KR860001694B1 - Flanged compression gasket - Google Patents

Abstract

A resilient gasket has an interior hollow portion running along its elliptical length. An auxiliary resilience can be imparted to the gasket by positioning metal springs within the hollow interior, so as to respond resiliently to compression and decompression forces acting on the gasket. The springs are composed of two elongate curved strips which form an elliptical area between them. The auxiliary resilience can also be imparted by resilient ridges or beads positioned along the effective sealing surfaces of the gasket.

Description

Elastic Gasket

1 is a plan view showing an arrangement of a compartment with a gasket.

2 is a cross-sectional view taken along the line A-A of FIG.

3 is an enlarged view of the circumference of FIG.

4 is a cross-sectional view of an elliptical tubular gasket.

5 is a cross-sectional view of a metal spring installed inside the gasket.

6 is a cross-sectional view of an example of a gasket provided with an auxiliary elastic part.

7 is a cross-sectional view of another example of a gasket provided with an auxiliary elastic part.

8 is a sectional view of a circular gasket.

9 is a cross-sectional view taken along the line B-B of FIG.

10 is a sectional view of a gasket having another type of auxiliary elastic part.

* Explanation of symbols for main parts of the drawings

1: cubicles 10: internal space of the gasket

2: gasket 11: flange of gasket

5: partition 12: auxiliary elastic part

6: metal spring of gasket 13: light edge

9: hole in the flange

The present invention relates to a seal or gasket that can withstand the ambient atmosphere between two parts requiring a leakproof connection and is applicable to expansion and contraction of the two parts.

There are various seal putties and gaskets used for this purpose, but in most erosive atmospheres, when they are pressured to lose their resistance, the leak-proof connection cannot be continued between parts that undergo shrinkage or expansion.

It is an object of the present invention to develop a gasket capable of well sealing the joint of two parts even though it undergoes expansion and contraction.

As can be seen in the accompanying drawings, the gasket according to the present invention is a long strip or elliptical tube made of a flexible elastic material, and the long strip or elliptical tube has a flange portion at one or both corners. Long strips are straight or curved, and their cross sections come in various shapes such as triangles, squares, rectangles, polygons, circles or oval structures.

FIG. 1 is a plan view showing a gasket or a seal 2 between each partition chamber 1 in a partition chamber 1 arranged horizontally or a partition chamber 1 vertically stacked. Although the arrangement of the compartments is held between the two end walls 8 by the tension rods 7, other suitable devices may be used to fix the positions of the compartments.

FIG. 2 is a cross-sectional view taken along the line A-A of FIG. 1, and a rectangular gasket 2 is provided along the exposed edge of the partition chamber, and the gasket has a picture frame shape. The hole 9 formed in the flange 11 of the gasket 2 is for tightening the gasket.

FIG. 3 is an enlarged view of the circumference of FIG. 1 showing an example of a gasket 2 between two compartments 1, showing that the gasket is tightened to the surface around the compartment 5 using a hole 9 have. It can be seen that when the gasket is completely installed, a space 4 is formed, which is different from the space 3 in the compartment 1, and the same bolt is used to tighten the flange and the partition 5 of the gasket 2. .

4 is an enlarged cross-sectional view of the elliptical tubular gasket 2, in which a metal spring 6 is provided inside the gasket 2, and an elliptical hole 10 is formed along the longitudinal direction of the gasket.

5 is a cross-sectional view showing a preferred example of a metal spring inside an elastic gasket having an auxiliary elastic portion according to the present invention. As shown, the spring is made up of two strips of steel, curved along the length direction and facing the concave sides to form an oval cross section. The two curved surfaces under compression approach each other. When the spring is compressed, a small distance between the bend strips facilitates the movement of the edges. Metal springs are made of spring steel, but may be any material that can withstand repeated compression and decompression. Metal springs of other structures may also be used.

FIG. 6 is a cross-sectional view of an example of the gasket 2, and the boss elastic part 12 protrudes from the flange 11 and the hard edge 13 like the inner space 10 of the gasket. Instead of the auxiliary elastic part 12, a metal spring as shown in FIG. 5 may be installed in the space 10, or two may be installed together. The secondary resilient portion 12 is in the form of a number of elastic ridges or beads that protrude from the effective sealing surface of the gasket 2. When the auxiliary elastic part 12 is used, the auxiliary elastic part 12 may be only one ridge or bead, but may be composed of a plurality of ridges or beads parallel to each other.

Ridges 12 may be used along the flange 11 as needed. The hard edge 13 may be used for structural purposes to prevent side gripping of the gasket or to facilitate positioning of the gasket during installation. The hard edge 13 by itself should be thick enough to increase the total sealing area when the gasket 2 is fully pressured, but if too thick the most effective part of the gasket 2 will be pressured as necessary. You will not be able to receive it. If necessary, an auxiliary reinforcement may be added to the hard edge 13, or a functional tap or a flange may be attached to the hard edge 13. The flange 11 is attached at an inclined angle, but may be straight or flat, attached at an angle as shown in FIG. In addition, as shown in the cross-sectional view, the flange 11 is bent. The flange 11 can take many forms, depending on the device.

7 shows the auxiliary resilient portions of the gasket 2 arranged in parallel with each other as a plurality of ridges or beads 12 protruding from the sealing surface of the gasket 2. If necessary, a ridge or bead 12 may be installed along the flange 11. In some cases, only one ridge or bead 12 may be installed along each sealing surface, but in general, the ridge 12, in which multiple ridges or beads are preferred, is not necessarily perpendicular to the gasket 2.

8 shows an example in which the gasket 2 is circular, with ridges or beads 12 located concentrically along the sealing surface of the gasket. The flange 11 is a bent portion inclined, but may be another structure. The central space in the gasket may be much larger for the entire dimension shown.

FIG. 9 is a cross-sectional view taken along line B-B of FIG. 8 showing the relative positions of the ridge or bead 12 and the flange 11 in detail.

FIG. 10 is a cross sectional view of a gasket in which two portions of the ridge or bead 12 are inclined at an acute angle with the gasket 2. When the pair of sloping ridges 12 are arranged and subjected to compression along both sides of the gasket 2, the compressed ridges overlap toward the inclined side. Only one pair of inclined ridges may be used on both sides of the gasket, but more than two pairs are preferred.

In FIG. 10, the angle formed by the inclined ridges facing each other is preferably less than 90 °, and preferably about 75 ° to 80 °. Each of A and B preferably has a value of about 10 ° ± 1 °.

The present invention is to produce an elastic gasket having an auxiliary elastic portion composed of at least one of the following.

1. Elastic ridges or beads installed on gasket closing surfaces parallel or concentric with each other.

2. Gaskets in which holes, especially oval holes, are formed in the cross section of the bead and the gasket which are parallel or concentric with each other on the sealing surface of the gasket.

3. A spring made of a long strip that is bent along its length to form an oval in cross section and installed in a gasket hole the same size as the spring.

4. A spring installed inside the gasket long in the length direction of the gasket to elastically react to the pressure and depressurization acting on the gasket.

5. The elastic ridges or beads of claim 2 used in conjunction with the springs of claim 3 or 4.

The elastic gasket is made of natural rubber, synthetic rubber or elastomer, depending on the atmosphere in which the gasket is used. Polychloroprene rubber is generally considered a good material because it can withstand many compounds and withstands high temperatures. Rubber based on polybutene, polydiene, polyisoprene, fluoropolymer, polyvinyl chloride and the like are frequently used. Rubbers generally contain fillers or other additives to improve their physical and chemical properties. It is also within the scope of the present invention to encase the rubber with a fluoropolymer or to coat other flexible coatings or sheaths.

The elastic gasket is manufactured by molding the auxiliary elastic part of the present invention. In some cases it may be a good idea to insert, cast or mold gaskets into parts to insert springs into each part or to glue them together. Alternatively, gaskets may be inserted during casting or molding operations. The flange is preferably manufactured together with the gasket, but may be separately manufactured and bonded or fixed to the gasket.

The general structure of the gasket is straight or curved, and the cross section is triangular, square, rectangular, polygonal, round or oval.

1 to 10 illustrate an example of the present invention, which can be modified and modified in various other forms without departing from the scope of the present invention.

One of the great advantages of the present invention is that when using a gasket on a large structure can be easily tightened by using a flange, when the gasket is located between a plurality of compartments without causing a phenomenon such as squeezing or bending It can be compressed easily. Flanges also hold the main part of the gasket but act as part of the device, such as a partition.

Claims (19)

Elastomeric gasket with auxiliary elastic part, ridge or bead with auxiliary elastic part parallel or concentric with each other along the sealing surface of the gasket, elastic ridge or bead, gasket, installed along the sealing surface in the gasket with holes formed in the longitudinal direction An elastic gasket, which is installed in a direction hole and elastically reacts to compression and decompression acting on a spring and a gasket having an elliptical cross section and is installed along at least one of the springs along the longitudinal direction of the long gasket. The elastic gasket as set forth in claim 1, wherein a flange is provided along the longitudinal direction of the gasket. The elastic gasket of claim 1, wherein the auxiliary elastic part comprises an elastic ridge or a bead. The elastic gasket as set forth in claim 1, wherein the elastic composition includes a spring located in the gasket. The elastic gasket according to claim 1, wherein the auxiliary elastic part is composed of an inner spring and an outer ridge or bead. The elastic gasket as set forth in claim 1, wherein the auxiliary elastic portion constitutes an inner spring, and the flange is provided along the longitudinal direction of the gasket. The ridge or bead of claim 1, wherein the auxiliary elastic part is divided into two parts with a boundary of the center of the gasket, and is composed of an elastic ridge or bead installed to be biased toward the center of the gasket. Elastic gasket, characterized in that the. The elastic gasket as set forth in claim 7, wherein the ridge or the bead is installed to face each other at an acute angle of about 75 to 80 degrees from the gasket. The elastic gasket as set forth in claim 8, wherein the acute angle is about 79 ° ± 1 °. The elastic gasket as set forth in claim 7, wherein a flange is provided along the length of the gasket. The elastic gasket as set forth in claim 1, wherein the auxiliary elastic part includes an inner spring in the longitudinal direction of the gasket, and the spring is formed of an elongated strip in which the spring is bent along the longitudinal direction, and the curved strip has an elliptical cross section. . The elastic gasket as set forth in claim 11, wherein a flange is installed along the longitudinal direction of the gasket. The elastic gasket as set forth in claim 12, wherein an auxiliary elastic portion composed of elastic ridges or beads provided along the sealing surface of the gasket is installed, and the ridges or beads are installed in parallel or concentric with each other. The elastic gasket as set forth in claim 1, wherein the gasket is a continuous gasket surrounding one portion. The elastic gasket as set forth in claim 14, wherein the enclosed portion is circular or elliptical. The elastic gasket as set forth in claim 14, wherein the enclosed portion is triangular, square, or rectangular. The elastic gasket of claim 14, wherein the elastic gasket is polygonal. A gasket for sealing two connecting surfaces of a container or a pipe to maintain a seal for preventing fluid leakage, and having a structure in which at least one auxiliary elastic part having the same body as the connecting surface can be securely coupled. Wherein the auxiliary elastic part includes at least one elastic protrusion extending perpendicularly to the hydraulic direction of the container and extending from both sides of the elastic member, and an elastic part for applying elasticity to the connection surface of the container regardless of the inherent elasticity of the elastic part. Elastic gasket, characterized in that consisting of opposed springs located inward. A gasket capable of sealing a connection between two fluid containers to maintain pressure in the container, the gasket comprising an elastic part having a shape suitable for the surface shape of the connection part, wherein the auxiliary elastic part is a direction of pressure applied to the fluid in the container. And two convex opposing members of a spring positioned inside the elastic portion extending the surface of the elastic portion with respect to the surface to be joined.

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