JP2555588B2 - Lip seal device for tarpaulin - Google Patents

Description

The present invention relates to a lip seal device, and more particularly to a lip seal device suitable for use in a turbocharger.

"Prior Art" Conventionally, a non-contact type ring seal device (Japanese Patent Laid-Open No. 61-11424) or a contact type mechanical seal device (Japanese Patent Laid-Open No. 57- No. 80628) is used.

"Problems to be Solved by the Invention" Generally, the non-contact type ring seal device has a poor sealing property, but has a good responsiveness, that is, good followability of the rotational speed of the turbocharger that increases with an increase in the engine rotational speed. On the other hand, the contact type mechanical seal device, on the contrary, tends to have a good sealing property but a poor responsiveness.
It has been desired to develop a sealing device for a turbocharger, which has excellent sealing property and responsiveness and can be manufactured at low cost.

[Means for Solving the Problems] In view of such circumstances, the present invention provides a retainer that rotatably penetrates a turbine shaft of a turbocharger, a recess formed in the retainer around the turbine shaft, and an outer circumference. A portion that is housed in the recessed portion, an inner peripheral portion of which is in sliding contact with the outer peripheral surface of the turbine shaft, and a spacer that is fitted in the recessed portion and that fixes the outer peripheral portion of the lip to a retainer, Further, in the spacer, a protrusion protruding toward the inner wall end surface of the recess is formed on the outer peripheral portion of the main body portion, and the protrusion amount of the protrusion is set to be smaller than the thickness of the lip in a natural state by a predetermined amount, and A lip for a turbocharger, characterized in that the projection is brought into contact with the inner wall end surface of the recess so that the lip is sandwiched between the body portion of the spacer and the inner wall end surface of the recess. A sealing device is provided.

"Operation" With such a configuration, it is possible to obtain almost the same level of performance as the mechanical seal device in terms of sealability, and it is superior to the mechanical seal device in terms of responsiveness, although it does not reach that of the ring seal device. Since it can be obtained and the structure is simple, it can be manufactured at low cost.

Further, since the protrusion amount of the protrusion is set to be smaller than the thickness of the lip in the natural state by a predetermined amount, the outer peripheral portion of the lip can be attached in a compressed state by a necessary amount. Therefore, it is possible to prevent rotation of the lip, ensure good sealing properties of that portion, and prevent the durability from being lowered by compressing the lip more than necessary. . Further, by providing the above-mentioned projection, the press-fitting length of the spacer can be increased by that amount as compared with the case where this is omitted, so that the necessary press-fitting dimension can be secured and the axial dimension of the lip seal device can be secured. Can be shortened.

"Embodiment" The present invention will be described below with reference to the illustrated embodiment. In Fig. 1, a retainer 1 which is attached to a housing of a turbocharger (not shown) and constitutes a part of the housing has a compressor chamber 2 on the left side thereof together with the housing. , The bearing chambers 3 are formed on the right side.

A through hole 4 is formed in the shaft portion of the retainer 1,
A turbine shaft 5 which penetrates the through hole 4 on the same axis as the through hole 4 is rotatably supported by a bearing (not shown) in the bearing chamber 3. Then, a compressor impeller (not shown) is attached to the left end portion of the turbine shaft 5 located in the compressor chamber 2, and the other end penetrates the bearing chamber 3 and then projects into the turbine chamber.
A turbine wheel is attached to the protruding end.

A cylindrical concave portion 6 is formed concentrically with the through hole 4 on the end surface of the retainer 1 on the bearing chamber 3 side, and a cylindrical spacer 7 is press-fitted into the concave portion 6 to form the spacer. The outer peripheral portion of the lip 8 is sandwiched between the retainer 1 and the retainer 1.

In this embodiment, the recess 6 is formed on the outer peripheral portion of the spacer 7.
Yes and the annular projection 7a which projects towards the inner wall end surface of the formation, it lip 8 in the natural state protruding amount l ₁ of the protrusion 7a
Is set smaller than the thickness l ₂ by a predetermined amount, and the axial dimension of the outer peripheral surface of the spacer 7 matches the axial depth of the recess 6.

The outer peripheral portion of the lip 8 is sandwiched between the inner peripheral surface of the protrusion 7a and the outer peripheral surface of the lip 8 with a required gap, and the inner peripheral portion thereof is located on the bearing chamber 3 side. It is curved and slidably contacts the outer peripheral surface of the turbine shaft 5 or the outer peripheral surface of the sleeve 9 that rotates integrally with the turbine shaft 5.

In the above structure, when assembling the turbocharger, the turbine shaft 5 is rotatably supported on the housing (not shown), the sleeve 9 is assembled to the housing, and the retainer 1 is mounted on the housing. Then, the inner peripheral portion of the lip 8 is evenly adhered to the outer peripheral surface of the sleeve 9 so that the axial center of the sleeve 9 and the center of the lip 8 coincide with each other, and the outer peripheral portion of the lip 8 is positioned in the recess 6 of the retainer 1. Then, the spacer 7 is press-fitted until the projection 7a thereof comes into contact with the end surface of the inner wall of the recess 6.

At this time, since a required gap is formed between the inner peripheral surface of the projection 7a and the outer peripheral surface of the lip 8, the center of the lip 8 does not deviate from the axial center of the sleeve 9, and the projection Since the protrusion amount l _{1 of} 7a is set to be smaller than the thickness l ₂ of the lip 8 in the natural state by a predetermined amount, the outer peripheral portion of the lip 8 is attached in a compressed state by a necessary amount.

Therefore, it is possible to prevent the lip 8 from rotating, and also to ensure a good sealing property of that portion, and also to prevent the durability from being lowered by compressing the lip 8 more than necessary. it can. Further, by providing the projection 7a, the press-fitting length of the spacer 7 can be increased by that amount as compared with the case where the projection 7a is omitted. Therefore, the shaft of the lip seal device can be secured while ensuring the necessary press-fitting dimension. The directional dimension can be shortened.

If necessary, the inner peripheral surface of the projection 7a and the lip 8
By providing a seal member such as an O-ring in the gap between the outer peripheral surface of
It is possible to more surely secure the sealing property.

Then, the lip seal device having the above-mentioned structure was tested for sealability and responsiveness, and the sealability was far superior to that of the conventionally known ring seal device, and it was possible to obtain almost the same performance as the mechanical seal device. It was Although the response is less than that of the ring seal device, it is about 20% less than that of the mechanical seal device.
We were able to achieve an improvement of over%.

Next, FIG. 2 shows another embodiment of the present invention.
In the above embodiment, the lip 8 is directly attached to the retainer 1 by the spacer 7, whereas in the present embodiment, the lip 8 is attached to the case 10 by the spacer 7 and the case 10 is attached to the retainer 1. .

That is, the case 10 is formed in a ring shape, and a cylindrical recess 11 is formed concentrically with the through hole 4 on the end surface of the case 10 on the bearing chamber 3 side. As shown by the imaginary line, it is configured as a ring-shaped member having an L-shaped cross section.

Then, the seal member 13 is housed in the annular groove 12 formed on the inner wall end surface of the recess 11, and then the outer peripheral portion of the lip 8 is housed in the recess 11, and the outer periphery of the lip 8 is further covered by the spacer 7 having the protrusion 7a. The spacer 7 is integrally fixed to the case 10 by crimping the tip portion 10a of the case 10 in a state of sandwiching the portion. Further, a step portion 14 is formed at an outer peripheral corner of the case 10, a seal portion 15 is fitted therein, and then the case 10 is press-fitted into the recess 6 of the retainer 1.

Also in this embodiment, it is clear that by appropriately setting the protrusion amount of the protrusion 7a, an appropriate compression amount of the lip 8 can be secured, and the same operational effect as the above embodiment can be obtained. is there.

In this embodiment, the spacer 7 is fixed to the case 10 by caulking, but it can be fixed by pressing the spacer 7 into the recess 11 of the case 10 as in the above-described embodiment, Depending on the seal member 13,15
May be omitted.

Further, another embodiment of the present invention shown in FIG. 3 is provided with two lips 8, 8 and the lip 8 and the spacer 7 having the structure shown in FIG. In this state, the recess 16 formed in the retainer 1 in that state is press-fitted into the recess 16 having a depth twice that of the recess 6.

Further, as another embodiment related to FIG.
Obviously, it is also possible to provide two sets of lips 8 and spacers 7 in a stack in 10 as well as a fourth
As shown in the drawing, the spacer 7 located inside the recess 16 of the retainer 1 in FIG. 3 is divided into a cylindrical projection portion radially outward and a ring-shaped portion inside thereof, and the cylindrical portion thereof is divided. May be integrally connected to the protrusion 7a of the spacer 7 outside the recess 16. Of course, the structure shown in FIG. 4 can also be adopted when the two sets of lips 8 and the spacers 7 are provided in the case 10 in an overlapping manner.

"Effects of the Invention" As described above, according to the present invention, it is possible to provide a lip seal device for a turbocharger, which is excellent in sealing property and responsiveness at the same time as compared with the conventional device, and further, the lip seal device. Since it has a simple structure and is excellent in assembling, it is possible to obtain an effect that it can be manufactured at low cost.

In addition, the protrusions provided on the spacer can prevent deterioration of durability caused by compressing the lip more than necessary, and the press-fitting length of the spacer can be increased by that amount. It is possible to obtain the effect that the axial dimension of the lip seal device can be shortened while ensuring the above.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of the present invention, and FIGS. 2 to 4 are sectional views showing other embodiments of the present invention. 1 ... Retainer, 4 ... Through hole 5 ... Turbine shaft, 6, 11, 16 ... Recess 7 ... Spacer, 7a ... Protrusion 8 ... Lip, 10 ... Case

Claims (3)

(57) [Claims] 1. A retainer rotatably penetrating a turbine shaft of a turbocharger, a recess formed in the retainer around the turbine shaft, and an outer peripheral portion housed in the recess, and an inner peripheral portion of the turbine. The shaft is provided with a lip slidably in contact with the outer peripheral surface of the shaft, and a spacer fitted in the concave portion to fix the outer peripheral portion of the lip to the retainer. Forming a protrusion projecting toward the inner wall end face, setting the protrusion amount of the protrusion smaller than the thickness of the lip in a natural state by a predetermined amount, and contacting the protrusion with the inner wall end face of the recess, A lip seal device for a turbocharger, wherein a lip is sandwiched between a main body portion of the spacer and an end surface of an inner wall of the recess. 2. The lip seal device for a turbocharger according to claim 1, wherein the recess is formed in a case integrally attached to the retainer. 3. The lip and the spacer for fixing the lip as one set, and a plurality of them are arranged in an overlapping manner, and the lip is arranged. Lip seal device for turbocharger.