KR0174819B1 - Automatic enamel strip removal method - Google Patents

Abstract

The present invention relates to an automatic enamel coating removal method for easily removing an enamel coating of an enamel coated copper wire used in a motor or a generator. Conventionally, the enamel coating is removed by dipping in a molten lead solution or enamel. The enamel was removed from the copper wire by immersing in the melting chemical, but the lead solution or chemical had a risk of causing burns to the worker. A sphere is installed at the distal end of the sheathed copper wire, and the sheath remover connects the motor so that centrifugal force is transmitted, and is horizontally transferred so that the sheath is removed when the sheath is horizontally moved while the sheath is closed. By configuring the means, it is safe to remove the enameled copper wire. It was adjusted quickly.

Description

Automatic enamel strip removal method

1 is a side view of the device of the present invention.

Figure 2 is an explanatory view showing in detail the coating removal port of the apparatus of the present invention.

3 is an explanatory view of the connector of the present invention as seen from above in the axial direction.

4 is a state diagram for explaining the operation of the coating removal port of the apparatus of the present invention.

(a) is a state diagram in a state where the motor is stopped.

(b) is a state diagram in the state in which a motor rotates.

* Explanation of symbols for main parts of the drawings

1: body 2: spindle

3: bearing 4: horizontal feed guide means

5: horizontal movement means 6: feeding roller

7: guide roller 8: pulley

9 power transmission means 10 pulley

11: motor 12: hole

13 connector 14,14 ': cover removal

15,15 ': stripping strip fixing piece 16: spring

17: hood 18: stripping blade

19: enamel coated copper wire 20: sheath

21: copper wire 22,22 ': sliding groove

The present invention relates to an automatic enamel coating removal method for easily removing an enamel coating of an enamel coated copper wire used for a motor, a generator, and the like, and in particular, by a mechanical method without a chemical treatment method that may cause burns and the like. The present invention relates to a method for automatically removing an enamel coating, which can be performed quickly while protecting the worker from injury.

In general, an armature, such as a motor or a generator, is manufactured by winding an enameled copper winding. The end portion of the copper winding should be connected to another part, so the enamel covering should be removed.

Conventionally, the removal of the enamel coating is performed by dipping in a molten lead solution, or by dipping an enamel in a chemical that melts the enamel, and the enamel is removed from the copper wire. Steam generated from the lead solution is toxic, so if the worker inhaled for a long time there was a problem that can cause serious injuries such as lung diseases.

On the other hand, in order to solve such a problem, in Korean Patent Publication No. 85-185, the cutting knife moves so as to move along the groove of the cam, and the cover of the wire is peeled off by the cutting knife. To facilitate the removal of the work.

In this conventional method, since the operation path of the cutting knife is determined by the groove of the cam, it has the advantage of cutting the coating by the exact depth. There was a downside.

In other words, if the diameter of the coated wire needs to be changed due to the change in the cutting degree of the cutting knife, the gap between the grooves formed on the upper and lower sides of the cam should be changed. Even when the holding time needs to be changed, the grooves of the cams should be formed differently, and when the grooves of the cams are worn out, they need to be replaced immediately, thereby causing an additional cost and maintenance cost.

In addition, the groove in the cam is subjected to a lot of friction during use, not only easy to damage, but also has a problem that the maintenance process is difficult because the cutting process for processing the groove is very difficult.

In order to solve the above problems, in the present invention, the enamel coating is sequentially removed by a mechanical method without removing the enamel coating by a chemical treatment method such as a lead solution, but is enclosed by the centrifugal force to the enamel covering of the coated copper wire. Is installed at the distal end of the outlet of the sheathed copper wire, the motor is connected to the dispensing outlet so that centrifugal force is transmitted, and the sheath is removed when the outlet is horizontally moved in the closed state. The horizontal conveying means is configured to be removed so that the encapsulation of the enameled copper wire can be safely and quickly performed, and at the same time, it is easy to maintain and manage the device.

The present invention relates to a method for removing the coating of enamel coated copper wire by using the 'automatic enamel coating removing device', which has been devised by the same inventor and filed together with the same applicant, and will be described in detail with reference to the accompanying drawings. As follows.

In FIG. 1, on the inner circumferential surface of the body 1 to which the horizontal movement guide means 4 are located on the side wall and the horizontal movement means 5 is connected to the horizontal movement means, a bearing 3 is formed on the outer circumference of the body 1. A spindle 2 is formed between the inner circumferential surface and formed therein with a hole 12 through which the enamel coated copper wire 19 passes. In the middle of the spindle 2, a pulley 8 is provided. The end portion is coupled to the end 13 is connected to the connector 13 is formed in the radial direction spiral sliding grooves (22, 22 ') on the top surface and protruding the stripping fixture fixing pieces (15, 15'), One end of the pieces 15, 15 'is slidably coupled to the sliding grooves 22, 22' and the other ends of the pieces 15, 15 'are provided with coating strips 14, 14' formed at the middle thereof. The cover removal port fixing pieces 15 and 15 'are hinged to each other, and between the hinge coupling part and the stripping blade 18. The spring 16 is attached to the inner side between the stripping port (14, 14 '), the pulley (8) is pulley (8) coupled to the shaft of the motor (11) by the power transmission means (9) It is connected with (10).

In addition, a hood 17 connected to one side of the air suction type dust collector is connected in a hermetic shape around the stripping blade 18.

The automatic enamel coating removal device thus constructed operates in the following manner.

Rotation force is not transmitted from the motor 11 to which the stripping strips 14 and 14 'having the stripping blades 18 which are rotatable by the motor 11 and whose radial spacing is adjusted by the centrifugal force are connected thereto. In this case, the gap between the stripping blades 18 maintains the diameter of the encapsulated copper wire 19 more than the diameter of the covering, and when a predetermined amount of rotational force is transmitted to the stripping holes 14 and 14 ', the stripping is removed by centrifugal force. The blade 18 is retracted up to the sheath 20 of the enamel coated copper wire, wherein the sheath remover 14, 14 ′ is horizontally moved by the horizontal transfer means 5. ) Is removed from the copper wire 21, which will be described in more detail as follows.

When the feed roller 6 rotates, the enamel coated copper wire 19 is fed through the guide roller 7 and the spindle 2 to the outside of the stripping blades 18 of the stripping holes 14 and 14 '. As shown in FIG. 4 (a), the coating removal openings 14 and 14 'become unopened by the elastic force of the spring 16 when the spindle 2 is not rotated. It is possible to continuously supply the enamel coated copper wire 19.

When the enamel coated copper wire 19 is fed to a predetermined length, the rotation of the feed roller 6 is stopped. At this time, when the motor 11 rotates, the spindle 2 is driven through the power transmission means 9 and the pulley 8. ) Is rotated so that the inner end portion of the coated removal openings 14 and 14 'receives the elastic force of the spring 16 and opens along the sliding groove 22 of the connector 13. The stripping blade 18 is pinched to penetrate the coating 20 of the enamel coated copper wire 19 as shown in FIG.

In other words, the inner ends of the sheath removal openings 14 and 14 'are removed from the sliding grooves 22 and 22' of the connector 13 coupled with the spindle 2 to which the rotational force is transmitted by the motor 11. It slides in the radial direction according to the centrifugal force applied to (14, 14 '), and the cover removal port is made by rotating the point where the connector 13 is hinged at the intermediate portion of the cover removal port (14, 14'). Since the sliding material is subjected to the elastic resistance of the spring 16 connected between the 14 and 14 ', when the centrifugal force does not act on the cover removal port 14 and 14', the cover removal port is caused by the elastic resistance of the spring 16. When the stripping blades 18 of 14 and 14 'are opened and the centrifugal force is applied to the stripping holes 14 and 14', the inner end of the stripping port overcomes the elastic resistance of the spring 16 and slides. The stripping edge 18 retracts up to the sheath 20 of the enamel coated copper wire 19 as it opens in the outward radiation direction through the grooves 22 and 22 '. It will be.

In this state, when the horizontal moving means 5 is operated so that the body 1 is retracted through the horizontal transfer guide means 4, the coating 20 of the enamel coated copper wire 19 is moved backward by the coating removing blade 18. It is pushed and separated, and when the end of the enamel coated copper wire 19 is cut by a cutter, a copper wire from which the enamel coating is removed can be obtained.

When the cover removal operation is completed as described above, the motor 11 stops, and the rotation of the spindle 2 stops, so that the centrifugal force of the cover removal port 14 and 14 'disappears. The stripping blades 18 of the strips 14 and 14 'are opened to the initial state.

As described above, the method of the present invention is operated only by the mechanical method by the stripping blade 18 without using molten lead or toxic chemicals, so that the operation is not only safe but also the supply of the enamel coated copper wire 19. When the roller 6, the motor 11, and the horizontal movement means 5 of the body 1 are operated in series, it is possible to quickly and continuously remove the enamel coating.

In particular, in the present invention, since the stripping blade 18 is operated by the centrifugal force caused by the rotation of the motor 11, the working depth and the operating time of the stripping blade 18 are controlled by adjusting the motor rotation force so that the covering wire is Regardless of the diameter and type of the can be widely used.

In other words, when the diameter of the coated wire is changed and the degree of retraction of the stripped blade 18 needs to be changed, the rotation speed of the motor 11 is adjusted to adjust the bite depth of the coated wire 20, and If it is necessary to change the time to hold the wire in the stripping blade 18 in order to effectively remove the coating, it is necessary to adjust the rotation time of the motor 11, there is no need for a separate means such as a cam As a result, incidental and maintenance costs are reduced.

Claims (1)

The stripping blade 18 is retracted by the rotational force of the motor 11 to the covering 20 of the enamel coated copper wire 19, and at this time, the covering removing holes 14 and 14 'are transferred to the horizontal conveying means 5. In the automatic enamel coating removal method in which the coating 20 of the enamel coated copper wire 19 is removed from the copper wire 21 as it is horizontally moved by the horizontal movement, the inner end of the coating removal openings 14 and 14 'has a motor ( 11) sliding in the radial direction according to the centrifugal force applied to the cover removal port (14,14 ') in the sliding groove (22, 22') of the connector 13 coupled to the spindle (2) to which the rotational force is transmitted by The elastic resistance of the spring 16 connected between the stripping openings 14 and 14 'is defined as a point of rotation hinged at the intermediate portion of the stripping openings 14 and 14'. When the centrifugal force does not act on the stripping port (14,14 '), it is caused by the elastic resistance of the spring (16). When the stripping blades 18 of the stripping strips 14 and 14 'are opened, and the centrifugal force is applied to the stripping strips 14 and 14', the inner end of the stripping strips is applied to the elastic resistance of the spring 16. Automatic enamel stripping, characterized in that the stripping blade 18 is pinched to the covering 20 of the enamel clad copper wire 19 as it is spread outwardly through the sliding grooves 22 and 22 '. Way.