JPH01150312A - Method of peeling coating on magnet wire - Google Patents

Abstract

PURPOSE:To make it possible to implement automation and mechanization of peeling of coating, by heating the end lead wire of magnet wire, immersing the lead wire in a chemical solvent at normal temperature, leaving the lead wire alone for a specified time period, swelling the film during this period, and wiping out the film together with the solvent. CONSTITUTION:A coil 5, around which magnet wire is wound, is attached to a holder 4 at a position A, by extending lead wires 1 and 1' of the ends of the winding in the opposite directions to each other. The film is heated and warmed with a heater 6 at a heating position B. The holder 4 is turned by 90 deg. at an immersing position C. The lead wire 1 is immersed to a position, to which the film is to be peeled, for 5-6seconds in a liquid bath 2. The liquid bath 2 is kept at normal temperature. The height of the liquid level is controlled. The holder 4 is raised up and moved to a the next position D intactly. The holder is pulled up at the position D, and the swelled film is removed with a unit 7 together with solvent. Thus one lead wire is processed. The other lead wire 1' is processed at a position B', a position C' and a position D' in the other region by the same way. The coil 5, from which the films of the lead wires 1 and 1' are peeled off, is taken out of the holder 4 at a position E. Thus the coil 5 is obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for stripping a magnet wire coated with formal or polyester, etc., which is wound around a magnetic core.

[Conventional technology]

A coil is formed by winding a magnet wire, which is a copper wire coated with formal or polyester, around a magnetic core. In order to pull out the winding end of this coil as a lead wire and solder it, it is necessary to peel off the coating. Conventionally, the lead wire portion of the magnet wire is immersed in a solvent (-), pulled out, and left for a certain period of time. The coating is swollen.Then, the swollen coating material is wiped off with fine-grained sandpaper or cloth.

[Problem that the invention seeks to solve]

However, the conventional manual method tends to cause uneven peeling and has a tendency to take a long time to swell, and the temperature of the chemical reaction must be raised to increase the chemical peeling phenomenon.

To prevent evaporation and deterioration, keep the temperature of the solvent above 60℃ (=
It was difficult to automate the peeling work and to mechanize it at low temperatures in a short time.

[Means for solving problems]

The present invention eliminates such drawbacks of the conventional method and uses a magnet wire, which is a conductive copper wire coated with a formal insulation coating, to heat the magnetic core (the lead wire portion of the wound coil).

This is a method for removing a coating on a magnet wire, in which the wire is immersed in a chemical solvent at room temperature, left for a certain period of time, and the swollen coating is wiped off together with the solvent.

[For production]

The formal or polyester coating on the copper wire can be immersed in a chemical solvent at room temperature (thus, the coating will be sufficiently swollen and can be removed by simply wiping it.

〔Example〕

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the method for removing a coating on a magnet wire according to the present invention will be described with reference to the drawings. Valve≠P Figure 1 shows a schematic diagram of the overall configuration of the automation method applied to the coil. FIG. 2 is an external perspective view of the holder, and FIG. 3 is an external perspective view of the coil attached to FIG. 2.

A plurality of holders 4 as shown in Fig. 2 are attached to a chain 3 that continuously rotates endlessly horizontally as shown in Fig. 1.
This is moved in one direction as the chain 3 rotates in the direction of the arrow. The coil 5 is held by the holder 4 at one position A of the chain 3, and the coil 5 is held by the heater 6 at the heating position B.
is heated, and then part of the holder is heated to 90° at immersion position C.
It rotates, and the coil lead is brought to the level of the chemical solvent solution tank 2 and immersed therein. Thereafter, the film is removed together with the solvent at a slight interval from the wiping position. In addition, similarly to the other relative surface C2 of the chain B, a heater 6 is provided at the heating position B'', a liquid tank 2 is placed at the immersion position C°, and a removal unit 7 is provided at the wiping position DI+=the same as described above to remove the coating on the other terminals of the coil. The automated peeling mechanism is thus formed.

That is, the coil 5 is now attached to the holder 4 at position A as shown in FIG. At position B, the coating is heated and warmed by the heater 6L, and then at position C of immersion.
1: Rotate the holder 4 by 90 degrees until the lead wire 1 is separated into the liquid tank 2 at room temperature where the liquid level is controlled.
Soak for 6 seconds. Further, the holder 4 is raised and moved to the position of the rig, and at position D1, the swollen film is wiped off together with the solvent by the wiping unit 7, and one of the lead wires 1 is processed.

The other lead wire 11 is similarly treated at the other region position B', position C'', and position D1 of the chain 3 (heating, dipping, and wiping, respectively. The peeled coil 5 is taken out from the holder 4 at position E, and the coil 5 is formed.

[Effect of idea]

As stated above, 1: According to the present invention, the coating can be quickly and sufficiently removed using a chemical solvent at room temperature. Can be done.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram of the overall configuration of an example of an apparatus for automating an embodiment of the method for peeling off a coating on a magnet wire according to the present invention. Figure 2 is the first
FIG. 3 is an external perspective view of a holder for holding a coil in the device shown in the figure, and FIG. 3 is an external perspective view of the holder shown in FIG. 2 with a coil attached thereto. Note that 1, 1': lead wire, 2: liquid tank, 3: chain. 4: Holder, 5: Coil, 6: Heater, 7: Extraction Schnitt. Figure 2 Figure 3

Claims (1)

[Claims] 1. The terminal lead wire of a magnet wire having an insulating coating applied to the conductor wire is heated, immersed in a chemical solvent at room temperature, left for a certain period of time to swell the coating, and the coating is wiped off together with the solvent. Features a method for removing coatings on magnet wires.