JPH071030A - Wear detection method for wire drawing die - Google Patents

Abstract

PURPOSE:To improve the quality and the yield of a wire, and to improve the working ratio of a wire drawing machine by measuring the number of rotations of a finishing wire drawing machine and a wire drawing machine whose wear is desired to detect, and detecting the wear quantity of a wire drawing die according to their number of rotations and prescribed wire diameter value set in advance. CONSTITUTION:A servo amplifier 11 outputs the number of rotations of a drive motor 9 to a digital tachometer 12 by pulses, and it is converted into r.p.m by the digital tachometer 12. The number of rotations, is read a sequencer 13, and the number of rotations of the drive motor of a finish wire drawing machine 7, is also read in the sequencer 13. On the other hand, a wire diameter value in each wire drawing machine before wire drawing, is read in the sequencer 13 by a setting device 14 to set the standard number of rotations of each wire drawing machine. An arithmetic and control circuit calculates the sire diameter value of a wire drawing machine whose wear is desired to detect, according to the values read in. An attained wire diameter is compared with a wire diameter value before wear by a comparison display circuit 17. And, a difference between them, is displayed on a digital display device 15 as the wear quantity of a wire drawing die, and when it exceeds a specified value, a stop signal is outputted.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for detecting wear of a wire drawing die in order to prevent surface defects and wire breakage that occur during wire drawing of metal wires such as hard steel wires.

[0002]

2. Description of the Related Art If the wire diameter becomes thicker due to wear of a wire drawing die, the die becomes rough, and if the wire drawing is continued as it is, surface defects such as die marks formed on the metal wire after processing occur. And if this progresses further, it may lead to disconnection. Therefore, in order to manufacture a high-quality metal wire, it is necessary to quantitatively detect the wear of the die and replace the die when the wear exceeds a specified value. As a conventional wear detecting means, one in which a load cell is provided at the exit of the wire drawing die has been proposed (JP-A-3-
106511). This is to measure the fluctuation of the wire drawing force by a load cell and detect the roughness of the wire drawing die based on the number of times the amplitude of the drawing force exceeds a predetermined reference value per predetermined time.

[0003]

However, in such a method, since the fluctuation of the pulling force of the wire is measured,
It cannot be detected until the die is actually roughened. Further, it is necessary to install a load cell at the exit of the wire drawing die, and it is clear that the cost will increase in a continuous wire drawing machine composed of a plurality of wire drawing machines.

[0004]

The present invention has been made to solve such a problem, and is characterized by a plurality of wire drawing machines, in which the number of revolutions of the finish wire drawing machine is controlled to be constant. When drawing wire, obtain the wire diameter value of the wire drawing machine for which you want to detect die wear from the number of revolutions of the finish wire drawing machine and the wear of the die and the finish wire diameter value you want to detect the wear of the die, and this It is to detect wear by comparing with the previous wire diameter value.

[0005]

In the continuous wire drawing machine, the finish wire drawing machine and the wire drawing machines located 1 or 2 upstream from the wire drawing machine are made of artificial diamond which has a long life and is extremely resistant to wear in order to keep the wire diameter of the product within the standard value. Wire dies are used. On the other hand, in a plurality of upstream wire drawing machines other than the above, it is common to use a wire drawing die made of cemented carbide, in consideration of the goodness of the wire drawing lubricant and the economical efficiency. Therefore, it is considered that the finished wire diameter can be inspected for each charge and kept constant, but the life of the cemented carbide die is shorter than that of the diamond die and the wear during wire drawing is remarkable. Therefore, when the wire diameter becomes thicker due to wear, the die becomes rough, which causes surface defects and disconnection.

If the number of revolutions of the finish wire drawing machine is controlled to be constant under such a premise, if the carbide die of the wire drawing machine upstream of the finish wire drawing machine is worn and the wire diameter is increased, To maintain the balance, the wire drawing machine rotation speed must be reduced by a certain amount.

That is, if the number of revolutions of the finish wire drawing machine, the finished wire diameter, and the number of revolutions of the wire drawing machine holding the die for which wear is to be detected are known, the diameter of the wire rod for the wire drawing machine for which wear is to be detected is calculated. You can ask.

If the wire diameter value before wear is confirmed, by subtracting the wire diameter value before wear from the wire diameter value obtained by the above-mentioned calculation, how much the wire diameter has increased, that is, the elongation The wear amount of the wire die can be detected.

As described above, according to the present invention, in the continuous wire drawing machine, when the number of revolutions of the finish wire drawing machine and the diameter of the finish wire are controlled to be constant, the finish wire drawing machine and the wire drawing machine whose wear is to be detected are detected. The number of rotations is measured, and the wear amount of the wire drawing die is detected based on the number of rotations and a preset predetermined wire diameter value.

[0010]

EXAMPLES Examples of the present invention will be described below. FIG. 1 is a partial explanatory view of a continuous wire drawing machine using the method of the present invention. As shown in the figure, the metal wire 1 is drawn into a predetermined wire diameter by a cemented carbide wire drawing die 2 having a predetermined hole diameter, and wound on the wire drawing machine 3 several times for loop adjustment and cooling. , Through the speed control dancer roller 4 and the turn roller 5 to the downstream wire drawing machine. And, the finishing wire drawing machine 7 which is the most downstream through the diamond finishing die 6.
It is rolled up into a product.

Each wire drawing machine has a drive motor 9 through a speed reducer 8.
The control system will be described with reference to FIG. The drive motor 9 is a servomotor, and a pulse generator 10 for speed control is attached to the motor shaft. The rotation number of the drive motor is pulsed from this pulse generator 10 and taken into the servo amplifier 11. The servo amplifier 11 outputs the rotation speed of the drive motor 9 to the digital tachometer 12 by a pulse, and the digital tachometer 12 converts it into rpm.

The number of revolutions converted by the digital tachometer 12 (r
pm) is a programmable controller (sequencer 13)
Read in. Similarly, the rotation speed of the drive motor of the finishing wire drawing machine 7 is also read into the sequencer 13. On the other hand, in order to set the reference rotation speed of each wire drawing machine, the wire diameter value of each wire drawing machine before wire drawing is read into the sequencer 13 by the setter 14.

FIG. 3 is a block diagram of the internal arithmetic processing of the sequencer 13. The arithmetic control circuit 16 calculates the wire diameter of the wire drawing machine whose wear is to be detected based on the numerical values read in the above processing. . This calculation is performed by the following formula. D ₂ = √ (N ₁ · K / N ₂ ) × D ₁ … K = K ₂ / K ₁ … D ₂ = diameter of wire drawn by a wire drawing machine that detects wear D ₁ = finish wire drawing Wire diameter of machine N ₂ = Number of rotations of drive motor of wire drawing machine N ₁ = Number of rotations of drive motor of finish wire drawing machine K = K ₂ (reduction ratio of wire drawing machine) and K ₁ (finishing wire drawing machine) Reduction ratio of) and ratio (see formula)

The wire diameter D ₂ obtained by the formula is a comparison display circuit.
17 'is compared with _2, D ₂ and D' line size value D before wearing the _second difference D ₃ is displayed on the digital display 15 becomes worn amount of wire drawing dies in drawing machine. When the amount of wear exceeds a specified value, the comparison display circuit 17 outputs a stop signal to the servo amplifier control circuit 18 to quickly stop each wire drawing machine. The above-mentioned reading and calculation are continuously performed at a predetermined calculation pitch, and the wear of the die can be detected by constantly monitoring the operation of the wire drawing machine.

[0015]

As described above, according to the method of the present invention, the surface roughness of the die is promptly detected and the quality of the wire is prevented from being adversely affected. As a result, the quality of the wire rod,
The yield can be improved and the operating rate of the wire drawing machine can be increased.

[Brief description of drawings]

FIG. 1 is a schematic view of a continuous wire drawing machine using the method of the present invention.

FIG. 2 is a block diagram showing a processing system of the method of the present invention.

FIG. 3 is a block diagram showing a processing system of a sequencer of the method of the present invention.

[Explanation of symbols]

 1 metal wire 2 die 3 wire drawing machine 4 dancer roller 5 turn roller 6 finishing die 7 finishing wire drawing machine 8 speed reducer 9 drive motor 10 pulse generator 11 servo amplifier 12 digital tachometer 13 sequencer 14 setter 15 digital display 16 Computation control circuit 17 Comparison display circuit 18 Servo amplifier control circuit

Claims (1)

[Claims] 1. A plurality of wire drawing machines, wherein the number of revolutions of the finish wire drawing machine and the number of revolutions of the wire drawing machine for which wear of the die is desired to be detected when the number of revolutions of the finish wire drawing machine is controlled to be constant. A method for detecting wear of a wire drawing die, in which a wire diameter value of a wire drawing machine for which die wear is desired to be detected is obtained from a finished wire diameter value, and wear is detected by comparing the wire diameter value with a wire diameter value before wear.