KR200299377Y1 - A working tool for vertical slideway of the machine tool - Google Patents

Abstract

The present invention relates to a tool for vertical guide surface processing of a sliding part for a machine tool which can slow down the wear rate of the vertical guide surface by forming a plurality of oil grooves in a predetermined pattern by machining to prevent uneven wear of the vertical guide surface. In a conventional end mill mounted on the main shaft of the machine and provided with at least one vertical blade, the vertical blade has the same pitch so as to process a certain pattern of oil grooves on the surface of the vertical guide surface fixed to the table of the machine tool. It is characterized in that the multi-stage circular arc blade portion is provided.

Description

A working tool for vertical slideway of the machine tool

The present invention relates to a vertical guide surface processing tool of the sliding part for machine tools, and more specifically, by forming a plurality of oil grooves by machining in a predetermined pattern to prevent uneven wear of the vertical guide surface to reduce the wear rate of the vertical guide surface to the maximum. And a vertical guide surface machining tool for a sliding part for a machine tool.

In general, the sliding part in the machine tool can be moved along the standard band such as bed, column, saddle, needle, etc. by the table, saddle, needle, spindle, tool bar, etc. The rolling bearing surface is formed generically so as to be formed between the transfer table and the reference table.

5 shows a conventional sliding part, the guide rail 201 of the rectangular cross section is mounted on the upper portion of the reference stage 200, and the square groove portion 400 in which the guide rail is inserted below the conveyer 300. Is formed to represent the configuration in which the square groove 400 is mounted on the guide rail (201).

In addition, vertical and horizontal guide plates made of non-metallic resin (such as saccharides) are formed on one side wall 401 and the upper surface 402, which are reference planes of the square groove 400, so as to prevent direct wear of the transfer table 300. 500,600 is installed.

In addition, a plurality of oil grooves 501 and 601 in which oil remains are formed on the guide surfaces, which are outer surfaces of the vertical and horizontal guide plates 500 and 600, to reduce friction when contacting the surfaces of the guide rails.

The present invention is to provide a method for processing the guide surface (hereinafter referred to as "vertical guide surface") of the vertical guide plate of the guide plate, first described the oil groove processing method of the vertical guide surface which is commonly used as follows.

6 is a schematic view for explaining an oil groove processing tool and a processing method in a conventional vertical guide surface, the operator directly to the vertical guide surface that is the surface of the vertical guide plate 500 using a chisel hand tool 700 is formed with a circular end The method of directly processing a plurality of oil grooves 501 is commonly used.

However, in forming the oil groove 501 through manual operation as described above, as the oil groove 501 is irregularly formed, the residual distribution of oil is irregular in the vertical guide surface.

Therefore, when the distribution of the oil residue becomes irregular, the wear of the entire guide surface is promoted by causing uneven wear.

In other words, when partial wear occurs in the vertical guide surface, the wear of the guide surface is rapidly generated as the rapid wear progresses from the partial wear portion.

In addition, as the area of the oil groove is rapidly reduced due to the rapid wear of the vertical guide surface, the friction coefficient of the sliding surface is instantaneously increased, which causes a sudden thermal deformation of the sliding part, thereby causing a decrease in the feed accuracy. there was.

In addition, as described above, if the thermal deformation occurs suddenly, there is a problem that continuous defect processing proceeds because there is no spare time of the feed compensation in the machine tool.

In addition, by processing the guide surface through manual work had a problem causing a lot of time and manpower wasted.

The present invention is designed to solve the above problems, by forming a plurality of oil grooves in a predetermined pattern on the vertical guide surface through machining to uniform the oil residue distribution on the vertical guide surface, to prevent uneven wear of the vertical guide surface Accordingly, it is an object of the present invention to provide a vertical guide surface processing tool for sliding parts for machine tools that can slow down the wear rate of the vertical guide surface to the maximum.

In addition, as described above, by reducing the wear rate of the vertical guide surface to the maximum to prevent the area of the oil groove from being sharply reduced, there is also an object of obtaining a free time of feed compensation in the machine tool by preventing the rapid thermal deformation of the sliding portion. .

In addition, the machining of the vertical guide surface by machining has the purpose to minimize the waste of machining time and manpower.

The present invention for achieving the above object is, in a conventional end mill mounted on the main shaft of the machine tool and provided with at least one vertical blade, the surface of the vertical guide surface is fixed to the table of the machine tool on the vertical blade It is characterized in that the same arc-shaped circular arc blade portion is provided in multiple stages of the same pitch so as to process the oil groove of a predetermined pattern.

In addition, between the arc portion is characterized in that the arc portion is provided with an arc-shaped valley so as to process the vertical guide surface only.

1 is a perspective view showing a processing tool of the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

Figure 3 is a schematic diagram showing the mounting process of the vertical guide surface in using the processing tool of the present invention.

4 is a schematic view showing an oil groove processing process through a processing tool according to the present invention,

Figure 4a is a first machining process of the oil groove machining process,

Figure 4b is a second machining process of the oil groove machining process,

4C is a cross-sectional view taken along the line B-B in FIG. 4B.

5 is a schematic cross-sectional view showing a conventional sliding portion.

Figure 6 is a schematic diagram for explaining the oil groove processing tool and the processing method on a conventional vertical guide surface.

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

1: headstock

2: table

3: end mill

31: vertical blade

32: circular arc part

33: circular arc

4 transfer tray

41: vertical guide surface

42: oil groove

43: sliding surface

Hereinafter, described in detail with reference to the accompanying drawings the processing method of the present invention.

1 is a perspective view showing a processing tool of the present invention, Figure 2 is a cross-sectional view taken along the line A-A of Figure 1, first described the configuration as follows.

In a conventional end mill (3) mounted on a headstock (1) of a machine tool and provided with at least one vertical blade (31), the vertical blade (31) is fixed vertically to a table (2) of a machine tool. In order to process the oil groove 42 of a predetermined pattern on the surface of the guide surface it is characterized in that the same arc-shaped circular arc blade portion 32 is provided in multiple stages of the same pitch.

And between the arc blade portion 32 is provided with an arc-shaped bone portion 33 so that only the arc blade portion 32 can process the vertical guide surface (41).

The resin guide surface processing process through the processing tool configured as described above is as follows.

1 to 4 show the respective processes of the processing method of the present invention, and the processing method will be described first as follows.

First, the end mill 3 constituting the present invention is mounted on the headstock 1 of the machine tool. That is, the end mill 3 having the same arc-shaped arc portion 32 formed in multiple stages of the same pitch on one or more vertical edges 31 is mounted on the main shaft 1 of the machine tool (see Figs. 1 and 2). .

Next, the vertical guide surface 41 of the feed table 4 is vertically installed on the upper surface of the table 2 of the machine tool to prepare for processing (see Fig. 3).

Next, a plurality of oil grooves 42 are recessed in a predetermined pattern on the vertical guide surface 41 through the plurality of circular arc portions 32 formed in the end mill 3 by driving the machine tool (see FIG. 4). .

This will be described in more detail as follows.

Figure 4 is a schematic view showing the oil groove machining process according to the present invention, Figure 4a is a first machining process of the oil groove machining process, Figure 4b is a second machining process of the oil groove machining process, Figure 4c of FIG. BB line cross section.

The oil groove processing, the first machining process for simultaneously processing a plurality of rows of oil grooves 42 in multiple stages through the end mill (3) on the surface of the vertical guide surface, and the end mill (3) each arc blade portion (32) Raising the pitch between the half and simultaneously processing a plurality of rows of oil grooves 42 in a plurality of stages between the oil grooves 42 formed in the first processing process sliding surface 43 in the space between the oil grooves 42 It consists of a second machining process to be formed.

In addition, the oil grooves 42 formed in the oil groove processing process are processed into grooves having the same shape, so that the shape of the sliding surface 43 formed between the oil grooves 42 is the same.

In addition, since the oil groove 42 is composed of an oval recessed groove, the wear rate of the sliding surface 43 can always be constant.

In other words, the wear rate of the vertical guide surface can be reduced to the maximum by preventing uneven wear of the vertical guide surface, and the area of the oil groove 43 formed on the vertical guide surface is prevented from being sharply reduced to prevent rapid thermal deformation of the sliding part, thereby transferring the machine tool. As a result of the allowance for the correction, the defective machining rate can be minimized.

As described above, the present invention has the effect of maximizing the maintenance period of the guide plate including the vertical guide surface by reducing the wear rate to the maximum by preventing uneven wear of the vertical guide surface.

In addition, the area of the oil groove formed on the vertical guide surface is prevented from being drastically reduced, thereby preventing the rapid thermal deformation of the sliding part, thereby reducing the defective machining rate by minimizing the margin of feed compensation in the machine tool. .

In addition, it is possible to reduce the cost of the machine tool by minimizing the machining time and waste of manpower on the vertical guide surface.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible.

Claims (2)

In a conventional end mill (3) mounted on the headstock (1) of a machine tool and equipped with at least one vertical blade (31), The vertical blade 31 has the same arc-shaped circular arc part 32 in multiple stages of the same pitch so as to process the oil groove 42 of a predetermined pattern on the surface of the vertical guide surface fixed to the table 2 of the machine tool. Vertical guide surface processing tool sliding parts for machine tools, characterized in that provided. The vertical guide surface of claim 1, wherein an arcuate valley portion 33 is provided between the arc blade portion 32 so that only the arc blade portion 32 can process the vertical guide surface 41. Processing tools.