KR100329531B1 - bellows fabric - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to bellows used in expansion joints, and to a bellows fabric which minimizes an aging effect without cracking when shrinkage due to thermal history.

The present invention is formed in the bellows is installed shrinkage in the expansion joint, a high density inorganic air-stretched Teflon membrane is formed as a base material, but the lower side of the base material integrally formed a stretched Teflon membrane in direct contact with the base material and the base material It is made by integrally forming a membrane made of a material having a tensile and strength at the top of.

Description

Bellows fabric

TECHNICAL FIELD The present invention relates to bellows used in expansion joints, and to a bellows fabric which minimizes the aging effect without cracking when shrinkage and relaxation due to thermal history.

The expansion joint is provided with a bellows to cope with shrinkage relaxation due to thermal history.

Existing bellows fabric (1) as shown in Figure 1 is connected between the duct 4 and the duct (4) to be elastic, not cracking, and the effects of aging should be minimized.

Existing bellows fabric (1) is to use a coating of Teflon (3) on the base material (2), such as rubber or rubber composite material as shown in FIG. 1 so that the coated Teflon (3) to the inner side through which the chemical gas passes Secure the installation.

Gaskets (5) are fitted to the contact surfaces of the bellows fabric (1) and the duct (4) to emphasize the sealing, and the bellows fabric (1) is fastened by using the coupling member (7), but the bellows fabric to increase the binding force (1) The steel plate 6 is fitted to the joining surface of the upper joining member 7.

In this case, if the bellows fabric (1) continues shrinkage relaxation due to thermal history, cracks are generated in the Teflon (3) coating layer to prevent leakage of toxic chemical gases, and cracks occur in the Teflon (3). Chemical gas penetrates into the gap to corrode the base material 2 of the bellows fabric 1, and when the base material 2 is corroded, leakage of toxic chemical gas occurs.

Therefore, it is necessary to replace the bellows fabric (1) before the crack of the Teflon (3) to prevent the leakage of chemical gas, but it requires a lot of manpower to replace the bellows fabric (1) There is a problem that the replacement cost increases due to replacement.

And it is possible to use the bellows fabric (1) made of fluorine rubber for the base material (8) unnecessary teflon coating as shown in Figure 2, but in this case also the problem that the aging occurs in the base material (8) over temperature and time This also had to be replaced frequently.

The present invention allows the bellows fabric of the expansion joint to minimize the effects of cracking and aging caused by expansion and contraction due to thermal history, and to increase the sealing effect. -porous) Teflon membranes are used to prevent cracking and eliminate aging effects.

The present invention is formed in the bellows stretched and expanded in the expansion joint, a high-density inorganic air-stretched Teflon membrane is formed as a base material, but the bottom side of the base material integrally formed stretched Teflon membrane directly contacting the chemical gas and the base material It is made by integrally forming a membrane made of a material having tensile and strength at the upper portion of the, the bellows fabric of the present invention is prevented from leaking even when prolonged shrinkage relaxation is prevented from leaking chemical gas and aging effect Will not receive.

1 is a cross-sectional view of a conventional bellows fabric state of use

2 is a cross-sectional view of another conventional bellows fabric in use

Figure 3 is a cross-sectional view of the bellows fabric used state of the present invention

4 to 7 are cross-sectional views of another bellows fabric of the present invention.

8 is an electron micrograph of the present invention base material

9 is an electron micrograph of the present invention stretched Teflon membrane

[Explanation of symbols on the main parts of the drawings]

1,10: Bellows fabric 2,20: Base material 3: Teflon

4: Duct 30: Stretched Teflon Membrane 40: Membrane

According to the present invention, as shown in FIG. 3, an elongated Teflon (ePTFE) membrane 30 is integrally formed on the lower side of the base material 20 formed of a high density inorganic hollow elongated Teflon (ePTFE) membrane, while having a tensile and strength at the top thereof. The membrane 40 made of a material is integrated to form the bellows fabric 10.

Here, the high density inorganic porous elongated Teflon (ePTFE) membrane used as the base material 20 is dense and eliminates pores, as shown in FIG. It is not affected by aging.

As shown in FIG. 9, the stretched Teflon membrane 30 integrally formed on the lower side of the base material 20 has a higher porosity than the high-density non-porous Teflon membrane used as the base material 20 to have elastic force. When mounting the rose fabric 10 may not use a separate gasket (5).

Membrane 40 integrally formed on the upper side of the base material 20 is made of kevlar, fiberglass, etc. made of strong fibers to absorb the impact of changes in the external environment and to prevent cutting by contact with other materials. The membrane 40 described above may be made of the same material as the stretched teflon membrane 30.

According to the present invention, as shown in FIG. 3, the stretched Teflon membrane 30 and the membrane 40 are integrally formed on both sides of the base material 20 made of the high density inorganic porous stretched Teflon membrane, respectively, and the stretched Teflon membrane 30 is the chemical gas. Coupling is fixed to the duct (4) to be exposed to.

Wherein the gasket (5) is inserted and fixed if more precise sealing is required and the steel plate (6) on the top to increase the coupling force.

The present invention can penetrate through the pores of the stretched Teflon (ePTFE) membrane 30 in which the chemical gas flowing through the duct 4 to some degree of pores, but in this case, the leakage of the chemical gas from the base material 20 is prevented. There is no chemical gas leak in the rose fabric 10.

In addition, in the present invention, when the stretched Teflon membrane 30 is in close contact with each other by the coupling member 7, the pores are clogged and thus the sealing effect is followed.

And since the high-density inorganic-stretched Teflon membrane used as the base material 20 of the present invention is a material that does not cause cracks when shrinkage and relaxation by the thermal history can be used to increase the shelf life.

The membrane 40 of the present invention is directly exposed to the external environment to minimize the aging effect by protecting the base material 20 from external environmental changes.

The present invention is irrelevant even without using the stretched Teflon membrane 30 as shown in FIG. 4, even if the high density inorganic-pore stretched Teflon membrane, which is the base material 20, is in direct contact with the chemical gas.

That is, since the base material 20 has good stretch relaxation and no pores are formed, leakage of chemical gas is essentially blocked.

In addition, the present invention is irrelevant to the use of the membrane 40 exposed to the external environment as shown in Figure 5, even if the surface of the high-density inorganic-stretched Teflon membrane of the base material 20 is directly exposed to the external environment, the effect is great No difference

That is, the expansion and contraction of the base material 20 is easy and the reaction force to the external environment change is high, so even if the base material 20 is directly exposed to the external environment, it is hardly affected by aging.

In addition, the present invention is that the bellows fabric 10 can be used only by the base material 20 as shown in FIG. 6, even when only the base material 20 is used, leakage of chemical gas is blocked and the membrane 40 is less affected by the external environment. ), The bellows fabric 10 can perform its own functions and roles without the secondary use of the stretched Teflon membrane 30.

And the present invention is composed of only the base material 20 and the stretched Teflon membrane 30 as shown in FIG. 7, even if the base material 20 is directly exposed to the chemical gas and the stretched Teflon membrane 30 is exposed to the external environment. The same, but because the stretched Teflon membrane 30 is directly exposed to the external environment, it is possible to reduce the aging effect of the base material 20 to some extent.

The present invention relates to a bellows used for expansion joints, and has excellent shrinkage relaxation due to thermal history, so that a bellows fabric is formed using a high-density inorganic-stretched Teflon membrane that prevents chemical gas leakage without cracking. No leakage of chemical gas is prevented due to no cracks, and stretched Teflon is hardly affected by aging by the external environment, which increases the effect of the bellows fabric and increases the service life of the bellows fabric. To reduce the cost burden.

Claims (5)

In the bellows of the expansion joint, a high density inorganic hollow elongated Teflon (ePTFE) membrane is used as the base material, and a lower side of the base material is integrally formed with an elongated Teflon (ePTFE) membrane which is in direct contact with the chemical gas. Bellows fabric characterized in that the membrane formed of a material that protects the base material from the external environment. In the bellows of the expansion joint, a bellows fabric composed of a high density inorganic-stretched teflon (ePTFE) membrane as a base material, and only the membrane is integrally formed on the upper side of the base material so that the base material is in direct contact with the chemical gas. In the bellows of expansion joints, a bellows fabric composed of a high density inorganic hollow elongated teflon (ePTFE) membrane as a base material, and a stretched teflon membrane integrally formed under the base material so that the upper part of the base material is exposed to the external environment. In the bellows of expansion joint, the bellows is composed of high density inorganic-stretched teflon (ePTFE) membrane as the base material and the base material is directly exposed to chemical gas and external environment without the membrane formed on the upper and lower sides of the base material and the stretched teflon membrane. fabric. In the bellows of the expansion joint, the high density inorganic-stretched teflon (ePTFE) membrane is used as the base material, and the stretched teflon membrane is integrally formed on the upper side of the base material so that the base material is in contact with the chemical gas and the stretched teflon membrane is exposed to the external environment. Bellows fabric.