JP3634885B2 - Pump device - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a pump device in which a driving pulley is attached to one end of a driving shaft.
[0002]
[Prior art and problems to be solved by the invention]
Conventionally, a pump device such as a vane pump has been used as a power source of an automobile power steering. In this pump device, as shown in FIG. 3, a bearing 92 with a seal 92 a is fitted to the inner periphery of a substantially cylindrical shaft support portion 91 a of a housing 91, and a drive shaft 93 is fitted to an inner ring 92 b of the bearing 92. The drive shaft 93 is rotatably supported by the housing 91. A boss portion 94a of a pulley 94 is fitted to one end side of the drive shaft 93 so as to be integrally rotatable, and a rotor is fitted to the other end side so as to be integrally rotatable.
However, the pump device may be arranged near the lower part of the engine of the automobile. In this case, muddy water enters the inside of the bearing 92 through the gap between the inner ring 92b of the bearing 92 and the seal 92a, and the bearing There was a problem that the lifetime of 92 was significantly reduced.
[0003]
In order to solve such a problem, there is an oil seal interposed between the shaft support portion 91a of the housing 91 and the drive shaft 93 (see, for example, Japanese Utility Model Publication No. 22-22686). It was still insufficient as a countermeasure.
Therefore, it is conceivable to arrange the oil seals in a double row. However, since the distance between the pulley 94 and the bearing 92 is increased accordingly, the drive shaft 93 falls and the load on the bearing 92 increases. become. For this reason, depending on the model, it is difficult to arrange the oil seals in a double row because of space.
The present invention has been made in view of the above problems, and an object of the present invention is to provide a pump device that can effectively prevent muddy water from entering the inside of the bearing.
Another object of the present invention is to provide a pump device that can effectively prevent muddy water from entering the inside of the bearing even when the distance between the bearing and the pulley is narrow.
[0004]
[Means for Solving the Problems]
In order to achieve the above object, a pump device according to claim 1 is a tubular device in which the one end side of a drive shaft having a pulley boss portion attached to one end side and a rotor attached to the other end side is provided in a housing. In the pump device in which the shaft support portion is rotatably supported via a bearing, and an oil seal is interposed between the inner periphery of the shaft support portion of the housing and the boss portion of the pulley,
A dust cover that covers the end surface of the shaft support portion is fitted to the shaft support portion of the housing, and the oil seal is press-fitted into the inner periphery of a short cylindrical portion provided in the dust cover . The peripheral lip is brought into sliding contact with the outer periphery of the boss portion of the pulley, and a labyrinth is formed between the dust cover and the outer periphery of the boss portion of the pulley .
[0007]
The pump device according to claim 2 is characterized in that, in the pump device according to claim 1 , a flange portion is provided on the outer periphery of the dust cover to allow muddy water to flow down the outer periphery of the shaft support portion of the housing. Is.
[0008]
[Action]
According to the pump device according to the first aspect, the labyrinth between the dust cover and the outer periphery of the boss portion of the pulley can suppress the intrusion of muddy water into the dust cover. Further, the muddy water that has passed through the labyrinth can be prevented from entering the inside of the bearing by the inner peripheral lip of the oil seal that is brought into sliding contact with the outer periphery of the boss portion of the pulley.
Furthermore, since the oil seal is press-fitted into the short cylinder portion of the dust cover, the overall width of both can be made smaller than when the oil seal and the dust cover are arranged in parallel. For this reason, even when the space | interval of a bearing and a pulley is narrow, an oil seal and a dust cover can be arrange | positioned without trouble .
[0011]
According to the pump device of the second aspect , the muddy water that travels along the outer periphery of the shaft support portion of the housing can be caused to flow down and dripped by the flange portion. For this reason , it can suppress more effectively that the said muddy water permeates into the inside of a dust cover.
[0012]
【Example】
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 reference example of the pump device of the present invention. In this pump device, a drive shaft 4 is rotatably supported by a needle roller bearing 2 and a ball bearing 3 provided inside the housing 1, and a pulley 5 is attached to one end side of the drive shaft 4, A rotor 6 is attached to the other end side.
[0013]
A cylindrical shaft support portion 1a for supporting the drive shaft 4 protrudes from one end side of the housing 1, and the other end side is closed by a cover plate 1b. Further, a concave groove 1c is formed on the outer periphery of the shaft support portion 1a to allow muddy water flowing along the outer periphery to flow down.
Vanes are held at a plurality of locations on the outer periphery of the rotor 6 so as to be movable back and forth in the radial direction, and both side surfaces thereof are in close contact with the inner side surface of the cover plate 1b and the side plate 7, respectively. A cam ring 8 is provided on the outer periphery of the rotor 6 so that the vanes are in sliding contact with each other. Further, an oil seal 9 is provided on the inner back side of the ball bearing 3 to prevent hydraulic oil from leaking from the rotor 6 side.
[0014]
The ball bearing 3 is fitted to the inner periphery of the shaft support portion 1a of the housing 1, and an oil seal for preventing muddy water from entering the ball bearing 3 on the opening side of the shaft support portion 1a. 10 and a dust cover 11 are provided.
In the oil seal 10, a metal ring 10b is vulcanized and bonded to a rubber part 10a having an inner peripheral lip L1, and a disk part 10c bonded to the rubber part 10a is attached to the metal ring 10b. A short cylindrical portion 10d extending to the ball bearing 3 side is formed on the outer peripheral side. And this short cylinder part 10d is fitted by the outer periphery of the shaft support part 1a of the housing 1, In this state, while a part of the said rubber part 10a is introduced into the inside of the said shaft support part 1a, rubber | gum The inner peripheral lip L1 of the portion 10a is in sliding contact with the outer periphery of the boss portion 5a of the pulley 5. An O-ring 13 is embedded in the end face of the shaft support 1a to ensure airtightness with the metal ring 10b. An annular side lip L2 extending toward the pulley 5 is formed on the outer peripheral side of the rubber part 10a.
[0015]
The dust cover 11 is made of metal in which a short cylindrical portion 11a on the inner peripheral side, a short cylindrical portion 11b on the outer peripheral side, and a disk portion 11c that connects them are integrally formed. The portion 11a is closely fitted to the outer periphery of the boss portion 5a of the pulley 5, and the outer short tube portion 11b is opposed to the short tube portion 10c of the oil seal 10 with a small gap. In this state, the end surface of the shaft support 1a and the oil seal 10 are covered. The side lip L2 of the oil seal 10 is in sliding contact with the inner surface of the disc portion 11c of the dust cover 11.
Further, a labyrinth 14 is formed between the tip portions of the short cylinder portion 11 b of the dust cover 11 and the short cylinder portion 10 d of the oil seal 10. In this embodiment, the labyrinth 14 is configured by raising the tip of the short cylindrical portion 10d of the oil seal 10 in a bowl shape.
The boss portion 5a of the pulley 5 and the rotor 6 are spline-coupled to the drive shaft 4 so as to be able to rotate integrally with the drive shaft 4.
[0016]
If it is the above structure, when muddy water scatters with respect to a pump apparatus, the said muddy water will infiltrate the inside of the dust cover 11, and it is the short cylinder part 11b of the dust cover 11, and the short cylinder part of the oil seal 10. It can be suppressed by the labyrinth 14 between 10d. In particular, sand and stones contained in muddy water are effectively prevented from entering the dust cover 11 by the labyrinth 14. Further, the muddy water that has passed through the labyrinth 14 is prevented from entering the inner lip L1 side by the side lip L2 of the oil seal 10 that is in sliding contact with the inner surface of the dust cover 11. Furthermore, even when muddy water permeates the side lip L 2, the muddy water is prevented from entering the ball bearing 3 by the inner peripheral lip L 1 of the oil seal 10.
As described above, the pump device prevents the muddy water from entering the ball bearing 3 in three stages, and therefore can effectively prevent the muddy water from entering.
[0017]
Further, since the muddy water traveling along the outer periphery of the shaft support portion 1a of the housing 1 can be caused to flow down and drop along the concave groove 1c, the amount of muddy water reaching the labyrinth 14 is reduced, and the muddy water becomes dust. Intrusion into the cover 11 can be more effectively suppressed.
The short cylinder portion 10d of the metal ring 10b of the oil seal 10 may be press-fitted into the inner periphery of the shaft support portion 1a of the housing 1. In this case, the labyrinth 14 is connected to the short portion of the dust cover 11. What is necessary is just to comprise between the cylinder part 11b and the outer peripheral surface of the said shaft support part 1a. Moreover, it may replace with the said ditch | groove 1c for draining, and may provide an annular collar part.
[0018]
FIG. 2 is a cross-sectional view of a main part showing a pump device according to an embodiment of the present invention . In this pump device, a dust cover 11 is attached to the housing 1 side, and an oil seal 10 is held by the dust cover 11.
More specifically, the dust cover 11 forms a first short cylindrical portion 11d along the outer peripheral edge of the disc portion 11f, and has a predetermined interval on the inner peripheral side thereof, and the second short cylindrical portion 11e. The first short cylinder portion 11d is closely fitted to the outer periphery of the shaft support portion 1a of the housing 1, and in this state, the second short tube portion 11e is connected to the shaft support portion. It is introduced inside 1a. The oil seal 10 is held by the dust cover 11 by press-fitting the bowl-shaped metal ring 10 e into the second short cylinder portion 11 e of the dust cover 11. Further, the gap between the inner periphery of the disk portion 11f and the outer periphery of the boss portion 5a of the pulley 5 is configured as a labyrinth 14 with a minute interval, and at the outer periphery of one end portion of the first short cylinder portion 11d. An annular flange portion 11g for allowing muddy water flowing down the outer periphery of the shaft support portion 1a of the housing 1 to protrude is provided.
[0019]
According to the pump device, the labyrinth 14 between the dust cover 11 and the boss portion 5 a of the pulley 5 can suppress the intrusion of muddy water into the dust cover 11. Further, the muddy water that has passed through the labyrinth 14 and entered the dust cover 11 is prevented from entering the ball bearing 3 by the inner lip L1 of the oil seal 10. And since the muddy water which propagates the outer periphery of the shaft support part 1a of the housing 1 can be dripped along the said flange part 11g, it suppresses that the said muddy water permeates the inside of the dust cover 11 more effectively. Can do.
[0020]
Particularly in this embodiment, since the oil seal 10 is press-fitted into the second short cylinder portion 11e of the dust cover 11, the oil seal 10 and the dust cover 11 are arranged in parallel with each other. Rather, the overall width of both can be reduced. For this reason, even when the space | interval of the ball bearing 3 and the pulley 5 is narrow, the oil seal 10 and the dust cover 11 can be arrange | positioned without trouble.
In the above pump device, the second short cylinder portion 11e of the dust cover 11 may be closely fitted to the inner periphery of the shaft support portion 1a of the housing 1, and in this case, the first cover of the dust cover 11 may be fitted. There is no need to form the short cylinder portion 11d.
[0021]
【The invention's effect】
As described above, according to the pump device of the first aspect, the labyrinth configured between the dust cover and the outer periphery of the boss portion of the pulley can suppress the intrusion of muddy water into the dust cover. The muddy water that has passed through the labyrinth can be prevented from entering the inside of the bearing by the inner peripheral lip of the oil seal that is in sliding contact with the outer periphery of the boss portion of the pulley.
Further, since the oil seal is held by the dust cover, the overall width of both can be made smaller than when the oil seal and the dust cover are arranged in parallel. For this reason, even when the space | interval of a bearing and a pulley is narrow, an effective waterproofing measure can be taken.
According to the pump device of the second aspect, the muddy water that travels along the outer periphery of the shaft support portion of the housing can be dripped along the flange portion, and the muddy water can be prevented from entering the dust cover. For this reason, it is possible to more effectively prevent the muddy water from entering the inside of the bearing.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a reference example of a pump device according to the present invention.
FIG. 2 is a cross-sectional view of main parts showing an embodiment of the pump device of the present invention . FIG. 3 is a cross-sectional view of main parts showing a conventional example.

Claims (2)

While supporting the boss portion of the pulley on one end side and the one end side of the drive shaft with the rotor on the other end side, respectively, via a bearing on a cylindrical shaft support provided in the housing, In the pump device in which an oil seal is interposed between the inner periphery of the shaft support portion of the housing and the boss portion of the pulley,
A dust cover that covers the end surface of the shaft support portion is fitted to the shaft support portion of the housing, and the oil seal is press-fitted into the inner periphery of a short cylindrical portion provided in the dust cover. A pump device characterized in that a circumferential lip is brought into sliding contact with the outer periphery of a boss portion of a pulley, and a labyrinth is formed between the dust cover and the outer periphery of the boss portion of the pulley. The outer periphery of the dust cover, the pump apparatus of projecting and formed by claim 1, wherein the flange portion to flow down the muddy water flowing along the outer periphery of the shaft support housing.

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