KR101888883B1 - Method for molting sheath of MI cable go through for rotation prescribed labor - Google Patents

Abstract

The present invention relates to a method of peeling the sheath of an MI cable through normal and reverse rotation, capable of peeling the sheath of an MI cable by cutting the sheath into pieces having spiral and reverse-spiral shapes, thereby preventing accidents happening when the sheath is cut, completely removing the sheath by cutting the sheath into pieces having a predetermined size, and preventing an accident caused by spreading sheath pieces. The present invention includes: a step of inserting a tip of a metallic-coated mineral insulated (MI) cable into a peeler; a step of rotating a cutter of the peeler clockwise along the outer edge of the MI cable; a step of transferring the MI cable from a side to the other side as far as a peeling range; a step of primarily cutting a predetermined gap of the tip of the MI cable through the cutter of the peeler rotated normally along the outer edge of the MI cable; a step of cutting the sheath of the MI cable spirally, which is located inside the tip of the cable, through the cutter of the peeler rotated along the outer edge of the MI cable; a step of reversely rotating the cutter while transferring the MI cable from a side to the other side to secondarily cut the sheath reverse-spirally; and a step of removing the cut sheath while rotating the peeler in a reverse direction along the outer edge of the MI cable.

Description

[0001] METHOD FOR MOLECULAR SHEATH OF MICRO CABLE [0002] BACKGROUND OF THE INVENTION [0003]

More particularly, the present invention relates to a method of stripping a MI cable through normal rotation, and more particularly, to a method for stripping a MI cable by cutting the strip into strips in a spiral shape and a reverse spiral shape, MI cable through normal rotation to prevent safety accidents that may occur and to prevent safety accidents due to peeling of pieces of cloth, To a method for peeling off the coating.

The MI cable is a cable made of a metallic tube as a protection tube, a conductor inserted in a conductor to transmit a signal to the inside, and an insulator such as MgO or Al2O3 to insulate the metal pipe from the conductor. The term MI cable is directly used as an insulator because of the use of an inorganic insulating material, and it can be classified into a thermocouple, an electrothermal cable, and a power cable depending on the application. In addition, the conductors inside the cable are one-stranded, double-stranded, four-stranded and six-stranded. Metal tubes are made of materials such as copper, stainless steel and inconel depending on the application.

MI (Mineral Insulated) cable is insulated with mineral material outside the heating wire and covered with metal pipe outside. It is laid in such a way that it does not freeze on roads that are frozen by snow, rain, Is used to prevent freezing as electric heat, or to keep the temperature and freeze of the pipe in a pipe tank or the like in floor heating or plant facilities using late-night electricity.

The cable used in general environment is made of PVC but the MI cable should be used because it can not be used under reactor conditions and special conditions which are extreme environments of high temperature, high pressure and high radiation. However, the MI cable has a metal jacket, and therefore, a device for removing the covering of the terminal is required for use as the instrument cable.

There is an ultrasonic type sheathing device that cuts a metallic sheath from the end to the covering position with a current available MI cable sheathing device and separates the metal sheath and the insulator by applying ultrasonic waves. Next, similar to the way of cutting a pencil There is a wire sheath device that pushes the MI cable into the rotating body with the blade and removes only the metal sheath.

However, these two metal sheathing devices have available cable restrictions. That is, if the outer diameter of the MI cable is Ø1.0 mm or more, the outer skin can be smoothly removed.

The outer diameter of MI cable, which is usually used for instrumentation cable, is Ø1.0 mm to Ø0.8 mm, Ø0.5 mm and the smallest OD is Ø0.25 mm. Although it is possible to manually cover the outer surface of the MI cable up to Ø1.0 mm according to the skill of a skilled worker, there is a problem that a special device is required when the outer diameter is smaller than this.

The prior patent discloses a metal jacket of an MI cable having an outer diameter of Ø1.0 mm or less, having a diamond wheel which rotates in an axial direction by fixing the MI cable on the XYZ stage and the MI cable fixing part moving in the unit of μm, mm or less.

However, in the prior art, since the diamond wheel is transferred and removed many times in order to remove the coating, it takes a long time to cut, and there is a problem that re-cutting is necessary because the coating removal is not neat.

Prior Patent: Korean Patent Registration No. 10-1649518 (Aug. 12, 2016)

In the present invention, since the cover of the MI cable is cut into strips in a spiral shape and a reverse spiral shape, it is possible to prevent a safety accident that may occur when the strip is cut, The MI cable can be completely removed and the MI cable can be peeled off from the MI cable by normal and reverse rotation so as to prevent a safety accident caused by slipping of pieces of the cover.

According to another aspect of the present invention, there is provided a method for stripping a MI cable through normal rotation, comprising: inputting an end of a MI cable formed of a metal sheath into a stripper; Rotating the core of the puller in a clockwise direction along the outer periphery of the MI insulated cable; Transferring the MI cable from one side to the other by a peeling range; A first step of spirally cutting the end portion of the MI cable to be transported through the meshing of the pinion rotating forward along the outer periphery of the MI cable; A step of inserting a sheath of the puller into the outer circumferential edge of the MI cable by rotating the sheath at a position spaced apart from the end of the MI cable by a predetermined interval; The MI cable is reversely rotated to move the MI cable from one side to the other side to perform secondary cutting of the sheath in a reverse spiral shape and to rotate the sheath in a reverse direction along the outer circumference of the incised MI cable, And removing the coating.

Wherein the cutting tool is made of any one of a diamond blade formed in a disk shape or a laser irradiation body cutting a coating by irradiating a laser.

The stripping body is cut in a spiral shape and a reverse spiral shape, and a releasing member that contacts and separates from the cloth to be fragmented is transported, and the cloth is removed.

In another aspect of the present invention, there is provided a method of manufacturing a thin film magnetic head, comprising the steps of putting an end of an MI cable (mineral insulated cable) Rotating a MI inserter inserted into the peeling machine in a clockwise direction; Transferring the MI cable from one side to the other by a peeling range; Cutting a predetermined interval of the end of the MI cable to be conveyed through the incision of the puller and spirally cutting the sheath along the outer circumference of the MI cable; A step of incising the metal foil along the outer circumference of the MI cable which rotates the cover at a predetermined distance from the end of the MI cable; The MI cable is rotated in a reverse direction and is transported from one side to the other side so as to make a secondary cut through the mezzanine in a reverse spiral manner and a step of rotating the cut MI cable to wind the sheath, which is cut along the outer circumference of the MI cable, And removing it through the peeling member of the peeling member in the direction of the peeling.

Wherein the cutting tool is made of any one of a diamond blade formed in a disk shape or a laser irradiation body cutting a coating by irradiating a laser.

The stripping body is characterized by removing the coating of the MI cable, which is transferred in one direction from the other side.

In the present invention, since the cover of the MI cable is cut into strips in a spiral shape and a reverse spiral shape, it is possible to prevent a safety accident that may occur when the strip is cut, So that the coating can be completely removed, and there is an effect that safety accidents due to scraping of the pieces of the coating are not generated.

1 is a view showing a procedure of a method of stripping a MI cable through normal and reverse rotation according to an embodiment of the present invention.
FIG. 2 is a view showing a procedure of stripping off the MI cable in the method of stripping the cover through normal rotation according to the present invention.
3 is a view showing a peeling machine of a method for peeling off the MI cable through normal rotation according to the present invention.
4 is a view showing the peeling of the MI cable through the peeling machine in the method of peeling off the MI cable through the normal rotation according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular forms disclosed. And shall not interpret it.

The present invention relates to a method for manufacturing a metal insulated cable, comprising the steps of: putting an end of a metal insulated cable (10) (mineral insulated cable) Rotating the notched portion 22 of the puller 20 in a clockwise direction along the outer periphery of the MI cable 10 (mineral insulated cable); Transferring the MI cable 10 from one side to the other side by a peeling range; A first step of spirally cutting the end portion of the MI cable 10 to be conveyed through the meandering part 22 of the puller 20 rotating forward along the outer periphery of the MI cable 10; Cutting the strip 22 of the peeler 20 by rotating around the outer circumference of the MI cable 10 while covering the inner circumferential edge of the MI cable 10 at a predetermined interval; A step of secondarily cutting the sheath (22) in a reverse spiral shape by transferring the MI cable (10) from one side to the other side while reversing the sheath unit (22) And rotating the peeling member (23) of the pig (20) to remove the incised coating.

The cutting tool 22 is characterized in that it is made of any one of a diamond blade formed in a disk shape or a laser irradiation body for cutting a coating by irradiating a laser.

The peeling member (23) is characterized in that the releasing member for contacting and releasing a sheath which is cut into a spiral shape and a reverse spiral shape is conveyed and the sheath is removed.

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FIG. 1 is a flow chart of a method of stripping a MI cable through normal and reverse rotation according to an embodiment of the present invention, FIG. 2 is a view illustrating a stripping procedure of a method of stripping a MI cable through normal and reverse rotation according to the present invention , Putting an end of a MI cable 10 (metal insulated cable) made of a metal sheath into a peeler 20; Rotating the notched portion 22 of the puller 20 in a clockwise direction along the outer periphery of the MI cable 10 (mineral insulated cable); Transferring the MI cable 10 from one side to the other side by a peeling range; A first step of spirally cutting the end portion of the MI cable 10 to be conveyed through the meandering part 22 of the puller 20 rotating forward along the outer periphery of the MI cable 10; Cutting the strip 22 of the peeler 20 by rotating around the outer circumference of the MI cable 10 while covering the inner circumferential edge of the MI cable 10 at a predetermined interval; A step of secondarily cutting the sheath (22) in a reverse spiral shape by transferring the MI cable (10) from one side to the other side while reversing the sheath unit (22) 20, and removing the incised coating.

Here, the MI cable 10 (mineral insulated cable) is a type of wire that is not coated with vinyl or rubber, unlike a general wire, and is not covered with a wire, so that the risk of electric shock is very high. Therefore, it is used in places where it is difficult to use insulated wires.

In the case of these wires, currently, MI cable (10) (mineral insulated cable can be used continuously at 250 ° C and can be used for about 5 years at 400 ° C) or heat-resistant wires using glass fiber as a heat shielding layer are used.

The MI cable 10 is made of a non-burning material such as magnesium oxide and a metal material, and can be used semi-permanently. The MI cable 10 can supply power to an emergency light, an emergency ventilator, It can also be used as a sensor.

Since the MI cable 10 is made of metal, it is cut by using a laser cutter or a diamond blade.

FIG. 3 is a view showing a peeling machine of a method for stripping the MI cable through normal rotation according to the present invention, and FIG. 4 is a view for explaining a method of peeling off the MI cable through the peeling machine in the method for stripping the MI cable through the normal rotation Fig.

Referring to FIGS. 1 to 4, the step of putting the metal foil into the foil 20 is applied to the foil 20 in order to remove the metal covering of the MI cable 10.

The puller 20 has a cutter 22 for cutting off the MI cable 10, a feeder 21 for feeding the MI cable 10 and a cutter 23 for removing the cut coat .

The cut-away body 22 is made of a disc-shaped diamond blade or a laser irradiator that cuts a coating by irradiating a laser beam so that the metal sheath of the MI cable 10 can be cut.

The conveying member 21 is formed so that the MI cable 10 is fixed and slidably moved in the left-right direction.

The peeling member 23 is provided with a gripper for holding the end of the incised coating so as to grasp the coating to be incised and to be transported and rotated in the reverse spiral direction counterclockwise to remove the coating.

The step of rotating in the normal direction is a step of clockwise rotating the cut-away body 22 along the outer circumference of the MI cable 10.

For this, the stem 22 is rotated along the outer circumference of the MI cable 10 through the rotating member so that the sheath of the MI cable 10 can be spirally cut along the outer circumference.

When the cutting jig 22 is rotated through the step of rotating in the normal direction, the MI cable 10 is transported through the conveying body 21 through the step of conveying by the peeling range.

When the MI cable 10 is conveyed through the step of conveying by the peeling range, the interval between the ends of the MI cable 10, which is conveyed through the spiral first cutting step, (22) of the main body (20).

The cutting jig 22 comes into contact with the outer surface of the MI cable 10 in the step of cutting in a spiral manner, so that the metal sheath is cut into a spiral shape.

The MI cable 10 is wound around the MI cable 10 at the end of the peeling range e through the step of rotating the MI cable 10 by a predetermined amount ), And cuts the cloth in a circular shape on the side surface.

If the outer circumference of the sheath of the MI cable 10 is incised in the peeling range e through the step of rotating and cutting the sheath unit 22 in a reverse spiral manner, The cable 10 is transferred from the other side to the other side, and the cover is secondarily cut in a reverse spiral shape.

When the peeling range of the sheath is secondarily cut in the reverse spiral direction through the second sheathing of the sheath in the reverse spiral shape, the sheath is removed through the step of removing the sheathed sheath, The sheath 23 is transferred from the outer periphery of the MI cable 10,

The peeling member 23 is formed into a spiral shape or a non-shape so as to come into contact with the spun and reverse spiral cover to be detached, and is conveyed in both directions of one side and the other side, and the cover is hit or pushed to be removed.

The pieces of the MI cable 10 that are cut in this manner and removed from the MI cable 10 are stored in a separately provided storage body and are discharged in a collected state.

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According to the present invention as described above, since the cover of the MI cable is cut into pieces in a spiral shape and an inverted spiral shape and is then stripped, a safety accident that may occur when the cover is cut can be prevented, So that the coating can be completely removed, and there is an effect that safety accidents due to scraping of the pieces of the cloth are not generated.

The method of stripping the MI cable through the normal and reverse rotation is not limited to the configuration and operation of the embodiments described above. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

10: MI cable
20: foil 21: conveying member, rotating transfer member
22: Group 23: Peeling
e: Peeling range

Claims (6)

The end of a MI cable 10 (metal insulated cable), which is made of a metal sheath, is inserted into the puller 20;
Rotating the notched portion 22 of the puller 20 in a clockwise direction along the outer periphery of the MI cable 10 (mineral insulated cable);
Transferring the MI cable 10 from one side to the other side by a peeling range;
A first step of spirally cutting the end portion of the MI cable 10 to be conveyed through the meandering part 22 of the puller 20 rotating forward along the outer periphery of the MI cable 10;
Cutting the strip 22 of the peeler 20 by rotating around the outer circumference of the MI cable 10 while covering the inner circumferential edge of the MI cable 10 at a predetermined interval;
A step of secondary cutting of the sheath in a reverse spiral by feeding the MI cable (10) from one side to the other side while rotating the cut-off piece (22)
Transferring the peeling member (23) of the pulp (20) along the outer periphery of the incised MI cable (10) and removing the incised coating,
The cutting jig 22 is made of any one of a diamond blade formed in a disk shape or a laser irradiation body for cutting a coating by irradiating a laser,
The peeling member 23 is cut into a spiral shape and a reverse spiral shape, and a releasing member for contacting and releasing the cloth is transferred,
The peeling member 23 is formed in a spiral shape or a non-shape so as to come into contact with the spun and reverse-spun cover to be detached, and is conveyed in both directions of one side and the other side, A method of stripping the MI cable through normal rotation. delete delete delete delete delete

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