JP2018158381A - Cordless soldering iron and holding base - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cordless soldering iron which dispenses with cleaning of an iron tip even when a mounting time on a holding base is long, and allows a student unfamiliar with a soldering work to safely and efficiently perform the soldering work, and to provide a holding table.SOLUTION: A cordless soldering iron includes: a soldering iron body 20 on which an iron tip 10 is mounted; a power source terminal 21 which mounts a battery 30 on the soldering iron body 20 and is connected to an output terminal 31 of the battery 30 in the soldering iron body 20; a charging terminal 22 connected to an input terminal 32 of the battery 30; an energization control switch 24 opening/closing an energization circuit 23 between the power source terminal 21 and the iron tip 10; and a body side input terminal 25 connected to the charging terminal 22, where the soldering iron body 20 is mounted on a holding base 50, and thereby the energization control switch 24 makes the energization circuit 23 open, and the body side input terminal 25 is connected to a charging part 60.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a cordless soldering iron used by attaching a battery to a soldering iron body and a holding table.

In soldering work, power is generally supplied to the soldering iron from a commercial power supply of 100 V AC using a power cable, and the work is performed while keeping the temperature of the iron tip at a high temperature. In this case, the power supply is always supplied to the heater, the soldering iron is kept on the iron plate while keeping the iron tip temperature at a high temperature, and the electronic parts are soldered as necessary. However, as the person with less experience in electronic work performs, the time for placing the electronic component on the printed circuit board becomes longer, and as a result, the time for the soldering iron to be placed on the iron table in a high temperature state is increased. Further, in the process of soldering, the tip of the soldering iron, which is in a high temperature state, often comes into contact with the power cable, so that a cable for supplying power has excellent heat resistance. Although such a cable is excellent in heat resistance, it is often stressed in terms of flexibility and cable weight.
In the practice of mounting the designed electronic circuit on a printed circuit board, students create a group of a certain number of people and share a limited work desk. In this practice, each student uses tools such as soldering irons and nippers. For this purpose, the desktop is occupied with soldering irons and tools in addition to electronic components. Therefore, in addition to the reduction in work efficiency, there is a risk that the soldering iron may fall due to the soldering iron cable being entangled with an adjacent worker, leading to injury such as burns.
In this way, the soldering iron that uses a power cable connected to a commercial power supply is not suitable for delicate soldering, which is a practical task, or group work on a narrow work desk, and improvement in learning efficiency is required. .
As a soldering iron for solving such a problem, a battery-type cordless soldering iron and a gas heat type cordless soldering iron are commercially available. However, commercially available battery-type cordless soldering irons are not suitable for practical training because the continuous use time is as short as about 1 hour. In addition, the gas heat type cordless soldering iron is not suitable for practical work such as flux coating that prohibits fire.
Patent Document 1 discloses a cordless soldering iron that uses a secondary battery as a power source, and Patent Document 2 discloses a battery-type cordless soldering iron that can selectively use a power supply cartridge that stores the battery.
Further, Patent Document 3 discloses a cordless electric solder heating apparatus in which an electric double layer capacitor is used as a power source and the capacitor is automatically charged when a soldering iron is placed on a dedicated holding base.

Microfilm of Japanese Utility Model No. 59-19592 (Japanese Utility Model Application No. 61-111670) JP 2006-26744 A International Publication No. 2005/084865

By using a cordless soldering iron as disclosed in Patent Literature 1 to Patent Literature 3, the problem relating to the soldering iron cable can be solved.
However, students who have little experience in electronic work have a long time to install electronic components such as resistors and semiconductors on the electronic board, so the soldering iron is left on the holding stand for a long time at a high temperature. . If the soldering iron is left in such a high temperature state, not only power is wasted, but also the tip of the soldering iron tip forms an oxide film by heat, and the soldering operation cannot be performed. Especially for students who are unfamiliar with electronic circuit mounting, since the soldering iron is left for a long time, it is necessary to clean the tip each time, and the time required for maintenance increases.

  Therefore, the present invention eliminates the need for cleaning the tip even when the mounting time on the holding table is long, and a cordless soldering iron that can perform a safe and efficient soldering operation even for a student who is not familiar with the soldering operation. And it aims at providing a holding stand.

The cordless soldering iron of the present invention according to claim 1 is a soldering iron main body to which a soldering tip is attached and a cordless soldering iron used by attaching a battery to the soldering iron main body, and the soldering iron main body is connected to an output terminal of the battery. A power terminal; a charging terminal connected to the input terminal of the battery; an energization control switch that opens and closes an energization circuit between the power terminal and the tip; and a main body side input terminal connected to the charging terminal. By placing the soldering iron body on a holding base, the energization control switch opens the energization circuit, and the body-side input terminal is connected to a charging unit.
According to a second aspect of the present invention, in the cordless soldering iron according to the first aspect, a reed switch is used as the energization control switch.
According to a third aspect of the present invention, in the cordless soldering iron according to the first or second aspect, the battery includes a constant voltage circuit.
According to a fourth aspect of the present invention, in the cordless soldering iron according to any one of the first to third aspects, the battery includes an energization stop switch that stops energization from the output terminal. Features.
According to a fifth aspect of the present invention, in the cordless soldering iron according to any one of the first to fourth aspects, the soldering iron main body is provided with a display unit that indicates an energization state to the iron tip. Features.
The invention according to claim 6 is the cordless soldering iron according to any one of claims 1 to 5, wherein the main body side input terminal is composed of one main body side input terminal and the other main body side input terminal, The one main body side input terminal is a conductive material disposed on the iron tip outer peripheral surface or the iron tip outer peripheral surface via a heat-resistant electrical insulating material, and the other main body side input terminal is provided on the soldering iron main body. It is characterized by.
According to a seventh aspect of the present invention, in the cordless soldering iron according to any one of the first to fifth aspects, the power terminal is composed of one power terminal and the other power terminal, and the one power terminal is Switch to the conduction circuit to the iron tip and the connection of the iron tip outer peripheral surface of the iron tip or a conductive material disposed on the iron tip outer peripheral surface through a heat-resistant electrical insulating material, the other power supply terminal, A switch for switching between the energization circuit to the soldering tip and connection to the continuity checker terminal is provided, the continuity checker terminal is provided in the soldering iron body, and the one power terminal is connected to the outer peripheral surface of the tip by the changeover switch. Alternatively, connect to the conductive material, connect the other power supply terminal to the continuity checker terminal, connect one probe to the continuity checker terminal, and connect the tip to the other Used as blanking, and performing a continuity check by using the other hand between the probe and the tip.
According to an eighth aspect of the present invention, there is provided a holding base for use in the cordless soldering iron according to the second aspect, further comprising a magnet for operating the reed switch.
According to a ninth aspect of the present invention, in the holding stand according to the eighth aspect, the magnet can be moved to a first position where the reed switch is operated and a second position where the reed switch is not operated. Features.
According to a tenth aspect of the present invention, in the holding table according to the eighth aspect, the magnet is an electromagnet, and a controller that intermittently energizes the electromagnet is provided.
The present invention according to claim 11 is the holding base according to claim 8, wherein the main body side input terminal is composed of one main body side input terminal and the other main body side input terminal, and the one main body side input terminal is connected to the iron base. The soldering iron main body is provided with the other main body side input terminal on the outer peripheral surface of the iron tip, a mounting member for mounting the soldering tip, a cradle for supporting the mounting member, and one end of the cradle. A pair of movable arms supported, the magnet is provided at the other end of the pair of movable arms, the reed switch is operated by the magnet provided at one of the movable arms, and the other movable arm is The provided magnet is connected to the other main body side input terminal, and the one main body side input terminal is connected to the mounting member.
According to a twelfth aspect of the present invention, in the holding table according to the eighth aspect of the present invention, a heat insulating cover is provided to heat at least the tip of the tip.

  According to the present invention, charging is performed while the soldering iron body is placed on the holding base, and an oxide film is formed at the tip of the iron tip by lowering the temperature of the iron tip by opening the energization circuit. No need to clean the tip even if the mounting time of the soldering iron body is long, and even for students who are unfamiliar with soldering work, perform safe and efficient soldering work. Can do.

The block diagram which represented the cordless soldering iron by the function implementation means by one Example of this invention Block diagram showing the soldering work of the cordless soldering iron Block diagram showing a normal state in which the cordless soldering iron is placed on a holding table The block diagram which shows the state which mounted the cordless soldering iron on the holding stand, maintaining the heating state The block diagram which shows the continuity checker use state of the cordless soldering iron Configuration diagram showing the cordless soldering iron The block diagram which shows the holding stand used for the cordless soldering iron Characteristic of the cordless soldering iron A block diagram showing a cordless soldering iron according to another embodiment of the present invention by function realizing means Characteristic diagram of the cordless soldering iron shown in FIG. The block diagram which represented the holding stand suitable for the cordless soldering iron shown in FIG. Characteristic of cordless soldering iron when using the holding stand shown in FIG. The block diagram which represented the cordless soldering iron by further another Example of this invention with the function implementation means

  The cordless soldering iron according to the first embodiment of the present invention includes a power supply terminal connected to an output terminal of a battery, a charging terminal connected to an input terminal of the battery, a power supply terminal, and a tip of the soldering iron. An energization control switch that opens and closes the energization circuit and a main body side input terminal that is connected to the charging terminal. By placing the soldering iron body on the holding base, the energization control switch opens the energization circuit, and the main body side input terminal Is connected to the charging unit. According to the present embodiment, while the soldering iron body is placed on the holding base, charging is performed, and by opening the energizing circuit and reducing the temperature of the iron tip, an oxide film is formed at the tip of the iron tip. No need to clean the tip of the soldering iron even when the mounting time of the soldering iron body is long, especially for students who are unfamiliar with soldering work. It can be carried out.

  The second embodiment of the present invention uses a reed switch as an energization control switch in the cordless soldering iron according to the first embodiment. According to the present embodiment, the energization circuit can be easily opened by providing the reed switch on the soldering iron body.

  According to a third embodiment of the present invention, in the cordless soldering iron according to the first or second embodiment, the battery includes a constant voltage circuit. According to the present embodiment, there is no decrease in the tip temperature due to discharge, and a stable soldering operation can be performed.

  According to a fourth embodiment of the present invention, in the cordless soldering iron according to any one of the first to third embodiments, the battery includes an energization stop switch that stops energization from the output terminal. According to the present embodiment, by providing the battery with an energization stop switch, it is possible to prevent discharge when not in use and improve safety.

  According to a fifth embodiment of the present invention, in the cordless soldering iron according to any one of the first to fourth embodiments, the soldering iron main body is provided with a display unit that indicates an energization state to the iron tip. According to the present embodiment, it is possible to check the energization state of the iron tip particularly when the soldering iron body is placed on the holding base.

  According to a sixth embodiment of the present invention, in the cordless soldering iron according to any one of the first to fifth embodiments, the main body side input terminal includes one main body side input terminal and the other main body side input terminal, The main body side input terminal is a conductive material disposed on the outer peripheral surface of the iron tip or the outer peripheral surface of the iron tip via a heat-resistant electrical insulating material, and the other main body side input terminal is provided on the soldering iron main body. According to this embodiment, the connection to the charging unit can be easily performed by using the outer peripheral surface of the iron tip or the conductive material as the one main body side input terminal.

  According to a seventh embodiment of the present invention, in the cordless soldering iron according to any one of the first to sixth embodiments, the power terminal is composed of one power terminal and the other power terminal, and the one power terminal is connected to the tip of the iron. Switching to a soldering tip outer peripheral surface or a connection to a conductive material disposed on the outer peripheral surface of the soldering tip via a heat-resistant electrical insulating material, and the other power supply terminal to the soldering tip , Equipped with a changeover switch to switch to connection to the continuity checker terminal, the continuity checker terminal is provided in the soldering iron body, and one power supply terminal is connected to the iron tip outer peripheral surface or conductive material by the changeover switch, and the other power supply terminal is connected to the continuity checker terminal , One probe is connected to the continuity checker terminal, the tip of the tip is used as the other probe, and the continuity check is performed using the one probe and the tip of the tip.According to the present embodiment, by providing the continuity check function, it is possible to confirm the soldering state particularly when lead-free solder is used.

  The holding table according to the eighth embodiment of the present invention is a holding table used in the cordless soldering iron according to the second embodiment, and includes a magnet for operating a reed switch. According to the present embodiment, the reed switch can be easily operated by providing the magnet on the holding base.

  According to a ninth embodiment of the present invention, in the holding stand according to the eighth embodiment, the magnet can be moved to a first position where the reed switch is operated and a second position where the reed switch is not operated. It is. According to the present embodiment, it is possible to maintain energization of the tip by moving the magnet to the second position.

  The tenth embodiment of the present invention is a holding base according to the eighth embodiment, wherein the magnet is an electromagnet, and a controller that intermittently energizes the electromagnet is provided. According to this embodiment, while preventing the formation of an oxide film at the tip of the iron tip, it is possible to prevent the iron tip temperature from being excessively lowered, and to quickly perform the soldering operation after the soldering iron body is placed on the holding table. It can be carried out.

  In an eleventh embodiment of the present invention, in the holding stand according to the eighth embodiment, the main body side input terminal is composed of one main body side input terminal and the other main body side input terminal, and the one main body side input terminal is A pair of tip end outer peripheral surfaces, the other body side input terminal provided on the soldering iron body, a mounting member for mounting the tip, a cradle for supporting the mounting member, and a pair of ends supported by the cradle. A movable arm, a magnet is provided on the other end of the pair of movable arms, a reed switch is operated with a magnet provided on one movable arm, and a magnet provided on the other movable arm The main body side input terminal is connected to the mounting member. According to the present embodiment, charging can be performed with a simple device configuration, and the temperature of the tip can be lowered by opening the energization circuit.

  In the twelfth embodiment of the present invention, the holding table according to the eighth embodiment is provided with a heat retaining cover for retaining at least the tip of the iron tip. According to the present embodiment, it is possible to prevent the temperature of the tip of the iron from decreasing, and it is possible to quickly perform the soldering work after the soldering iron body is placed on the holding table.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a block diagram showing a cordless soldering iron according to an embodiment of the present invention as function realizing means.
The cordless soldering iron according to this embodiment includes a soldering iron body 20 to which the soldering tip 10 is attached and a battery 30 to be attached to the soldering iron body 20.
The soldering iron body 20 opens and closes a power terminal 21 connected to the output terminal 31 of the battery 30, a charging terminal 22 connected to the input terminal 32 of the battery 30, and an energization circuit 23 between the power terminal 21 and the iron tip 10. An energization control switch 24, a main body side input terminal 25 connected to the charging terminal 22, a display unit 26 indicating an energization state of the iron tip 10, a changeover switch 27, a pressing switch 28, and a conduction checker terminal 29 It has.

The main body side input terminal 25 includes, for example, one main body side input terminal 25a that is a plus terminal and the other main body side input terminal 25b that is a negative terminal.
On the other hand, the main body side input terminal 25 a is the iron tip outer peripheral surface 11 of the iron tip 10, and the other main body side input terminal 25 b is provided on the soldering iron main body 20.
The other body side input terminal 25b and the continuity checker terminal 29 are electrically connected and have the same potential.

The power supply terminal 21 includes, for example, one power supply terminal 21a that is a plus terminal and the other power supply terminal 21b that is a minus terminal.
The changeover switch 27 switches between a soldering iron use state and a continuity checker use state. That is, the changeover switch 27 switches the one power supply terminal 21a between the connection of the iron tip 10 to the energizing circuit 23 and the connection of the iron tip 10 to the iron tip outer peripheral surface 11, and the other power supply terminal 21b to the interlock switch 27a. The connection is switched between the connection of the iron tip 10 to the energizing circuit 23 and the connection to the continuity checker terminal 29. The interlock switch 27 a operates in conjunction with the changeover switch 27.

  Inside the iron tip 10, a heating source 13 for heating the tip 12 of the iron tip 10 is provided. The heating source 13 is connected to one power supply terminal 21 a and the other power supply terminal 21 b by an energization circuit 23.

  The battery 30 includes an energization stop switch 33 that stops energization from the output terminal 31 and a constant voltage circuit 34 formed of, for example, a regulator.

The holding table 50 on which the cordless soldering iron is placed includes a charging unit 60 that charges the battery 30 and an energization control switch operating unit 70 that operates the energization control switch 24.
The charging unit 60 is a connection terminal with a power source composed of a secondary battery, a power source circuit that converts power supplied from an AC power source, or an external power source. The charging unit 60 includes a first charging unit side terminal 61a that contacts the iron tip outer peripheral surface 11, and a second charging unit side terminal 61b that is connected to the other main body side input terminal 25b.

In this embodiment, the energization control switch operating unit 70 is a magnet 71, and the energization control switch 24 is a reed switch. Depending on the position of the magnet 71, the energization control switch 24, which is a reed switch, is operated. The magnet 71 can move to a first position 71a where the reed switch is operated and a second position 71b where the reed switch is not operated.
The energization control switch operating unit 70 may be any unit that operates the energization control switch 24 by placing the soldering iron body 20 on the holding base 50. For example, the energization control switch 24 appears on the outer surface of the soldering iron body 20. The energization control switch operating unit 70 may be configured to press the energization control switch 24 that can be retracted by placing the soldering iron body 20 on the holding base 50.

FIG. 2 is a block diagram showing a soldering operation of the cordless soldering iron according to the present embodiment.
During the soldering operation of the cordless soldering iron, the tip 12 of the iron tip 10 is heated by the heating source 13.
The energization stop switch 33 of the battery 30 is off, that is, the battery 30 is energized from the output terminal 31.
Since the soldering iron main body 20 is removed from the holding base 50, the energization control switch 24 closes the energization circuit 23.
The changeover switch 27 is in a soldering iron use state. Accordingly, the one power supply terminal 21 a and the other power supply terminal 21 b are connected to the energization circuit 23 to the iron tip 10.
Accordingly, the heating source 13 is heated by being energized from the battery 30, and the display unit 26 displays the soldering iron usage state by lighting or blinking.

FIG. 3 is a block diagram showing a normal state in which the cordless soldering iron according to the present embodiment is placed on the holding table.
By placing the cordless soldering iron on the holding base 50, the one main body side input terminal 25a is connected to the one charging portion side terminal 61a via the iron tip outer peripheral surface 11, and the other main body side input terminal 25b is connected to the other charging portion side terminal. 61b.
Therefore, the battery 30 is charged by the charging unit 60.
In the energization control switch 24, the energization circuit 23 is opened by the energization control switch operation unit 70. Specifically, the energization control switch 24 is turned off when the magnet 71 constituting the energization control switch operation unit 70 comes close to the reed switch constituting the energization control switch 24 (first position 71a). Yes.
Therefore, the heating source 13 is not energized from the battery 30, and the display unit 26 displays that the soldering iron is not being used by not lighting.
Note that the power supply stop switch 33 of the battery 30 may be turned off and the changeover switch 27 may be in a state of using the continuity checker.

FIG. 4 is a block diagram showing a state in which the cordless soldering iron according to the present embodiment is placed on the holding table while being heated.
In order to maintain the heating state of the heating source 13 in a state of being placed on the holding base 50, the energization control switch operating unit 70 is switched to a non-operating state.
FIG. 4 shows a state (second position 71 b) in which the magnet 71 constituting the energization control switch operating unit 70 is separated from the reed switch constituting the energization control switch 24.

By setting the energization control switch 24 to the non-operating state, the energization control switch 24 maintains a state where the energization circuit 23 is closed, and the one power supply terminal 21 a and the other power supply terminal 21 b are connected to the energization circuit 23 to the iron tip 10. Has been.
The energization stop switch 33 of the battery 30 is off and the changeover switch 27 is in a soldering iron use state.
Accordingly, the heating source 13 is heated by being energized from the battery 30, and the display unit 26 displays the soldering iron usage state by lighting or blinking.

FIG. 5 is a block diagram showing a state in which the continuity checker of the cordless soldering iron according to this embodiment is used.
The heating source 13 is not heated when the cordless soldering iron conduction checker is used.
The energization stop switch 33 of the battery 30 is off, that is, the battery 30 is energized from the output terminal 31.
Since the soldering iron main body 20 is removed from the holding base 50, the energization control switch 24 closes the energization circuit 23.
The changeover switch 27 is in a continuity checker use state. Accordingly, the one power supply terminal 21 a is connected to the iron tip outer peripheral surface 11 of the iron tip 10, and the other power supply terminal 21 b is connected to the conduction checker terminal 29.
One probe 80 is connected to the continuity checker terminal 29, the tip 10 is used as the other probe, and the continuity check is performed using the one probe 80 and the tip 10.
In addition, it is preferable to provide the pressing switch 28 between the output terminal 31 and the continuity checker terminal 29. The pressing switch 28 closes the circuit from the output terminal 31 to the continuity checker terminal 29 only while the user is pressing the pressing switch 28.
In addition, although the display part for continuity confirmation may be provided between the continuity checker terminal 29 and the one probe 80, the display part 26 can be used as the display part for continuity confirmation.

FIG. 6 is a block diagram showing a cordless soldering iron according to the present embodiment.
The iron tip 10 is attached to one end side of the soldering iron main body 20, and the battery 30 is attached to the other end side of the soldering iron main body 20.
The battery 30 is attached to the soldering iron body 20 by fitting the power terminal 21 and the output terminal 31 and fitting the charging terminal 22 and the input terminal 32.
The battery 30 is detachable from the soldering iron body 20.
On the other hand, the main body side input terminal 25 a is connected to the iron tip outer peripheral surface 11 of the iron tip 10 inside the soldering iron main body 20.
The other body side input terminal 25 b is disposed on the outer surface of the soldering iron body 20.
In the case where a reed switch is used as the energization control switch 24 as in the present embodiment, it is preferable that the reed switch is disposed on one end side of the soldering iron body 20 with respect to the display unit 26 and the changeover switch 27 inside the soldering iron body 20.
When the holding base 50 shown in FIG. 7 is used, it is preferable to arrange the reed switch and the other main body side input terminal 25 b on the outer peripheral surface of the soldering iron main body 20 facing each other.

FIG. 7 is a block diagram showing a holding table used in the cordless soldering iron according to this embodiment.
The holding table 50 according to this embodiment includes a mounting member 51 for mounting the iron tip 10, a receiving table 52 for supporting the mounting member 51, a pair of movable arms 53 supported at one end by the receiving table 52, The charging part 60 which is a connection terminal with an external power supply is provided. The mounting member 51 is made of a conductive material. The holding table 50 according to the present embodiment is used by connecting another secondary battery or an external power source to the charging unit 60.
Magnets 54 are provided on the other ends of the pair of movable arms 53, respectively.
A fixing magnet 55 is provided on the bottom surface of the cradle 52. The fixing magnet 55 is disposed on the placement member 51 side. By providing the fixing magnet 55, when used in a metal desk or the like, the holding base 50 can be prevented from moving, and the cordless soldering iron can be stably placed. Further, by arranging the fixing magnet 55 on the mounting member 51 side, the soldering iron main body 20 can be mounted on the holding table 50 with the tip 10 as a high position.
The cradle 52 has the same potential as the movable arm 53 and the magnet 54 and the ground potential, and is insulated from the placement member 51. One charging unit side terminal 61 a of the charging unit 60 is connected to the mounting member 51, and the other charging unit side terminal 61 b of the charging unit 60 is connected to each magnet 54.

As shown in FIG. 6, the cordless soldering iron according to the present embodiment has one main body side input terminal 25a as the iron tip outer peripheral surface 11 of the iron tip 10, and the other main body side input terminal 25b provided on the outer peripheral surface of the soldering iron main body 20. As the control switch 24, a reed switch and the other main body side input terminal 25b are arranged on the outer peripheral surfaces of the soldering iron main body 20 facing each other. Accordingly, by placing the cordless soldering iron on the holding stand 50, the reed switch is operated by the magnet 54 provided on the one movable arm 53, and the other main body side input terminal is operated by the magnet 54 provided on the other movable arm 53. The main body side input terminal 25a and the one charging part side terminal 61a of the charging part 60 can be connected by the contact between the mounting member 51 and the iron tip outer peripheral surface 11.
Therefore, as described with reference to FIG. 3, the battery 30 can be charged without turning on the energization control switch 24 and energizing the heating source 13.
Further, as described with reference to FIG. 4, in order to maintain the heating state of the heating source 13, the energization control switch operating unit 70 is in the non-operating state by disconnecting the magnet 54 provided on one movable arm 53 from the reed switch. It can be.

FIG. 8 is a characteristic diagram of the cordless soldering iron according to the present embodiment.
In FIG. 8, the vertical axis is the temperature of the tip 12 of the iron tip 10, the horizontal axis is the elapsed time, the characteristic of the battery 30 having the constant voltage circuit 34 according to this embodiment is A, and the constant voltage circuit 34 according to the comparative example is provided. The characteristics of the non-battery 30 are shown as B. The battery 30 according to the present embodiment uses a lithium ion battery, and the constant voltage circuit 34 converts 3.7 v to 5 v.
The melting point of eutectic solder is 183 ° C., and the melting point of lead-free solder is 217 ° C., but the temperature of the tip 12 of the iron tip 10 suitable for soldering work is 340 ° C. to 380 ° C.
In the characteristic B shown as a comparative example, the temperature of the tip 12 of the tip 10 gradually decreases with the elapsed time. As described above, when the temperature of the tip 12 of the soldering tip 10 gradually decreases, the solder melting degree varies depending on the elapsed time, so that it is difficult to perform an efficient soldering operation.
On the other hand, in the characteristic A shown as the present embodiment, a stable temperature is maintained without being affected by the elapsed time, and an efficient soldering operation can be performed.

As described above, according to the present embodiment, by placing the soldering iron main body 20 on the holding base 50, the energization control switch 24 opens the energization circuit 23 and the main body side input terminal 25 is connected to the charging unit 60. Therefore, while the soldering iron main body 20 is placed on the holding base 50, charging is performed, and the temperature of the iron tip 10 is lowered by opening the energizing circuit 23, whereby an oxide film is formed on the tip 12 of the iron tip 10. It is possible to prevent the soldering iron body 20 from being formed, and even if the mounting time of the soldering iron main body 20 on the holding base 50 becomes long, there is no need to clean the tip 10, and even a student who is not familiar with soldering work is safe and efficient soldering. Attaching work can be performed.
In addition, according to the present embodiment, the energization circuit 23 can be easily opened by providing the soldering iron body 20 with the reed switch and providing the holding base 50 with the magnet 71 for operating the reed switch.
Further, according to the present embodiment, by providing the battery 30 with the constant voltage circuit 34, there is no decrease in the temperature of the iron tip 10 due to discharge, and a stable soldering operation can be performed.
Further, according to the present embodiment, by providing the battery 30 with the energization stop switch 33, discharge when not in use can be prevented and safety can be improved.
In addition, according to the present embodiment, the soldering iron main body 20 is provided with the display unit 26 indicating the energization state of the soldering iron tip 10, so that the iron tip 10 particularly in a state where the soldering iron main body 20 is placed on the holding base 50. You can check the energization state.
Moreover, according to the present Example, the connection to the charging part 60 can be easily performed by using the iron tip outer peripheral surface 11 as the one main body side input terminal 25a.
Further, according to the present embodiment, by providing the continuity check function, it is possible to confirm the soldering state particularly when lead-free solder is used.
Further, according to the present embodiment, the magnet 71 can be moved to the first position 71a where the reed switch is operated and the second position 71b where the reed switch is not operated, so that the magnet 71 is moved to the second position 71b. By making it move, electricity supply to the tip 10 can be maintained.
Further, according to the present embodiment, the mounting member 51 for mounting the tip 10, the receiving base 52 for supporting the mounting member 51, and the pair of movable arms 53 supported at one end by the receiving base 52. The magnet 54 is provided on the other end of the pair of movable arms 53, the reed switch is operated by the magnet 54 provided on the one movable arm 53, and the other main body side input is performed by the magnet 54 provided on the other movable arm 53. By connecting to the terminal 25b and connecting the one main body side input terminal 25a to the mounting member 51, charging can be performed with a simple device configuration, and the energization circuit 23 can be opened to lower the temperature of the iron tip 10. .

FIG. 9 is a block diagram showing a cordless soldering iron according to another embodiment of the present invention by function realizing means. Note that the same functional members as those in FIG.
In the cordless soldering iron according to the present embodiment, the energization control switch operation unit 70 includes an electromagnet 75 and a control unit 76 that intermittently energizes the electromagnet 75.

FIG. 10 is a characteristic diagram of the cordless soldering iron shown in FIG.
In FIG. 10, the vertical axis is the temperature of the tip 12 of the iron tip 10 and the horizontal axis is the elapsed time, and the control unit 76 repeatedly performs the stop time T1 and the energization time T2 from the placement of the cordless soldering iron on the holding table 50. It is a thing.
As in this embodiment, the electromagnet 75 is intermittently energized by the control unit 76, thereby preventing the formation of an oxide film at the tip 12 of the iron tip 10 and excessively lowering the temperature of the iron tip 10. Therefore, the soldering work after the soldering iron body 20 is placed on the holding base 50 can be quickly performed.
Note that the battery 30 is continuously charged by the charging unit 60 even when the electromagnet 75 is energized intermittently as in the present embodiment.
It is preferable that the stop time T1 and the energization time T2 can be changed by the control unit 76 according to the use environment.

FIG. 11 is a block diagram showing a holding base suitable for the cordless soldering iron shown in FIG. Note that members having the same functions as those in FIG.
The holding table 50 according to the present embodiment is provided with a heat retaining cover 56 that retains at least the tip 12 of the tip 10. The heat insulating cover 56 is formed in a bottomed cylindrical shape using, for example, a heat resistant glass material.
Thus, by providing the heat retaining cover 56, the tip 12 of the tip 10 can be kept warm, and the solder residue attached to the tip 12 of the tip 10 can be collected.

FIG. 12 is a characteristic diagram of the cordless soldering iron when the holding table shown in FIG. 11 is used.
In FIG. 12, the vertical axis is the temperature of the tip 12 of the tip 10 and the horizontal axis is the elapsed time as in FIG. 10, and the control unit 76 energizes the stop time T1 from the placement of the cordless soldering iron on the holding base 50. Time T2 is repeated.
By providing the heat insulating cover 56 as in the present embodiment, the temperature of the iron tip 10 can be prevented from being lowered, and the soldering work after the soldering iron body 20 is placed on the holding base 50 can be quickly performed.
In addition, although the case where the control unit 76 for intermittently energizing the electromagnet 75 is provided has been described, even if the control unit 76 is not provided, the insulation cover 56 can be used to provide The temperature of the tip 10 can be prevented from excessively decreasing, and the soldering operation after the soldering iron main body 20 is placed on the holding base 50 can be quickly performed.

FIG. 13 is a block diagram showing a cordless soldering iron according to still another embodiment of the present invention by function realizing means. Note that the same functional members as those in FIG.
The iron tip 10a according to this embodiment is a type of iron tip in which the iron tip outer peripheral surface 11 cannot be used as the one main body side input terminal 25a.
When such a soldering tip 10a is used, a heat resistant electrical insulating material 14 disposed on the solder tip outer peripheral surface 11 and a conductive material 15 insulated from the iron tip outer peripheral surface 11 by the heat resistant electrical insulating material 14 are used.
For example, a tape-shaped heat-resistant electrical insulating material 14 is wound around the iron tip outer peripheral surface 11 and covered with a conductive material 15 made of a metal pipe.
In the present embodiment, the one main body side input terminal 25a is connected to the conductive material 15 provided on the iron tip outer peripheral surface 11 of the iron tip 10a. The changeover switch 27 switches the one power supply terminal 21a between connection to the energizing circuit 23 of the iron tip 10a and connection to the conductive material 15 provided on the iron tip outer peripheral surface 11 of the iron tip 10a. The one charging unit side terminal 61 a of the charging unit 60 is in contact with the conductive material 15 provided on the iron tip outer peripheral surface 11.
In this way, by providing the conductive material 15 disposed via the heat-resistant electrical insulating material 14 on the iron tip outer peripheral surface 11, the iron tip outer peripheral surface 11 cannot be used as the one main body side input terminal 25a. Even if it exists, the connection to the charging part 60 can be performed easily.

  The cordless soldering iron of the present invention is most suitable as a soldering iron used for problem training in educational institutions, but is also suitable as a soldering iron used in field work.

DESCRIPTION OF SYMBOLS 10, 10a Iron tip 11 Iron tip outer peripheral surface 12 Tip 13 Heating source 14 Heat-resistant electrical insulating material 15 Conductive material 20 Soldering iron main body 21 Power supply terminal 21a One power supply terminal 21b The other power supply terminal 22 Charging terminal 23 Current supply circuit 24 Current supply control switch 25 Main body side Input terminal 25a One main body side input terminal 25b Other main body side input terminal 26 Display unit 27 Changeover switch 28 Press switch 29 Continuity checker terminal 30 Battery 31 Output terminal 32 Input terminal 33 Energization stop switch 34 Constant voltage circuit 50 Holding base 51 Mounting member 52 cradle 53 movable arm 54 magnet 55 fixing magnet 56 heat insulation cover 60 charging unit 61a one charging unit side terminal 61b other charging unit side terminal 70 energization control switch operation unit 71 magnet 75 electromagnet 76 control unit

Claims (12)

A soldering iron body for attaching a soldering tip, and a cordless soldering iron used by attaching a battery to the soldering iron body,
In the soldering iron body,
A power supply terminal connected to the output terminal of the battery;
A charging terminal connected to the input terminal of the battery;
An energization control switch that opens and closes an energization circuit between the power terminal and the tip;
A main body side input terminal connected to the charging terminal,
By placing the soldering iron body on a holding stand,
The energization control switch opens the energization circuit;
The cordless soldering iron, wherein the main body side input terminal is connected to a charging unit. The cordless soldering iron according to claim 1, wherein a reed switch is used as the energization control switch. The cordless soldering iron according to claim 1 or 2, wherein the battery includes a constant voltage circuit. The cordless soldering iron according to any one of claims 1 to 3, wherein the battery includes an energization stop switch that stops energization from the output terminal. The cordless soldering iron according to any one of claims 1 to 4, wherein the soldering iron main body includes a display unit that indicates a state of energization of the tip of the soldering iron. The main body side input terminal is composed of one main body side input terminal and the other main body side input terminal,
The one main body side input terminal is a conductive material disposed on the iron tip outer peripheral surface of the iron tip or the iron tip outer peripheral surface via a heat-resistant electrical insulating material,
The cordless soldering iron according to any one of claims 1 to 5, wherein the other main body side input terminal is provided in the soldering iron main body. The power terminal is composed of one power terminal and the other power terminal,
The one power supply terminal is switched between the conduction circuit to the iron tip and the connection to a conductive material disposed on the iron tip outer peripheral surface or the iron tip outer peripheral surface of the iron tip via a heat-resistant electrical insulating material, The other power supply terminal is provided with a changeover switch for switching between the energization circuit to the tip and connection to a continuity checker terminal,
The continuity checker terminal is provided on the soldering iron body,
By the changeover switch, the one power supply terminal is connected to the outer peripheral surface of the iron tip or the conductive material, and the other power supply terminal is connected to the conduction checker terminal,
Connect one probe to the continuity checker terminal and use the tip as the other probe,
The cordless soldering iron according to any one of claims 1 to 5, wherein a continuity check is performed using the one probe and the tip of the iron. A holding stand used for the cordless soldering iron according to claim 2,
A holding base comprising a magnet for operating the reed switch. The holding table according to claim 8, wherein the magnet can be moved to a first position where the reed switch is operated and a second position where the reed switch is not operated. The magnet is an electromagnet,
The holding table according to claim 8, further comprising a control unit that intermittently energizes the electromagnet. The main body side input terminal is composed of one main body side input terminal and the other main body side input terminal,
The one main body side input terminal as the iron tip outer peripheral surface of the iron tip,
The other body side input terminal is provided on the soldering iron body,
A mounting member for mounting the iron tip;
A cradle for supporting the mounting member;
A pair of movable arms supported at one end by the cradle;
The magnet is provided at the other end of the pair of movable arms,
The reed switch is operated with the magnet provided on one of the movable arms,
With the magnet provided on the other movable arm, connected to the other body side input terminal,
9. The holding table according to claim 8, wherein the one main body side input terminal is connected to the mounting member. The holding table according to claim 8, further comprising a heat insulating cover that heats at least a tip of the iron tip.