Search

KR-20260064121-A - COMPLEX PROCESSING EQUIPMENT POSSIBLE PLANE AND HORIZONTAL PROCESS

KR20260064121AKR 20260064121 AKR20260064121 AKR 20260064121AKR-20260064121-A

Abstract

A composite processing device capable of planar and horizontal processing is disclosed. The composite processing device capable of planar and horizontal processing according to the present invention comprises: a processing device body installed such that a workpiece is fixed in a horizontal state on a workbench; a planar processing module installed on the upper part of the processing device body and configured to process a groove on the planar surface of the workpiece; a horizontal processing module installed on the side of the processing device body and configured to process a screw hole in the horizontal direction on the side of the workpiece; and a control unit configured to control the operation of the planar processing module and the horizontal processing module. According to the present invention, by configuring the planar and horizontal processing of a workpiece to be performed in stages or simultaneously by a single device, convenience of processing can be ensured, and production efficiency can be increased and production costs lowered by shortening processing time.

Inventors

  • 임수혁

Assignees

  • 주식회사 우리기계

Dates

Publication Date
20260507
Application Date
20241031

Claims (6)

  1. A main body of a processing device installed so that the workpiece is fixed in a horizontal position on a workbench; A planar processing module installed on the upper part of the main body of the processing device and configured to process a groove on the planar surface of the workpiece; A horizontal machining module installed on the side of the main body of the above-mentioned machining device and configured to machine a screw hole in a horizontal direction on the side of the workpiece; and Characterized by including a control unit configured to control the operation of the planar machining module and the horizontal machining module. Composite machining device capable of planar and horizontal machining.
  2. In paragraph 1, The above planar machining module is, A planar machining module body installed to operate in the X-axis direction on the main body of the above-mentioned machining device; A planar machining head unit installed to operate in the Y-axis direction on the above-mentioned planar machining module body; and A planar machining tool formed as an end mill for machining a groove on the planar surface of the workpiece, which is rotatably installed at the lower end of the planar machining head portion; characterized by including Composite machining device capable of planar and horizontal machining.
  3. In paragraph 1, The above horizontal machining module is, A horizontal machining module body comprising a lifting operation unit installed to move up and down in the vertical direction on the main body of the machining device, and an X-axis and Y-axis operation unit installed to move in the X-axis and Y-axis directions on the upper part of the lifting operation unit; A horizontal machining head unit installed on the upper part of the above X-axis and Y-axis operating parts; and A horizontal machining tool rotatably installed at the tip of the horizontal machining head portion and formed as a drill for machining a screw hole on the side of the workpiece; characterized by including Composite machining device capable of planar and horizontal machining.
  4. In paragraph 3, The above horizontal machining tool is, Characterized by having multiple horizontal machining heads installed so as to simultaneously machine multiple screw holes on the side of the workpiece. Composite machining device capable of planar and horizontal machining.
  5. In any one of paragraphs 1 through 4, The above control unit is, Characterized by primarily controlling the operation of a planar machining module so that a groove can be machined on the planar surface of the workpiece, and secondarily controlling the operation of a horizontal machining module so that a screw hole can be machined on the side of the workpiece. Composite machining device capable of planar and horizontal machining.
  6. In any one of paragraphs 1 through 4, The above control unit is, Characterized by simultaneously controlling the operation of a planar machining module and a horizontal machining module so that a groove is machined on the planar surface of the workpiece and a screw hole is machined on the side of the workpiece at the same time. Composite machining device capable of planar and horizontal machining.

Description

Complex Processing Equipment Capable of Plane and Horizontal Processing The present invention relates to a composite processing device capable of planar and horizontal processing, and more specifically, to a composite processing device capable of planar and horizontal processing that can perform both planar and horizontal processing on a workpiece by a single device. Generally, "sash" is a loanword referring to wooden window frames or latticework, but nowadays, most are made of metal or synthetic resin. Steel or aluminum is used for metal sashes, with aluminum being primarily used for residential applications. For workpieces such as sashes, grooves or holes are machined into the flat surface for the installation of various parts. That is, after the workpiece is placed horizontally on a flat surface machining device, grooves or holes are machined at a set position on the surface using a tool (end mill) installed on the flat surface machining device. Meanwhile, after the machining of grooves or holes on the flat surface of the workpiece is completed, it is transferred to another process to machine screw holes in the horizontal direction so that another sash can be attached to the side. That is, after the workpiece is placed horizontally on a horizontal machining device, screw holes are machined at a set position on the side in the horizontal direction by a tool (drill) installed on the horizontal machining device. However, there is a structural problem in that, when performing planar and horizontal machining of a workpiece such as a sash according to conventional technology, a groove or hole is machined on the flat surface of the workpiece by a planar machining device, and then the workpiece is transferred to a horizontal machining device provided separately from the planar machining device to machine a screw hole in the horizontal direction on the side of the workpiece. Consequently, the machining time of the workpiece becomes longer, which inevitably leads to reduced production efficiency and increased production costs. FIG. 1 is a perspective view showing a composite processing device capable of planar and horizontal processing according to the present invention. FIG. 2 is a front view showing a composite processing device capable of planar and horizontal processing according to the present invention. FIG. 3 is a side view showing a composite processing device capable of planar and horizontal processing according to the present invention. FIG. 4 is a perspective view showing a planar processing module of a composite processing device capable of planar and horizontal processing according to the present invention. FIG. 5 is a plan view showing a planar processing module of a composite processing device capable of planar and horizontal processing according to the present invention. FIG. 6 is a diagram showing the control state of a composite processing device capable of planar and horizontal processing according to the present invention. FIGS. 7 and FIGS. 8 are drawings showing the processing state of a workpiece by a composite processing device capable of planar and horizontal processing according to the present invention. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. However, in describing the present invention, descriptions of already known functions or configurations will be omitted in order to clarify the gist of the present invention. Referring to FIGS. 1 to 6, a composite processing device capable of planar and horizontal processing according to the present invention comprises a processing device body (10), a planar processing module (20), a horizontal processing module (30), and a control unit (40). The main body (10) of the processing device is configured to form the main frame of the present invention, and a planar processing module (20), a horizontal processing module (30), and a control unit (40) are respectively installed. A workbench (12) having a certain area is installed horizontally on the front of the main body (10). A workpiece (1) is placed horizontally on the workbench (12) and then fixed by a fixing mechanism such as a vise. At this time, the workpiece (1) may be composed of a chassis. The planar processing module (20) is provided to process a groove of a certain shape on the planar surface of a workpiece (1) and includes a planar processing module body (22), a planar processing head part (24), and a planar processing tool (26). The planar processing module body (22) is installed to operate in the X-axis direction on the processing device body (10). That is, the planar processing module body (22) has a structure that operates in the X-axis direction along a pair of X-axis guide rails (22A) installed on the upper part of the processing device body (10). Additionally, a pair of Y-axis guide rails (22B) are installed on one front side of the planar processing module body (22) to guide the planar processing he