KR20210090056A - Gasket for sealing - Google Patents

Abstract

Disclosed is a sealing gasket interposed between a first member and a second member to be coupled to seal a fluid for preventing the fluid from being leaked between the first member and the second member. The disclosed sealing gasket comprises: a rigid frame formed as a rigid body, provided in the form of a ring, and including an upper seal mounting groove cut in a ring shape in an upper surface facing a lower surface of the first member and a lower seal mounting groove cut in a ring shape in a lower surface facing an upper surface of the second member; an upper seal made of rubber, bonded to a bottom surface of the upper seal mounting groove, and formed in a ring shape to correspond to the shape of the upper seal mounting groove; and a lower seal made of a rubber material, bonded to the bottom surface of the lower seal mounting groove, and formed in a ring shape to correspond to the shape of the lower seal mounting groove. When the sealing gasket is interposed between the first member and the second member, the upper seal is elastically compressed to be in close contact with the lower surface of the first member, and the lower seal is elastically compressed to be in close contact with the upper surface of the second member.

Description

Gasket for sealing

The present invention relates to a fluid line connected to a pipe, tube, and conduit, or a sealing gasket mounted to prevent fluid leakage from a housing.

In general, in order to prevent leakage of fluid from a fluid line formed by connecting a pipe, a tube, and a conduit, or a housing having a base and a cover coupled thereto, for example, an O-ring (O -ring), a sealing member made of a rubber material such as a gasket is installed.

However, in order to install the sealing member in the fluid line or the housing, a sealing member mounting groove in which the sealing member is mounted must be formed in one member of a pair of coupled members. The cost of installation work increases and work productivity decreases.

In addition, when assembling a fluid line or housing in which the sealing member is installed in an automated factory, the sealing member is fitted into a sealing member mounting groove formed in the pipe or base at a point on a conveyor, and the pipe or base is After being transported from one point to another, another pipe or cover is coupled to the pipe or base in which the sealing member is fitted at the other point. However, the sealing member may come out from the sealing member mounting groove by vibration of the conveyor while moving from one point to another point of the conveyor and may be separated. Due to this, the sealing member may be lost, thereby increasing work cost and lowering work productivity.

Registered Patent Publication No. 10-1243598

The present invention provides a sealing gasket that is interposed between the pair of members to block the leakage of fluid even if no gasket mounting groove is formed in any of the pair of members to be coupled.

The present invention is a sealing gasket interposed between a first member and a second member to be coupled to seal the fluid from leaking between the first member and the second member, made of a rigid body and formed in a ring shape, An upper seal mounting groove cut in a ring shape in an upper surface facing the lower surface of the first member, and a lower seal mounting groove cut in a ring shape in a lower surface facing the upper surface of the second member ( Groove) is formed, the upper seal is made of a rubber material, is joined to the bottom surface of the upper seal mounting groove, and is formed in a ring shape to correspond to the shape of the upper seal mounting groove, and is made of a rubber material, and the lower side and a lower seal joined to the bottom surface of the seal mounting groove and formed in a ring shape to correspond to the shape of the lower seal mounting groove, and when the sealing gasket is interposed between the first member and the second member, the upper seal Provided is a sealing gasket that is elastically compressed to be in close contact with the lower surface of the first member and the lower seal is elastically compressed to be in close contact with the upper surface of the second member.

At least one through-hole penetrating the bottom surface of the upper seal mounting groove and the bottom surface of the lower seal mounting groove is formed in the rigid frame, the sealing gasket is made of a rubber material, and the at least one through hole is formed in the rigid frame. It may further include a connecting pillar that is filled and connects the upper seal and the lower seal.

When not elastically compressed, the height of the upper seal is greater than the depth of the upper seal mounting groove and the height of the lower seal is greater than the depth of the lower seal mounting groove, and the sealing gasket is interposed between the first member and the second member. when the upper surface of the rigid frame is in contact with the lower surface of the first member and the lower surface of the rigid frame is in contact with the upper surface of the second member, the height of the upper seal is equal to the depth of the upper seal mounting groove and a height of the lower seal may be equal to a depth of the lower seal mounting groove.

When not elastically compressed, a longitudinal cross-sectional shape of the upper seal and a longitudinal cross-sectional shape of the lower seal may each have a semicircular shape.

The sealing gasket of the present invention is interposed between the pair of members to reliably block the leakage of fluid even if no gasket mounting groove is formed in any of the pair of members to be coupled. Therefore, the process of machining the groove in which the sealing member is mounted is unnecessary, and an accident in which the sealing member comes out of the mounting groove and is lost is also prevented. Accordingly, the cost of the sealing gasket installation operation is reduced and the operation productivity is improved.

The sealing gasket of the present invention has a rigid frame, and thus excellent sealing performance is maintained without being crushed, bent, or bent even when a large compressive force is applied between a pair of members to be coupled.

1 is a perspective view of a sealing gasket according to an embodiment of the present invention;
2 and 3 are cross-sectional views illustrating FIG. 1 taken along lines II-II and III-III.
4 is a cross-sectional view illustrating a fluid line in which the sealing gasket of FIG. 1 is installed.

Hereinafter, a sealing gasket according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Terms used in this specification are terms used to properly express preferred embodiments of the present invention, which may vary depending on the intention of a user or operator or customs in the field to which the present invention belongs. Accordingly, definitions of these terms should be made based on the content throughout this specification.

1 is a perspective view of a sealing gasket according to an embodiment of the present invention, FIGS. 2 and 3 are cross-sectional views taken along II-II and III-III of FIG. 1, and FIG. 4 is a sealing gasket of FIG. 1 installed. It is a cross-sectional view showing a fluid line. 1 to 4 together, the sealing gasket 20 according to the embodiment of the present invention is installed in the fluid line 1 for transferring the fluid. The fluid line (1) has first and second members (2) and second members (6) arranged in a line parallel to the Z axis, and a seal interposed between the first member (2) and the second member (6). A gasket 20 is provided.

Each of the first member 2 and the second member 6 is a pipe in which a hollow is formed so that a fluid flows, and each extends along an axis CX and the axis CX overlaps each other. are arranged in a straight line. At the lower end of the first member 2 and the upper end of the second member 6 , connecting flanges 4 , 8 extending in the radial direction are formed. The size of the inner diameter of the inner peripheral surface 3 defining the hollow of the first member 2 and the size of the inner diameter of the inner peripheral surface 7 defining the hollow of the second member 6 are equal to each other.

A fluid flowing along the hollow of the first member 2 and the hollow of the second member 6 flows between the connecting flange 4 of the first member 2 and the connecting flange 8 of the second member 6 . In order not to leak from the seal gasket 20 is interposed between the lower surface 5 of the first member 2 and the upper surface 9 of the second member 6 . The connecting flange 4 of the first member 2 and the connecting flange 8 of the second member 6 are spaced apart by the thickness of the sealing gasket 20 with a plurality of fastening bolts 13 and a plurality of fastenings. It is joined by a nut (16).

The sealing gasket 20 includes, for example, a rigid frame 21 made of a rigid body such as stainless steel and formed in a ring shape, and an upper seal 50 made of a rubber material, It has a lower seal 60 , and a plurality of connecting pillars 70 .

The rigid frame 21 has an inner peripheral surface 22 and an outer peripheral surface 23 , and an upper surface 24 and a lower surface 34 between the inner peripheral surface 22 and the outer peripheral surface 23 . The upper surface 24 is in direct contact with the lower surface 5 of the first member 2 , and the lower surface 34 is in contact with the upper surface 9 of the second member 6 . is contacted An upper seal mounting groove 25 and a lower seal mounting groove 35 cut in a ring shape are formed on the upper side 24 and the lower side 34 , respectively. The rigid frame 21 , the upper seal mounting groove 25 , and the lower seal mounting groove 35 are all formed to extend along a concentric trajectory centering on the axis PX of the sealing gasket 20 .

The upper seal mounting groove 25 includes a bottom surface 26 step parallel to the upper surface 24, an inner peripheral wall 27 relatively closer to the inner peripheral surface 22 than the outer peripheral surface 23, and It is defined by the outer peripheral side wall surface 28 relatively closer to the outer peripheral surface 23 than the inner peripheral surface 22 . A plurality of upper inward grooves 30 are formed in the upper surface 24 to extend in a direction from the inner circumferential wall surface 27 to the axis PX. In the embodiment of the present invention, the plurality of upper inward grooves 30 are four, and are spaced apart from each other at intervals of 90° about the axis PX, but this is exemplary and a larger number or a smaller number is provided. may be provided.

Like the upper seal mounting groove 25 , the lower seal mounting groove 35 also has a bottom surface 36 that is stepped and parallel to the lower surface 34 , and is relatively larger on the inner peripheral surface 22 than the outer peripheral surface 23 . It is defined by a close inner peripheral side wall surface 37 and an outer peripheral side wall surface 38 relatively closer to the outer peripheral surface 23 than the inner peripheral surface 22 . A plurality of lower inward grooves 40 are also formed on the lower surface 24 to extend in a direction from the inner peripheral wall 37 to the axis PX. In the embodiment of the present invention, the plurality of lower inward grooves 40 are four, and are spaced apart at intervals of 90° about the axis PX, but this is exemplary and a larger number is provided or a smaller number is provided. may be provided.

A plurality of through-holes 45 penetrating the bottom surface 26 of the upper seal mounting groove 25 and the bottom surface 36 of the lower seal mounting groove 35 are formed in the rigid frame 21 . In the embodiment of the present invention, the plurality of through-holes 45 are four, and are arranged to be spaced apart at intervals of 90° about the axis PX, but this is exemplary and a larger number is provided or a smaller number is provided. may be provided. In addition, in the embodiment of the present invention, the upper inward groove 30 , the lower inward groove 40 , and the through hole 45 are disposed at the same angle with respect to the axis PX, but the present invention is limited thereto. it's not going to be

The upper seal 50 is joined to the bottom surface 26 of the upper seal mounting groove 25 and is formed in a ring shape to correspond to the shape of the upper seal mounting groove 25 . The lower seal 60 is joined to the bottom surface 36 of the lower seal mounting groove 35 and is formed in a ring shape to correspond to the shape of the lower seal mounting groove 35 . The plurality of connection posts 70 are filled in the plurality of through holes 45 to connect the upper seal 50 and the lower seal 60 . Four connection posts 70 are formed to correspond to the number of through holes 45 .

The upper seal 50 , the lower seal 60 , and the plurality of connecting posts 70 are made of the same rubber material and are formed to be connected as one body. The rubber material may be, for example, EPDM rubber (ethylene propylene diene monomer rubber), fluorine-based rubber, or acrylic rubber. Due to the plurality of connecting posts 70, the upper seal 50 and the lower seal 60 have a stronger bonding force on the bottom surfaces 26 and 36 of the upper seal mounting groove 25 and the lower seal mounting groove 35. It can be fixedly coupled.

As shown in FIG. 3 , when the upper seal 50 and the lower seal 60 are not elastically compressed, the shape of the longitudinal section of the upper seal 50 and the shape of the longitudinal section of the lower seal 60 are semicircular, respectively. However, the upper seal 50 and the lower seal 60 having a semicircular longitudinal cross-sectional shape are merely exemplary, and may have other longitudinal cross-sectional shapes such as a square or an oval.

When the upper seal 50 and the lower seal 60 are not elastically compressed, the height (US) of the upper seal 50 is greater than the depth (UG) of the upper seal mounting groove 25, and the The height DS is greater than the depth DG of the lower seal mounting groove 35 . Here, the depth UG of the upper seal mounting groove 25 is defined as the distance between the upper surface 24 and the bottom surface 26 of the upper seal mounting groove 25, and the lower seal mounting groove 35 ) is defined as the distance between the lower surface 34 and the bottom surface 36 of the lower seal mounting groove 35 . Accordingly, the upper end of the upper seal 50 projects upward higher than the upper surface 24 , and the lower end of the lower seal 60 projects downward lower than the lower surface 34 .

The upper seal 50 is only bonded and supported only on the bottom surface 26 of the upper seal mounting groove 25 , and is spaced apart from the inner circumferential side wall 27 and the outer circumferential side wall 28 without contacting it. Similarly, the lower seal 60 is only bonded and supported only on the bottom surface 36 of the lower seal mounting groove 35 , and is spaced apart from the inner peripheral wall 37 and the outer peripheral wall 38 without being in contact.

The sealing gasket 20 is formed by inserting a rigid frame 21 into a molding die (not shown), injecting a liquid rubber material into the molding die, and vulcanizing it. In other words, the liquid rubber material injected into the molding mold branches and flows through a runner formed inside the molding mold, and is discharged into a plurality of upper inward grooves 30 and a plurality of lower inward grooves 40, In the plurality of upper inward grooves 30 and the plurality of lower inward grooves 40 , a cavity corresponding to the shape of the upper seal 50 and a space corresponding to the shape of the lower seal 60 , and the plurality of inwardly facing grooves 40 . It flows into the through hole 45 and fills it. Accordingly, in the upper seal 50 of the sealing gasket 20 taken out after vulcanization from the molding die, the plurality of upper inward grooves 30 are filled with a liquid rubber material, and a plurality of upper inward protrusions 53 are vulcanized. The lower seal 60 is provided with a plurality of lower inward protrusions 63 that are vulcanized by filling the plurality of lower inward grooves 40 with a liquid rubber material.

On the other hand, even if there is no one type of inward groove among the plurality of upper inward grooves 30 and the plurality of lower inward grooves 40 in the rigid frame 21 , the liquid rubber material flows through the plurality of through holes 45 on the upper side. The space corresponding to the shape of the upper seal 50 and the space corresponding to the shape of the upper seal 50 and the lower seal 60 by moving from the space corresponding to the shape of the seal 50 to the space corresponding to the shape of the lower seal 60 or by moving in the opposite path. Since a liquid rubber material can be filled in a space corresponding to the shape of ), vulcanization of the sealing gasket 20 is possible.

A plurality of fastening bolts 13 and a plurality of fastening nuts with a sealing gasket 20 interposed between the lower surface 5 of the first member 2 and the upper surface 9 of the second member 6 ( When the first member 2 and the second member 6 are coupled by the 16), the upper side 24 of the rigid frame 21 is the lower side of the first member 2 ( 5) and the lower surface 34 of the rigid frame 21 is in contact with the upper surface 9 of the second member 6 . As shown by a solid line in FIG. 3 , the upper seal 50 is elastically compressed so that the upper end is in close contact with the lower surface 5 of the first member 2 and is expanded in the width direction. Similarly, as the lower seal 60 is elastically compressed, the lower end is in close contact with the upper surface 9 of the second member 6 and is expanded in the width direction. Accordingly, the height of the elastically compressed upper seal 50 is equal to the depth UG of the upper seal mounting groove 25 , and the height of the elastically compressed lower seal 60 is the depth DG of the lower seal mounting groove 35 . becomes equal to

As such, the upper seal 50 made of a rubber material is elastically adhered to the lower surface 5 of the first member 2 , and the lower seal 60 made of a rubber material is attached to the upper surface 9 of the second member 6 . Because of the elastic adhesion, leakage of fluid is prevented between the lower surface 5 of the first member 2 and the sealing gasket 20 and between the upper surface 9 and the sealing gasket 20 of the second member 6 . reliably blocked. In addition, the upper seal 50 and the lower seal 60 are mounted in a state joined to the upper seal mounting groove 25 and the lower seal mounting groove 35, and the upper seal 50 and the lower seal 60 are Even if compressed, it is blocked by the upper side 24 and the lower side 34 of the rigid frame 21 and is not compressed excessively, so damage to the upper seal 50 and the lower seal 60 and fluid leakage due to this are prevented and The durability of the sealing gasket 20 is improved.

The size of the inner circumferential inner diameter GD of the rigid frame 21 defined by the inner circumferential surface 22 of the rigid frame 21 is the first member 2 defined by the inner circumferential surface 3 of the first member 2 . Preferably the same as the size of the inner diameter of the second member 6 and the size of the inner diameter of the second member 6 defined by the inner circumferential surface 7 of the second member 6, but the size of the inner diameter of the first member 2 and the second It may be larger than the size of the inner diameter of the member 6 . When the size of the inner diameter GD of the inner circumferential surface of the rigid frame 21 is greater than the size of the inner diameter of the first member 2 and the size of the inner diameter of the second member 6 , unlike shown in eh 3 , the first member (2) and even when the axis line CX of the second member 6 and the axis line PX of the sealing gasket 20 do not overlap on a straight line and are slightly spaced apart, the upper seal 50 is formed by the first member 2 is elastically adhered to the lower surface 5 of the , and the lower seal 60 is elastically compressed to the upper surface 9 of the second member 6 to reliably prevent leakage of the fluid.

The sealing gasket 20 of the present invention described above is interposed between the pair of members 2 and 6 even if no gasket mounting groove is formed in any of the paired members 2 and 6 to be coupled. Reliably shuts off fluid leaks. Therefore, the process of machining the groove in which the sealing member is mounted is unnecessary, and an accident in which the sealing member comes out of the mounting groove and is lost is also prevented. Accordingly, the cost of the sealing gasket installation operation is reduced and the operation productivity is improved.

In addition, the sealing gasket 20 is provided with a rigid frame 21, so that even when a large compressive force is applied between the pair of members 2 and 6 to be coupled, the sealing performance is excellent without being crushed, bent, or bent. do.

The sealing gasket 20 described with reference to FIGS. 1 to 4 is installed in the fluid line 1, but the present invention is not limited thereto. The sealing gasket of the present invention is installed between the base and the cover constituting the housing. may be interposed in

Although the present invention has been described with reference to the embodiment shown in the drawings, which is only exemplary, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the true scope of protection of the present invention should be defined only by the appended claims.

2, 6: first and second members 13: fastening bolts
16: fastening nut 20: sealing gasket
21: rigid frame 50: upper seal
60: lower seal 70: connecting post

Claims (4)

A sealing gasket interposed between a first member and a second member to be coupled to seal the fluid from leaking between the first member and the second member, the sealing gasket comprising:
An upper seal mounting groove made of a rigid body and formed in a ring shape, which is cut in a ring shape in an upper surface facing the lower surface of the first member, and facing the upper surface of the second member a rigid frame having a lower seal mounting groove formed in a ring-shaped lower surface thereof;
an upper seal made of a rubber material, joined to a bottom surface of the upper seal mounting groove, and formed in a ring shape to correspond to a shape of the upper seal mounting groove; and;
a lower seal made of a rubber material, joined to the bottom surface of the lower seal mounting groove, and formed in a ring shape to correspond to the shape of the lower seal mounting groove;
When the sealing gasket is interposed between the first member and the second member, the upper seal is elastically compressed to adhere to the lower surface of the first member, and the lower seal is elastically compressed to adhere to the upper surface of the second member. Sealing gasket, characterized in that. According to claim 1,
At least one through-hole penetrating the bottom surface of the upper seal mounting groove and the bottom surface of the lower seal mounting groove is formed in the rigid frame;
and a connecting pillar made of a rubber material and filled in the at least one through hole to connect the upper seal and the lower seal. According to claim 1,
When not elastically compressed, the height of the upper seal is greater than the depth of the upper seal mounting groove and the height of the lower seal is greater than the depth of the lower seal mounting groove;
When the sealing gasket is interposed between the first member and the second member, the upper surface of the rigid frame is in contact with the lower surface of the first member, and the lower surface of the rigid frame is in contact with the upper surface of the second member. , wherein the height of the upper seal is equal to the depth of the upper seal mounting groove and the height of the lower seal is equal to the depth of the lower seal mounting groove. According to claim 1,
A sealing gasket, characterized in that when not elastically compressed, a shape of a longitudinal section of the upper seal and a shape of a longitudinal section of the lower seal are each semicircular.

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