JPH0326086Y2 - - Google Patents

Description

[Detailed Description of the Invention] <Technical Field> The present invention relates to an electrical bonding device for bonding objects to be bonded using a plurality of welding heaters.

<Prior art> Conventionally, in order to improve the adhesion performance (sealing performance) and reliability of adhesion of objects to be adhered, a double adhesion method has been adopted in which two heaters with the same calorific value are installed in parallel. Due to this method, even if the bonding part of one heater wrinkles or overlaps and the bonding becomes incomplete, the bonding will be performed by the other heater as well, ensuring the sealing and reliability of the bonded objects. However, when gluing the objects to be bonded, the gluing time (heater energization time) is set by the user using a timer for setting the gluing time based on intuition or experience, so the gluing time is too short to be sufficient. The disadvantages are that the adhered object does not adhere and the seal is incomplete, or that the adhesion time is too long and the temperature of the adhered object in the heater section becomes too high, which causes the adhered object to exceed the bonded state and melt and break at the bonded part. be.

<Objective> The object of the present invention is to provide an electrical bonding device that eliminates the above-mentioned drawbacks.

<Example> An example of the electrical bonding device of the present invention will be described with reference to FIGS. 1 to 3.

As shown in FIG. 1, the electrical bonding device of the present invention is provided with a heater energization time setting dial 2 near the center of the side surface of the electrical bonding device main body 1.
A heater radiator 3 is provided near the edge of one side of the upper surface, two heaters 4 and 5 are provided in parallel on the heater radiator 3, and a lid 6 is attached to the electrical bonding device 1 so as to be openable and closable. One end of the lid 6 is pivotally connected to the lid 6.
A presser plate 7 made of a stretchable synthetic resin material is provided so as to come into contact with the heaters 4 and 5 when the holder is closed.

Incidentally, 8 is a bag made of synthetic resin such as polyester or nylon, in which the item 9 to be sealed is placed.

FIG. 2 shows an example of the circuit of the electrical bonding device, in which the primary side of a transformer 12 is connected to an AC power source 11, and the input terminal of a timer 13 for controlling heater energization time is connected to the secondary side a of the transformer 12. A heater 4 is connected between the output terminal of the energization time control timer 13 and the b side of the secondary side of the transformer 12, a heater 5 is connected in parallel with the heater 4, and the heater 4 is energized. The secondary side b of the transformer 12 is connected to a timer 13 for time control, and the transformer 12 steps down and outputs the voltage supplied from the AC power source 11, and also has an electric resistance value of the heater 4. By setting the resistance value to be higher than the electrical resistance value of the heater 5, the amount of heat generated by the heater 4 is reduced and the heat generation temperature is lower than that of the heater 5.

The operation of the electrical bonding device configured as described above will be explained.

First, the opening side of the bag 8 containing the item 9 to be sealed is placed on the heaters 4 and 5, the lid 6 is closed, and the bag 8 is placed on the heaters 4 and 5 using the press plate 7. When the pressing heater energization time setting dial 2 is used to set the energization time to the heater and the bonding operation is started, the AC power supply 11 supplies electricity to the transformer 12, which lowers the voltage, and the heater energization time control timer 13 is activated. The heaters 4 and 5 generate heat to melt and bond the bag 8, but when the energization time set by the heater energization time setting dial 2 has elapsed, the heater energization time control dial 2 is turned on. When the timer 13 expires, the power supply to the heaters 4 and 5 is cut off.

At this time, if the energization time to the heater 7 is too short, the adhesive state of the adhesive part of the heater 4 will be incomplete, but the temperature of the adhesive part of the heater 5 is higher than the temperature of the adhesive part of the heater 4. Therefore, the above heater 5
There is a very high possibility that the bonded area will be securely sealed.

In addition, if the energization time to the heater set using the heater energization time setting dial 2 is too long, there is a high possibility that the bonded portion of the heater 5 will melt and break due to the long energization time. However, since the heat generation temperature of the heater 4 is lower than the heat generation temperature of the heater 5, there is a high possibility that the adhesive part of the heater 4 will be tightly sealed, and the adhesive part of the heater 5 will be the adhesive part of the heater 4. More than the above bag 8
Since it is on the opening side of the film 8, even if the adhesive part of the heater 5 is fused, it will not affect the sealing performance of the film 8 since it is adhered by the heater 4.

FIG. 3 is a circuit diagram showing another example of the electrical bonding device according to the above-mentioned embodiment, in which the primary side of a transformer 12 is connected to an AC power source 11, and a heater is applied to the secondary side a of the transformer 12 for controlling the energization time. Connect the input terminal of the timer 13 for controlling the heater energization time, connect the heater 4 to the output terminal of the timer 13 for controlling the heater energization time, connect the heater 5, and connect the b side of the secondary side of the transformer 12 to the heater 5. Then, a resistor 14 is connected to the heater 4, and the _T2 terminal of the triax 15 is connected to the resistor 14, and the b side of the secondary side of the transformer 12 is connected to the resistor 14 via a capacitor 16. Connect terminal 17 to terminal _T3 .
Connect the T ₄ terminal, connect the T ₅ terminal of the diax 17 to the connection between the resistor 14 and the capacitor 16, and connect the b side of the secondary side of the transformer 12 to the T ₁ terminal of the triax 15. , the above resistance 1
4. A triac 15, a capacitor 16, and a diode 17 constitute a phase control circuit A. Since the phase control circuit A is a well-known phase control circuit, its explanation will be omitted.

Although the heat generation temperatures of the heaters 4 and 5 are the same, the phase control circuit A controls the phase of the AC power supply 11 to shorten the energization time of the heater 4 compared to the heater 5, thereby achieving the above effect. effect can be obtained.

<Effects> Since the electrical bonding device of the present invention has the above-mentioned configuration, even if the time when electricity is applied to the heaters is too short or too long, the heat generation temperature of each heater is different, so one side Even if the adhesion with one heater becomes incomplete, the seal can be reliably sealed with the other heater.

[Brief explanation of the drawing]

FIG. 1 is a schematic perspective view of an embodiment of the electrical bonding device of the present invention, FIG. 2 is a circuit diagram showing an example of the electrical bonding device in FIG. 1,
FIG. 3 is a circuit diagram showing another circuit of FIG. 1. In the figure, 4 and 5 are heaters, 8 is a bag made of synthetic resin, and A is a phase control circuit.

Claims (1)

[Claims for Utility Model Registration] An object to be bonded is sandwiched between a welding heater provided on the top surface of the main body and a lid attached to the main body so as to be openable and closable, and the object to be bonded is welded by the heat of the heater. An electrical bonding device characterized in that a plurality of the heaters for welding are provided in parallel, and the heat generation temperatures for welding of the heaters are made different.