KR101471772B1 - Bonded flange o-ring for vacuum tubing connections - Google Patents

Abstract

Disclosed is a flange O-ring used to a flange for vacuum tube connection to connect pipes of vacuum equipment and seal the gap between the pipes. The flange O-ring comprises a seal ring part which is made of fluorinated rubber or perfluorinated rubber and is elastically deformed by the pipes connected to each other inside the flange; and inner and outer holding ring parts which are made of fluorinated resins and are bonded to the seal ring part in a body when the seal ring part is formed, wherein a pair of holding ring parts hold the seal ring part therebetween inside the flange.

Description

{BONDED FLANGE O-RING FOR VACUUM TUBING CONNECTIONS FOR VACUUM PIPE CONNECTION}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flange o-ring for connecting a vacuum pipe, and more particularly, to a flange o-ring used in a pipe connecting NW (normal width) flange of a vacuum equipment such as semiconductor equipment or LCD equipment.

Various types of vacuum equipment are used in the manufacture of semiconductors or LCDs. These vacuum equipment also use NW flanges, ie ISO-NW vacuum flanges, for piping connections under vacuum conditions. The NW flange has various specifications such as NW 16, NW 25, NW 40, NW 50, NW 63, NW 67, NW 80, NW 100, NW 125, NW 160, NW 200 and NW 250 depending on the size.

The NW flange includes an O-ring assembly to ensure sealing when piping is connected. FIG. 1 is a plan view showing a conventional NW flange O-ring assembly for connecting pipes, and FIG. 2 is a sectional view taken along line A-A of FIG.

As shown in Figures 1 and 2, a typical O-ring assembly for a NW flange includes a retaining ring designed to hold the elastomeric seal S and the elastomeric seal S, . The center ring C is made of aluminum or stainless steel and the seal S is made of an elastomer such as fluorine rubber. The seal ring S has a circular cross section and the center ring C has an arc-shaped mounting groove corresponding to the circular shape of the seal ring S on its outer circumferential surface. The seal ring S is inserted into the mounting groove, And is retained in the ring C. Such a center ring C keeps the seal ring S against the flat surface of the flange so as to prevent the seal ring S from moving inward when the gas pressure inside the pipe is smaller than the gas pressure outside the pipe.

The conventional technique described above has a disadvantage in that the process of assembling the seal ring S and the center ring C is troublesome because the undesired separation and separation of the seal ring S and the center ring C is a concern. In addition, since sealing performance is required to be achieved only by the seal (S) made of fluorine or perfluorocarbon rubber, there is a problem in improving the performance. In addition, the seal ring S may be damaged or damaged during the process of assembling the seal ring S to the center ring C made of aluminum or stainless steel. In this case, in the extreme conditions of vacuum or ultra vacuum, The sealing performance of the flange can be greatly reduced.

Patent Registration No. 10-1155427 (2012. 06. 05.)

A holding ring portion made of a fluorine resin is used in place of a conventional metal holding ring (or a center ring), and a sealing portion mainly made of a sealing function is integrated with a holding ring portion to improve sealing performance in a vacuum pipe connecting flange And to provide a bonded ring flange o-ring for connecting a vacuum ring with a holding ring part eliminating the troubles associated with assembly of the center ring and the sealing ring (or the elastomeric O-ring) and the problem of poor assembly.

According to an aspect of the present invention, there is provided a flange o-ring for use in a vacuum piping connection flange for connecting and sealing between piping and piping of a vacuum equipment, wherein the flange o-ring is formed from fluorine rubber or perfluorocarbon rubber A sealing portion that is elastically deformed by being pressed on pipes connected to each other in the flange; And a center ring part integrally joined with the sealing part in the process of forming the sealing part beforehand formed using a fluororesin as a raw material and holding the sealing part in the flange.

According to one embodiment, a fluorine-based vulcanizing adhesive is interposed between the sealing portion and the center ring portion.

According to one embodiment, a roughness is formed on the surface of the center ring portion joined to the sealing portion.

According to one embodiment, the center ring portion includes a stepped structure formed by gradually decreasing the thickness in the radial direction on the outer circumferential surface side, and a protrusion for increasing a joining area to the sealing portion is formed at the outermost end center of the stepped structure And the sealing portion includes a concave portion corresponding to the protruding portion on the inner circumferential surface side joined to the center ring portion.

According to another aspect of the present invention, there is provided a flange o-ring comprising: a sealing portion formed of a fluorine rubber or a perfluorocarbon rubber as a raw material, the sealing portion being pressed and elastically deformed by piping connected to each other in the flange; An inner holding ring portion and an outer holding ring portion which are integrally joined to the sealing portion in a process of forming the sealing portion in advance with the fluorine resin being used as a raw material, and wherein the inner holding ring portion and the outer holding ring portion, And a pair of holding ring portions for holding the sealing portion.

According to one embodiment, a fluorine-based vulcanizing adhesive is interposed between the sealing portion and the pair of holding ring portions.

According to one embodiment, a roughness is formed on the surfaces of the pair of holding ring portions joined to the sealing portion.

According to an embodiment of the present invention, there is a gap between the inner holding ring portion and the outer holding ring portion, and a pair of upper and lower outer gaps formed by two or more stepped extending structures from the end of the middle gap. Wherein the sealing portion includes a connecting portion entirely in contact with the inner holding ring portion and the outer holding ring portion in the center gap and a pair of upper and lower pairs of the inner holding ring portion and the outer holding ring portion, Wherein the pair of contact seals includes a convex curved surface as a contact surface which is pressed against the end of the pipe.

The bonded flange o-ring for vacuum piping according to the present invention is characterized in that a holding ring portion formed of a fluorine resin is used in place of a conventional metal holding ring (or a center ring), and a sealing portion mainly composed of a sealing function is integrated with the holding ring portion , It has an advantage that the sealing performance can be improved in the vacuum pipe connection flange, and troubles due to the assembling of the existing center ring and the sealing (or the elastomeric O-ring) can be eliminated.

1 is a plan view showing a conventional NW flange O-ring assembly for piping connection.
2 is a cross-sectional view taken along line AA in Fig.
3 is a plan view showing a bonded flange O-ring for connecting a vacuum pipe according to an embodiment of the present invention.
4 is a cross-sectional view taken along line BB in Fig.
5 is a flowchart for explaining a method of manufacturing the bonded flange O-ring for connection to the vacuum piping shown in FIG. 3 and FIG.
6 is a plan view showing a bonded flange O-ring for connecting a vacuum pipe according to another embodiment of the present invention.
Figure 7 is an enlarged cross-sectional view taken along CC of Figure 6;
FIG. 8 is a view for explaining a flange to which the bonded flange O-ring shown in FIGS. 6 and 7 is applied.
FIG. 9 is a flowchart for explaining a method of manufacturing the bonded flange O-ring for connecting a vacuum pipe shown in FIGS. 6 to 8. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided as examples for allowing a person skilled in the art to sufficiently convey the idea of the present invention. Therefore, the present invention is not limited to the embodiments described below, but may be embodied in other forms. In the drawings, the width, length, thickness, and the like of the components may be exaggerated for convenience.

FIG. 3 is a plan view showing a bonded flange O-ring for connecting a vacuum pipe according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view taken along B-B of FIG.

3 and 4, the bonded flange O-ring 1 for connecting a vacuum pipe according to the present embodiment has a sealing ring (not shown) between pipes connected at a vacuum pipe connection flange such as a NW (Normally Width) An annular centering ring 10 as a holding ring part replacing the center ring of the prior art and an annular ringing part 20 replacing the prior art seal (or elastomeric O-ring) . The bonded flange O-ring 1 according to the present embodiment is a sealing element for NW flanges having various specifications such as NW 16, NW 25, NW 40, NW 50, NW 63, NW 67, NW 80, NW 100, NW 125, NW 160, NW 200, Can be applied.

The center ring portion 10 is formed of a fluorine resin and has a sufficient strength. The center ring portion 10 includes a stepped structure formed by gradually decreasing the thickness in the radial direction. The center ring portion 10 includes a sealing portion 20 And a protruding portion 12 for increasing a joining area. The sealing portion 20 is formed of an elastic polymer such as fluorine rubber (FKM) or perfluorocarbon rubber (FFKM), and is bonded to the centering ring 10 to be integrated with the centering ring 10. The sealing portion 20 and the center ring portion 10 are formed on the inner circumferential surface of the protruding portion 12 and the protruding portion 12, The entire surface of the concave portion 22 and the base surface of the protruding portion 12 and the peripheral surface of the concave portion 12. [ A fluorine-based vulcanizing adhesive 102 is interposed between the sealing portion 20 and the center ring portion 10 to increase the bonding force therebetween. Although not shown, a roughness may be formed on the surface of the center ring portion 10 to increase a bonding area, and the roughness may be formed by, for example, sandblasting. The sealing part 20 is formed by molding and vulcanizing a fluororubber or a perfluoro rubber raw material, and is integrally joined to the center ring part 10 during molding and vulcanization. Preferably, the protruding portion 12 is formed as a curved surface without an edge to prevent the sealing portion 20 from being damaged due to an edge of the protruding portion 12. [

5 is a flowchart for explaining a method of manufacturing the bonded flange O-ring for connection to the vacuum piping shown in FIG. 3 and FIG.

Referring to FIG. 5, the bonded flange O-ring manufacturing method includes a step S101 of forming a centering portion 10 with a fluorine resin powder, a step S102 of sintering the centering portion 10, (S301) of inserting the ring portion 10 into a mold (or a mold); injecting, molding and vulcanizing a fluorine or perfluorocarbon rubber raw material into the mold to form a sealing portion 20 A step S302 of rearwardly flowing the sealing portion 20 and a step S400 of rearwardly flowing the sealing portion 20; and a step of, after the rearward flow, the sealing portion 20 and the center ring portion 10 are integrally joined (S500) of smoothly processing the surface of the bonded flange O-ring (1) that has been processed, and step (S600) of inspecting the processed bonded flange O-ring product.

In addition, the flange o-ring manufacturing method may include forming a roughness on a surface of the centering ring portion 10 to be joined to the sealing portion 20 before the centering ring portion 10 is inserted into the mold (S202) of applying a fluorine-based vulcanizing adhesive to cover the roughness after the step (S201) and forming the roughness (S201).

Steps S101 and S102 are steps for fabricating a center ring portion having a constant strength. As the fluororesin powder used in Steps S101 and S102, a PTFE (polytetrafluoroethylene) resin powder, PFA (tetrafluoroethylene- perfluoro (Tetrafluoroethylene-ethylene copolymer) resin powder, PVDF (polyvinylidene fluoride) resin powder, PCTFE (polychlorotrifluoroethylene) resin powder, ECTFE (chloroform resin) (Trifluoroethylene-ethylene copolymer) resin powder and / or PVF (polyvinyl fluoride) resin powder may be used.

In step S101, the fluorine-based resin powder is compression-molded under a predetermined pressure to mold a centering ring formed article having a certain cross section. In step S102, the molded body is heated to the sintering temperature of the fluororesin raw material to complete the production of the centering ring 10.

After the center ring 10 is manufactured, a roughness may be formed on the surface to which the sealing portion 20 is bonded, which will be described in detail later, in step S201, and a sandblast process may be used to form the roughness have. The roughness greatly increases the bonding area with the sealing portion 20 and improves the bonding performance. In step S202, fluorine-based vulcanizing adhesive is applied to the surface to be bonded to the sealing portion 20, preferably, the surface on which the roughness is formed. In the process of forming the sealing portion 20 by the fluororubber or the perfluorocarbon rubber raw material, the fluoric vulcanizing adhesive bonds the sealing portion 20, which is a different material, to the center ring portion 10 more strongly.

In step S301, the center ring 10 prepared after the above-described steps S101, S102, S201, and S202 is inserted into the mold. The inside of the mold defines a space in which the sealing portion 20 is molded in a state in which the centering ring portion 10 is inserted. That is, the inner shape of the mold includes a shape corresponding to the shape of the sealing portion 20. In step S302, the fluorine rubber (FKM) or the fluorine rubber (FFKM) raw material is injected into the mold into which the centering ring 10 is inserted to mold the sealing ring 20 joined to the centering ring 10. During the molding of the sealing portion 20, the fluorine or perfluoro rubber raw material is vulcanized. The vulcanization temperature may vary depending on the kind of the rubber raw material, and it is preferably about 150 to 300 ° C.

In step S400, after the above-described step S302, the bonded flange O-ring in which the sealing portion 20 and the center ring portion 10 are integrally joined is taken out from the mold, and then placed in the dry oven at a constant temperature and the sealing portion 20 of the O- Afterwards. Next, the surface of the bonded flange O-ring integrally formed with the centering ring part fabricated as described above is smoothly processed in step S400. Finally, in step S500, the bonded flange O-ring is inspected.

6 is a plan view showing a bonded flange O ring for connecting a vacuum pipe according to another embodiment of the present invention, FIG. 7 is an enlarged sectional view taken along CC of FIG. 6, and FIG. 8 is a cross- Fig. 8 is a view for explaining a flange to which a bonded flange O-ring is applied.

6 to 8, the bonded flange O-ring 1000 for vacuum pipe connection according to the present embodiment includes an inner holding ring portion 100a and an outer holding ring portion 100b spaced apart from each other in parallel to each other, And a sealing portion 200 interposed between the inner holding ring portion 100a and the outer holding ring portion 100b.

The inner holding ring portion 100a and the outer holding ring portion 100b are made of a fluorine resin and have sufficient strength. A linear central gap having a narrowest width is formed between the holding ring portions 100a and 100b, There are a pair of upper and lower outer gaps formed by two or more stepped expansion structures. The sealing portion 200 is integrally joined to the holding ring portions 100a and 100b while being formed in the center gap and the pair of outer gaps. Particularly, the sealing portion 200 has a connecting portion 210 which is entirely in contact with the holding ring portions 100a and 100b in the central gap, and a connecting portion 210 which partially contacts the holding ring portions 100a and 100b in the step- And a pair of upper and lower contact-sealing parts 220 and 220 that are in contact with each other. And the pair of contact sealing parts 220 and 220 are connected by the connection part 210. The pair of contact seals 220 and 220 is applied to a flange connecting the pipes to be compressed on the end of each of the pipes and includes a convex surface as a contact surface. At this time, the pair of outer gaps are formed in the extended step structure as described above, thereby greatly increasing the bonding area between the sealing portion 200 and the holding ring portions 100a and 100b. The sealing part 200 is formed of an elastic polymer such as fluorocarbon rubber (FKM) or perfluorocarbon rubber (FFKM). The sealing ring part 200 is bonded to the holding ring parts 100a and 100b to form the holding ring parts 100a and 100b. .

 A fluorine-based vulcanizing adhesive 102 is interposed between the sealing portion 200 and the holding ring portions 100a and 100b to increase a bonding force therebetween. Although not shown, a roughness for increasing the bonding area may be formed on the surfaces of the holding ring portions 100a and 100b, and the roughness may be formed by, for example, sand blasting. The sealing portion 200 is formed by molding and vulcanizing a fluororubber or a perfluoro rubber raw material and is integrally joined with the holding ring portions 100 during molding and vulcanization.

Referring to FIG. 8, a flange F for vacuum pipe connection to which the bonded flange O-ring 1000 shown in FIG. 6 and FIG. 7 is applied can be seen. The flange F is made of a metal consisting of a pair of jaws And a clamp 2000, which is configured to clamp and simultaneously connect piping 3000, 3000 with the seal. A rotation regulating portion 2002 is provided to move the jaws so as to adjust the clamping pressure of the clamp 2000. The bonded flange O-ring 1000 is installed in an O-ring retainer formed inside the metal clamp 2000. In the bonded flange O-ring 1000, the sealing portion 200 is pressed against the ends of the pipes 300 and 300 in the flange F to be elastically compressed. At this time, the holding ring portions 100a and 100b integrated with the sealing portion 200 firmly support the sealing portion 200. [

9 is a flow chart for explaining a method of manufacturing the bonded flange O-ring for connecting a vacuum pipe shown in Figs. 6 to 8. Fig.

9, the bonded flange O-ring manufacturing method includes a step s101 of molding a pair of holding ring portions, that is, an inner holding ring portion 100a and an outer holding ring portion 100b, with a fluororesin powder, A step s102 of sintering the holding ring portions 100a and 100b and a step s301 of inserting the holding ring portions 100a and 100b in parallel with each other in a mold or a mold, A step (s302) of injecting, molding and vulcanizing a raw rubber material to form a sealing part 200 integrally joined with the holding ring parts 100a and 100b and squeezing the sealing part 200, The surface of the bonded flange O-ring 1000 in which the sealing portion 200 and the holding ring portions 100a and 100b are integrally joined together is subjected to smooth processing (Step S400) (S500) of inspecting the processed bonded flanged O-ring product, and step (s600) of inspecting the processed bonded flanged O-ring product .

In addition, the method for manufacturing the flange o-ring may further include a step of forming a roughness surface on the surface of the holding ring portions 100a and 100b before the holding ring portions 100a and 100b are inserted into the mold, (s202) of applying a fluorine-based vulcanizing adhesive so as to cover the roughness after forming the roughness (s201) and after forming the roughness (s201).

Steps s101 and s102 are the steps for fabricating holding rings having a constant strength. The fluororesin powder used in steps s101 and s102 may be PTFE (polytetrafluoroethylene) resin powder, PFA (tetrafluoroethylene-purple (Tetrafluoroethylene-ethylene copolymer) resin powder, PVDF (polyvinylidene fluoride) resin powder, PCTFE (polychlorotrifluoroethylene) resin powder, ECTFE (polyvinylidene fluoride) resin powder, Chlorotrifluoroethylene-ethylene copolymer) resin powder and / or PVF (polyvinyl fluoride) resin powder.

In step s101, the fluororesin powder is compression-molded at a predetermined pressure to mold the holding ring portion formed bodies having a predetermined cross section. In step s102, the holding ring portions 100a and 100b are completed by heating the raw material to a sintering temperature of the fluororesin material.

After the manufacturing of the holding ring portions 100a and 100b is completed, a roughness may be formed on the surface to which the sealing portion 200 is to be joined in Step s201, and a sandblast process may be used to form the roughness . The roughness greatly increases the bonding area with the sealing portion 200 and improves the bonding performance. In step s202, fluorine-based vulcanization adhesive is applied to the surface to be bonded to the sealing part 200, preferably, the surface on which the roughness is formed. In the process of forming the sealing portion s200 by the fluororubber or the perfluorocarbon rubber raw material, the fluoric vulcanizing adhesive bonds the sealing portion 200 and the holding ring portions 100a and 100b of different materials more strongly.

In step s301, the holding ring parts 100a and 100b prepared after the steps s101, s102, s201 and s202 described above are inserted into the mold. The inside of the mold defines a space in which the sealing portion 200 is molded in a state where the holding ring portions 100a and 100b are inserted. That is, the inner shape of the mold includes a shape corresponding to the shape of the sealing portion 200. In step s302, the fluorine rubber (FKM) or the fluorine rubber (FFKM) raw material is injected into the mold into which the holding ring portions 100a and 100b are inserted, and the sealing ring portions 200a and 100b bonded to the holding ring portions 100a and 100b ). During the molding of the sealing part 200, the fluorine or perfluoro rubber material is vulcanized. The vulcanization temperature may vary depending on the kind of the rubber raw material, and it is preferably about 150 to 300 ° C.

In step s400, the bonded flange O-ring integrally joined with the sealing part 200 and the holding ring parts 100a and 100b is removed from the mold after step s302 described above, and then placed in a dry oven at a constant temperature. 200). Next, the surface of the bonded flange O-ring integrally formed with the centering ring part fabricated as described above is smoothly processed in step s400. Finally, in step s500, the bonded flange O-ring is inspected.

10: center ring portion 20, 200: sealing portion
100a, 100b: Holding ring part

Claims (8)

A flange o-ring used in a vacuum piping connection flange for connecting and sealing between piping and piping of a vacuum equipment,
A sealing part formed of fluororubber or perfluorocarbon rubber as raw materials and being elastically deformed by being pressed on pipes connected to each other in the flange; And
And a center ring portion integrally joined with the sealing portion in the process of forming the sealing portion beforehand formed of a fluororesin as a raw material and holding the sealing portion in the flange,
Wherein the centering portion includes a stepped structure having three or more stages formed by gradually decreasing the thickness in the radial direction on the outer circumferential surface side and a protrusion for increasing a joining area to the sealing portion is formed at the center of the outermost end of the stepped structure, Wherein the sealing portion includes a concave portion corresponding to the protruding portion on an inner circumferential surface side joined to the center ring portion, and the protruding portion is formed as a curved surface without an edge.  The bonded flange O-ring according to claim 1, wherein a fluorine-based vulcanization adhesive is interposed between the sealing portion and the center ring portion. The bonded flange O-ring according to claim 1 or 2, wherein a roughness is formed on a surface of the center ring portion joined to the sealing portion. delete A flange o-ring used in a vacuum piping connection flange for connecting and sealing between piping and piping of a vacuum equipment,
A sealing part formed of fluororubber or perfluorocarbon rubber as raw materials and being elastically deformed by being pressed on pipes connected to each other in the flange; And
An inner holding ring portion and an outer holding ring portion which are integrally joined to the sealing portion in a process of forming the sealing portion in advance with the fluorine resin being used as a raw material, and wherein the inner holding ring portion and the outer holding ring portion, And a pair of holding ring portions for holding the sealing portion,
Wherein a gap between the inner holding ring portion and the outer holding ring portion has a central gap of a narrowest straight section and a pair of upper and lower outer gaps formed by two or more stepped extending structures from an end of the central gap, Includes a first inner space adjacent to the center gap by the stepped expansion structure and a second outer space expanded to a size larger than the first space by the stepped expansion structure, A connecting portion formed integrally with the inner holding ring portion and the outer holding ring portion and formed integrally with the inner holding ring portion and the outer holding ring portion within the outer gap gap of the pair, Wherein the inner holding ring portion and the outer holding ring portion are joined to each other in the first space, And a pair of contact sealing portions not joined to the outer holding ring portion, wherein the pair of contact sealing portions are connected by the connecting portion, and the pair of contact sealing portions are applied to a flange connecting the pipes And a convex curved surface which is pressed and compressed at the end of each of the pipes, wherein the convex curved surface passes through an outer periphery of the inner holding ring portion and the outer holding ring portion before being compressed by the end of each of the pipes, And the protruded portion of the flanged O-ring is connected to the outside of the flange. [6] The bonded flange O-ring according to claim 5, wherein a fluorine-based vulcanization adhesive is interposed between the sealing portion and the pair of holding ring portions. 7. The bonded flange o-ring according to claim 6, wherein a roughness is formed on a surface of the pair of holding ring portions joined to the sealing portion. delete

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