JPS6235858B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a soldering device for soldering an object to be soldered, such as a tuner frame.

It is an object of the present invention to provide a soldering device that allows continuous soldering of objects to be soldered and also automatically removes objects after soldering is completed. It is.

Examples of the present invention will be described below. 1st
The figure schematically shows the entire soldering device, and 1 shows an endless heat-resistant conveyor belt suspended between a driving wheel 2 and a driven wheel 3;
A plurality of heat-resistant holders 4 are attached to the surface of the conveyor belt 1 at predetermined pitches. This holder 4 has an L-shaped wall portion 4a and a step portion 4 on the top surface.
b is formed, and a bottomed hole 4c is formed at the bottom. 5 is a limit switch that detects the arrival of the holder 4; ₆₁ is an infrared emitter; and ₆₂ is an infrared receiver; these emitters ₆₁ and receiver ₆₂ constitute a photoelectric switch 6. However, its optical axis is adapted to detect the forward end of the tuner frame 10 as the object to be soldered. And this photoelectric switch 6 and limit switch 5
By taking the logical sum of the detection outputs, the drive wheel 2 that conveys the conveyor belt 1 is driven for a predetermined time.
For example, it is designed to pause for 15 seconds. Reference numeral 7 denotes an air heater, which is arranged so that its tip faces the soldered portion a of the stopped tuner frame 10. This air heater 7 is configured such that a nichrome wire heater is provided inside a nozzle portion 7a at the tip, and compressed air escapes from the base 7b to the tip. A heat-resistant heat-insulating cover 8 is placed over the air heater 7 to prevent heat from escaping. Note that a part of the ceiling of this cover 8 is covered with heat-resistant glass so that the inside can be seen. Reference numeral 9 denotes a separating device made of a plate-like material provided near the folded portion of the conveyor belt 1 in the traveling direction.The curved portion 9a at the tip thereof is located in front of the curved portion of the conveyor belt 1, and is connected to the drive wheel 2. It has a curved shape such that the distance from the rotating shaft 2a increases sequentially from the top to the bottom.

As shown in FIG. 2, the tuner frame 10 has a U-shape consisting of a bottom piece 10a, side pieces 10b, 10c, and one side piece 10b has a stepped portion 11a of the antenna terminal 11 attached from the outside. A hole _10b1 is formed for insertion and soldering.

In the above, the antenna terminal 11 is soldered to the tuner frame 10. First, the antenna terminal 11 is soldered to the hole 4c of the holder 4 on the conveyor belt 1.
is inserted so that the stepped portion 11a faces upward.
Next, the tuner frame 10 is attached to its bottom piece 10a.
is located at the corner of the wall 4a of the holder 4, and the side piece 10
b is located between the wall 4a and the step 4b, and the hole _10b1 of the side piece 10b is inserted into the step 11a of the antenna terminal 11 inserted into the hole 4c. Next, a ring-shaped solder wire 12 is placed around the antenna terminal 11 protruding inward from the side piece 10b of the tuner frame 10 to form a soldering portion a. With the above steps, the setting for soldering is completed, but such setting is performed in sequence for each holder 4 sent by the conveyor belt 1 at the setting part A in front of the entrance 8a of the heat insulation cover 8. .

When the conveyor belt 1 is fed in the direction of the arrow, the holder 4 moves in the same direction and comes into contact with the limit switch 5 inside the heat insulating cover 8, indicating that the tuner frame 10 is set on the holder 4. Since the tuner frame 10 is detected by the photoelectric switch 6, the drive of the drive wheels 2 is stopped for a predetermined period of time based on the OR output of the detection outputs of the limit switch 5 and the photoelectric switch 6. By this stop, the soldered portion a of the tuner frame 10 is located at the tip 7a of the air heater 7, and the thread solder 12 of the soldered portion a is melted by the hot air from the air heater 7. Then, when a predetermined period of time has elapsed, the drive wheel 2 starts driving, and the tuner frame 10 is attached to the holder 4 that is sent next.
If is set, soldering is performed by a similar operation. If the tuner frame 10 is not set, the drive wheels 2 are not stopped.

After that, when the soldered tuner frame 10 moves toward the driving wheel 2, the soldered part a solidifies at the cooling part B during the transport, and as it moves further, it separates at the folded part of the transport belt 1. Device 9
From holder 4 to tuner frame 10
floats up and falls off. This separation and shedding is caused by
As shown in FIG. 3, the inner side of the upper side piece 10c of the tuner frame 10 comes into contact with the outer surface of the curved portion 9a at the tip of the separating device 9, and rides on the outer surface of the curved portion 9a as the conveyor belt 1 moves. This is done by floating up from the holder 4.

Note that the above is just one example, and the soldering is performed by installing another individual air heater on the opposite side of the conveying direction of the air heater 7, separated by the arrangement interval of the holder 4, and - A photoelectric switch is separately installed to detect the tuner frame located at the tip of the heater, and the soldered part a of the tuner frame is preheated by the separate air heater before being melted by the air heater 7. You can also make it so that In this case, when the tuner frame is detected by a separately installed photoelectric switch, the driving wheels 2 are stopped for a predetermined period of time and preheating is performed.

As described above, according to the present invention, soldering is automatically performed simply by setting the object to be soldered on the conveying part, and when the soldering is completed, the separating device automatically removes the object from the soldering device. It has the characteristic that the attachment can be removed.

[Brief explanation of the drawing]

Fig. 1 is a schematic perspective view of a soldering device according to an embodiment of the present invention, Fig. 2 is a perspective view illustrating how a tuner frame is set to the soldering device, and Fig. 3 is a side view illustrating the operation of a separating device. It is a diagram. A...Set part, B...Cooling part, 1...Transport belt, 2...Drive wheel, 3...Driven wheel, 4...Holder, 5
...Limit switch, 6...Photoelectric switch, 7...
Air heater, 8...thermal cover, 9...separation device,
10... tuner frame, 11... antenna terminal, 12... thread solder.

Claims (1)

[Scope of Claims] 1. Endless conveyance means for conveying an object to be soldered having a U-shaped side surface by placing one side piece of the object to be soldered;
A setting section for the object to be soldered is provided at the initial stage of transportation of the transportation means, and a setting section for the object to be soldered is provided at the next stage of the setting section of the transportation means to detect the arrival of the object to be soldered and to set the object to be soldered. a detection means for stopping the conveyance operation for a predetermined period of time; a heater whose tip faces the soldering portion of the object to be soldered that has stopped for the predetermined period of time; A soldering device comprising a cooling part that cools the soldering part, and a separation means that is provided at a folded back part of the transport end part of the transport means and separates the object to be soldered from the transport means, wherein the transport means It has holders for setting the objects to be soldered at predetermined intervals, and when the detecting means detects both the holders and the objects to be soldered, the conveying operation is stopped for a predetermined time, and the separating means It is a plate-shaped object that is located in front of the curved surface of the folded part and whose distance from the curved surface increases gradually in the conveyance direction, and the separation means lifts and separates the U-shaped side surface of the object to be soldered. A soldering device characterized in that the soldering device is configured to perform soldering.