JPH1162992A - Bearing unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a bearing unit to prevent the increase of the number of maintenance times due to a foreign matter, such as water and dust, penetrating from an external part and shortening of a bearing life. SOLUTION: A pillow type ball bearing unit is provided with a bearing box 2 in which an internal space 2a to containing a ball bearing 1 is formed. The ball bearing 1 is provided with inner and outer rings 11 and 12, and a steel ball 13 held between the inner and outer rings 11 and 12. The width of the inner ring 11 is wider than that of the outer ring 12, and the inner ring 11 is fixed at a shaft 40 by a set screw 14. A spacer between the inner ring 11 and the outer ring 12 is filled with a solid lubricant-contained polymer 15, and a part of the filled lubricant-contained polymer 15 is protruded in a manner to cover the end face of at least one of the inner and outer rings 11 and 12.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bearing unit in which a rolling bearing is incorporated in a bearing housing, and more particularly to a bearing unit suitable for use in an environment exposed to water, dust and the like.

[0002]

2. Description of the Related Art Generally, in a bearing unit in which a rolling bearing is built in a bearing housing, grease is filled in an inner space of the bearing housing including an inner space of the rolling bearing, and at the end of the bearing housing. A seal member is provided for preventing water and dust from entering the internal space. One of the bearing units is a plummer block.

Next, FIG. 3 shows this plummer block.
This will be described with reference to FIG. FIG. 3 is a cross-sectional view showing a main part configuration of a conventional plummer block.

[0004] The plummer block, as shown in FIG.
The bearing housing includes a bearing box in which an internal space accommodating the spherical roller bearing is formed. Self-aligning roller bearing 5
It has an inner race 51, an outer race 52, and two rows of rollers 53 held by a retainer 54 between the inner race 51 and the outer race 52. The self-aligning roller bearing 32 is provided with an adapter 55 for attaching it to the shaft 40, and the inner ring 51 and the shaft 40 are fixed by the adapter 55. The bearing housing 6 has an insertion hole 6b through which the shaft 40 is inserted, and an annular groove 6c facing the shaft 40 at both ends. A seal member 61 for sealing a gap between each end of the bearing housing 6 and the shaft 40 is fitted into the groove 6c at each end of the bearing housing 6.

The inner ring 51 and the outer ring 52 of the self-aligning roller bearing 5
The grease 62 is filled in the inner space 6a of the bearing housing 6 including the space existing between the grease 62 and the inner space 6a. This grease 62
Is filled with the grease nipple 63 provided in the bearing housing 6.
And through a hole provided in the outer ring 52.

[0006]

However, the above-described bearing box 6 of the conventional plummer block is provided with a sealing member 61 for sealing a gap between each end of the bearing box 6 and the shaft 40. However, the seal member 61 cannot completely seal the gap between each end of the bearing housing 6 and the shaft 40, and a slight gap is formed between the seal member 61 and the shaft 40. Occurs. When this plummer block is used in environmental conditions where it is exposed to water, dust, etc., for example, in steel facilities installed outdoors, water or dust from the outside gradually passes through a slight gap between the seal member 61 and the shaft 40. In some cases, the water or dust that has entered the bearing housing 6 is mixed into the filled grease 62 and eventually enters the self-aligning roller bearing 5. As a result, the grease 62 is emulsified by the water mixed therein to accelerate the deterioration, and the grease 62 is exchanged more frequently.
Further, when dust enters the inside of the self-aligning roller bearing 5 (for example, between the outer ring 52 and 53), the self-aligning roller bearing 5 may seize due to the intruded dust.

Further, with the operation of the equipment, the wear at the contact portion between the shaft 40 and the seal member 61 progresses, and the gap between the seal member 61 and the shaft 40 further increases, so that a large amount of water and dust enter. Will forgive. As a result, the deterioration of the grease 62 is further promoted, and the spherical roller bearing 5
Is more likely to occur, and the number of maintenance operations on the bearing unit such as replacement of the grease 62 is increased. Insufficient maintenance may shorten the bearing life.

As described above, in the conventional bearing unit, the sealing performance for preventing the intrusion of water and dust from the outside to the inside is low, and the number of maintenances caused by foreign matters such as water and dust from the outside increases. In addition, the bearing life may be shortened if maintenance is insufficient.

An object of the present invention is to provide a bearing unit capable of preventing an increase in the number of maintenances and a possibility of shortening the life of a bearing caused by foreign matters such as water and dust entering from the outside.

[0010]

According to the first aspect of the present invention,
In a bearing unit in which a rolling bearing is incorporated in a bearing housing, a space between an inner ring and an outer ring of the rolling bearing is filled with a lubricant-containing polymer, and a part of the filled lubricant-containing polymer is used as the inner ring and It is characterized in that it protrudes so as to cover at least one end face of the outer ring.

The lubricant-containing polymer is polyethylene,
As a lubricant for a synthetic resin selected from the group of polyolefin resins having basically the same chemical structure, such as polypropylene, polybutylene, and polymethylpentene,
Paraffinic hydrocarbon oils such as poly-α-olefin oils, naphthenic hydrocarbon oils, mineral oils, ether oils such as dialkyldiphenyl ether oils, and ester oils such as phthalic acid esters, either alone or in the form of mixed oils The mixed and adjusted raw materials are plasticized by heating at a temperature equal to or higher than the melting point of the synthetic resin, and then cooled to be solidified. It is also possible to use a lubricant to which various additives such as an antioxidant, a rust inhibitor, an abrasion inhibitor, a defoamer and an extreme pressure agent are added in advance.

The composition ratio of the above-mentioned lubricant-containing polymer is 10 to 50% by weight of the polyolefin resin and 90 to 50% by weight of the lubricant based on the total weight. If the composition ratio of the lubricant-containing polymer is less than 10% by weight of the polyolefin-based resin, the hardness / strength at or above the predetermined level cannot be obtained, and when the lubricant-containing polymer is loaded by rotation of a bearing or the like. In addition, it is difficult to maintain the initial shape of the lubricant-containing polymer, and there is a high possibility that the lubricant-containing polymer may cause a problem such as falling off from the internal space of the bearing. Further, when the composition ratio of the lubricant-containing polymer exceeds 50% by weight of the polyolefin resin (that is, when the lubricant is 5% by weight).
If it is less than 0% by weight), the amount of lubricant supplied to the bearing is reduced, and it is not possible to expect a longer bearing life.

In the above-mentioned group of polyolefin resins, the basic structures are the same and the average molecular weights are different, and the average molecular weight ranges from 700 to 5 × 10 ⁶ . The synthetic resin selected from this group has an average molecular weight of 700
Those classified into wax in the range of to 1 × 10 ⁴ (e.g., polyethylene wax), an average molecular weight of 1 ×
A single substance selected from a relatively low molecular weight substance in the range of 10 ⁴ to 1 × 10 ⁶ and an ultra high molecular weight substance having an average molecular weight in the range of 1 × 10 ^{6 to} 5 × 10 ⁶ Or a mixture thereof. The combination of a relatively low molecular weight and a lubricant provides a lubricant-containing polymer with some mechanical strength, lubricant supply capacity, and oil retention. In this combination, if some of the relatively low molecular weight compounds are replaced with those classified as wax, the difference in molecular weight between those classified as wax and the lubricant will be small, and the affinity with the lubricant will increase. As a result, the oil retaining property of the lubricant-containing polymer is improved, and the lubricant can be supplied for a long period of time, but on the other hand, the mechanical strength decreases. Here, usable waxes include, in addition to polyolefin-based resins such as polyethylene wax, hydrocarbon-based resins having a melting point in the range of 100 to 130 ° C. or more (for example, paraffin-based synthetic wax). is there. On the other hand, if a part of the relatively low molecular weight one is replaced with an ultra high molecular weight one, the difference in molecular weight between the ultra high molecular weight one and the lubricant is large, so that the affinity with the lubricant decreases, As a result, the oil retention of the lubricant-containing polymer is reduced, and the release rate of the lubricant from the lubricant-containing polymer is increased. As a result, the period until the amount of lubricant that can be supplied from the lubricant-containing polymer is reached is shortened, and the bearing life cannot be extended. However, the mechanical strength is improved.

In consideration of the balance of moldability, mechanical strength, oil retention and lubricant supply, the composition ratio of the lubricant-containing polymer is 0 to 5% by weight classified as wax, and relatively low molecular weight. 8 to 48% by weight, ultra high molecular weight 2-1
0% by weight, a total of 10 to 50% by weight of these three resin components
(The remainder is 90 to 50% by weight of the lubricant).

In order to improve the mechanical strength of the lubricant-containing polymer, the above-mentioned polyolefin-based resin to which the following thermoplastic resin and thermosetting resin are added can be used.

As the thermoplastic resin, various resins such as polyamide, polycarbonate, polybutylene terephthalate, polyphenylene sulfide, polyether sulfone, polyether ether ketone, polyamide imide, polystyrene and ABS resin can be used.
As the thermosetting resin, each resin such as an unsaturated polyester resin, a urea resin, a melanin resin, a phenol resin, a polyimide resin, and an epoxy resin can be used. Further, these resins may be used alone or in combination. Further, in order to disperse the polyolefin resin and the other resin in a more uniform state, a suitable compatibilizer may be added as necessary.

A filler may be added to improve mechanical strength. Examples of the filler include inorganic whiskers such as calcium carbonate, magnesium carbonate, potassium titanate whisker and aluminum borate whisker. In addition, there are inorganic fibers such as glass fibers and metal fibers and those obtained by braiding them in a cloth shape, and in the case of organic compounds, carbon black, graphite powder, carbon fibers, aramid fibers, polyester fibers, etc. Good.

Further, in order to prevent deterioration of the polyolefin resin due to heat, N, N'-diphenyl-P-phenyldiamine, 2,2'-methylenebis (4-ethyl-6-t-butyphenol) and the like are used. For the purpose of preventing an aging agent and deterioration due to light, 2-hydroxy-4-
n-octoxybenzophenone, 2- (2'-hydroxy-3'-tert-butyl-5'-methyl-phenyl) -5
-An ultraviolet absorber such as chlorobenzotriazole may be added.

The addition amount of all of the above additives (other than the polyolefin resin and the lubricant) is preferably 20% by weight or less based on the total amount of the forming raw material in order to maintain the supply capacity of the lubricant.

When the lubricant-containing polymer is filled in the space between the inner ring and the outer ring of the rolling bearing, since the lubricant polymer is solid as described above, water or dust entering the bearing box from the outside may occur. Foreign matter such as water and dust does not mix into the lubricant-containing polymer, minimizing the intrusion of foreign matter such as water and dust into the rolling bearing. It does not cause deterioration of the agent.

The filling of the lubricant-containing polymer is performed by filling an unfired raw material of the lubricant-containing polymer in a space between the inner ring and the outer ring of the rolling bearing, and heating the unfired raw material at a temperature equal to or higher than the melting point of the synthetic resin. And then cooling,
Since the shrinkage of the lubricant-containing polymer is greater than the shrinkage of the rolling bearing component (metal portion), when filling the lubricant-containing polymer, the lubricant-containing polymer filled with the inner and outer rings of the rolling bearing is filled. Although a gap is generated between the inner ring and the outer ring, a part of the filled lubricant-containing polymer is protruded so as to cover at least one end surface of the inner ring and the outer ring. A gap formed between the inner and outer rings of the rolling bearing and the filled lubricant-containing polymer is sealed, and foreign matters such as water and dust entering the inside of the rolling bearing through the gap are prevented as much as possible. Therefore, the occurrence of seizure of the rolling bearing due to foreign matter entering into the inside can be suppressed as much as possible, and the life of the bearing can be extended.

[0022] Further, since a part of the filled lubricant-containing polymer is protruded so as to cover at least one end face of the inner ring and the outer ring, the amount of the filled lubricant-containing polymer is reduced. The amount of lubricant supplied to the rolling bearing increases, as compared with a case where a part of the lubricant is filled so as not to protrude. As a result, the life of the bearing is extended.

As described above, in the bearing unit according to the first aspect, the space between the inner ring and the outer ring of the rolling bearing is filled with the lubricant-containing polymer, and a part of the filled lubricant-containing polymer is used as the inner ring. And at least one end face of the outer ring is protruded so as to prevent an increase in the number of maintenance operations and a shortened life of the bearing caused by foreign substances such as water and dust entering the inside of the bearing housing from the outside. it can.

When a self-aligning roller bearing is used as the rolling bearing incorporated in the bearing housing, it is preferable that the retainer of the self-aligning roller bearing is integrally formed. By configuring the cage integrally, the movement of the rollers in each row is restrained by the cage, and the rollers in each row move differently with the cage in each row under high-speed and high-load operating conditions. In other words, even when the lubricant-containing polymer is filled between each row of the rollers, there is no possibility that the lubricant-containing polymer is damaged due to a shearing force acting on the lubricant-containing polymer.

[0025]

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

(First Embodiment) FIG. 1 is a sectional view showing the structure of a main part of a first embodiment of a bearing unit according to the present invention.

As shown in FIG. 1, the bearing unit according to the present embodiment comprises a pillow type ball bearing unit. The pillow type ball bearing unit has an internal space 2a for accommodating the ball bearing 1. Bearing box 2 is provided.

The ball bearing 1 has an inner race 11, an outer race 12, and steel balls 13 held between the inner race 11 and the outer race 12. The width of the inner ring 11 is wider than the width of the outer ring 12, and the inner ring 11 is fixed to the shaft 40 by a set screw 14. The set screw 14 is attached to a portion of the inner ring 11 that is located outside the portion facing the outer ring 12. The outer diameter surface of the outer ring 12 is formed in a spherical shape. The space between the inner ring 11 and the outer ring 12 is filled with a solid lubricant-containing polymer 15, and a part of the filled lubricant-containing polymer 15 is attached to at least one end face of the inner ring 11 and the outer ring 12. It protrudes to cover. In the present embodiment, the end face of the outer ring 12 on the set screw 14 side is covered with the lubricant-containing polymer 15, and the end face of the inner ring 11 and the outer ring 12 on the side opposite to the set screw 14 is covered with the lubricant-containing polymer 15. It is configured as follows. In the present embodiment, as the lubricant-containing polymer 15, 10% by weight of ultra-high-molecular-weight polyethylene (classified as ultra-high-molecular-weight), 20% by weight of high-density polyethylene (classified as relatively low-molecular-weight), and paraffin The one having a composition consisting of 70% by weight of a mineral oil is used.

The method of filling the lubricant-containing polymer 15 may be a method using a set of filling jigs, or a method in which the lubricant-containing polymer is filled while the bearing is supported so that the rotation axis is parallel to the horizontal support surface. There are methods such as filling and firing to solidify, but basically, the space between the inner ring 1 and the outer ring 2 is filled with the unfired raw material of the lubricant-containing polymer, and the unfired raw material of the lubricant-containing polymer is filled. Is filled with the lubricant-containing polymer 15 by heating and cooling. When the lubricant-containing polymer 15 is filled, the unfired raw material is heated and cooled, but the shrinkage of the lubricant-containing polymer 15 is lower than that of the component (metal portion) of the ball bearing 1. Since it is large, a slight gap is formed between the inner ring 11 and the outer ring 12 of the ball bearing 1 and the filled lubricant-containing polymer 15. However, since a part of the filled lubricant-containing polymer 15 protrudes so as to cover at least one end face of the inner ring 11 and the outer ring 12, the part of the protruded lubricant-containing polymer 15 causes the inner ring 11 and the The gap created between the outer race 12 and the filled lubricant-containing polymer 15 is sealed.

The bearing housing 2 has a cylindrical member 21 into which the outer ring 12 is fitted, and an inner circumferential surface of the cylindrical member 21 is formed with an aligning seat fitted with the outer diameter surface of the outer ring 12. One end of a cylindrical end member 22 is connected to each end of the cylindrical member 21 by a bolt 23, and each end member 22 cooperates with the cylindrical member 21 to house the ball bearing 1. Space 2a
Is formed. This internal space 2a is not filled with a lubricant such as grease. Each end member 22 has a shaft 40
Is inserted, and an annular groove 22 a facing the shaft 40 is formed on the inner peripheral surface at the other end of each end member 22. Each end member 2
A seal member 24 for sealing a gap between the other end of the end member 22 and the shaft 40 is fitted into the second groove 22a. The seal member 24 is bent into a tubular shape having a rectangular cross section in the groove 22a, and a space surrounded by the seal member 24 is filled with grease 25. The filling of the grease 25 is performed via a grease nipple (not shown) provided in the bearing housing 2.

When the bearing unit of the present embodiment is used in an environmental condition where it is exposed to water, dust, etc., for example, in a steel facility installed outdoors, etc., each end of the bearing box 2 and a shaft 40 Cannot be completely sealed, and a slight gap is formed between the seal member 25 and the shaft 40. May gradually enter the internal space 2a of the bearing housing 2 through a large gap.

When water or dust or the like enters the internal space 2a of the bearing housing 2, the water or dust reaches the ball bearing 1, but lubrication filled in the space between the inner ring 1 and the outer ring 2. Since the lubricant polymer 15 is in a solid state, water, dust, and the like that have entered the bearing housing 2 do not enter the lubricant-containing polymer 15, and minimize the intrusion of water, dust, and the like into the ball bearing 1. In addition, there is no possibility that lubrication performance may be deteriorated due to mixing of water and dust. In addition, the amount of water or dust that has entered the ball bearing 1 is smaller than when the internal space 2a is filled with grease. This means
This is because the internal space 2a is not filled with grease that mediates the movement of water and dust.

Further, when the lubricant-containing polymer 15 is filled, a slight gap is formed between the inner ring 11 and the outer ring 12 and the filled lubricant-containing polymer 15, and this gap is formed by the inner ring 11 as described above. Since it is sealed by the lubricant-containing polymer 15 protruding so as to cover at least one of the end faces of the outer ring 11 and the outer ring 12, it is possible to prevent water and dust from entering the inside of the ball bearing 1 through the gap as much as possible. You. Therefore, the occurrence of seizure of the ball bearing 1 due to the entry of foreign matter into the inside is suppressed as much as possible, and the life of the bearing is extended.

Further, since a part of the filled lubricant-containing polymer 15 is protruded so as to cover at least one end face of the inner ring 11 and the outer ring 12, the amount of the filled lubricant-containing polymer 15 is reduced. The amount of lubricant supplied to the ball bearing 1 increases as compared with the case where the agent-containing polymer is filled so that a part of the polymer does not protrude. As a result, the life of the bearing is extended.

As described above, in the present embodiment, the sealing performance for preventing water or dust or the like entering from the outside from entering the inside of the ball bearing 1 is high, and foreign matters such as water or dust or the like entering from the outside are high. Therefore, it is possible to prevent an increase in the number of maintenances and a possibility of shortening the life of the bearing caused by the above.

Second Embodiment Next, a second embodiment of the present invention will be described with reference to FIG. FIG.
(A) is a sectional view showing a main part configuration of a second embodiment of the bearing unit according to the present invention, and (b) is an automatic adjustment incorporated in the second embodiment of the bearing unit according to the present invention. It is sectional drawing which shows the structure of a roller bearing.

This embodiment comprises a plummer block in which a self-aligning roller bearing is incorporated in a bearing housing.

Specifically, the plummer block is shown in FIG.
As shown in (a), a bearing box 4 having an internal space 4a for accommodating the spherical roller bearing 3 is provided. The self-aligning roller bearing 3 has an inner ring 31 and an outer ring 32 as shown in FIGS. As shown in FIG. 2 (b), the inner ring 31 has two rows of tracks 31a, and a fall prevention collar 31b is provided at an outer end portion of each track 31a. The outer ring 32 is formed with a track 32 a facing each track 31 a of the inner ring 31. Each track 31a of the inner ring 31 and the track 32a of the outer ring 32
, Two rows of rollers 33 are arranged, and each row of rollers 33
Are held by a holder 34 formed integrally. Guide wheels 35a are arranged between the retainer 34 and the inner ring 31 so as to guide the rollers 33 in each row.

A gap existing between the inner ring 31 and the outer ring 32, a gap between each of the stopper ribs 31b of the inner ring 1 and the outer end face of each row of rollers 33, and an inner end face of each row of rollers 33 and guides. The gap between the ring 35a is filled with a solid lubricant-containing polymer 35, respectively. A part of the filled lubricant-containing polymer 35 protrudes so as to cover at least one end face of the inner race 31 and the outer race 32. In the present embodiment, in order not to hinder the movement of the outer ring 32,
Each end surface of the inner ring 31 is configured to be covered with the lubricant-containing polymer 35. Note that one end surface of the inner ring 31 is covered with a lubricant-containing polymer 35 so as to avoid the protrusion of an adapter 36 described later.

In this embodiment, the lubricant-containing polymer 35
10% by weight of ultra high molecular weight polyethylene (classified as ultra high molecular weight), 15% by weight of high density polyethylene (classified as relatively low molecular weight), and 5% by weight of polyethylene wax (classified as wax) And 70% by weight of paraffinic mineral oil. The filling of the lubricant-containing polymer 35 is performed in the same manner as in the first embodiment.

The self-aligning roller bearing 3 is provided with an adapter 36 for attaching it to the shaft 40, and the inner ring 32 and the shaft 40 are fixed via the adapter 36.

As shown in FIG. 2A, the bearing housing 4 has
An insertion hole 4b for inserting the shaft 40 is formed,
An annular groove 4c facing the shaft 40 is formed at both ends. A groove 4c at each end of the bearing housing 4 has a bearing housing 4
A seal member 41 for sealing a gap between each end of the shaft and the shaft 40 is fitted. The seal member 41 has the groove 4
In the space surrounded by the sealing member 41, the grease 2
5 are filled. The filling of the grease 25 is performed via the grease nipple 42. The internal space 4a of the bearing housing 4 is not filled with a lubricant such as grease.

As described above, in the present embodiment, when the water or dust enters the internal space 4a of the bearing housing 4 through the small gap created between the seal member 41 and the shaft 40, the water and dust that have entered are automatically adjusted. The inner ring 31 and the outer ring 32 reach the roller bearing 3.
Since the lubricant polymer 35 filled in the space between the bearings 4 and 5 is solid, water, dust, and the like that have entered the bearing housing 4 do not enter the lubricant-containing polymer 35, and the spherical roller bearings Intrusion of water, dust, and the like into the inside 3 can be suppressed as small as possible, and there is no possibility that deterioration of lubricating performance due to mixing of water, dust, or the like is caused. In addition, the amount of water or dust that has entered the spherical roller bearing 3 is smaller than that when the internal space 4a is filled with grease.

In addition, at least the inner ring 31 and the lubricant-containing polymer 35 within a small gap between the inner ring 31 and the outer ring 32 and the filled lubricant-containing polymer 35 generated when the lubricant-containing polymer 35 is filled. Between the inner ring 31
Lubricant-containing polymer 3 protruding so as to cover each end face
5 prevents water, dust and the like from entering the inside of the ball bearing 1 through the gap as much as possible. Therefore, the occurrence of seizure of the self-aligning roller bearing 3 due to the entry of foreign matter into the interior is suppressed as much as possible, and the life of the bearing is extended.

Further, since a part of the filled lubricant-containing polymer 35 is protruded so as to cover the end face of the inner race 31, the amount of the filled lubricant-containing polymer 35 is reduced by a part of the lubricant-containing polymer. The amount of lubricant supplied to the self-aligning roller bearing 3 increases as compared with the case where the filling is performed so as not to protrude. As a result, the life of the bearing is extended.

As described above, in the present embodiment, the sealing performance for preventing the intrusion of water or dust from the outside into the spherical roller bearing 3 is high, and the seal performance is high due to foreign matter such as water or dust entering from the outside. It is possible to prevent the possibility of increasing the number of maintenance operations and shortening the life of the bearing.

[0047]

As described above, according to the bearing unit of the first aspect, the space between the inner ring and the outer ring of the rolling bearing is filled with the lubricant-containing polymer, and the filled lubricant-containing polymer is filled. Part of the inner ring and the outer ring so as to cover at least one end face of the outer ring,
It can improve the sealing performance to prevent water and dust from entering from outside into the rolling bearing, and reduce the number of maintenance operations caused by foreign substances such as water and dust from inside from inside. It is possible to prevent an increase and a possibility of shortening the life of the bearing.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view showing a main part configuration of a first embodiment of a bearing unit according to the present invention.

FIG. 2A is a cross-sectional view showing a main part configuration of a second embodiment of the bearing unit according to the present invention, and FIG. 2B is incorporated in the second embodiment of the bearing unit according to the present invention. It is sectional drawing which shows the structure of a self-aligning roller bearing.

FIG. 3 is a cross-sectional view showing a main part configuration of a conventional plummer block.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Ball bearing 2, 4 Bearing box 2a, 4a Internal space 3 Self-aligning roller bearing 11, 31 Inner ring 12, 32 Outer ring 13 Steel ball 15, 35 Lubricant-containing polymer 33 Roller 34 Cage

Claims (1)

[Claims] In a bearing unit in which a rolling bearing is built in a bearing housing, a space between an inner ring and an outer ring of the rolling bearing is filled with a lubricant-containing polymer, and one of the filled lubricant-containing polymer is provided. A bearing portion protruding so as to cover at least one end face of the inner ring and the outer ring.