JPS62102916A - Method and device for peeling - Google Patents

Abstract

PURPOSE:To improve the life of a peeling die, by supplying lubricating cooling fluid to reach the peeling die together with a wire rod while injecting the lubricating cooling fluid to be supplied also from a rear surface of the peeling die. CONSTITUTION:A nozzle 11 is arranged in the front surface of a peeling die 1, and the nozzle 11 is equipped with a hole 13, guiding a wire rod 12, and through holes 14, 15, respectively for supplying lubricating cooling fluid and reverse flow preventing compressed gas to be guided, in said hole 13. While a chip guide 21, which moves cutting chips in a direction reverse to the advancing direction of the wire rod 12, is provided, and the cutting chip, moved by said chip guide 21, is finely cut by a rotary tool and collected through a collecting hole. Further the peeling die provides a lubricating cooling fluid injection mechanism to be arranged in the rear surface, and the lubricating cooling fluid is directly injected to an edge point part of the peeling die. As a result, a life of the peeling die is exceptionally improved.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method for sheathing a wire or bar 71 and an improvement in an apparatus used in the method.

(Prior Art) Surface peeling has traditionally been performed as a means of removing surface defects such as surface flaws, cracks, and surface oxides that occur during the manufacturing process of wire rods. Generally, a peeling die method using a peeling 711 die is used.

By the way, the skin ff1l+ die is generally made of cemented carbide, but cutting the entire outer periphery of the wire belongs to heavy cutting processing, so in this surface peeling process, the skin: The issues of t++ die life and workpiece surface quality are important.

Therefore, various methods of cooling peeling dies have been proposed! has been done.

(2) For example, as shown in FIG. 4, it is installed on the entry side of the peeling die 1 to remove the chips 2 generated during the skin roll process by the peeling die 1! A method in which a nozzle 4 is provided for supplying lubricating fluid from the outside of the rotational high I-3 that cuts through, and the lubricating fluid is supplied from the nozzle 4 to the peeling die 1.

■, as in Utility Model No. 50-15270, peeling die l
A method of supplying lubricant to the peeling die 1 by forming a flow path 6 for lubricant between the die holder 5 and the die holder 5 (see FIG. 5).

(1) As in Utility Model Application No. 48-75294, a plurality of ejection holes 8 are bored from the outer circumference of a conical chip breaker 7 with a die holder 5 to the cutting edge of the peeling die 1, and these ejection holes 8 A method of supplying lubricant to the peeling die 1 (see Fig. 6). etc.

(Problems to be Solved by the Invention) In each of the above-mentioned methods, the peeling die 1 is
However, in the method (2), the lubricating fluid is blocked by the chips 2 and the rotating cutting tool 3 and does not reach the important cutting part. Further, methods (1) and (2) have the problem that the flow path 6 and the jet hole 8 are clogged with chips, making it impossible to supply lubricating fluid.

On the other hand, there are almost no examples of a cooling method from the exit side of the peeling die 1, and the only example is in Japanese Utility Model Application No. 120528/1983, in which a plurality of spiral coolant passage grooves 10 are provided in the tapered fitting part 9 of the peeling die 1. There is only one type in which a ring-shaped groove is provided which is perpendicular to the axis of the peeling die and connected to the starting and ending ends of the groove 10 (see FIG. 7).

However, even with this method, since the peeling die 1 is indirectly cooled, there is a problem that the cooling effect of the die cutting edge is very small.

The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a peeling method and device capable of improving the surface quality of the workpiece and improving the life of the peeling die. be.

(Means for Solving the Problems) One aspect of the present invention is a method of peeling the surface of a wire or bar using a peeling die, in which the wire or bar is treated with a lubricating cooling liquid and a compressed gas for preventing backflow. This is a skinning method that involves transporting the material into a skinning die while passing through a nozzle, and spraying a lubricating cooling liquid directly onto the rear surface of the skinning die to peel the skin.

Another aspect of the present invention is an apparatus for peeling the surface of a wire or bar with a peeling die, in which the wire or bar is guided to the peeling die and a lubricating coolant and a compressed gas for preventing reverse>A are supplied. a nozzle provided on the front surface of the peeling die to feed the wire or rod together with the cutting edge of the peeling die;
The peeling device is characterized in that it includes a lubricating coolant injection mechanism that is disposed on the rear surface of the peeling die and injects lubricating coolant directly to the cutting edge of the peeling die.

(Function) According to the present invention, since the lubricating coolant is supplied to the stripping die through the nozzle together with the wire rod or bar and the compressed gas for preventing backflow, the lubricating coolant is It also smoothly reaches the cutting edge of the peeling die. Further, according to the present invention, since the cutting edge portion of the peeling die is directly cooled from the rear surface thereof, the life of the peeling die is improved in combination with the single-stroke cooling.

(Example) The present invention will be described below based on an example shown in FIGS. 1 to 3. Note that the same numbers as in FIGS. 4 to 7 in FIGS. 1 to 3 indicate the same or corresponding parts, and detailed explanations thereof will be omitted.

In the drawing, reference numeral 11 denotes a nozzle disposed on the front surface of the peeling die l so as to be coaxial with the peeling die l, and this nozzle 11 has a hole 1 for guiding the wire 12 to be peeled.
3, and through holes 14 and 15 for supplying and guiding a lubricating cooling liquid and a compressed gas for backflow prevention into the hole 13 from the outside, respectively.
It is equipped with In the figure, 16 is a pipe for supplying lubricating coolant, 17 is a pipe for supplying compressed gas for preventing backflow, and 18 is a passage 19.20 that connects both pipes 16.17 with the respective through holes 14.15. This is a holding member for the nozzle 11 provided therein.

Reference numeral 21 denotes a chip guide provided on the front surface of the stripping die 1' to move the chips 2 in the direction opposite to the traveling direction of the wire rod 12. The chips 2 moved in the opposite direction by the action of the chip guide 21 are transferred to the chinobu guide. It is shredded from the 3 rotary/N holes provided on the front of the
It is designed so that it can be recovered through. In addition,
In the figure, 22 is the holding member 2 of the holding part 18 and the rotating hide 3.
A bearing 24 interposed between the holding member 23 is a heald for power transmission to rotate the rotary hide 3 through the holding member 23. be.

25 is disposed on the rear surface of the peeling die 1;
This is a lubricant coolant injection mechanism for injecting lubricant coolant directly onto the cutting edge of the blade, and includes a nozzle member 26 having a nozzle hole 26'' and a lubricant coolant injected into the nozzle hole 26'' of the nozzle member 26. It consists of a lubricating coolant guide member 27 with a passage 28 for supplying the lubricating coolant.

Reference numeral 29 designates the nozzle member 26 for removing the lubricating coolant adhering to the surface of the wire rod 12 stripped by the stripping die 1.
The air wiper 29 has a structure that injects and supplies compressed gas into the space 31 between a pair of air sealing guide dies 30 and 30 arranged at a required interval. There, the nozzle member 26
The structure is almost the same as that of . Note that 32 is a pipe for supplying compressed gas.

That is, the present invention supplies the wire 12 to the stripping die I while being guided by the nozzle 11, and also supplies the wire 12 together with a lubricating cooling liquid and a compressed gas for preventing the backflow of the wire into the nozzle 11 while stripping the wire. Since processing is carried out, not only the progress of the wire rod 12 but also the lubricating coolant certainly reaches the cutting edge of the stripping die l. Also, is the present invention a skin? ,
The lubricant coolant is injected directly onto the rear surface of the l+ die 1 to cool the cutting edge of the peeling die 1, so in conjunction with the cooling described above, is the peeling?
The life of Redice 1 can be extended.

By the way, the diameter of the hole 13 of the nozzle 11 used in the present invention is as follows: dNl is the diameter of the inlet part, dN3 is the diameter of the outlet part, dN2 is the diameter of the intermediate part, 11 The diameter of wire rod 12 before processing is d
, then d + < d N+ < d N3 < d N2, and as a result of the study by the inventors, d N
It has been found that a range of 3 = d + + (Q, 5 to 2.5) is desirable.

That is, if dN3 is less than (dl+0.5), there is a high possibility that scratches will occur due to contact between the nozzle 11 and the wire 12, and if it exceeds (dl+2.5), the nozzle 11
This reduces the effectiveness of preventing clogging of chips 2 in the interior (see Fig. 2).

Further, as for the positional relationship between the peeling die 1, the tip guide 21, and the tip of the nozzle 11, it is desirable that the thickness G of the tip guide 1 falls within the range of d1 to 2a+. That is,
If it is less than d, the rise of the chips 2 during chip shredding will be insufficient, resulting in poor cutting, and if it exceeds 2d1, the length of the chips 2 will become long when shredding chips, and the stiffness of the chips 2 will become weak, resulting in poor cutting. (See Figure 3).

Furthermore, the distance T between the peeling die 1 and the nozzle 11 is 0°5a+
-d, is desirable. That is, 0°5 d+
If it is less than dl, chip clogging will occur between the intervals T due to poor peeling of the chips 2, and if it exceeds dl, the chips 2 will fill up the interval T, and the original effect (lubricating cooling ability) of the nozzle 11 will be lost. It declines.

Note that the hole diameter of the guide die 30.30 is set such that the hole diameter of the upstream guide die is larger than the hole diameter of the downstream side.

(Experimental Results) When stripping a wire rod made of material 5WRH82B and wire diameter φ41, both the method of the present invention and a conventional method (not shown in FIG. 1) were used.

As a result, the life and wear resistance of the peeling die 1 using the method of the present invention was 20 times that of the conventional method. Furthermore, the surface quality of the peeled wire material was also better when the method of the present invention was used.

(Effects of the Invention) As explained above, according to the present invention, the 1,1η lubricant reaches the stripping die together with the wire, so it is possible to reliably lubricate and cool the stripping die during stripping, and furthermore Since the lubricating coolant is also sprayed from the rear of the peeling die, it has a great effect on extending the life of the peeling die. Therefore, the preparation time for exchanging peeling dies, etc. can be significantly shortened, improving the efficiency of the work process, and contributing to improved quality.

Furthermore, according to the present invention, even after the lubricating coolant is removed by an air wiper, a slight lubricating film remains on the surface of the wire, so it slides easily on the winding drum at the subsequent stage, and does not get caught. No problems such as burn-in occur.

[Brief explanation of drawings]

Figures 1 to 3 are explanatory diagrams of an apparatus for carrying out the method of the present invention.
The figure is a front view and central vertical sectional view of the nozzle to explain the dimensional relationship of the nozzle, Figure 3 is a diagram to explain the positional relationship between the peeling die, the tip guide, and the tip of the nozzle, and Figures 4 to 7 explain the conventional method. FIG. 1 is a peeling die, 11 is a nozzle, 12 is a wire rod, and 25 is a lubricating coolant injection mechanism. Patent applicant: Sumitomo Metal Industries, Ltd. Miyazaki Iron Works Co., Ltd.

Claims (2)

[Claims] (1) In a method of stripping the surface of a wire or bar with a stripping die, the wire or bar is conveyed into the stripping die while passing through a nozzle together with a lubricating cooling liquid and a compressed gas for preventing backflow; A peeling method characterized by spraying a lubricating cooling liquid directly onto the rear surface of a peeling die to peel the skin. (2) A device for stripping the surface of a wire or bar with a stripping die, the wire or bar being guided to the stripping die, and a lubricating cooling liquid and a compressed gas for preventing backflow being applied together with the wire or bar. A nozzle is provided on the front surface of the peeling die to supply the lubricating liquid to the cutting edge of the peeling die, and a lubricating coolant injection mechanism is provided on the rear surface of the peeling die to directly inject the lubricating coolant to the cutting edge of the peeling die. A peeling device characterized by: