. Therefore, the definition of this term should be based on the overall content of this specification.

In the present application, terms such as 'comprise', 'have', etc. refer to the existence of specific numbers, steps, operations, components, parts, or combinations thereof described in the specification, and do not refer to the presence of one or more other numbers, steps, operations, components, parts, or combinations thereof. It should be understood that this does not exclude in advance the possibility of the presence or addition of features, numbers, steps, operations, components, parts, or combinations thereof.

In addition, the present invention is not limited to the embodiments disclosed below and will be implemented in various different forms, but the present embodiments only serve to ensure that the disclosure of the present invention is complete and to convey the scope of the invention to those skilled in the art. It is provided for complete information.

Therefore, since the present invention can make various changes and take various forms, implementation examples (or aspects) (or embodiments) will be described in detail in the specification. However, this is not intended to limit the present invention to a specific disclosed form, and should be understood to include all changes, equivalents, and substitutes included in the technical spirit of the present invention, and the singular expressions used in this specification are clearly different from the context. Unless otherwise intended, plural expressions are included.

However, in describing the present invention, detailed descriptions of well-known or known functions or configurations will be omitted to make the gist of the present invention clear.

Hereinafter, “upward”, “downward”, “front” and “rear” and other directional terms are defined based on the states shown in the drawings.

Figure 1 is a front view of the plane, bottom, front, and back of the workpiece in a cutting state of the multi-faceted composite machining MCT device to which the present invention relates, and Figure 2 is a front view of the left side cutting state of the workpiece of the multi-faceted composite machining MCT device to which the present invention relates. am.

The multi-faceted composite processing MCT device 100 according to the present invention includes an MCT main body 110, a rotary table 120, and an angle head 130.

The MCT body 110 is a part that cuts the upper surface of the hexahedral workpiece (P) through a rotary tool (T) that moves in the vertical and horizontal directions, and includes a machining unit 111 on which the rotary tool (T) is mounted, It includes a work table 112 on which the workpiece (P) is mounted.

Since the technical configuration of the MCT main body 110 is self-evident in the technical field to which the present invention pertains, detailed description thereof will be omitted.

The rotary table 120 is a part for chucking the workpiece P, and is fixedly installed on one upper side of the work table 112 of the MCT main body 110.

The rotary table 120 is provided with a workpiece chucking part 121 on one side that can rotate in the up and down directions.

Accordingly, the workpiece P chucking the workpiece chucking portion 121 of the rotary table 120 can rotate in the forward and backward directions together with the workpiece chucking portion 121.

The angle head 130 is a part that allows cutting the side of the workpiece (P) and is detachably installed in the machining unit 111 of the MCT main body 110.

The angle head 130 includes a connection portion 131 that is detachably coupled to the spindle of the processing unit 111 of the MCT main body 110; A switching unit 132 provided at the lower part of the connecting unit 131 and switching the rotation direction of the spindle from left and right to up and down. It includes a tool chuck 133 provided on one side of the switching unit 132.

In the multi-faceted composite machining MCT device 100 according to the present invention, the rotary table 120 is mounted on the work table 112 of the MCT main body 110, and the hexahedral workpiece (P) is set on the rotary table 120, so that the origin It is possible to cut the four sides of the hexahedral workpiece (P) - the plane, front, bottom, and back - into the set shape without any change.

That is, when the hexahedral workpiece (P) is set on the rotary table 120 with its plane facing upward, the hexahedral workpiece is cut through the rotary tool (T) rotating in the left and right directions of the processing unit 111 of the MCT main body 110. The plane of (P) can be cut.

And after finishing cutting the plane of the hexahedral workpiece (P), when the hexahedral workpiece (P) is rotated backward 90° through the rotary table 120, the front surface of the hexahedral workpiece (P) in the initial setting state is MCT main body (110). ) can be positioned below the rotary tool (T) of the processing unit 111, making it possible to cut the front surface of the hexahedral workpiece (P).

And after finishing cutting the front of the hexahedral workpiece (P), when the hexahedral workpiece (P) is rotated backward 90° through the rotary table 120, the bottom of the hexahedral workpiece (P) in the initial setting state is changed to the MCT main body ( Since it can be positioned below the rotary tool (T) of the machining unit 111 of 110), the bottom surface of the hexahedral workpiece (P) can be cut.

And after finishing cutting the bottom of the hexahedral workpiece (P), when the hexahedral workpiece (P) is rotated backwards by 90° through the rotary table 120, the back of the hexahedral workpiece (P) in the initial setting state is changed to the MCT main body ( Since it can be positioned below the rotary tool (T) of the machining unit 111 of 110), the back surface of the hexahedral workpiece (P) can be cut.

Meanwhile, when cutting the left side of the hexahedral workpiece (P) set on the rotary table 120 through the multi-faceted composite machining MCT device 100 according to the present invention, the machining unit of the MCT main body 110 is used as shown in FIG. 2. When the angle head 130 is installed at (111) to change the rotation direction of the spindle from left and right to up and down, the rotary tool (T) mounted on the angle head 130 can be placed on one side of the hexahedral workpiece (P). This allows the left side of the hexahedral workpiece (P) to be cut into a set shape without changing the origin.

The multi-faceted composite machining MCT device 100 according to the present invention cuts the plane of the hexahedral workpiece P set on the rotary table 120 and then moves the hexahedral workpiece P 90 degrees forward and backward through the rotary table 120. By rotating °, the cutting surface can be switched, so the four sides of the hexahedral workpiece (P) (plane, front, bottom, and back) can be cut into a set shape without changing the origin, and the MCT main body 110 When the angle head 130 is installed in the processing unit 111, the left side of the hexahedral workpiece (P) can be cut into a set shape without changing the origin.

In this way, the multi-faceted composite machining MCT device 100 according to the present invention is capable of cutting the five sides of the plane, front, bottom, back, and left side without changing the origin after setting the hexahedral workpiece P on the rotary table 120. As a result, it is possible to improve the processing quality of hexahedral workpieces (P) used as military parts, automobile parts, electronic parts, and mold parts that require ultra-precision assembly, as well as shorten processing time, reduce processing manpower, reduce costs, and improve productivity. etc. can be promoted.

Although the invention made by the present inventor has been described in detail according to the above-mentioned embodiments, the present invention is not limited to the above-described embodiments and can of course be changed in various ways without departing from the gist of the invention.

100: Multi-faceted composite processing MCT device
110: MCT equipment
111: processing unit
112: work table
120: Rotary table
130: angle head
131: connection part
132: transition section
133: Tool chuck

Claims (1)

MCT body 110 for cutting the upper surface of the hexahedral workpiece (P) through the rotary tool (T) of the machining unit 111, which is provided on the upper part of the work table 112 and moves in the vertical and horizontal directions;
A rotary table 120 that is fixedly installed on one side of the upper part of the work table 112 of the MCT main body 110 and on which a hexahedral workpiece (P) is chucking on one side;
It includes an angle head 130 that is detachably installed in the processing unit 111 of the MCT main body 110,
The angle head 130 is,
A connection portion 131 detachably coupled to the spindle of the processing unit 111 of the MCT main body 110;
A switching unit 132 provided at the lower part of the connecting unit 131 and switching the rotation direction of the spindle from left and right to up and down.
A multi-faceted composite machining MCT device comprising a tool chuck (133) provided on one side of the switching unit (132).

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