JP2015048855A - Seal member - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a seal member which inhibits a sealed fluid from leaking to the atmosphere side due to foreign objects being stacked in a main lip part.SOLUTION: A seal member 3 includes: a main lip part 12 which slidably contacts with an outer peripheral surface 40a of a shaft 40 to inhibit a sealed fluid at an inner part side A of a housing 30 from leaking to an exterior part side B; and an auxiliary lip part 13 which slidably contacts with the outer peripheral surface 40a of the shaft 40 at the exterior part side B relative to the main lip part 12 to inhibit foreign objects at the exterior part side B from entering into the inner part side A. The seal member 3 includes a sub lip part 14 provided between a slide contact portion in the main lip part 12, which slidably contacts with the outer peripheral surface 40a of the shaft 40, and a slide contact portion in the auxiliary lip part 13, which slidably contacts with the outer peripheral surface 40a of the shaft 40, and forming a labyrinth gap S with the outer peripheral surface 40a of the shaft 40.

Description

  The present invention relates to a seal member including a main lip portion that suppresses leakage of a sealing fluid in a housing to the atmosphere side, and an auxiliary lip portion that suppresses entry of foreign matter into the housing.

  Conventionally known as a seal member provided between the inner peripheral surface of the housing and the outer peripheral surface of the shaft rotating in the housing, the sealing fluid in the housing leaks to the atmosphere side by sliding contact with the outer peripheral surface of the shaft. A main lip portion for preventing the dust and an auxiliary lip portion for preventing foreign matter such as dust and sand in the atmosphere from entering the housing by sliding contact with the outer peripheral surface of the shaft on the atmosphere side of the main lip portion. (For example, refer patent document 1).

JP 2001-159467 A

In the sealing member, when used in an environment where foreign matter such as dust is contained in the atmosphere, the foreign matter passes between the auxiliary lip portion and the outer peripheral surface of the shaft, and the auxiliary lip portion and the main lip portion. May invade between. In this case, there is a problem that the sealing fluid in the housing leaks to the atmosphere side when foreign matter is caught in the sliding contact portion of the main lip portion with the outer peripheral surface of the shaft.
The present invention has been made in view of such problems, and a sealing member capable of suppressing leakage of the sealing fluid to the atmosphere side due to foreign matter biting into the main lip portion. The purpose is to provide.

  In order to prevent the sealing fluid in the housing from leaking to the atmosphere side, the sealing member of the present invention prevents the main lip portion that is in sliding contact with the outer peripheral surface of the shaft and foreign matter on the atmosphere side from entering the housing. An auxiliary lip portion that is in sliding contact with the outer peripheral surface of the shaft on the atmosphere side of the main lip portion to suppress the sliding contact between the main lip portion and the outer peripheral surface of the shaft. A sub lip portion that is provided between a portion and a sliding contact portion of the auxiliary lip portion with the outer peripheral surface of the shaft, and that forms a labyrinth gap between the outer peripheral surface of the shaft and the auxiliary lip portion. To do.

  According to the present invention, since the auxiliary lip portion is provided between the sliding contact portion of the main lip portion and the sliding contact portion of the auxiliary lip portion, the auxiliary lip passes between the auxiliary lip portion and the outer peripheral surface of the shaft. The foreign matter that has entered between the main lip portion and the main lip portion can be prevented from moving toward the main lip portion by the sub lip portion. Thereby, since it can suppress that a foreign material bites into the sliding contact part of a main lip part, it can suppress that the sealing fluid in a housing leaks to the atmosphere side. Further, since the auxiliary lip portion is not in contact with the outer peripheral surface of the shaft by the labyrinth gap, it is possible to prevent the rotational torque of the shaft from increasing.

  According to the present invention, it is possible to prevent the sealing fluid from leaking to the atmosphere due to the foreign matter biting into the main lip portion.

It is sectional drawing which shows the sealing device provided with the sealing member which concerns on one Embodiment of this invention. It is a principal part expanded sectional view of FIG. 1 which shows the sub lip part of the said sealing member. It is a table | surface which shows the test result of the verification test regarding the time until oil leaks from the said sealing member.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
FIG. 1 is a cross-sectional view showing a sealing device including a sealing member according to an embodiment of the present invention. As shown in FIG. 1, the sealing device 1 is provided between an inner peripheral surface 30 a of the housing 30 and an outer peripheral surface 40 a of the shaft 40 inside the housing 30. The sealing device 1 is used for, for example, an automobile engine (not shown). Sealing fluid such as engine oil on the inner side A of the housing 30 leaks to the outer side (atmosphere side) B of the housing 30. In addition to the suppression, foreign matter such as dust and sand on the outer side B is prevented from entering the inner side A. The sealing device 1 shown in FIG. 1 shows a natural state before deformation, which is before being mounted between the inner peripheral surface 30a of the housing 30 and the outer peripheral surface 40a of the shaft 40.

The sealing device 1 includes an annular cored bar 2 having an L-shaped cross section, a seal member 3 fixed to the cored bar 2, and an annular spring ring 4. The cored bar 2 is made of, for example, a metal annular member, and includes a cylindrical portion 2a and an annular plate portion 2b bent inward in the radial direction from one end portion of the cylindrical portion 2a.
The spring ring 4 is a so-called garter spring, and is fitted in a circumferential groove 12e of the main lip portion 12 described later. The spring ring 4 fastens the main lip portion 12 in the radially inward direction.

  The seal member 3 is made of an elastic member such as synthetic rubber, and is fixed to the cored bar 2 by adhesion by vulcanization or baking. The seal member 3 includes a main body portion 11 fixed to the metal core 2, a main lip portion 12 extending from the inner peripheral side portion of the main body portion 11 to the shaft 40 side and the inner side A, and the inner peripheral side of the main body portion 11 The auxiliary lip portion 13 extending from the portion to the shaft 40 side and the outer side B, and the auxiliary lip portion 14 provided on the main lip portion 12 are provided.

  The main body 11 is provided on the axial outer periphery 11 a provided on the outer side in the axial direction of the cored bar 2, on the radial outer peripheral part 11 b provided on the radial outer side of the cored bar 2, and on the inner side in the axial direction of the cored bar 2. And an axially inner peripheral portion 11c. The main body 11 is fixed to the inner peripheral surface 30 a side of the housing 30. Thereby, the sealing device 1 is fixed to the housing 30 side.

  The main lip portion 12 is in contact with the outer peripheral surface 40a of the shaft 40 with a tightening margin so as to suppress leakage of the sealing fluid on the inner side A to the outer side B. The main lip portion 12 has a substantially V-shaped cross section, and the minimum diameter portion (top portion) is the lip tip portion 12a. On the inner peripheral surface of the main lip portion 12, a surface gradually increasing in diameter toward the outer side B from the lip tip portion 12a is defined as a first inclined surface 12b, and gradually expanding toward the inner side A from the lip tip portion 12a. The surface to be radiused is the second inclined surface 12c. The lip tip portion 12 a side of the first inclined surface 12 b is a sliding contact surface (sliding contact portion) that is in sliding contact with the outer peripheral surface 40 a of the shaft 40.

  The first inclined surface 12b of the main lip portion 12 is formed with a spiral portion 12d for returning the sealing fluid that is about to leak by the rotation of the shaft 40 (or the rotation of the housing 30) to the inner side A. The spiral portion 12d is formed as protrusions (ribs) that are inclined with respect to the center line X of the seal member 3 at a plurality of locations in the circumferential direction of the first inclined surface 12b. When the sealing fluid on the inner side A leaks from the sliding contact portion with the shaft 40 of the main lip portion 12 to the outer side B, the projecting strip causes the leaked sealing fluid to move to the inner side as the shaft 40 rotates. Function to return to A (pump function). On the outer peripheral surface of the main lip portion 12, a circumferential groove 12e formed in a circular arc shape is formed over the entire circumference.

  The auxiliary lip portion 13 is provided on the outer side B of the main lip portion 12 via the space portion 15. That is, an annular shape is formed between the inner peripheral surface of the auxiliary lip portion 13 (first inclined surface 13b described later), the inner peripheral surface of the main lip portion 12 (first inclined surface 12b), and the outer peripheral surface 40a of the shaft 40. A space portion 15 is formed.

  The auxiliary lip portion 13 is in contact with the outer peripheral surface 40a of the shaft 40 with a tightening margin so as to prevent foreign matter from entering the inner side A from the outer side B. On the inner peripheral surface of the auxiliary lip portion 13, a first inclined surface 13 b is formed that gradually decreases in diameter from the main body portion 11 side of the seal member 3 toward the outer side B (left side in the drawing). Further, a second inclined surface 13 c that gradually decreases in diameter from the main body 11 side of the seal member 3 toward the outer side B is formed on the outer peripheral surface of the auxiliary lip portion 13. The minimum diameter portion of the first inclined surface 13b is a lip tip portion 13a. The first inclined surface 13b has a surface on the inner side A from the lip tip portion 13a as a sliding contact surface (sliding contact portion) with the shaft 40.

  FIG. 2 is an enlarged cross-sectional view of the main part of FIG. 1 showing the auxiliary lip part 14 of the seal member 3. As shown in FIG. 2, the sub lip portion 14 includes a sliding contact portion of the main lip portion 12 with the outer peripheral surface 40 a of the shaft 40 and an outer peripheral surface 40 a of the shaft 40 of the auxiliary lip portion 13 in the space portion 15. It is provided between the sliding parts. Specifically, the sub lip portion 14 is formed so as to protrude radially inward on the first inclined surface 12 b of the main lip portion 12. The sub lip portion 14 is formed on the outer side B than the spiral portion 12d of the main lip portion 12 in a cross-sectional view.

  The sub lip portion 14 has a substantially V-shaped cross section, and the minimum diameter portion (top portion) is the lip tip portion 14a. The surface on the outer side B from the lip tip portion 14a of the sub lip portion 14 is a vertical surface 14b extending perpendicularly to the center line X. Further, the surface on the inner side A from the lip tip portion 14 a of the sub lip portion 14 is an inclined surface 14 c that is inclined with respect to the center line X by a predetermined angle α. A labyrinth gap S is formed between the lip tip portion 14 a of the sub lip portion 14 and the outer peripheral surface 40 a of the shaft 40.

The labyrinth gap S is set to a size that does not contact the outer peripheral surface 40a of the shaft 40 even if the sliding contact portion of the main lip portion 12 with the outer peripheral surface 40a of the shaft 40 is worn to some extent. In this embodiment, it is set to 0.225 mm, for example.
The predetermined angle α is easy to discharge foreign matter that has passed through the labyrinth gap S and has entered between the sliding contact portion of the sub lip portion 14 and the main lip portion 12 to the outside B, and does not interfere with the spiral portion 12d. Is set to In this embodiment, it is set to 23 degrees, for example.

  Next, in order to verify the effect of the sealing member 3 according to the above embodiment, the result of a verification test conducted by the present inventors will be described. In this verification test, with the oil chamber disposed on the inner side A from the seal member 3 and the dust box disposed on the outer side B from the seal member 3, the shaft 40 is rotated at 3000 rpm for one minute and then stopped for one minute. When the operation was repeated as one cycle, the time until the oil in the oil chamber leaked to the external side B was measured. The dust box contained dry dust having a particle diameter of 150 μm or more, and the amount of dry dust was 5% (130 g) of the volume of the dust box. Further, in this verification test, the verification test was performed for each of the five example products that are examples of the present embodiment and the five comparative example products that are conventional seal members that do not have a sub lip.

  FIG. 3 shows the test results of the verification test regarding the time until oil leaks. As shown in FIG. 3, in the comparative product, oil leaks in 5 to 20 hours, whereas in the practical product, oil leaks in 80 to 110 hours. It can be seen that the time until leakage is improved by 4 times or more.

  As described above, according to the seal member 3 of the present embodiment, between the sliding contact portion of the main lip portion 12 with the outer peripheral surface 40a of the shaft 40 and the sliding contact portion of the auxiliary lip portion 13 with the outer peripheral surface 40a of the shaft 40. Since the auxiliary lip portion 14 is provided in the outer lip portion 14, the foreign matter that has passed between the auxiliary lip portion 13 and the outer peripheral surface 40 a of the shaft 40 from the outer side B moves to the main lip portion 12 side by the auxiliary lip portion 14. Can be suppressed. Thereby, since it can suppress that a foreign material bites into the sliding contact part with the outer peripheral surface 40a of the axis | shaft 40 in the main lip part 12, it can suppress that a sealing fluid leaks to the atmosphere side B. Further, since the lip tip portion 14a of the sub lip portion 14 is not in contact with the outer peripheral surface 40a of the shaft 40 by the labyrinth gap S, it is possible to prevent the rotational torque of the shaft 40 from increasing.

  The present invention is not limited to the above-described embodiment, and can be implemented with appropriate modifications. For example, although the sub lip portion 14 in the above embodiment is provided in the main lip portion 12, the sliding contact portion of the main lip portion 12 with the outer peripheral surface 40 a of the shaft 40 and the outer periphery of the shaft 40 in the auxiliary lip portion 13. As long as it is between the sliding contact part with the surface 40a, it may be provided in the main body part 11 or the auxiliary lip part 13.

  3: seal member, 12: main lip portion, 13: auxiliary lip portion, 14: auxiliary lip portion, 40: shaft, 40a: outer peripheral surface, B: external side (atmosphere side), S: labyrinth gap

Claims (1)

A main lip portion slidably in contact with the outer peripheral surface of the shaft in order to prevent the sealed fluid in the housing from leaking to the atmosphere side;
In order to suppress the entry of foreign matter on the atmosphere side into the housing, an auxiliary lip portion slidably contacting the outer peripheral surface of the shaft on the atmosphere side than the main lip portion,
A labyrinth gap provided between a sliding contact portion of the main lip portion with the outer peripheral surface of the shaft and a sliding contact portion of the auxiliary lip portion with the outer peripheral surface of the shaft, and the outer peripheral surface of the shaft. A sealing member comprising a secondary lip portion for forming

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