JP6359251B2 - Idler pulley support device - Google Patents

Description

  The present invention relates to an idler pulley support device for guiding the movement of an engine accessory driving belt.

  An idler pulley that guides the movement of an accessory driving belt of an automobile engine is normally rotatably supported by a sleeve fixed to the engine block via a rolling bearing.

  In the above-described idler pulley support device, if the rolling bearing is exposed to the outside, the rolling bearing may be damaged due to a collision with a flying foreign object, and foreign substances such as water and dust may be damaged. Since it enters the bearing and damages the rolling bearing at an early stage, it is necessary to take measures to prevent collision and intrusion of foreign matter.

  In the idler pulley support device described in Patent Document 1, both side surfaces of the rolling bearing are covered by assembling a pair of dust covers whose inner diameter portions are supported by a sleeve.

JP 2003-194077 A

  By the way, in the idler pulley support device described in Patent Document 1, an inward cylindrical portion is provided on each outer peripheral portion of the pair of dust covers, and a minute gap is provided between the cylindrical portion and the inner diameter surface of the idler pulley. Therefore, it is possible to effectively prevent the entry of foreign matters such as water, but once the foreign matter has entered, the cylindrical part obstructs the movement of the foreign matter radially outward and smoothly discharges to the outside. The life of the rolling bearing is affected by the entry of stagnant foreign matter into the bearing.

  The object of the present invention is to prevent the entry of foreign matter such as water into the dust cover and to smoothly discharge the foreign matter to the outside, thereby suppressing the deterioration of the durability of the rolling bearing that supports the idler pulley. It is to be.

  In order to solve the above problems, in the first invention, an idler pulley is rotatably supported on the outer periphery of a sleeve fixed to a stationary member via a rolling bearing, and an inner diameter portion is supported by the sleeve. The idler pulley support device is configured to cover both side surfaces of the rolling bearing with a pair of annular dust covers disposed to face the inner surface of the rim of the idler pulley with a minute gap therebetween. The structure which provided the taper surface in each outer peripheral part of the side surface was employ | adopted.

  In the idler pulley support device having the above-described configuration, when foreign matter enters between the facing portions of the dust cover and the rolling bearing, the foreign matter moves radially outward due to centrifugal force due to rotation of the idler pulley, Guided by the taper surface provided on the outer periphery of the cover, it will be discharged to the outside through a minute gap formed between the outer periphery of the dust cover and the inner surface of the rim, so that no foreign matter stays outside. It can be discharged smoothly.

  Here, when the tapered surfaces having the open ends as the large-diameter ends are provided at both end portions of the inner surface of the rim of the idler pulley, the invading foreign matter can be smoothly discharged to the outside.

  In order to solve the above problems, in the second invention, an idler pulley is rotatably supported on the outer periphery of a sleeve fixed to a stationary member via a rolling bearing, and an inner diameter portion is supported by the sleeve. The idler pulley support device is configured to cover both side surfaces of the rolling bearing with a pair of annular dust covers arranged to face the inner surface of the rim of the idler pulley with a minute gap. The structure which provided the taper surface which makes an opening end the large diameter end in the circumferential both ends was employ | adopted.

  Also in the second aspect of the invention, the invading foreign matter that moves outward in the radial direction by the centrifugal force generated by the rotation of the idler pulley can be smoothly guided to the outside by the tapered surfaces provided at both inner peripheral ends of the rim. As in the first invention, the invading foreign matter can be smoothly discharged to the outside.

  Here, the taper surface provided on the outer periphery of the dust cover and the taper surfaces provided on both ends of the inner periphery of the rim may be linear in the cross-sectional shape, or may be a concave curve. It may be.

  As in the first aspect of the invention, the outer surface of the dust cover is provided with a tapered surface, or as in the second aspect of the invention, the tapered surface is provided at both ends of the inner periphery of the rim so as to retain intruding foreign matter. Therefore, it can be smoothly discharged to the outside, and the deterioration of the durability of the rolling bearing due to the entry of foreign matter can be suppressed.

Sectional drawing of 1st Embodiment of the support apparatus of the idler pulley which concerns on this invention Sectional drawing of 2nd Embodiment of the support apparatus of the idler pulley which concerns on this invention Sectional drawing of 3rd Embodiment of the support apparatus of the idler pulley which concerns on this invention Sectional drawing of 4th Embodiment of the support apparatus of the idler pulley which concerns on this invention Sectional drawing of 5th Embodiment of the support apparatus of the idler pulley which concerns on this invention Sectional drawing of 6th Embodiment of the support apparatus of the idler pulley which concerns on this invention

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a first embodiment of an idler pulley support device according to the present invention. As shown in the figure, a screw hole 2 is formed in the engine block 1 as a stationary member, and a sleeve 10 is fixed by tightening a bolt 3 screwed into the screw hole 2.

  The sleeve 10 has a flange 11 at one end, the flange 11 faces the engine block 1, and a washer 12 is incorporated between the facing portions. The bolt 3 is inserted into the center hole of the washer 12 from the inside of the sleeve 10 and screwed into the screw hole 2.

  A rolling bearing 20 is fitted to the outside of the sleeve 10, and an idler pulley 30 is rotatably supported by the rolling bearing 20.

  The idler pulley 30 has a rim 31 around which the belt is wound, an annular plate portion 32 provided at the center of the inner surface of the rim 31, and an inner cylinder portion 33 provided at the inner diameter portion of the annular plate portion 32. A pair of annular spaces 34 are provided between the outer diameter surface of the inner cylindrical portion 33 and both inner peripheral end portions of the rim 31 on both axial sides of the annular plate portion 32.

  The inner periphery of the inner cylindrical portion 33 is a bearing fitting surface 35, and the outer ring outer diameter surface of the rolling bearing 20 is press-fitted into the bearing fitting surface 35. Further, an inward flange 36 is provided at one end portion of the inner cylindrical portion 33, and the press-fitting amount of the rolling bearing 20 is regulated by the inward flange 36.

  A pair of dust covers 40 a and 40 b are provided on both sides in the axial direction of the rolling bearing 20. Each of the pair of dust covers 40a and 40b has an annular shape, and a dish-shaped bent portion 41 is provided on the inner diameter portion thereof.

  In the pair of dust covers 40 a and 40 b, one dust cover 40 a is fitted to the sleeve 10, and the inner peripheral portion of the bent portion 41 is sandwiched between the flange 11 of the sleeve 10 and the inner ring of the rolling bearing 20 from both sides in the axial direction. And fixed support. The other dust cover 40b has the inner peripheral portion of the bent portion 41 abutted against the outer end surface of the sleeve 10, and the inner peripheral portion of the bent portion 41 is axially formed by the end surface of the sleeve 10 and the head 3a of the bolt 3. It is sandwiched from both sides and is used as a fixed support.

  The outer peripheral portions of the pair of dust covers 40a and 40b are bent inward to be provided with an inclined portion 42. The outer peripheral portion of the inclined portion 42 is opposed to the inner diameter surface of the rim 31 of the idler pulley 30, and between the opposed portions. A minute gap 43 is provided on the surface.

  Further, a tapered surface 44 having a straight cross-sectional shape is provided on the outer peripheral portion of the inner surface facing the pair of dust covers 40a, 40b by forming the inclined portion 42.

  In the idler pulley support device having the above-described configuration, both sides of the rolling bearing 20 can be covered by the pair of dust covers 40a and 40b whose inner diameter portions are supported by the sleeve 10, and therefore, by collision of incoming foreign matter. It is possible to prevent the rolling bearing 20 from being damaged.

  In addition, since the minute gap 43 is provided between the outer peripheral portions of the dust covers 40 a and 40 b and the facing surface of the rim 31, water flows between the minute gap 43 and the facing portions of the pair of dust covers 40 a and 40 b and the rolling bearing 20. Such as foreign substances such as Even if intruding, the invading foreign substance moves radially outward by the centrifugal force generated by the rotation of the idler pulley 30, and is guided by the tapered surface 44 formed on the inner periphery of the dust covers 40a and 40b to form an annular shape. It flows into the space 34 and is discharged to the outside through the minute gap 43.

  As described above, by providing the tapered surface 44 on the outer peripheral portion of the inner side surface of the pair of dust covers 40a, 40b, the intruding foreign matter can be smoothly discharged without stagnation, and the intrusion of foreign matter such as water It is possible to prevent the rolling bearing 20 from being damaged.

  2 to 6 show another embodiment of an idler pulley support device according to the present invention. In the embodiment shown in FIG. 2, the pair of dust covers 40 a and 40 b is formed into an annular shape having a dish-shaped bent portion 41 at the inner diameter portion, and a minute gap 43 is formed between the outer peripheral portion and the inner diameter surface of the rim 31 in the idler pulley 30. 1 is different from the idler pulley support device shown in FIG. 1 in that tapered surfaces 37 having an open end as a large-diameter end are provided at both inner peripheral ends of the rim 31.

  For this reason, the same parts as those of the idler pulley support device shown in FIG.

  As shown in FIG. 2, by providing tapered surfaces 37 at both inner peripheral ends of the rim 31, invading foreign substances that move radially outward by centrifugal force due to the rotation of the idler pulley 30 are guided by the tapered surfaces 37 and become minute. It will be discharged | emitted outside from the gap | interval 43, and it can be made to discharge | emit smoothly outside without stagnating intrusion foreign material.

  In the embodiment shown in FIG. 3, tapered surfaces 44 are provided on the outer peripheral portions of the inner side surfaces of the pair of dust covers 40 a, 40 b, and the open ends are the large diameter ends at both inner peripheral end portions of the rim 31 in the idler pulley 30. A tapered surface 37 is provided. That is, in FIG. 3, the pair of dust covers 40a and 40b shown in FIG. 1 is adopted as the pair of dust covers 40a and 40b, and the idler pulley 30 shown in FIG.

  As described above, the tapered surfaces 44 are provided on the outer peripheral portions of the inner side surfaces of the pair of dust covers 40a and 40b, and the tapered surfaces 37 are provided on both inner peripheral end portions of the rim 31 of the idler pulley 30, thereby allowing intruding foreign matter to be introduced from the outside. It can be discharged smoothly.

  In the embodiment shown in FIG. 1, the cross-sectional shape of the tapered surface 44 provided on the inner peripheral surface of the pair of dust covers 40a and 40b is a straight line. However, as in the embodiment shown in FIG. The cross-sectional shape of the tapered surface 44 may be a concave curve.

  Further, in the embodiment shown in FIG. 2, the cross-sectional shape of the tapered surface 37 provided at both ends of the inner diameter surface of the rim 31 is a straight line. However, as in the embodiment shown in FIG. The cross-sectional shape may be a concave curve.

  In the embodiment shown in FIG. 6, the dust covers 40 a and 40 b shown in FIG. 4 are adopted as the pair of dust covers 40 a and 40 b, and the idler pulley 30 shown in FIG. 5 is adopted as the idler pulley 30.

  In any of the embodiments shown in FIGS. 4 to 6, the intruding foreign matter can be smoothly discharged to the outside.

1 Engine block (stationary member)
DESCRIPTION OF SYMBOLS 10 Sleeve 20 Rolling bearing 30 Idler pulley 31 Rim 37 Tapered surface 40a Dust cover 40b Dust cover 43 Minute gap 44 Tapered surface

Claims (4)

An idler pulley (30) is rotatably supported on the outer periphery of a sleeve (10) fixed to the stationary member (1) via a rolling bearing (20), and an inner diameter portion is supported by the sleeve (10). Covers both side surfaces of the rolling bearing (20) with a pair of annular dust covers (40a, 40b) disposed opposite to the inner surface of the rim (31) of the idler pulley (30) with a minute gap (43). In the idler pulley support device,
The idler pulley (30) includes a rim (31) around which a belt is wound, an annular plate portion (32) provided at a central portion of an inner diameter surface of the rim (31), and an inner diameter of the annular plate portion (32). An inner cylinder part (33) provided in the part,
An annular space (34) is provided on both axial sides of the annular plate portion (32),
Each of the pair of dust covers (40a, 40b) has an inclined portion (42) having a large diameter from the outer side in the axial direction toward the inner side at the outer peripheral portion, and the inner side surface and the outer side surface of the inclined portion (42). tapered surface (44) is provided,
The large-diameter side end of the inclined portion (42) is opposed to the inner diameter surface of the rim (31) outside the center position in the axial direction of the annular space (34) with the minute gap (43), The idler pulley support device is characterized in that it is opposed to the outer diameter surface of the inner cylinder part (33) with a gap larger than the minute gap (43) .   The support device for an idler pulley according to claim 1, wherein a tapered surface (37) having an open end as a large-diameter end is provided at both ends of the inner surface of the rim (31) of the idler pulley (30). An idler pulley (30) is rotatably supported on the outer periphery of a sleeve (10) fixed to the stationary member (1) via a rolling bearing (20), and an inner diameter portion is supported by the sleeve (10). Covers both side surfaces of the rolling bearing (20) with a pair of annular dust covers (40a, 40b) disposed opposite to the inner surface of the rim (31) of the idler pulley (30) with a minute gap (43). In the idler pulley support device,
The idler pulley (30) includes a rim (31) around which a belt is wound, an annular plate portion (32) provided at a central portion of an inner diameter surface of the rim (31), and an inner diameter of the annular plate portion (32). An inner cylinder part (33) provided in the part,
An annular space (34) is provided on both axial sides of the annular plate portion (32),
Before tapered surface of the open end and large-diameter end (37) provided on the inner surface at both ends of the cut arm (31),
Each of the pair of dust covers (40a, 40b) has an outer peripheral portion opposed to the tapered surface (37) of the rim (31) outside the center position in the axial direction of the annular space (34). The idler pulley support device.   The idler pulley support device according to any one of claims 1 to 3, wherein the tapered surfaces (44, 37) are straight or concave in cross-sectional shape.

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