JP3187747B2 - High frequency induction heating type soldering equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a soldering apparatus provided with a high-frequency induction heating type heater,
More specifically, the present invention relates to a high-frequency induction heating type soldering apparatus that can freely change the iron tip temperature according to soldering conditions.

[0002]

2. Description of the Related Art Solder iron heaters used for soldering electronic components and the like are of a type in which a commercial frequency current is supplied to an electric resistor to generate heat, and a type of high frequency induction heating in which a high frequency current is supplied to generate heat. There are those of the formula.

As shown in FIG. 2, a high-frequency induction heating type heater 1 has a high-resistance magnetic material layer made of a special alloy having a Curie temperature on the outer periphery of a low-resistance, non-magnetic conductor 2a such as copper. 2b, and an induction coil 3 wound around the heater main body 2. A high-frequency current of about several tens of MHz is passed through the induction coil 3 so that a high-frequency induction current flows through the magnetic layer 2b. Is generated, and the magnetic layer 2b is heated by the induced current.

The most important features of this high-frequency induction heating type heater are the effective use of the Curie phenomenon of the magnetic material, the skin effect of the high-frequency current, and the property of the high-frequency current that flows easily through the magnetic material. Since the heat generation temperature can be automatically kept close to the Curie temperature, there is an advantage that the temperature stability is superior. In addition, the temperature rises very quickly, and in the case of a general soldering iron using a ceramic heater or the like, the temperature rises up to the set iron tip temperature.
One of the major features is that the set temperature can be reached in only about 8 to 10 seconds while the time of 0 to 70 seconds is required.

[0005] As described above, the high-frequency induction heating type heater utilizes the self-temperature control effect that the heat generation temperature is automatically maintained at the Curie temperature of the magnetic material. In the prior art, it has been considered that it is most efficient to use the heater near the Curie temperature of the magnetic material used in the heater. For this reason, the operating temperature (iron tip temperature) of the heater is determined according to the type of the magnetic material, and when the iron tip temperature is changed according to the soldering conditions, a separate magnetic material layer having a different Curie temperature is required. Was replaced with a new heater. For this reason, it is not only necessary to prepare a plurality of types of heaters, but also it is very troublesome to replace them and change the set temperature, and the change is stepwise and limited to several types (the number of heaters). There was a disadvantage that it was done.

[0006]

The main technical problem of the present invention is to change the temperature of the iron tip in accordance with the soldering conditions in a soldering apparatus equipped with a high-frequency induction heating type heater by replacing the heater. It is intended to be able to be performed easily and freely without any problem. Another technical object of the present invention is to make it possible to change the iron tip temperature steplessly in the above-described high frequency induction heating type soldering apparatus.

[0007]

According to the present invention, in order to solve the above-mentioned problems, the outer periphery of a low-resistance, non-magnetic conductor is provided.
When a high-resistance magnetic layer with a Curie temperature is
Then, an induction coil is wound around the magnetic layer,
Induction that flows through the magnetic layer when a high-frequency current flows through the coil
High frequency induction heating type that heats the magnetic layer by electric current
Soldering work with the heater of the above and the heat from the heater
Solder iron with iron tip
High-frequency power supply to detect the iron tip temperature of the above-mentioned soldering iron.
Temperature sensor for output, iron tip temperature above Curie temperature
It has means for setting within the following range and means for displaying,
The high temperature is determined based on the iron tip temperature detected by the temperature sensor.
High-frequency current supplied to the induction coil from the high-frequency power supply
Turning the iron on / off keeps the iron tip temperature at the set temperature.
And a high-frequency induction heating type soldering apparatus having a temperature controller .

In the soldering apparatus of the present invention having the above configuration, when the iron tip temperature is set in the temperature controller, the iron tip temperature detected by the temperature sensor is compared with the set temperature in the temperature controller, and they are equal to each other. By controlling the high frequency power supply so that
The iron tip temperature is kept at the set temperature. Therefore, the iron tip temperature can be changed freely and steplessly below the Curie temperature according to the soldering conditions.

In a specific embodiment of the present invention, the temperature controller sets a temperature higher than the Curie temperature.
Not to accept the set temperature.
Self-regulating function based on Curie temperature
Configured to work .

Preferably, in the present invention, the temperature controller is configured such that the set temperature can be changed only after inputting a predetermined specific password. Thereby, there is no fear that the set temperature is switched unintentionally due to the contact of the human body, foreign matter, etc. with the setting means, and the safety is improved.

In the present invention, it is preferable that the temperature sensor is directly attached to a tip of a soldering iron. The soldering device of the present invention may include a solder supply device for automatically supplying thread-like solder to the iron tip.

[0012]

FIG. 1 is a block diagram showing the configuration of a soldering apparatus according to the present invention. This apparatus comprises a soldering iron 10 incorporating a high-frequency induction heating type heater 11.
A high-frequency power supply for supplying a high-frequency current to the heater 11, a temperature sensor 12 for detecting the iron tip temperature of the soldering iron 10, a temperature controller for setting the iron tip temperature, A solder supply device for supplying the solder 13 to the iron tip.

The heater 11 in the soldering iron 10 is
Since the configuration is the same as that of the heater 1 shown in FIG. 2, the same components are denoted by the same reference numerals as those in FIG. 2, and the description of those portions will be omitted. In the drawing, 3a is a lead wire, 15 is an iron tip, 16 is a stainless steel pipe having the heater 11 built-in and having the iron tip 15 at the tip, and 17 is interposed between the pipe 16 and the heater 11. It is a heat insulating material that also serves as an insulating member. In this soldering iron 10, in order to widen the operating temperature range, as the magnetic material used for the magnetic material layer 2 b of the heater 11, the highest possible Curie temperature (for example, 400 to
(600 ° C.) is preferably used.

The high-frequency power supply generates a high-frequency current of, for example, about 10 to 15 MHz from an AC power supply having a commercial frequency, and outputs the high-frequency current to the induction coil 3 of the soldering iron 10. The device itself is not special at all, and the same device already in practical use can be used.

The temperature sensor 12 is directly fixed to the iron tip 15 of the solder iron 10 by welding or the like so that the temperature of the iron tip can be quickly and accurately detected and fed back to the temperature controller.

The temperature controller is provided with setting means for setting the iron tip temperature, display means comprising a light emitting diode or the like for displaying the set temperature or the detected iron tip temperature as a numerical value, and feedback from the temperature sensor 12. A comparator that compares the iron tip temperature with the set temperature, a control circuit that opens and closes a switch circuit so that the temperature difference obtained by the comparator becomes zero, and a high-frequency current output from the high-frequency power supply. And the above switch circuit for turning off. When the iron tip temperature is lower than the set temperature, the control circuit closes the switch circuit to reduce the temperature difference to zero, turns on the output of the high frequency power supply, and turns on the heater 11 based on the signal from the comparator. Operates to increase the iron tip temperature by passing a high-frequency current to, when the iron tip temperature becomes higher than the set temperature, the control circuit based on a signal from the comparator,
In order to reduce the temperature difference to zero, the switch circuit is opened to turn off the output of the high frequency power supply, and the high frequency current to the heater 11 is cut off to lower the iron tip temperature. By repeating this operation, the iron tip temperature is kept at the set temperature.

When the high frequency current from the high frequency power supply is turned on / off by the switch circuit, either the output circuit of the high frequency power supply may be opened or closed, or the power supply circuit may be opened or closed.

Further, the temperature controller may be capable of freely setting the temperature without any limitation. However, from the viewpoint of safety and quality maintenance, etc., a specific password is determined. Is desirably configured such that the set temperature can be changed only after the user inputs the. Thus, there is no fear that the set temperature is switched unintentionally when a human body or a foreign substance contacts the setting unit. In this case, a discriminating circuit for discriminating the input password and switching to the required mode can be incorporated in the setting means, and the mode setting for the presence or absence of the password and the password are set at the initial setting. It is configured so that each can be set by the setting means.

The temperature setting by the temperature controller can be performed within a range not higher than the Curie temperature of the magnetic material used for the heater 11, and when a temperature higher than the Curie temperature is set. It is preferable that the temperature setting is not accepted or that the temperature is automatically set to the Curie temperature so that the self-temperature control function operates.

On the other hand, the above-mentioned solder supply device is provided with a reel 18.
The wire-like solder 13 wound around the wire is forcibly fed out by a required amount by the driving rollers 19 and 19 and supplied to the iron tip 15 through the tube 20. The tip of the tube 20 is supported by a part of the solder iron 10. ing. Thread solder 1
The supply timing and supply speed of 3 are automatically or manually controlled by a control circuit built in the solder supply device, and the setting thereof can be changed according to soldering conditions.

In the soldering apparatus having the above configuration, when the iron tip temperature is set by the setting means of the temperature controller, the set temperature is compared with the iron tip temperature detected by the temperature sensor 12 in the comparator. The difference signal is output to the control circuit. When the iron tip temperature is lower than the set temperature, the control circuit closes the switch circuit and turns on the output of the high frequency power supply to reduce the temperature difference to zero. Work to increase. Conversely, when the iron tip temperature becomes higher than the set temperature, the control circuit opens the switch circuit to reduce the temperature difference to zero, turns off the output of the high frequency power supply, and turns off the heater 11 based on the signal from the comparator. It operates to cut off the high-frequency current to the iron and lower the iron tip temperature. By repeating this operation, the iron tip temperature is kept at the set temperature.

When changing the iron tip temperature in accordance with the soldering conditions, the above setting means may set the required temperature. This allows the iron tip temperature to be adjusted according to the soldering conditions.
It can be changed freely and steplessly within the range below the Curie temperature of the magnetic material.

In the method of adjusting the temperature by turning on / off the high-frequency current in the high-frequency induction heating type heater 11 as described above, the temperature of the high-frequency induction heating type heater 11 rises quickly and the response is superior. The temperature range overshoot can be kept very small,
As a result, the temperature fluctuation range with respect to the set value can be reliably suppressed within the range of ± 5 to 10%.

[0024]

As described above, according to the present invention, in a soldering apparatus provided with a high-frequency induction heating type heater, the change of the iron tip temperature can be replaced with another heater having a magnetic layer having a different Curie temperature. Instead, the temperature can be easily, freely and steplessly set only by setting the temperature of the iron tip in the temperature controller.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing one embodiment of the present invention.

FIG. 2 is a configuration diagram of a high-frequency induction heating type heater.

[Explanation of symbols]

 2b Magnetic layer 3 Induction coil 10 Soldering iron 11 Heater 12 Temperature sensor 15 Iron tip

──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int. Cl. ⁷ , DB name) B23K 3/00-3/08

Claims (5)

(57) [Claims] A high-resistance magnetic layer having a Curie temperature is provided on the outer periphery of a low-resistance, non-magnetic conductor, and an induction coil is wound around the magnetic layer. A soldering iron having a high-frequency induction heating type heater for heating the magnetic layer by an induced current flowing in the magnetic layer when a high-frequency current is passed, and an iron tip for performing a soldering operation with heat from the heater; A high-frequency power supply for supplying a high-frequency current to the heater; a temperature sensor for detecting the iron tip temperature of the soldering iron; a means for setting the iron tip temperature within the Curie temperature or lower; , derived carp from the high frequency power supply based on the soldering tip temperature detected by the temperature sensor
A high-frequency induction heating type soldering apparatus, comprising: a temperature controller that keeps the iron tip temperature at a set temperature by turning on and off a high-frequency current supplied to the iron. 2. The temperature controller according to claim 1 , wherein
Higher temperature setting, the setting temperature is accepted.
Or automatically based on Curie temperature
The feature is that it is configured so that the self-temperature control function works.
The high-frequency induction heating type soldering apparatus according to claim 1.
Place. Wherein said temperature controller, it is configured not to change the set temperature only after you enter a personal identification number that is determined to claim 1 or 2, characterized in
The high frequency induction heating type soldering apparatus as described in the above. 4. The claim 1, characterized in that mounted directly to the soldering tip of the iron that the temperature sensor is solder to 3
The high frequency induction heating type soldering apparatus according to any one of the above. 5. A method according to claim, characterized in that it has a solder supply apparatus for automatically supplying thread solder to the soldering tip
High frequency induction heating type solder according to any one of 1 to 4
Mounting device.