KR200237093Y1 - structure of insulating tape - Google Patents

Abstract

The present invention relates to an insulating tape. The present invention provides an insulating tape having a structure with excellent bending property and excellent heat resistance, fire resistance, and withstand voltage characteristics, so that the insulating tape can be widely used for insulation of all electric devices and electrical systems. I would have to.

To this end, the present invention is a first synthetic resin film integrated with a MICA PAPER (1) mainly composed of mica, which is a stone component, and a first adhesive layer 4 on one surface of the mica. (2) and the insulating tape structure comprised by the 2nd synthetic resin film 3 integrated with the 2nd adhesive layer 5 on the other surface of the said mikage 1 in between.

Description

Structure of insulating tape

The present invention relates to an insulating tape, and more particularly, to the insulation structure of the high voltage cable (BUS DUCT), which is a kind of electrical system, and the high voltage line, as the structure is different, so that the bending property is excellent and the withstand voltage characteristics are also strengthened. It is intended to be widely used as a material.

In general, high-voltage electricity is required to be insulated from various electrical-related facilities and products, such as a boot duct, an electric motor, a high voltage cable, and a transformer, and the insulation is generally made possible by an insulating tape.

In other words, booth doc, which is a kind of simplified power supply wiring method by collecting several high voltage cables in one path, or a high voltage which is an energy source that can operate electric motor, specific electric facility or electric device which is powered by high voltage. In order to prevent voltage loss and to prevent the occurrence of safety accidents due to high voltage, high voltage cable must have heat resistance and fire resistance in use, and it must be insulated by insulating tape. Insulation tapes are used to separate or wrap certain structures from one another.

The conventional structure of the insulating tape described above is a structure in which glass fiber (GLASS FIBER) 102 is bonded to one surface of MICA PAPER 101, which is mainly composed of mica, which is a stone component. An adhesive layer 103 is formed between the mikage 101 and the glass fiber 102.

Referring to the process of manufacturing such a conventional insulating tape for reference as follows.

When passing through the adhesive coating system while feeding the glass fiber 102, the adhesive is applied to one surface of the glass fiber, and then released the rolled Maikaji 101 in a roll state to match the surface of the adhesive coating surface of the glass fiber 102 When the mica card 101 and the glass fiber 102 are passed through a pressing roller which rotates to face each other up and down, the mica card 101 and the glass fiber 102 are integrated by bonding.

Subsequently, when the mai-kaji 101 adhered to one surface of the glass fiber 102 is put into a drying chamber, the adhesive is heated and dried due to the temperature (100-150 ° C.) in the test chamber so that the glass fiber 102 Bonding of the cage 101 is completed in a solid state, in this state, the adhesive layer 103 is formed between the glass fiber 102 and the mica (101).

Therefore, the conventional insulating tape having a structure in which the mica is integrated with the adhesive layer 103 on one surface of the glass fiber 102 is completed.

However, since the insulating tape of such a structure has a structure in which the glass fiber 102 and the mica paper 101 are integrated with each other, both the glass fiber 102 and the mica paper 101 have poor bendability and must be used at the time of use. As it can only be used in an unfolded state or in a slightly uneven state, there is a limit to use this for insulation such as booth ducts with many bends and high-voltage cables that must be repeatedly wound several times. There was a limited problem.

In other words, where there are many bends, such as a boot duct, which is a kind of power supply wiring system, or where a high voltage cable that supplies a high voltage, which is an energy source for operating a specific electric facility or electric equipment, needs to be repeatedly wound several times If the insulation tape is used, the warpage should occur. In this case, the mica particles, which are components of the mykaji 101, are broken down, so that the insulation tape cannot be used where there are many valleys or severely bent. Can be understood.

In addition, the conventional insulating tape has a structure in which the glass fiber 102 and the mykaji 101 are integrated as described above, and due to the characteristics of the glass fiber 102 and the mykaji 101, the heat and fire resistance are more excellent than necessary. However, since the breakdown voltage is greatly reduced, there is a problem that eventually leads to a decrease in insulation performance.

Therefore, the insulation of the booth duct or the high-voltage cable is used to wrap only a few commonly used synthetic resin film (vinyl paper) many times, and the synthetic resin film has a weak strength in heat resistance and fire resistance, although it has a strong withstand voltage. Therefore, it is a problem that has been acting as a cause of various safety accidents including fire hazard.

The present invention has been devised to solve the above-described problems, and provides an insulating tape having a structure with excellent bending property and strong heat resistance, fire resistance and withstand voltage characteristics, thereby making the insulating tape suitable for all electrical devices and electrical systems. Its purpose is to make it widely used for insulation.

1 is a perspective view showing a part of the conventional insulating tape cut

2 is an enlarged longitudinal sectional view showing a main portion of a conventional insulating tape.

Figure 3 is a perspective view showing a part of the present invention insulation tape cut

Figure 4 is an enlarged longitudinal sectional view showing the main portion of the present invention insulating tape.

Explanation of symbols for the main parts of the drawings

1. My Kaji 2. First Synthetic Resin Film

3. Second synthetic resin film 4. First adhesive layer

5. Second adhesive layer

One embodiment of the present invention for achieving the above object is a first synthetic resin integrated with a mica (MICA PAPER) mainly composed of mica, which is a stone component, and a first adhesive layer on one surface of the mica. An insulating tape composed of a film and a second synthetic resin film integrated with a second adhesive layer on the other side of the mica is provided.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 3 to 4.

Attached Figure 3 is a perspective view showing a part of the insulated tape of the present invention, Figure 4 is an enlarged longitudinal sectional view showing the main portion of the insulating tape of the present invention, the insulating tape of an embodiment of the present invention is a stone component of mica ( Iii) the first synthetic resin film 2 is bonded to one surface of the MICA PAPER 1 as a main raw material, and the second synthetic resin film 3 is adhered to the other surface of the mica paper 1. As a unitary structure, a first adhesive layer 4 is formed between the mikage 1 and the first synthetic resin film 2, and is formed between the mikage 1 and the second synthetic resin film 3. The two adhesive layer 5 is formed.

In the above structure, the first synthetic resin film 2 and the second synthetic resin film 3 are more preferably heat-resistant and fire-resistant synthetic resin films, which prevents the risk of fire due to high voltage when using the insulating tape of the present invention. It is to make it possible.

Hereinafter, referring to the process of manufacturing the present invention insulation tape as follows.

When passing through the adhesive coating system while feeding the rolled mikaji (1), the adhesive is applied to one side of the mykaji, and then unrolled the first synthetic resin film (2) wound in the roll state of the mykaji (1) Passing the matched mica paper 1 and the first synthetic resin film 2 up and down while being rotated against each other while being matched to one surface of the adhesive coating surface, the mica paper 1 and the first synthetic resin film 2 ) Is temporarily attached.

Subsequently, if the first synthetic resin film 2 is temporarily bonded to one surface of the mycard (1) through the drying chamber, the adhesive is heated and dried due to the temperature (100 ~ 150 ℃) in the test chamber, the mycard (1) And the first synthetic resin film 2 are integrally bonded to each other in a rigid state, and in this state, a first adhesive layer 4 is formed between the mikage 1 and the first synthetic resin film 2.

In this manner, the adhesive is applied to the other side of the mica cage by passing through the gluing system while feeding the mica cartridge 1 having the first adhesive layer 4 interposed therebetween with the first adhesive layer 4 interposed therebetween. After the second synthetic resin film (3) wound in a rolled state is released to match the other surface, which is the adhesive coating surface of the mica (1) while the mica (1) and the second synthetic resin film (3) of the matched state After passing through the pressing roller which rotates to face each other downward, the mikage 1 and the second synthetic resin film 3 are temporarily bonded.

Subsequently, when the first synthetic resin film 2 is integrally bonded to one surface and the second synthetic resin film 3 is temporarily bonded to the other surface, the mica chamber 1 is placed in a drying chamber and passed through the test chamber. Since the adhesive is heated and dried due to the internal temperature (100 to 150 ° C.), the mica (1) and the second synthetic resin film (3) are also completely bonded together in a solid state, and are integrated. The second adhesive layer 5 is formed between the two synthetic resin films 3.

Accordingly, the first synthetic resin film 2 is integrated with the first adhesive layer 4 interposed on one surface of the mycaji 1, and the second adhesive layer 5 is interposed on the other side of the mikaji 1. The present invention insulating tape having a structure in which the second synthetic resin film 3 is integrated is completed.

Therefore, the present invention insulating tape has a structure in which the synthetic resin films 2 and 3 are integrally bonded to one surface and the other surface of the mica paper 1, respectively, so that the mica is very flexible without crushing due to the synthetic film. It can be used in a well-expanded state, as well as for insulation of booth ducts with a large number of bends and high voltage cables that need to be wound several times over and over.

In addition, the present invention insulation tape has a structure in which synthetic resin films 2 and 3 are integrally bonded to one surface and the other surface of the mica, as described above, due to the characteristics of the mica. In addition to excellent fire resistance, the synthetic resin films (2) and (3) have excellent withstand voltage characteristics, resulting in an improvement in insulation performance.

Claims (2)

MICA PAPER which mainly uses mica which is a stone ingredient, A first synthetic resin film integrated with a first adhesive layer on one surface of the mykaji, Insulating tape, characterized in that composed of a second synthetic resin film integrated with a second adhesive layer on the other side of the mica. The method of claim 1, The first synthetic resin film and the second synthetic resin film are heat insulating and fire-resistant, characterized in that the insulating tape.