JPH112331A - Sealing device for connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sealing device which has high oil-resistance and high coldresistance, by arranging a first seal part made of nitrile hydride rubber on the side touching with a path of piping in an engagement part of a coupling which connects connecting sections of piping each other, and arranging a second seal part made of hydrin rubber on the atmospheric side. SOLUTION: A sealing device 1A has a coupling 2 where a first attaching slot 3a is formed on an inner surface 6 engaged with a piping 20, and first and second seal parts 4, 5 are packed in the attaching slots 3a. A second attaching slot 3b is formed on an outer surface 7 engaged with a pipe 21a in equipment 21, and the seal part 4 is packed in it. Then, the first seal part 4 of the stepped surface 10 side is an O-ring made of nitrile rubber, especially nitrile hydride rubber, and its next second seal part 5 of the atmospheric side is another O-ring made of rubber materials which has cold-resistance higher than that in the first seal part 4, for example, made of hydrin rubber material. A seal ring 11 made of synthetic resin is sandwiched between both seal parts 4, 5.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sealing device for a connector of an oil pipe. More specifically, the present invention relates to a sealing device for an oil feed pipe connector having both low temperature properties and oil resistance.

[0002]

2. Description of the Related Art In the prior art relating to a connector sealing device of the present invention, there is a connector sealing device shown in FIG.

FIG. 6 is a sectional view of a sealing device for a connector of a pipe for feeding fuel oil.

[0006] In FIG. 6, reference numeral 50 denotes a sealing device. The sealing device 50 is provided to seal a joint 71 between the two pipes 70 for feeding fuel oil. This sealing device 50 is provided with a joint portion 51 having screw portions 51a provided at both ends, and both end portions of the joint portion 51 are provided with pipe ends 70a, 70a of two pipes 70, 70.
Is fitted.

[0005] An O-ring 52 made of a fluoro rubber material is fitted between the joint 51 and each of the pipe ends 70a, 70a to seal the two. This O-ring 5
2 is disposed in an O-ring mounting groove 54 formed between a spacer 53 and a step portion 51 b provided at an end of the joint portion 51.

[0006] The spacer 53 is held on the joint portion 51 by a fastener 55 which is screwed with the screw portion 51a.
In addition, the fastener 55 is connected to the pipe end 70a via a bite ring 56 provided with a locking portion 56a cut into the pipe end 70a.
70a. And the fastener 55 is a joint 51
To hold the spacer 53 and
It is connected to 1. Further, the fastener 55 connected to the joint portion 51 is connected to the pipe ends 70a, 70a via the bite ring 56.
With each other.

The fuel oil connector sealing device 50 of the prior art configured as described above has two pipe ends 70a, 70a when the fuel oil flows through the pipes 70, 70.
Outflow of fuel oil from the gap is sealed by an O-ring 52.

[0008]

However, since the O-ring 52 is made of a fluoro rubber material, even if fuel oil comes into contact with the O-ring 52, the O-ring 52 does not swell and its characteristics are not significantly reduced. On the other hand, there is a disadvantage that the sealing ability is small. Another problem is that fluoro rubber is expensive.

In particular, when used in a car or the like used in a cold region, the fluoro rubber O-ring 52 is used.
Since the elasticity decreases as the temperature decreases, the fuel oil may leak and become a problem.

The present invention has been made in view of the above-mentioned problems, and a technical problem of the present invention is to provide a sealing device which is excellent in oil resistance and cold resistance.

Another object of the present invention is to provide a sealing device that exhibits a function excellent in oil resistance performance in a portion in contact with fuel oil and a function excellent in cold resistance in a portion in contact with a low temperature.

It is still another object of the present invention to provide a sealing device for a connector that exhibits oil resistance and cold resistance to fuel oil and exhibits sealing ability.

[0013]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned technical problem, and the technical means is constituted as follows. That is,

A first aspect of the present invention is a connector sealing device for sealing a gap between a pipe (20) having an oil passage (13) therein and a joint (2) connecting a connecting portion (20a). The connecting part (20a) of the pipe (20) and the mating connecting part (21) communicating with the oil passage (13) of the connecting part (20a).
a) and a ring-shaped mounting groove (4) in which the ring-shaped seal portions (4, 5) are fitted between fitting portions (20a, 21a) of the fitting portion (2) and the connecting portions (20a, 21a) of the fitting portion (2). 3) and
An annular first seal portion (4) made of a nitrile rubber material is disposed on the outflow side of the oil from the oil passage (13) of the mounting portion (3), and is further to the atmosphere side than the first seal portion (4). And a second seal portion (5) made of a rubber material having better cold resistance than the first seal portion (4).

According to a second aspect of the present invention, a seal ring made of a resin material is disposed between the first seal portion and the second seal portion. 1.

Furthermore, the present invention relates to a support ring (1) for connecting the first seal part (4) and the second seal part (5).
The first seal portion (4) is disposed on the side where the oil flows out from the oil passage (13) while being integrated via 4).

Still further, according to a fourth aspect of the present invention, the mounting groove (3) comprises an annular first mounting groove (3a) and a second mounting groove (3b), and the first mounting groove (3) is provided. 3a), an annular first seal portion (4) made of a nitrile rubber material is arranged on the side from which oil flows out from the oil passage (13), and the first seal portion (4) is located closer to the atmosphere than the first seal portion (4). A second seal portion (5) made of a rubber material having better cold resistance than the seal portion (4) is disposed, and the third seal portion (1) is provided in the second mounting groove (3b).
2) is disposed, and the third seal portion (12) is made of nitrile rubber material for substantially half of the cross section on the side where oil flows out from the oil passage (13), and the other half is formed of the first seal. It is made of a rubber material having better cold resistance than the part (4) and is integrated.

[0018]

The first sealing portion 4 made of a hydrogenated nitrile rubber material is directed to the side in contact with the pipe passage between the fitting portions connecting the connecting portions 20a of the pipe 20 or the connecting portion 20a connecting the pipe 20 and the equipment. And the second seal portion 5 made of a hydrin rubber material is arranged on the atmosphere side. Therefore, even if oil in the pipe 20 flows out during fitting of the joint portion 2, the first seal portion 4 It will seal without swelling.

Further, even if the atmosphere side between the fittings is cooled in a cold region, the sealing performance of the second seal portion 5 does not decrease, so that the water on the atmosphere side is prevented from entering and
This has the effect of preventing the sealing performance of the first seal portion 4 from deteriorating due to cooling.

In particular, since the seal ring 11 is arranged between the first seal portion 4 and the second seal portion 5, the first seal portion 4 and the second seal portion 5 have a sealing ability. The seal ring 11 itself has a function of sealing the fluid flowing in from both sides in cooperation with the respective seal portions while supporting it so as to exert it.

[0021]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A connector sealing device according to an embodiment of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a half sectional view showing an embodiment according to the present invention.

In FIG. 1, 1A is a sealing device. The sealing device 1A includes a joint portion 2 having a first mounting groove 3a,
The first seal portion 4 and the second seal portion 5 are provided in the first mounting groove 3a.

The joint portion 2 has an inner peripheral surface 6 fitted with the pipe 20.
Is provided with a first mounting groove 3a. In addition, a second mounting groove 3b is formed on the outer peripheral surface 7 of the device 21 that communicates with the oil passage 13 of the pipe 20 and is fitted with the pipe 21a. Formed groove 9 for caulking
Is provided. The pipe 21a and the joint 2 may be hermetically joined by welding.

The joint 2 has a small diameter inner peripheral surface 6 formed on the inner peripheral surface 6 on the side of the device 21.
A surface that abuts on the end surface 20b of Oa is formed on the step surface 10. The joint portion 2 is manufactured by machining a metal as necessary, or is manufactured by molding a cast product or a resin material.

A pipe 20 is fitted on the inner peripheral surface 6 of the joint portion 2, and the end surface 20 a is held at a position where it comes into contact with the step surface 10. In the first mounting groove 3, a first seal portion 4 which is an O-ring made of nitrile rubber, particularly hydrogenated nitrile rubber material, is disposed on the step surface 10 side. Further, a second seal portion 5 made of a rubber material, for example, an O-ring made of a hydrin rubber material, which is more excellent in cold resistance than the first seal portion 4, is arranged on the air side next to the first seal portion 4. A seal ring 11 having a square cross section made of a synthetic resin material is disposed between the first seal part 4 and the second seal part 5.

A first seal portion 4 which is an O-ring made of a hydrogenated nitrile rubber material is disposed in the second mounting groove 3b of the joint portion 2. The second seal portion 5 can be attached to the second attachment groove 3b as needed. The reason is that the oil side of the second mounting groove 3b is tightly caulked, so that the amount of oil that directly contacts the second seal portion 5 is small. The second seal portion 5 does not easily swell because it has some oil resistance.

The sealing device 1A shown in FIG. 1 seals a fitting portion of a connector at a connection portion of a fuel pipe for an automobile with a device 21. Since automobiles are used even in cold regions, the location of the pipe 21 that contacts the atmosphere is -4.
It may be 0 ° or less. However, since the second sealing portion 5 made of fluorosilicone rubber or hydrin rubber material is disposed on the atmosphere side of the first mounting groove 3a of the sealing device 1A, the sealing ability of the sealing device is reduced with respect to low temperatures. Can be expected to be effectively prevented.

In particular, seals 4 and 5 made of hydrogenated nitrile rubber or hydrin rubber are made of conventional fluoro rubber O
Since the price is lower than that of the ring, it is very useful for mass production.

Further, since the first seal portion 4 made of hydrogenated nitrile rubber is provided on the side in contact with the fuel oil, the first seal portion 4 may be swollen by the fuel oil to reduce the tensile strength and elongation. Since it is not available, it exerts sealing ability on fuel oil.

FIG. 2 is a half sectional view of a sealing device 1B showing a second embodiment according to the present invention.

In FIG. 2, a third seal portion 12 provided in the second mounting groove 3b has a left ring 12a having a semicircular cross section in which the fuel oil side is made of a hydrogenated nitrile rubber material and an atmosphere side. The right ring 12b having a semicircular cross section made of a hydrin rubber material is integrated by baking or bonding.

The other structure is substantially the same as the sealing device shown in FIG.

The third seal portion 12 shown in FIG. 2 is a single seal portion having both functions when the width of the mounting groove is restricted. Like the third seal portion 12, a material having two properties is combined to form one seal portion, and the left ring 12a exhibits oil resistance and the right ring 12b exhibits cold resistance. is there.

FIG. 3 is a half sectional view of a sealing device 1C showing a third embodiment according to the present invention.

In FIG. 3, a third seal portion 12 shown in FIG. 2 is mounted in the second mounting groove 3b. In the first mounting groove 3 shown in FIG. 1, two O-ring-shaped first seal portions 4 made of a hydrogenated nitrile rubber material are arranged in parallel, and the two first seals are provided. A seal ring 11 made of a resin material and having a rectangular cross section is disposed between the portions 4.

Further, third mounting grooves 3c are formed at intervals on the air side of the first mounting grooves 3a. A second seal portion 5 made of a hydrin rubber material is arranged in the third mounting groove 3c. A seal ring 11 is provided in parallel with the second seal portion 5.

This sealing device 1c is used in a fuel piping system of an aircraft or the like, and is used in the sky or a cold region.
It is designed to handle when the temperature rises to 50 ° C or higher.

In this case, the first mounting portion 3 is provided so that the sealing device 1C can withstand the high pressure of the fuel oil in addition to the oil resistance and the cold resistance.
a is formed in two first seal portions 4. For this high-pressure fuel, swelling due to the action of fuel oil with high pressure under the following conditions of −50 ° C. in a cold region due to the cooperation of the two first seal portions 4 and the seal ring 11 In this case, a sealing effect is exerted against the above.

FIG. 4 is a half sectional view of a sealing device 1D showing a fourth embodiment according to the present invention.

In FIG. 4, a connection end 20a of a pipe 20 is fitted on the inner peripheral surface 6 of the joint portion 2. A first mounting groove 3a is formed on the right side of the joint portion 2, and a fourth mounting groove 3d is formed on the left side in addition to the second mounting groove 3b.

Then, in the first mounting groove 3a, the pipe 2
The first seal portion 4 made of a hydrogenated nitrile rubber material is disposed on the end surface 20a side of the first seal member 4 and the first seal portion 5a made of a fluorosilicone rubber material is provided on the atmospheric side with the first seal portion 4. They are arranged in parallel. Further, a seal ring 11 made of a resin material is provided between the first seal part 4 and the second seal part 5a.

A first sealing portion 4 made of a hydrogenated nitrile rubber material is fitted in the second mounting groove 3b on the left side of the joint portion 2. Further, a second seal portion 5a made of fluorosilicone rubber is fitted in the fourth mounting groove 3d on the left side.

The pipe 20 configured as described above is used for a joint in the middle of the pipe for fuel oil or the like. The joint 2 has a structure in which the left side is fixed. The first seal portions 4 and 4 made of a hydrogenated nitrile rubber material, which is inexpensive and have excellent oil resistance, can be sealed without being swollen by fuel oil, and can be made of a fluorosilicone rubber material. The second seal portions 5a and 5a exert a sealing effect even at low temperatures.

FIG. 5 is a half sectional view of a connector sealing device 1E according to a fifth embodiment of the present invention.

In FIG. 5, a fourth seal portion 8 includes a first seal portion 4s made of a hydrogenated nitrile rubber material and a second seal portion 5s made of a fluorosilicone rubber or a hydrin rubber material. Are integrated. The support ring 14 is made of a resin material or a metal material such as an aluminum material or a copper material. The bonding surface of the support ring 14 may be formed with irregularities, and may be integrally attached to the irregular surface by baking.

The fourth seal portion 8 has the first seal portion 4s side disposed on the oil outflow side from the oil passage 13 side. Other configurations are substantially the same as those of the connector sealing device of FIG.

The fourth seal portion 8 shown in FIG. 5 prevents the low temperature on the atmospheric side from being transmitted to the first seal portion 4 s by the support ring 14, and the oil on the oil passage 13 side becomes the first seal portion, for example. It is intended to prevent leakage even from the seal portion 4s.

[0049]

[Table 1]

Table 1 shows a comparison between the oil resistance and the low temperature property of the conventional fluororubber and those of the materials of the first seal portion 4 and the second seal portion 5 of the present invention.

Fluorine rubber has a volume change of + 10% with respect to oil, while hydrogenated nitrile rubber has 11% under the same conditions. Although it is recognized that they are almost the same, hydrogenated nitrile rubber is very cheaper than fluororubber and is an important factor for mass-produced products such as automobiles.

In the case of fluororubber, leakage is observed when the sealing ability at low temperatures is -17.degree. C., but the same leakage occurs at -60.degree. C. for fluorosilicone rubber. Also, the hydrin rubber has the same leakage at -45 ° C. And hydrin rubber is cheaper than fluoro rubber. In the above embodiments, hydrogenated nitrile rubber is preferred as having excellent oil resistance. However, nitrile rubber in general has excellent oil resistance. Also, hydrin rubber or fluorosilicone rubber is a preferred example having excellent cold resistance.

[0053]

According to the connector sealing device of the present invention, the first seal portion, which is inexpensive and has excellent oil resistance, is provided on the side directly in contact with the oil, so that even if it comes into contact with the oil, the tensile strength and ,
The sealing ability can be exhibited without a decrease in elongation. Furthermore, since the second seal portion, which is also inexpensive and has excellent cold resistance, is provided on the atmosphere side, it can exhibit the sealing ability even at low temperatures while supplementing the drawbacks of the first seal portion. It is.

In the state of the art, no material having excellent oil resistance and excellent cold resistance has been found.
Both the seal portion and the second seal portion are inexpensive, and by their cooperative action, they can exhibit the oil resistance and the cold resistance of composite materials. For this reason, it is suitable as a sealing device for connectors for mass production of automobiles and the like, and is excellent in durability, and exhibits a sealing ability not only with respect to low temperatures but also withstand pressure in cold regions.

According to a second aspect of the present invention, since the seal ring is provided between the first seal portion and the second seal portion, the second seal portion is provided for the first seal portion. It maintains a stable elastic deformation state with respect to the operating pressure of, and exhibits a sealing ability to oil. In addition, the second seal portion is prevented from being affected by a low temperature on the first seal portion, and is prevented from entering from the outside in cooperation with the second seal portion.

According to a third aspect of the present invention, the support ring supports the first seal portion so as to exhibit the sealing ability, and the first seal portion has a first seal against a low temperature with respect to the second seal portion. The effect of minimizing the effect on the parts can be expected.

According to a fourth aspect of the present invention, in the case where the mounting groove of the third seal portion is limited in location, and the mounting groove is small, the characteristics of the two materials are exhibited as a composite material, The effect is that the ability can be adapted to several conditions.

[Brief description of the drawings]

FIG. 1 is a half sectional view of a connector sealing device according to a first embodiment of the present invention.

FIG. 2 is a half sectional view of a connector sealing device according to a second embodiment of the present invention.

FIG. 3 is a half sectional view of a connector sealing device according to a third embodiment of the present invention.

FIG. 4 is a half sectional view of a connector sealing device according to a fourth embodiment of the present invention.

FIG. 5 is a half sectional view of a connector sealing device according to a fifth embodiment of the present invention.

FIG. 6 is a cross-sectional view of a conventional connector sealing device.

[Explanation of symbols]

1 Sealing device 20
Piping 2 Joint part 20a
Connection end 3 First mounting groove 20b
End face 4 First seal 21
Equipment 5 2nd seal part 21a
Pipe 5a Second seal part 50
Sealing device 6 Inner peripheral surface 51
Joint part 7 Outer surface 51a
Screw part 8 Fourth seal part 51b
Step 9 Groove for caulking 52
O-ring 10 Step surface 53
Spacer 11 Seal ring 54
O-ring mounting groove 12 Third seal portion 55
Fastener 13 Oil passage 56
Biting ring 14 Support ring 56a
Locking portion 3a First mounting groove 70
Piping 3b Second mounting groove 70a
Piping end 3c Third mounting groove 3d Fourth mounting groove

Claims (4)

[Claims] A pipe (2) having an oil passage (13) therein.
0) A connector sealing device for sealing a fitting space between a connection part (20a) and a joint part (2), wherein the connection part (20a) of the pipe (20) and the connection part (2) are sealed.
0a) a ring-shaped seal portion between the fitting portion (2) connecting the mating connection portion (21a) communicating with the oil passage and the fitting portion (20a, 21a) of the fitting portion (2). An annular mounting groove (3) for fitting (4, 5), wherein the annular groove made of nitrile rubber material is provided on the side of the mounting groove (3) where oil flows out from the oil passage (13). The first seal portion (4) is arranged and the second seal portion (made of rubber material) which is more cold-resistant than the first seal portion (4) on the atmosphere side from the first seal portion (4). (5) A connector sealing device, wherein (5) is arranged. 2. A seal ring (1) made of a resin material is provided between the first seal part (4) and the second seal part (5).
The connector sealing device according to claim 1, wherein 1) is arranged. 3. The first seal part (4) and the second seal part (5) are integrated via a support ring (14), and the side from which oil flows out from an oil passage (13) is formed. 2. The connector sealing device according to claim 1, wherein the connector is arranged as a first seal. 4. The mounting groove (3) comprises an annular first mounting groove (3a) and a second mounting groove (3b), wherein the oil in the first mounting groove (3a) is provided. An annular first seal portion (4) made of a nitrile rubber material is arranged on the side where oil flows out from the passage (13), and the first seal portion (4) is located closer to the atmosphere than the first seal portion (4). A second seal portion (5) made of a rubber material having better cold resistance than that of (4) is arranged, and a third seal portion (12) is arranged in the second mounting groove (3b); The third seal portion (12) is made of a nitrile rubber material for substantially half of the cross section on the oil outflow side from the oil passage (13) and the other half is made of the first seal portion (4). 2. The connector sealing device according to claim 1, wherein the connector sealing device is made of a rubber material having better cold resistance than that of the connector.