JPH06297579A - Current supply method and current supply control device in electric welding - Google Patents

Abstract

PURPOSE:To properly supply a current to an electric welding joint having irregularity in wire resistance. CONSTITUTION:A current supply control device 1 is equipped with a resistance value measuring part 11 measuring a discrimination resistance value and a wire resistance value, a memory part 12 storing various current supply conditions set on the basis of the discrimination resistance value, a reference voltage output part 13 drawing out a prescribed current supply condition from the memory part 12 corresponding to the measured discrimination resistance value and outputting reference voltage according to this current supply condition, an operation part 14 drawing out the prescribed current supply condition from the memory part 12 corresponding to the measured discrimination resistance value and comparing the wire resistance value set to this current supply condition with an actually measured wire resistance value to operate the adjustment quantity of reference voltage and a voltage changing part 15 finely adjusting the reference voltage on the basis of this operation result.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an energization method in electric fusion and an energization controller for controlling the energization conditions during the fusion operation.

[0002]

2. Description of the Related Art Generally, when conducting a fusion work by energizing an electric fusion joint, a resistance value of an identification resistor provided in the electric fusion joint is measured before energization. There is. Then, the fusion work is performed according to the energization conditions set inside the controller based on the identification resistance value (for example, Japanese Patent Laid-Open No. 2-129493).
Japanese Patent Publication No. 1-40743).

Conventionally, when energizing under the energizing condition based on the discrimination resistance value, the energization time T corresponding to the discrimination resistance value is used.
Only the reference voltage Vref is applied over the determined energization time T to determine the design supply energy E.
It has been designed to supply d (Ed = Vref ² / Rd × T) to carry out the fusion work. That is, the optimum energizing time T when the reference voltage Vref is applied to the electric fusion joint having the designed wire resistance Rd is determined.

[0004]

However, the actual wire resistance Rac of the electric fusion-bonded joint varies due to the difference in the wire materials, the tension applied to the wire during molding, and so on. Therefore, when the reference voltage Vref is simply applied. The actual supply energy E can be calculated only by determining the optimum energization time T.
ac (Eac = Vref ² / Rac × T) is far from the designed supply energy Ed.

Therefore, the difference between the designed wire resistance Rd and the actual wire resistance Rac is made small by making the material of the wire special and taking care not to apply tension to the wire at the time of forming the electric fusion joint. However, in this case, the electric fusion joint becomes expensive.

The present invention has been made in view of the above circumstances, and an energization method capable of appropriately energizing even an electric fusion splicing having a variation in wire resistance, and a method for performing this energization. An object is to provide an energization control device.

[0007]

A method for energizing electric fusion according to the present invention for solving the above-mentioned problems is a method of energizing an electric fusion joint by an energization controller during fusion work. Measure the identification resistance and wire resistance of the fusion splicer and compare the wire resistance setting value set based on this identification resistance value with the actually measured wire resistance value. While finely adjusting the voltage, energization is performed for a predetermined energization time set based on the identification resistance value.

Further, the energization control device of the present invention includes a resistance value measuring means for measuring an identification resistance and a wire resistance, a storage section for storing various energization conditions set based on the identification resistance value, and an identification resistance. In addition to pulling out a predetermined energization condition from the storage unit according to the measured value of, a reference voltage output unit that outputs a reference voltage according to the energization condition and a predetermined energization condition from the storage unit according to the measured value of the identification resistance , A calculation unit that calculates the adjustment amount of the reference voltage by comparing the wire resistance value set in this energization condition with the actually measured wire resistance value, and finely adjusts the reference voltage based on the calculation result. And a voltage varying means.

[0009]

Operation: First, the resistance measuring means measures the identification resistance and the wire resistance of the electric fusion joint. Then, the energization condition set based on the measured identification resistance value is extracted from the storage unit, and the reference voltage output unit outputs the reference voltage based on the energization condition. At this time, the calculation unit compares the set value of the wire resistance with the actually measured value of the wire resistance, and calculates the adjustment amount of the output voltage so as to match the actual wire resistance value. Then, based on the result of this calculation, the reference voltage output from the reference voltage output unit is finely adjusted by the voltage varying means. This makes it possible to supply the designed supply energy Ed to the electric fusion joint to perform the fusion work.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 shows a state in which the energization control device 1 is connected to an electric fusion joint 2, and FIG. 2 shows an outline of the energization control device 1.

That is, the energization control device 1 includes a resistance value measuring section 11, a storage section 12, a reference voltage output section 13, a calculation section 14, and a voltage varying section 15.

The energization control device 1 includes a line 16 for measuring the identification resistance Rid and a line 17 for energizing.
It is set by connecting a pair of current-carrying terminals 18 having and to a current-carrying terminal 21 of the electric fusion joint 2.

The resistance value measuring section 11 causes a slight current to flow through the line 16 to the identification resistance Rid of the electric fusion joint 2,
The identification resistance Rid is measured. In addition, the wire resistance R of the electric fusion joint 2 through the line 17
The wire resistance Rac is measured by applying a slight current to ac.

The storage unit 12 stores various fusion times T and designed wire resistances Rd corresponding to the identification resistances Rid measured by the resistance value measurement unit 11. For example, as shown in Table 1, the identification resistance Rid is 4.22 ± 0.04k.
When Ω, the fusion time T is 140 seconds and the designed wire resistance Rd is 13.8 Ω.

[0016]

[Table 1]

The reference voltage output unit 13 outputs the reference voltage Vref according to the information extracted from the storage unit 12. For example, as shown in Table 1 above,
When the reference voltage Vref of 75 V is output when the identification resistance Rid is 4.22 ± 0.04 kΩ, Ed = Vref ² /
From Rd x T, (75 ² /13.8) x (140/36
00) = 15.85 Wh in design energy supply Ed
Will be obtained.

The calculation unit 14 compares the wire resistance Rd of the storage unit 12 extracted based on the identification resistance Rid with the actual wire resistance Rac measured by the resistance value measuring means 11, and outputs the reference voltage Vref. In this case, a correction coefficient for correcting the voltage that becomes insufficient or excessive is calculated. That is, as shown in the example of Table 1, the wire resistance Rd is 13.8.
In the case of Ω, the design supply energy Ed is Ed =
(75 ² /13.8)×(140/3600)=15.
Although it is 85 Wh, if the actual wire resistance Rac is 15Ω, the actual supply energy Eac is Eac = (75 ²
/15)×(140/3600)=14.58 Wh, which is about 8% less than the designed supply energy Ed. That is, in this case, the design supply energy Ed
And the actual supply energy Eac are the same, the actual output voltage Vac is 78.
19V is required.

[0019]

[Equation 1]

The voltage varying section 15 corrects the reference voltage Vref based on the result of this calculation, adjusts it to the actually required output voltage Vac, and outputs it to the electric fusion joint 2. That is, as described above, as shown in the example of Table 1, the reference voltage Vref of 75 V is adjusted to the output voltage Vac of 78.19 V and output to the electric fusion joint 2.

That is, according to this energization control device 1,
Even if the value of the wire resistance Rd assumed at the time of design is different from the actual wire resistance Rac, the design supply energy Ed
Since it is possible to perform the fusion work by supplying the above, stable fusion precision can be obtained. As a result, even if it is not the electric fusion joint 2 using an expensive wire material having a stable resistance value, excellent fusion precision can be obtained, and the fusion precision of the electric fusion joint 2 can be improved while improving the fusion precision. A reduction in manufacturing cost can be realized.

[0022]

As described above, according to the present invention, it is possible to supply the designed supply energy to the electric fusion joint to perform the fusion work, so that the variation of the wire resistance of the electric fusion joint is caused. Regardless of the above, stable fusion accuracy can be obtained.

[Brief description of drawings]

FIG. 1 is a schematic diagram showing a fused state of an electric fusion joint by an energization control device.

FIG. 2 is a block diagram showing an outline of an overall configuration of an energization control device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Energization control device 11 Resistance value measurement unit 12 Storage unit 13 Reference voltage output unit 14 Calculation unit 15 Voltage variable unit 2 Electric fusion joint

Claims (2)

[Claims] 1. A method for energizing an electric fusion joint by an energization control device during fusion work, which measures an identification resistance and a wire resistance of the electric fusion joint and sets based on the identification resistance value. The set wire resistance value is compared with the actually measured wire resistance value, and the reference voltage is finely adjusted based on the comparison result, while the specified energization time is set based on this identification resistance value. An energization method in electric fusion, characterized in that energization is performed over the entire area. 2. A resistance value measuring means for measuring an identification resistance and a wire resistance, a storage section storing various energization conditions set based on the identification resistance value, and a storage section according to the measured value of the identification resistance. While drawing out the predetermined energization conditions from
A reference voltage output unit that outputs a reference voltage according to this energization condition and a predetermined energization condition from the storage unit according to the measured value of the identification resistance are obtained, and the wire resistance value set under this energization condition is actually measured. An energization control device comprising: a calculation unit that calculates a reference voltage adjustment amount by comparing the wire resistance value; and a voltage varying unit that finely adjusts the reference voltage based on the calculation result.