KR102414711B1 - Floating seal assembly - Google Patents

Abstract

The present invention relates to a floating seal assembly that prevents leakage of lubricant and inflow of foreign substances into a gap between a first casing and a second casing in which at least one rotates. A first sealing ring facing the first casing, one side protruding toward the gap between the first casing and the second casing, and the second casing facing the gap, one side of which is a gap between the first casing and the second casing a second sealing ring protruding toward and in contact with one side of the first sealing ring, and an O-ring provided between the first casing and the first sealing ring and between the second casing and the second sealing ring (O- ring) is included.

Description

Floating Seal Assemblies {FLOATING SEAL ASSEMBLY}

The present invention relates to a floating seal assembly that prevents the outflow of lubricating oil and the inflow of foreign substances into a gap between a pair of casings in which one of them rotates.

Construction machinery refers to all machines used in civil engineering works or building works. In addition, the construction machine can be largely divided into a crawler type using a crawler track and a wheel type using wheels according to the shape of the driving device.

Among them, the crawler-type construction machine uses driving mechanisms such as idlers and reducers to rotate the caterpillar, and lubricating oil is supplied for smooth operation of these driving mechanisms. In addition, a floating seal is used to prevent leakage of lubricant from the drive mechanism and prevent foreign substances such as soil or mud from entering the drive mechanism.

However, since construction machines typically operate in a poor working environment, the caterpillars of the construction machines are frequently exposed to soil, mud, and other pollutants. Therefore, foreign substances continuously flow into the gap of the driving mechanism, pressurizing the O-ring of the floating seal assembly, and as the O-ring is pushed under pressure, the compression force is reduced and the sealing surface There is a problem in that the surface pressure is lowered and oil leakage occurs.

Embodiments of the present invention provide a floating seal assembly with improved lifespan.

According to an embodiment of the present invention, the floating seal assembly for preventing the outflow of lubricant and the inflow of foreign substances into the gap between the first casing and the second casing in which at least one of them rotates is opposite to the first casing and , One side of the first sealing ring protruding toward the gap between the first casing and the second casing, and the second casing opposite, one side protrudes toward the gap between the first casing and the second casing a second sealing ring in contact with one side of the first sealing ring, and an O-ring provided between the first casing and the first sealing ring and between the second casing and the second sealing ring, respectively . The intersection between the inner peripheral surfaces of the first and second sealing rings and the surfaces of the first and second sealing rings in contact with the O-ring, respectively, is the inner peripheral surface of the first sealing ring and the second sealing ring and the The first casing and the second casing are respectively formed to be less than or equal to the angle obtained by adding 2 degrees to the pier between the surfaces in contact with the O-ring.

In addition, as the distance between the first casing and the second casing increases, the distance between the first casing and the first sealing ring and the distance between the second casing and the second sealing ring increase as the distance between the first casing and the second casing increases. The O-ring may be provided in the section.

In addition, a gap between the first casing and the second casing forms a gap passage, and the gap passage may include a labyrinth shape bent four or more times.

According to an embodiment of the present invention, the lifespan of the floating seal assembly can be improved.

1 is a cross-sectional view of a floating seal assembly according to a first embodiment of the present invention;
2 is a cross-sectional view of a floating seal assembly according to a second embodiment of the present invention.
3 is a cross-sectional view of a floating seal assembly according to a third embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in several different forms and is not limited to the embodiments described herein.

In addition, in various embodiments, the same reference numerals are used to represent components having the same configuration in the first embodiment, and only configurations different from those of the first embodiment will be described in other embodiments.

It is noted that the drawings are schematic and not drawn to scale. Relative dimensions and proportions of parts in the drawings are shown exaggerated or reduced in size for clarity and convenience in the drawings, and any dimensions are illustrative only and not limiting. And the same reference numerals are used to denote like features to the same structure, element, or part appearing in two or more drawings.

The embodiment of the present invention specifically represents an ideal embodiment of the present invention. As a result, various modifications of the diagram are expected. Accordingly, the embodiment is not limited to a specific shape of the illustrated area, and includes, for example, a shape modification by manufacturing.

Hereinafter, a floating seal assembly 101 according to a first embodiment of the present invention will be described with reference to FIG. 1 .

For example, the floating seal assembly 101 prevents leakage of lubricating oil supplied for smooth operation of driving mechanisms such as idlers and reducers for rotating the caterpillar of the construction machine, and prevents soil or mud from leaking into the driving mechanism. It can be used to prevent the inflow of the same foreign material.

Specifically, the floating seal assembly 101 may prevent leakage of lubricant and inflow of foreign substances into a gap between the first casing 210 and the second casing 220 in which at least one of them rotates. For example, the first casing 210 may be fixed, and the second casing 220 may rotate together with a drive shaft of the reducer. In addition, the first casing 210 and the second casing 220 may be disposed with a predetermined gap (G).

Meanwhile, the first casing 210 is a support of an idler used to rotate the caterpillar, and the second casing 220 may be a roller of the idler. That is, the idler may use the floating seal assembly 101 according to the first embodiment of the present invention to prevent leakage of lubricant.

As described above, the floating seal assembly 101 according to the first embodiment of the present invention can be installed in various rotating mechanisms used in construction machines to seal lubricant oil and prevent intrusion of mud or the like.

1, the floating seal assembly 101 according to the first embodiment of the present invention includes a first sealing ring 311, a second sealing ring 321, and a pair of O-rings. (400).

The first sealing ring 311 and the second sealing ring 321 are formed in an annular shape to be interposed between the first casing 210 and the second casing 220 , and the first casing 210 or the second casing 220 . Prevents leakage of the lubricating oil OL supplied between the first casing 210 and the second casing 220 for rotation of the . Hereinafter, in the present specification, it is assumed that the second casing 220 rotates. However, the first embodiment of the present invention is not limited thereto, and the first casing 210 may rotate or both the first casing 210 and the second casing 220 may rotate.

Specifically, the first sealing ring 311 and the second sealing ring 321 may have a symmetrical cross-sectional shape. As an example, the first sealing ring 311 may be formed in a cross-section of a “L” or “L” shape, and the second sealing ring 321 has a cross-section inverted from the shape of the first sealing ring 311 to the left and right. It may be formed in a shape.

The first sealing ring 311 faces the first casing 210 , and one side protrudes toward the gap between the first casing 210 and the second casing 220 . That is, one side of the first sealing ring 311 intersects the rotation center axis of the rotating second casing 220 and protrudes in a direction away from it. And the other side of the first sealing ring 311 is extended in a direction parallel to the rotation center axis of the rotating second casing 220 to face the lubricant.

The second sealing ring 321 faces the second casing 220 , and one side protrudes toward the gap between the first casing 210 and the second casing 220 to contact one side of the first sealing ring 311 . do. That is, one side of the second sealing ring 321 also crosses the rotation center axis of the rotating second casing 220 and protrudes in a direction away from it, and the other side of the second sealing ring 321 rotates the second casing 220 ) extends in a direction parallel to the axis of rotation center to face the lubricant.

In addition, a contact portion where one side of the first sealing ring 311 and one side of the second sealing ring 321 are in contact with each other is pressed against each other by the elastic force of the first sealing ring 210 and the second sealing ring 220 itself. can be sustained by being

The O-ring 400 is provided between the first casing 210 and the first sealing ring 311 and between the second casing 220 and the second sealing ring 321 , respectively.

One end of the first sealing ring 311 and one end of the second sealing ring 322 disposed to face each other between the pair of O-rings 400 are the first casing 210 and the second casing 220 . It is arranged in a shape that protrudes toward the gap between the liver. In addition, the other side of the first sealing ring 311 and the second sealing ring 321 faces the lubricating oil supplied between the first casing 210 and the second casing 220 .

That is, the O-ring 400 contacts the first sealing ring 311 and the first casing 210 between one side and the other side of the first sealing ring 311, respectively, to prevent leakage of lubricant and inflow of foreign substances (MD). and contact the second sealing ring 321 and the second casing 220 between one side and the other side of the second sealing ring 321, respectively, to prevent leakage of lubricating oil and inflow of foreign substances (MD).

In particular, according to the first embodiment of the present invention, the inner peripheral surfaces of the first sealing ring 311 and the second sealing ring 321 and the first sealing ring 311 and the second sealing ring 321 are the O-rings 400, respectively. ) and the pier (β) between the inner peripheral surfaces of the first sealing ring and the second sealing ring and the surfaces of the first casing and the second casing in contact with the O-ring, respectively, by adding 2 degrees to the pier α formed less than or equal to the angle.

In this way, the piers (β) between the inner peripheral surfaces of the first sealing ring 311 and the second sealing ring 321 and the surfaces of the first sealing ring 311 and the second sealing ring 321 contacting the O-ring 400, respectively. 2 degrees to the pier α between the inner peripheral surfaces of the first sealing ring 311 and the second sealing ring 321 and the surfaces of the first casing 210 and the second casing 220 in contact with the O-ring 400, respectively If the angle is formed to be less than or equal to the added angle, even if a foreign material (MD) such as earth or mud introduced into the gap (G) between the first casing 210 and the second casing 220 applies pressure to the O-ring 400 . The O-ring 400 is not easily pushed.

Conversely, the piers β between the inner peripheral surfaces of the first sealing ring 311 and the second sealing ring 321 and the surfaces of the first sealing ring 311 and the second sealing ring 321 contacting the O-ring 400, respectively. By adding 2 degrees to the pier (α) between the inner peripheral surfaces of the first sealing ring 311 and the second sealing ring 321 and the surfaces of the first casing 210 and the second casing 220 contacting the O-ring 400, respectively When the angle is greater than the angle, the O-ring 400 is easily pushed out by the pressure applied by the foreign material MD introduced into the gap G between the first casing 210 and the second casing 220, and the compression force of the O-ring 400 is reduced. It was confirmed through the experiment that the surface pressure of the first sealing ring 311 and the second sealing ring 321 was lowered, and thus oil leakage was easily generated.

Looking at the notable features of the floating seal assembly 101 according to the first embodiment of the present invention, those of ordinary skill in the art will see a gap between the first casing 210 and the second casing 220 ( When the distance between the first casing 210 and the first sealing ring 311 and the distance between the second casing 220 and the second sealing ring 321 increases as the distance from G) increases, the first casing ( When the foreign material MD introduced into the gap G between the 210 and the second casing 220 presses the O-ring 400 , it can be inferred that the O-ring 400 will be easily pushed structurally.

However, specifically, the piers (β) between the inner peripheral surfaces of the first sealing ring 311 and the second sealing ring 321 and the surfaces of the first sealing ring 311 and the second sealing ring 321 contacting the O-ring 400, respectively. ) is 2 degrees to the pier (α) between the inner peripheral surface of the first sealing ring 311 and the second sealing ring 321 and the surface where the first casing 210 and the second casing 220 are in contact with the O-ring 400, respectively If it is less than or equal to the angle plus , it was confirmed through an experiment with great effort that the O-ring 400 is not easily pushed when a foreign material such as earth or mud presses the O-ring 400 . This can be seen as a critical characteristic outside the range that can be inferred normally.

Most preferably, the piers between the inner peripheral surfaces of the first sealing ring 311 and the second sealing ring 321 and the surfaces where the first sealing ring 311 and the second sealing ring 321 are in contact with the O-ring 400, respectively ( β) is 1 on the pier α between the inner peripheral surfaces of the first sealing ring 311 and the second sealing ring 321 and the surfaces of the first casing 210 and the second casing 220 contacting the O-ring 400, respectively. It is formed to be less than or equal to the angle plus the degree. For example, if α is 10 degrees, β may be 11 degrees or less than 11 degrees.

In this case, the piers β between the inner peripheral surfaces of the first sealing ring 311 and the second sealing ring 321 and the surfaces of the first sealing ring 311 and the second sealing ring 321 contacting the O-ring 400, respectively. ) is smaller than the pier (α) between the inner peripheral surfaces of the first sealing ring 311 and the second sealing ring 321 and the surfaces of the first casing 210 and the second casing 220 contacting the O-ring 400, respectively. It was confirmed through the experiment that there was no difference in the degree of holding the O-ring 400 without being pushed against the pressure applied by the foreign material even in comparison with the .

With this configuration, the floating seal assembly 101 according to the first embodiment of the present invention has foreign substances such as earth or mud introduced into the gap G between the first casing 210 and the second casing 220 . Even if the (MD) pressure is applied to the O-ring 400, the O-ring 400 is not easily pushed, and even if the O-ring 400 is pushed, the compression force of the O-ring 400 is increased to prevent a decrease in the surface pressure of the sealing surface. can

Hereinafter, a floating seal assembly 102 according to a second embodiment of the present invention will be described with reference to FIG. 2 .

As shown in FIG. 2 , in the floating seal assembly 102 according to the second embodiment of the present invention, the farther away from the gap G between the first casing 210 and the second casing 220, the first casing It includes a section in which the distance between the 210 and the first sealing ring 312 and the distance between the second casing 220 and the second sealing ring 322 are close, and the O-ring 400 may be provided in the section. .

That is, a surface in which the first casing 210 and the O-ring 400 are in contact and a surface in which the first sealing ring 312 is in contact with the O-ring 400 form a wedge shape. In addition, a surface in which the second casing 220 and the O-ring 400 are in contact and a surface in which the second sealing ring 322 is in contact with the O-ring 400 also form a wedge shape.

In this way, the surface in which the first casing 210 and the O-ring 400 are in contact, the surface in which the first sealing ring 312 is in contact with the O-ring 400, and the second casing 220 and the O-ring 400 are in contact. The surface of the surface and the second sealing ring 322 in contact with the O-ring 400 is formed in a wedge shape, so that the soil or mud introduced into the gap G between the first casing 210 and the second casing 220 Even if a foreign material (MD) such as MD applies pressure to the O-ring 400 , the O-ring is not easily pushed, and as the O-ring is pushed, the compression force increases.

With this configuration, the floating seal assembly 102 according to the second embodiment of the present invention also has foreign substances such as earth or mud introduced into the gap G between the first casing 210 and the second casing 220 . Even if the (MD) pressure is applied to the O-ring 400, the O-ring 400 is not easily pushed, and even if the O-ring 400 is pushed, the compression force of the O-ring 400 is increased to prevent a decrease in the surface pressure of the sealing surface. can

Hereinafter, a floating seal assembly 103 according to a third embodiment of the present invention will be described with reference to FIG. 3 .

As shown in FIG. 3 , according to the floating seal assembly 103 according to the second embodiment of the present invention, a gap between the first casing 210 and the second casing 220 forms a gap flow path 230 . . In addition, the gap flow path 230 may include a labyrinth shape bent four or more times.

Accordingly, since it is possible to delay as much as possible the time for foreign substances such as external soil or mud to flow into the O-ring 400 , the lifespan of the floating seal assembly 103 can be improved.

In addition, the shapes of the first sealing ring 311 and the second sealing ring 321 may be formed to be the same as any one of the first or second embodiments described above.

With this configuration, the floating seal assembly 103 according to the third embodiment of the present invention also has foreign substances such as earth or mud introduced into the gap G between the first casing 210 and the second casing 220 . Even if the (MD) pressure is applied to the O-ring 400, the O-ring 400 is not easily pushed, and even if the O-ring 400 is pushed, the compression force of the O-ring 400 is increased to prevent a decrease in the surface pressure of the sealing surface. can

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains can understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential characteristics thereof. will be.

Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims, the meaning and scope of the claims, and All changes or modifications derived from the equivalent concept should be construed as being included in the scope of the present invention.

101, 102, 103: floating seal assembly
210, 213: first casing
220, 223: second casing
230: gap euro
311, 312: first sealing ring
321, 322: second sealing ring
400: O-ring

Claims (3)

In the floating seal assembly for preventing the outflow of lubricant and the inflow of foreign substances into the gap between the first casing and the second casing in which at least one of them rotates,
a first sealing ring facing the first casing and having one side protruding toward a gap between the first casing and the second casing;
a second sealing ring facing the second casing, one side protruding toward a gap between the first casing and the second casing, and contacting one side of the first sealing ring; and
O-rings respectively provided between the first casing and the first sealing ring and between the second casing and the second sealing ring
includes,
The piers between the inner peripheral surfaces of the first and second sealing rings and the surfaces of the first and second sealing rings in contact with the O-ring, respectively, are the inner peripheral surfaces of the first sealing ring and the second sealing ring and the The first casing and the second casing each have an angle equal to or less than the angle obtained by adding 1 degree to the pier between the surfaces in contact with the O-ring, and the inner peripheral surfaces of the first sealing ring and the second sealing ring and the first casing and the second casing are respectively Floating seal assembly, characterized in that it is larger than the pier between the O-ring and the contact surface. delete According to claim 1,
A gap between the first casing and the second casing forms a gap flow path,
The gap passage is a floating seal assembly, characterized in that it includes a labyrinth shape bent at least four times.

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