KR20120071091A - Tool for cutting groove in shock test piece - Google Patents

Abstract

PURPOSE: A groove forming tool for an impact test piece is provided to improve machining precision of a groove formed portion because a fitting portion is formed in the center of a flange unit and is fitted in a rotary shaft of a groove forming device. CONSTITUTION: A groove forming tool for an impact test piece comprises a flange unit(10), a fitting portion(20), and a cutter unit(30). The flange unit is installed in a rotary shaft of a groove forming device of an impact test piece. The fitting portion is perforated in the center of the flange unit. The cutter unit is formed in the outer periphery of the flange unit and multiple cutting edges(31) of the cutter unit are separately formed at regular intervals.

Description

Tool for cutting groove in shock test piece

The present invention relates to a grooving tool of an impact test piece, and more particularly, to a grooving tool of an impact test piece mounted on a V groove processing equipment for processing a V groove on the upper surface of the impact test piece.

In the impact test of the metal material, a predetermined notch groove is formed on the upper surface of the rod-shaped test piece, and the impact test piece is subjected to an impact test to measure the strength of the metal material.

Such an impact test piece is prepared by a plurality of metal materials of a certain shape and processed into a rod shape by processing the metal material in the longitudinal direction by the processing equipment, and then the "U" shape on the upper surface of the metal material by the groove processing equipment. The "V" shaped groove is machined to complete the impact test piece.

These impact test pieces are formed with vertical "V" shaped grooves in the middle of the front surface, and are manufactured by individual processing by using a cutting device and a polishing device to process the specimen into a predetermined shape.

However, the conventional groove cutting tool of the impact test piece is mounted on the rotating shaft of the milling machine, causing vibration or torsion during rotation, which reduces the machining accuracy of the grooved portion, thereby resulting in the reliability of the impact test data on the impact test piece. There was a problem that the degradation or impact test is impossible.

In the case of V-notched impact specimens, the conventional machining tools are not designed in consideration of the machining of new steel grades having high strength, high toughness, and high hardness characteristics. Grooving of impact specimens causes various problems.

In particular, the stability of the rotating shaft is the biggest problem, and as a result of checking the machining state of the V-shaped notch groove, there are various problems such as processing variation or burr generation at the end of the cutting edge, and surface tearing caused by the processing tool. Is appearing.

In addition, on the basis of the problem that the stability of the rotating shaft during the groove processing by the grooved tool is reduced, as shown in Figure 4, the problem that the double curvature is formed in the groove portion.

In particular, when the processing precision of the groove portion of the processed impact test piece is low, there was also a problem that the reliability and accuracy of the impact test results thereby deteriorated.

In addition, the degradation of the reliability and accuracy of these impact tests can lead to significant errors in the characterization of newly developed steel grades, resulting in design problems by selecting or using the wrong materials.

The present invention has been made to solve the above-mentioned conventional problems, not only to improve the processing accuracy of the groove processing portion, but also to improve the accuracy and reliability of the impact test data on the impact test piece, and to vibrate the processing tool during the groove processing. It is not only applicable to impact test pieces of various materials by preventing the shaking or shaking and improving the supporting strength of the processing tool, but also minimizes the processing load on the processing tool, and when the groove is combined with the key between the rotating shaft and the processing tool, It is an object of the present invention to provide a tool for grooving impact test pieces that can reduce defects such as surface tearing, burr formation, and deformation of the working layer, which are free from play between machining tools.

The present invention for achieving the above object, the flange portion which is installed on the rotating shaft of the groove processing equipment of the impact test piece; A fitting portion formed through the center of the flange portion; And cutter portions formed around the outer circumference of the flange portion with a plurality of cutting edges spaced at equal intervals.

The fitting portion of the present invention is a circular fitting hole.

The outer diameter d2 of the said flange part of this invention is formed 3-4 times the diameter d1 of the said fitting part.

Thickness t2 of the cutting edge edge part of the said cutter part of this invention is formed 0.04-0.06 times the thickness t1 of the said flange part.

As described above, the present invention forms a fitting portion in the center of the flange portion and fits the rotating shaft of the grooving machine, thereby improving the machining precision of the grooving portion as well as the accuracy and reliability of the impact test data on the impact test piece. Provides the effect to improve.

By specifically limiting the outer diameter length of the flange part, the diameter of the fitting part, and the size of the cutter part, the flange part and the cutter part are integrally formed with the same material, thereby preventing vibration or shaking of the machining tool during groove cutting and improving the supporting strength of the machining tool. It is not only applicable to impact specimens of various materials, but also provides the effect of minimizing the processing load on machining tools.

Since the fitting part of the processing tool is formed in a circular shape and fixed by fitting on the rotating shaft, the gap between the rotating shaft and the processing tool does not occur more than when the key is coupled between the rotating shaft and the processing tool in the groove processing. It provides an effect that can reduce defects such as surface tearing, burr formation, and processing layer variation generated during processing.

1 is a front view showing a groove processing tool of the impact test piece according to an embodiment of the present invention.
2 is a cross-sectional view taken along the cutting line AA of FIG. 1.
Figure 3 is an operating state diagram showing the operating state of the groove processing tool of the impact test piece according to an embodiment of the present invention.
4 is a machining state diagram showing a state of a groove processed using a groove processing tool of a conventional impact test piece.
Figure 5 is a machining state diagram showing the state of the grooves processed using the groove processing tool of the impact test piece according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a front view showing a groove processing tool of the impact test piece according to an embodiment of the present invention, Figure 2 is a cross-sectional view by the cutting line AA of Figure 1, Figure 3 is an impact test piece according to an embodiment of the present invention 5 is an operating state diagram showing an operating state of a grooving tool, and FIG. 5 is a machining state diagram showing a state of a groove processed using the grooving tool of the impact test piece according to an embodiment of the present invention.

As shown in Figures 1 to 3, the groove processing tool of the impact test piece according to the embodiment comprises a flange portion 10, the fitting portion 20, the cutter portion 30, the groove processing equipment of the impact test piece It is mounted on the rotating shaft 40 of.

The flange portion 10 is formed in a disk shape to be installed perpendicular to the longitudinal direction of the axis of rotation of the groove processing equipment of the impact test piece, both sides of the flange portion 10 of the rotary shaft 40 of the groove processing equipment The polished surface polished by the polishing equipment is formed to improve the adhesion when mounted on the.

The fitting portion 20 is formed through the center of the flange portion 10 and consists of a circular fitting hole to fit on the rotary shaft 40 of the groove processing equipment of the impact test piece. The fitting between the fitting portion 20 and the rotary shaft 40 preferably maintains the fitting tolerance at 1/100.

Moreover, it is preferable that the outer diameter d2 of the flange part 10 is formed 3 to 4 times the diameter d1 of the fitting part 20. The reason is that when the outer diameter d2 of the flange portion 10 is smaller than three times the diameter d1 of the fitting portion 20, the distance between the rotating shaft 40 and the cutter portion 30 is shortened to support the cutting. Although the strength is improved, the interference with the jig occurs, the workability is lowered, and when the outer diameter d2 of the flange portion 10 is larger than four times the diameter d1 of the fitting portion 20, the rotary shaft 40 and the cutter This is because the distance between the parts 30 is long and the supporting strength during cutting decreases.

In the cutter portion 30, a plurality of cutting edges 31 are formed at equal intervals around the outer circumference of the flange portion 10. In particular, since the cutter unit 30 and the flange unit 10 are made of the same cemented carbide material, the cutter unit 30 is joined to the circumference of the flange unit 10 by using different materials. This solves the problem of lowering the supporting strength of.

It is preferable that the thickness t2 of the edge part 32 of the cutting edge 31 of the cutter part 30 is formed 0.04-0.06 times the thickness t1 of the flange part 10. As shown in FIG. The reason is that when the thickness t2 of the end portion 32 of the cutting edge 31 is smaller than 0.04 times the thickness t1 of the flange portion 10, the cutting property of the cutting edge 31 is improved, but the supporting strength is lowered. If the thickness t2 of the end 32 of the cutting edge 31 is larger than 0.06 times the thickness t1 of the flange portion 10, the supporting strength of the cutting edge 31 is improved. However, this is because the machinability decreases due to reduced machinability.

In addition, as shown in Fig. 3, the flange 10 is fitted on the outer circumference of the shaft member 41 of the rotary shaft 40 of the groove processing equipment of the impact test piece to which the groove cutting tool of the impact test piece of the present embodiment is mounted. The sleeve 42 which is in close contact with both sides of the flange portion 10 and is fixed in the fitted state via the 20 is engaged.

That is, the groove for machining the impact test piece of the present embodiment is fitted to the shaft member 41 of the rotary shaft 40, the sleeve 42 of the rotary shaft 40 is in close contact with both sides of the flange portion 10, It is tightly fixed on the rotating shaft 40 of the groove processing equipment of the impact test piece.

Therefore, by using the groove cutting tool of the impact test piece of the present embodiment, it is possible to improve the reliability and operating safety of notch machining of new steel grades that require machining accuracy, thereby greatly improving the machining accuracy of the notch tip. Therefore, the accuracy of the impact test data can be improved, thereby greatly contributing to the development of new steel grades and the accuracy of material selection.

In addition, the grooving tool of the impact test piece of the present embodiment eliminates the key groove in the center of the fitting portion for precision machining, so that there is no play between the rotating shaft and the machining tool, and as shown in FIG. It is possible to reduce defects such as surface tearing, burr formation, and processing layer variation that occur.

As described above, according to the present invention, by forming the fitting portion in the center of the flange portion and fitting it to the rotating shaft of the grooving machine, not only improves the machining precision of the grooving portion, but also the accuracy and reliability of the impact test data for the impact test piece. Provides the effect to improve.

By specifically limiting the outer diameter length of the flange part, the diameter of the fitting part, and the size of the cutter part, the flange part and the cutter part are integrally formed with the same material, thereby preventing vibration or shaking of the machining tool during groove cutting and improving the supporting strength of the machining tool. It is not only applicable to impact specimens of various materials, but also to minimize the processing load on the processing tools.

Since the fitting part of the processing tool is formed in a circular shape and fixed by fitting on the rotating shaft, the gap between the rotating shaft and the processing tool does not occur more than when the key is coupled between the rotating shaft and the processing tool in the groove processing. It provides an effect that can reduce defects such as surface tearing, burr formation, and processing layer variation generated during processing.

The present invention described above can be embodied in many other forms without departing from the spirit or main features thereof. Therefore, the above embodiments are merely examples in all respects and should not be interpreted limitedly.

10: flange portion 20: fitting portion
30: cutter part

Claims (4)

A flange portion installed on a rotating shaft of the groove processing equipment of the impact test piece;
A fitting portion formed through the center of the flange portion; And
And a cutter portion having a plurality of cutting edges spaced at equal intervals around the outer circumference of the flange portion. The method of claim 1,
The fitting portion is a groove processing tool for impact test piece, characterized in that the circular fitting hole. The method of claim 1,
An outer diameter (d2) of the flange portion is formed 3 to 4 times the diameter (d1) of the fitting portion, the tool for processing the groove of the impact test piece. The method of claim 1,
The thickness t2 of the cutting edge end part of the said cutter part is formed in 0.04-0.06 times the thickness t1 of the said flange part, The tool for grooving an impact test piece characterized by the above-mentioned.

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