JPS61150703A - Method and device for working metallic stock by roll die - Google Patents

Abstract

PURPOSE:To work easily even a stock of small tensile strength without causing its breakage even in a case of using a number of roll-die groups by using, as one unit, two sets of forced driving rolls arranged so that the axes of both sets are perpendicular to each other and making the distance between the roll axes of both sets smaller than the diam. of roll. CONSTITUTION:A metallic stock 1 is rolled by rolls 2 into an elliptic shape 1a and successively into a circular shape 1b by rolls 3, and is thereafter rolled into an elliptic shape 1c by rolls 4 to roll it into a circular shape 1d by rolls 5. In the same manner, the rolling is repeated required number of times. the stock between the rolls 3, 4 is unstable because of its elliptic shape, but is well rolled even if its tensile strength is small because the distance between both rolls 2, 3 is smaller than the roll diam. The stock between the rolls 3, 4 is stable because of its circular shape, and the distance between rolls 3, 4 can be made larger than the roll diam. Accordingly, the stock can be worked again after annealing by interposing a stock-heating device 6 between both units. In this way, even a work-hardening stock is easily and continuously worked. Because the rolls 2, 3, 4, 5 are forcibly rotated, the need for drawing the stock from the product side is eliminated, and the breakage of stock due to the drawing is prevented.

Description

Detailed Description of the Invention (Industrial Application Field) The present invention is directed to continuous forming of a metal material such as a long metal wire or metal rod into a long metal product having a smaller cross-sectional shape with a predetermined cross-sectional shape. The present invention relates to a method and apparatus for processing metal materials using a roller die, and belongs to the industrial field that manufactures or uses roller dies.

(Prior Art) A conventional cassette roller die is known in which two rollers are installed close to each other on a frame, and if necessary, a plurality of the frames are stacked on top of each other and tightened and fixed like a block. Special Publication No. 58-17686).

(Problems to be improved by the invention) However, in the conventional cassette roller die, two rolls are rotatably installed on a frame, the frames are sequentially overlapped at a 90 degree angle, and tightened with a common tightening bolt. It is fixed. Therefore, each roll rotates as the metal material to be rolled is processed by pulling it on the end of processing, thereby processing the metal material.

(Means to solve the problem) Conventionally known cassette roller dies do not forcefully drive each roll, so when processing metal materials,
By pulling the metal material on the processed side, the roll rotated as it was processed. Therefore, when multiple cassette roller dies are stacked one on top of the other, and the rolling resistance becomes greater than the tensile strength of the metal material, there is a risk that the metal material will break, so the reduction method (
There were significant restrictions on rolling resistance.

However, according to the present invention, since each roll is forcibly driven, the metal material progresses while being processed by the rotation of each roll, and there is no risk of the metal material breaking due to the above-mentioned tension. The restrictions were also relaxed.

That is, the present invention provides a method for rolling a long metal material by sequentially passing it through a plurality of roller dies, in which each roll is forcedly driven, and two rough rolls are used to press the metal material from directions perpendicular to each other. - Since processing was carried out as a unit, stable processing was extremely difficult unless the first set of rolls and the next set of rolls for each unit were as close as possible. Even if the unit spacing was a little large, there was no problem with processing, and for example, it was possible to insert an annealing device.

The roll interval of each set in one unit in the above is
It is smaller than the diameter of the roll, and - provides good stability during machining of metal materials in the unit. In addition, the device of the present invention has two cassette roller dies each having a set of rolls mounted on a frame arranged at right angles to each other on a roll stand, and an input transmission member for forcibly driving each roll of each roller die. The roll shafts of each set are interlocked with the output shaft of the input transmission member, and set on the outside of each cassette roller die in abutting and tightening manner.
A forced drive roller die device was constructed. The input transmission member has mounting shaft holes provided at the four corners of a rectangular flat frame so that common bushings can be fitted into the mounting shaft holes provided at the four corners of the frame of the cassette roller die. Two rotatable output shafts are installed parallel to each other on the sides, and a gear is fixed to each output shaft to mesh with a gear fixed to the roll shaft. Therefore, the frames of the two cassette roller dies are stacked at right angles to each other, and the two frames of the input transmission member are stacked on both sides, and the common bushings are inserted into the mounting shaft holes provided at the four corners of each frame. When the tightening screw screwed onto the roll stand is tightened, the two cassette roller dies and the two input transmission members form a block-like structure and are fixed to the roll stand.

(Operation of the invention) That is, according to the invention, since each roll is forcibly driven,
- Even if there are many sets of rolls in a pass, there is no need to increase the force that pulls the metal material.

Further, according to the apparatus of the present invention, the frames of two cassette roller dies are superimposed on each other so that two sets of rolls are arranged at right angles to each other, and the frames of the input transmission member are placed on both outsides of the frames of the two cassette roller dies. Since the four frames are stacked on top of each other and tightened and fixed to the same roll stand like a block, it is possible to forcibly drive the rolls of each cassette roller by connecting the output of the motor to the input transmission member. can.

(Embodiment 1) That is, in this invention, a long metal material 1 (for example, copper round wire) is supplied from the left side in FIG.
It is processed into an elliptical cross-section as shown in 18 in the figure, then processed again into a circular cross-section as shown in 1b in Fig. 2 by the second roll 3, and then processed into an elliptical cross-section as shown in 10 in Fig. 2 by the third roll 4. 1 in Figure 2 with the fourth roll 5.
Process it into a circular cross section as shown in d. Similarly, if the cross section is processed to have an oval shape and then a circular cross section, the metal material will become unstable between rolls 2 and 3, but it will become stable between rolls 3 and 4. Therefore, the distance J between roll 2 and roll 3 is smaller than the roll diameter.
(, Q<D, for example, about 70%), good rolling cannot be achieved, but the distance between rolls 3 and 4, Ql, is not necessarily the roll diameter in order for the metal material 1b to be stably fed to the rolls 4. There is no need to make it smaller than that. Therefore, Q
l>D, and not only can an input transmission member be interposed between them, but also a heating device 6 for the metal material can be interposed and the metal material can be annealed and processed again.

Therefore, even metal materials that are severely work hardened can be rolled easily and continuously.

However, since each roll 2.3.4.5 in the above is forcibly rotated in the direction of arrow 7.8.9.10, the metal material 1 is rotated in the direction of arrow 11.12.13.14.15. There is no need to apply a strong tensile force from the product side in order to advance the product, so even when continuous rolling is performed using a large number of roller dies,
There is no risk of material breakage.

(Example 2) Next, an apparatus for implementing the present invention will be described. A set of rolls 17.17 is rotatably mounted on the frame 16, and a gear 19.19 is connected to the shaft 18.18 of the rolls 17.17.
A is fixed to form a cassette roller die 20. Two cassette roller dies 20 are stacked one on top of the other with their respective roll axes at right angles to each other, and input transmission members 21 and 21 are brought into contact with both outer sides of the cassette roller dies 20.
Insert the center bushing 25 and the bushings 26.26a on both sides into the mounting shaft holes 23.24 provided in the four corners of the frame 16 of the input transmission member 21 and the four corners of the frame 22 of the input transmission member 21, respectively, and -
Assemble it into a block (Fig. 6), fit it inside the roll stand 27, and attach the push bolts 28 to the corner brackets 28 and 28 provided at the four corners of the mounting part of the roll stand 27.
9.29, and this push bolt 29.29 is screwed in to fix the block to the roll stand 27. In the input transmission member 21, two output shafts 31.31 are rotatably installed on one side of a rectangular plate-shaped frame 22 by bearings 30.30, and the rolls 17 are attached to the output shafts 31.31.
．． A gear 32.32a that meshes with a gear 19.19a fixed to the shaft 18.18 of the output shaft 3 is fixed.
1, ai is connected to intermediate gear 34. through connecting shaft 33.33.
34a, and the intermediate gear 34 is connected to the shaft 3 of the motor 35.
6, and the intermediate gears 34, 34a are in mesh with each other (FIG. 7).

Since the cassette roller die 20 is configured as shown in FIG. 8, for example, the rolls 17, 17 can be moved toward and away from each other by rotating the adjusting screws 38, 38. In the figure, 40 is a spring, 41 is a needle roller, 42 is a roller cover, and 43 is a bottle.

FIG. 3 shows a roller die device 39.39a 139 incorporating a cassette roller die as in the previous embodiment.
It is a perspective view when b, 39c, and 39d are adhered and installed in parallel. In the embodiment shown in FIG. 3, the metal material 1 is supplied as indicated by the arrow 11, and the motor 3 is
When starting 5.35 (two motors are attached to each roll stand), each motor 35's shaft 36, gear 37, 34, 34a, connecting shaft 33, shaft 31, gear 3
2.32a1 gear 19.19a10-le shaft 18.18
After passing through step a, each roll 17.17 rotates as shown in FIG. 1, so that the supplied metal material 1 is rolled by alternating cross-sectional deformation and reduction as shown in FIG. (for example, reduction 60%) and is taken out as shown by arrow 44.

(Effects of the Invention) Since the rolls are forcibly driven in the present invention, each roll automatically rotates, and the metal material or rolled product can be delivered by rolling. Therefore, no matter how many roller die groups there are in theory, there is an effect that the material can be easily rolled without fear of breaking, or even a material with low tensile strength.

Further, when two sets of cassette roller dies are set on one roll stand, a large number of roll stands can be used in parallel. Further, there is an effect that the input transmission member can be easily combined with a cassette roller die to forcefully drive the roll.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram showing the arrangement of rolls in carrying out the method of the present invention, FIG. 2 is a diagram showing changes in the cross section of the metal material in one pass, and FIG. 3 is a perspective view of the apparatus for implementing the invention. , FIG. 4 is a perspective view of the cassette 1-roller die and input transmission member, FIG. 5 is a perspective view of the roll stand, and FIG. 6 is a part showing the tightened state of the roll stand and the cassette roller die. Cross section, 7th
This figure also shows the input transmission system, and FIG. 8 is a sectional view of the cassette roller die. 1... Metal material 2.3.4.5... Roll 6.
...Heating device 16...Frame 17...Roll 19.19a...Gear 20...Cassette roller die 21...Input transmission member 22...Frame 27.
...Roll stand 35...Motor 0f ■ To N Fig. 7

Claims (1)

[Claims] 1. A method of rolling a long metal material by sequentially passing it through a plurality of sets of roller dies, in which each roll is forcedly driven, and two sets of rolls apply pressure to the metal material from directions perpendicular to each other. A method for processing a metal material using a roller die 2, characterized in that the metal material is processed as one unit. A method for processing a metal material using a roller die according to claim 1, in which the metal material has a circular or square cross section. 3. Two sets. A method for processing a metal material using a roller die according to claim 1, wherein the distance between the center axes of each set of rolls is equal to or less than the roll diameter. are arranged at right angles to each other, and an input transmission member for forcibly driving each roll of each roller die is set in contact with and tightened on the outside of each cassette roller die, and the roll shaft of each set and the input Metal material processing device 5 using a roller die characterized by interlocking the output shaft of a transmission member.The cassette roller die has two roll shafts installed parallel to each other so that they can be adjusted toward and away from each other. is a metal material processing device 6 using a roller die according to claim 4, in which an input gear is fixed.The input transmission member has mounting shaft holes provided at the four corners of a rectangular flat frame, and has mounting shaft holes provided in one side of the frame. A metal material processing device using a roller die according to claim 4, wherein two output shafts are rotatably installed parallel to each other, and a gear is fixed to each output shaft to mesh with a gear fixed to a roll shaft. 7. The frame of the cassette roller die and the frame of the input transmission member each have a common bush inserted into the mounting hole, and the bush is pressurized and tightened from both sides to be fixed to the roll stand. Metal material processing equipment using roller dies