JP2005299712A - Rolling bearing and resin pulley device using it - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a rolling bearing having a high radiation effect and a sufficient sealing performance even if employed at high speed and high heat, thereby preventing deterioration of a rubber seal and achieving a long seizure life. <P>SOLUTION: A rolling bearing 40 has a shielding plate 50 arranged between end parts of an inner ring 41 and an outer ring 42. The shielding plate 50 consists of a perforated disk part 51 and of a bent edge part 52 which is provided to the outer peripheral edge of the disk part 51 and at least a part of which is brought into direct contact with a part of the outer ring 42. A lip part 53 coming into slide contact with the inner ring 41 is provided to the inner peripheral edge of the disk part 51 of the shielding plate part 50 so as to expose at least a part of the axial outside surface of the disk part 51. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a rolling bearing and a resin pulley apparatus using the rolling bearing, and more particularly to a rolling bearing suitable for use in a compressor pulley and an idler pulley of a car air conditioner and a resin pulley apparatus using the rolling bearing.

  Conventionally, as a rolling bearing used for a compressor pulley of a car air conditioner, a four-point contact ball bearing having an inner ring, an outer ring, a ball disposed between the center portions of both wheels, and a seal member disposed between end portions of both wheels. Is known (Patent Document 1). This seal member is made of a rubber seal and a cored bar.

Patent Document 2 discloses a rolling bearing that uses a metal shielding plate as a seal member and omits a rubber seal.
JP 2002-130290 A Japanese Patent Laid-Open No. 9-210071

  In the rolling bearing of Patent Document 1, when used in a compressor pulley of a car air conditioner, the heat from the compressor body is transmitted to the bearing, so that the temperature inside the rolling bearing tends to increase. When a ball bearing is used, since the slip at the contact portion between the race and the ball is large, this becomes a heat source. Furthermore, when the pulley is made of resin, the heat inside the bearing is less likely to escape compared to a metal pulley with good heat transfer. Therefore, when a four-point ball bearing is used in a compressor that uses a resin pulley, the temperature inside the rolling bearing increases, which may cause the rubber seal of the rolling bearing to be easily deteriorated, and lubrication of the rolling bearing grease. There may be a problem that the life of seizure is shortened due to defects.

  In order to solve the above problem, a rolling bearing in which the sealing member shown in Patent Document 2 is a metal shielding plate may be used. However, the seal by the shielding plate is a non-contact seal, and a high speed There was a problem that it was not suitable for use.

  An object of the present invention is to provide a rolling bearing having a sufficient sealing property even when used at a high speed and having a high heat radiation effect, and therefore preventing deterioration of the rubber seal and having a long seizure life, and a resin using the same. It is to provide a pulley device.

  A rolling bearing according to the present invention includes an inner ring, an outer ring, a rolling element disposed between the center portions of both wheels, and a metal shielding plate disposed between the end portions of both wheels and fixed to one of them. In a rolling bearing, the shielding plate is composed of a perforated disc portion and a bent edge portion that is provided on either the inner or outer peripheral portion of the disc portion and is in direct contact with at least a part of the inner or outer ring. The other peripheral edge portion of the disc portion of the shielding plate is provided with a lip portion that is in sliding contact with the inner ring or the outer ring so as to expose at least a part of the axially outer surface of the disc portion. It is what.

  The rolling bearing according to the present invention is preferably used in combination with a resin pulley. In this case, the pulley has, for example, a small diameter portion and a large diameter portion, and a plurality of V grooves in the circumferential direction are formed on the outer diameter of the large diameter portion. And as for a rolling bearing, the outer ring | wheel is fixed to the small diameter part internal diameter of a pulley. In order to fix the outer ring and the pulley, the outer ring may be press-fitted into the pulley, or the pulley may be injection molded into the outer ring. In the former case, it is preferable to provide an inward flange portion for positioning when the outer ring is pressed into the small diameter portion of the pulley. In the latter case, the outer diameter of the outer ring is not movable in the axial direction at the small diameter portion of the pulley. It is preferable that an annular recess to be fitted in is formed.

  The resin pulley device composed of the rolling bearing and the pulley thus obtained is used as an idler pulley or a compressor pulley. At this time, in the idler pulley, for example, a stepped or tapered mounting hole is formed in the inner ring, and in the compressor pulley, the inner ring is formed in a cylindrical shape, and the cylindrical portion of the housing that rotatably supports the drive shaft of the compressor. Fixed.

  In the rolling bearing described above, it is preferable that a sealing elastic body for improving the sealing performance between the inner ring and the outer ring is bonded to a part of the bent edge portion.

  There may be cases where oil cannot be completely sealed by simply press-fitting a metal shielding plate into the inner ring or outer ring, but sealing performance is ensured by interposing a sealing elastic body between the shielding plate and the inner ring or outer ring. The As the elastic body, rubber is suitable, but synthetic resin may be used. Further, the sealing elastic body may have different characteristics as a part different from the lip part, or may be integrally formed of the same material as the lip part.

  In the rolling bearing, an annular groove having a substantially arc-shaped cross section in which a bent edge provided on an outer peripheral edge of the shielding plate is fitted is formed on the outer ring, and the bent edge of the shielding plate is formed outside the disc portion. It has an inclined part connected to the peripheral part, a linear part connected to the inclined part, and a curved part connected to the linear part, and the curved part is brought into direct contact with the substantially arc-shaped bottom surface of the annular groove of the outer ring, and the linear part is annular The side surface of the groove may be brought into contact with the elastic body for sealing. Such a rolling bearing is suitable for use as outer ring rotation.

  Various types of rolling bearings are possible. Of these, the four-point contact ball bearing has a relatively large slip at the contact portion between the race and the ball, and the heat generation is relatively large. It is suitable for adopting the above configuration. The four-point contact ball bearing is designed so that the ball contacts the inner ring raceway surface at two points and also contacts the outer ring raceway surface at two points. It can be used instead of a ball bearing. And since the increase in the heat_generation | fever at the time of replacement is suppressed by the improvement of the heat dissipation effect, it can apply easily also to the location which receives heat easily.

  The rolling bearing can be used in various ways. For example, if it is used in the vicinity of a device that serves as a heat source and uses a resin pulley, such as a compressor, heat is accumulated. This is more preferable in that it can easily compensate for the disadvantage of the resin pulley.

  In the rolling bearing, the shielding plate may be made of a material having higher thermal conductivity than iron such as aluminum or copper. If it does in this way, in addition to the improvement in the heat dissipation by direct contact with a shielding board and a bearing ring, the heat dissipation of shielding board itself will improve, and it can lengthen the seizure life further.

  According to the rolling bearing of the present invention, the shield plate is provided with the lip portion that is slidably contacted with the inner ring or the outer ring, so that a sufficient sealing performance can be exhibited even when used at a high speed, and the bending that contacts the outer ring or the inner ring is possible. Since the edge is provided on the shielding plate, more heat is radiated from the bearing through the shielding plate, improving the heat dissipation effect, and causing deterioration of the rubber seal (lip) due to temperature rise and poor lubrication of grease. It is suppressed and the seizure life is extended.

  Embodiments of the present invention will be described below with reference to the drawings.

  1 to 3 show a first embodiment of a rolling bearing according to the present invention and a resin pulley apparatus using the rolling bearing. In the following description, the left and right refer to the left and right in FIG.

  This embodiment shows a resin pulley device suitable for a compressor, and the resin pulley device includes a resin pulley body (46) and a rolling bearing (40) incorporated therein.

  As shown in FIG. 1, the rolling bearing (40) includes an inner ring (41), an outer ring (42), a ball (rolling element) (43), a ball ( 43) and a left and right seal member (45) (45) disposed between the left and right ends of both wheels (41) (42).

  The pulley (46) is made of phenol resin or the like, and has a small diameter portion (46a), an intermediate diameter portion (46b), and a large diameter portion (46c) that are concentric with each other. A plurality of circumferential V grooves (46d) are formed on the outer diameter of the large diameter portion (46c). An inward flange portion (46e) is provided at the right end of the small diameter portion (46a), and the outer ring (42) of the rolling bearing (40) is press-fitted into the inner diameter of the small diameter portion (46a) from the left. The positioning is performed by the inward flange portion (46e).

  An annular groove (47) (47) is formed in the inner diameter of the left end portion and the inner diameter of the right end portion of the outer ring (42), respectively. The annular groove (47) has an arc shape in cross section, and the peripheral wall on the outer side in the axial direction is lower (inner diameter is larger) than the peripheral wall on the inner side in the axial direction to facilitate the press-fitting of the seal member (45). . Annular grooves (48), (48) each having a substantially arc-shaped cross section are also formed on the outer diameter of the inner ring (41) facing the annular grooves (47), (47).

  The left and right sealing members (45) and (45) have the same shape including the metal shielding plate (50) and the rubber seal (49), and are arranged symmetrically.

  The shielding plate (50) includes a perforated disc portion (51) and a bent edge portion (52) provided on the outer peripheral edge portion thereof.

  As shown in FIG. 3, the bent edge portion (52) includes an inclined portion (52a) that extends inward in the axial direction and radially outwardly from the outer peripheral edge portion of the perforated disc portion (51), and an inclined portion. A straight section (52b) having a substantially straight section extending radially outwardly extending to (52a), and a curved section (52c) having a substantially arcuate section extending outwardly in the axial direction continuing to the straight section (52b). Have.

  The curved portion (52c) of the bent edge portion (52) has a shape corresponding to the substantially arc-shaped cross section of the annular groove (47) of the outer ring (42), and is in direct contact with the bottom surface of the groove (47). Thus, the groove (47) is fitted by interference fit.

  In the inner peripheral edge of the perforated disc portion (51) of the shielding plate (50), with most of the axially outer surface of the disc portion (51) exposed, the annular groove ( A lip portion (53) is provided in sliding contact with 48). The lip portion (53) includes a main contact lip (53a) slidably contacting the inner surface of the annular groove (48), a secondary contact lip (53b) slidably contacting the outer diameter of the outer peripheral wall of the annular groove (48), and an annular groove ( 48) and a non-contact lip (53c) facing the outer diameter of the inner peripheral wall.

  The inner surface of the annular ring (47) of the outer ring (42) is in contact with the inner surface of the outer ring (42) on the axially inner surface of the linear part (52b) of the bent edge (52) to provide a sealing property with the outer ring (42). A sealing elastic body (54) to be enhanced is adhered. In this embodiment, the lip portion (53) and the sealing elastic body (54) are connected via a thin-walled connecting portion (55) bonded to the axially inner surface of the perforated disc portion (51). As a rubber seal (49) comprising a lip portion (53), a sealing elastic body (54) and a connecting portion (55), these are integrally formed of the same material.

  According to the resin pulley device of this embodiment, since the heat conductivity of the resin pulley (46) is poor, it is easy for the rolling bearing (40) to accumulate heat, but the bent edge portion of the shielding plate (50) ( 52) is in direct contact with the outer ring (42) and the outer surface of the shielding plate (50) is exposed, improving the heat dissipation effect and eliminating the disadvantages of the resin pulley (46). Yes. Further, the sealing performance between the shielding plate (50) and the inner ring (41) is enhanced by the lip portion (53), and the sealing performance between the shielding plate (50) and the outer ring (42) is an elastic body for sealing. (54), the sealing performance is sufficiently maintained even when rotated at a high speed. Therefore, this resin pulley device is suitable for use in a compressor.

  The resin pulley is also used in places other than the compressor. FIGS. 4 and 5 show a resin pulley device suitable for an idler pulley as a second embodiment of the rolling bearing of the present invention.

  In the figure, the resin pulley device includes a resin pulley body (66) and a rolling bearing (60) incorporated therein.

  As shown in FIGS. 4 and 5, the rolling bearing (60) is composed of a ball (rolling element) (63) disposed between the center portions of the inner ring (61), the outer ring (62), and both wheels (61) (62). , A retainer (64) for holding the ball (63), and left and right seal members (45) (45) disposed between the left and right ends of both wheels (61) (62), and the outer ring (62 ) A resin pulley (66) is fixed to the outer diameter. The left and right seal members (45) and (45) have the same configuration as in the first embodiment, and detailed description thereof will be omitted.

  The pulley (66) is made of phenol resin or the like, and has a small diameter portion (66a) and a large diameter portion (66b) that are concentric with each other. In this embodiment, the outer ring (62) is not press-fitted into the pulley (66), but the pulley (66) is integrally formed with the outer ring (62) by injection molding to the outer diameter of the outer ring (62). Yes. A plurality of circumferential V-grooves (66c) are formed on the outer diameter of the large diameter portion (66b) of the pulley (66), and an outer ring is provided on the inner diameter of the small diameter portion (66a) of the pulley (66). (62) An annular recess (66d) into which the outer diameter is fitted so as not to move in the axial direction is formed.

  According to the resin pulley device of this embodiment, since the heat conductivity of the resin pulley (66) is poor, the rolling bearing (60) tends to accumulate heat, but the bent edge ( 52) is in direct contact with the outer ring (62), and the outer surface of the shielding plate (50) is exposed, improving the heat dissipation effect and eliminating the disadvantages of the resin pulley (46). Yes.

  In the above embodiment, the lip portion (53) and the sealing elastic body (54) are connected via the thin connecting portion (55), but the lip portion and the sealing elastic body are separated from each other. Of course, it may be made of a material and the connecting portion may be omitted.

  Furthermore, the shielding plate (50) may be made of aluminum or copper (both including an alloy) instead of the iron plate, thereby improving the heat dissipation of the shielding plate (50) itself and seizing. The service life is further improved.

  In the above embodiment, the rolling bearing in the apparatus using the resin pulleys (46) and (66) has been described. However, the above rolling bearing can of course be used as a general-purpose rolling bearing. .

BRIEF DESCRIPTION OF THE DRAWINGS It is a longitudinal cross-sectional view which shows 1st Embodiment of the rolling bearing by this invention and the resin pulley apparatus using the same. It is sectional drawing which follows the II-II line of FIG. It is an expanded longitudinal cross-sectional view of the principal part of a rolling bearing. It is a longitudinal cross-sectional view which shows 2nd Embodiment of the rolling bearing by this invention and the resin pulley apparatus using the same. It is a side view of the principal part.

Explanation of symbols

(40) (60) Rolling bearing
(41) (61) Inner ring
(42) (62) Outer ring
(43) (63) Ball (rolling element)
(45) Seal member
(46) (66) Resin pulley body
(47) Annular groove
(49) Rubber seal
(50) Metal shield
(51) Perforated disc
(52) Bending edge
(52a) Slope
(52b) Straight section
(52c) Curved part
(53) Lip part
(54) Elastic body for sealing

Claims (4)

In a rolling bearing having an inner ring, an outer ring, a rolling element disposed between the center portions of both wheels, and a metal shielding plate disposed between end portions of both wheels and fixed to either one, the shielding plate is A disc portion of the shielding plate, comprising a perforated disc portion and a bent edge portion provided on either the inner or outer peripheral portion of the disc portion and at least partially in contact with the inner ring or the outer ring. A rolling bearing characterized in that a lip portion slidably in contact with the inner ring or the outer ring is provided on the other peripheral edge portion so as to expose at least a part of the axially outer surface of the disc portion. The rolling bearing according to claim 1, wherein an elastic body for sealing that enhances the sealing performance between the inner ring and the outer ring is bonded to a part of the bent edge. The outer ring is formed with an annular groove having a substantially arc-shaped cross-section into which a bent edge provided at the outer peripheral edge of the shielding plate is fitted, and the bent edge of the shielding plate is continuous with the outer peripheral edge of the disc portion. It has an inclined part, a linear part connected to the inclined part, and a curved part connected to the linear part, and the curved part is brought into direct contact with the bottom surface of the annular groove of the outer ring and the linear part is on the side surface of the annular groove. The rolling bearing according to claim 2, which is brought into contact via an elastic body for sealing. A resin pulley main body having a plurality of V-grooves formed on the outer diameter, and a rolling bearing fixed to the inner diameter of the pulley main body, the rolling bearing being any one of claims 1 to 3. Resin pulley device.

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