China wholesaler Long Life Pillow Block Bearing Farms China Brand Agricultural Pillow Block Bearing Ucme207 Ucme208 Ucme209 Pillow Blocks Bearing bearing distributors

Product Description

Product Description

Pillow block bearing
Bearings used with suitable standard housings are an economical, interchangeable method of bearing arrangement and simplify maintenance.
Based on the experience accumulated in various industrial fields, new designs and practical housings are continuously developed to meet the requirements of different applications.
Standard housings include:
Partial housing
Integral bearing housing
Flanged housing
 

 

Product Parameters

Product Specification

1. Needle roller bearing without inner ring

HCFLU200

Bearing Unit NO. Shaft Dia d Dimensions(mm) Bolt Used Bearing No Housing No Housing No.
Wt(kg
   (in) (mm) a e b   9   s z n in) (mm)
HCFLU202-10
HCFLU203-11
HCFLU202
HCFLU203
518
11/16
15
17
99 76.5 57 15 11 25.5 11.5 38.4 13.9 3/8 M10 HC202-10
HC203-11
HC202
HC203
FLU203 0.59
HCFLU204-12
HCFLU204
3/4 20 112.5 90 61 19 15 29.5 11.5 45.5 17 3/8 M10 HC204-12
HC204
FLU204 0.59
HCFLU205-14
HCFLU205-15
HCFLU205-16
HCFLU205
7/8
15/16
1
25 123 99 70 19 15 30 11.5 45.9 17.4 3/8 M10 HC205-14
HC205-15
HC205-16
HC205
FLU205 0.65
HCFLU206-18
HCFLU206-19
HCFLU206-20
HCFLU206
-1/8
1-3/16
1-1/4
30 142 116.5 82 20 16 32.5 11.5 50.1 18.2 3/8 M10 HC206-18
HC206-19
HC206-20
HC206
FLU206 0.84
HCFLU207-20
HCFLU207-21
HCFLU207-22
HCFLU207-23
HCFLU207
-114
1-5/16
1-3/8
1-7/16
35 158 130 94 21 17 36 14 53.3 18.8 1/2 M12 HC207-20
HC207-21
HC207-22
HC207-23
HC207
FLU207 1.1
HCFLU208-24
HCFLU208-25
HCFLU208
1-1/2
1-9/16
40 172 143.5 103 24 17 39 14 58.9 21.4 1/2 M12 HC208-24
HC208-25
HC208
FLU208 1.16
HCFLU209-26
HCFLU209-27
HCFLU209-28
HCFLU209
-5/8
1-11/16
1-3/4
45 180 148.5 108 24 18 40 16 58.9 21.4 1/2 M14 HC209-26
HC209-27
HC209-28
HC209
FLU209 1.58
HCFLU210-30
HCFLU210-31
HCFLU210-32
HCFLU210
-77/8
1-15/16
2
50 190 157 114 28 20 45 18 66.1 24.6 5/8 M16 HC210-30
HC210-31
HC210-32
HC210
FLU210 1.62
HCFLU211-32
HCFLU211-34
HCFLU211-35
HCFLU211
2
2-1/8
2-3/16
55 217 184 128 31 21 48 18 74.6 27.7 518 M16 HC211-32
HC211-34
HC211-35
HC211
FLU211 2.4
HCFLU212-36
HCFLU212-38
HCFLU212-39
HCFLU212
2-1/4
2-3/8
2-7/16
60 237 202 138 34 21 53 18 80.8 30.9 5/8 M16 HC212-36
HC212-38
HC212-39
HC212
FLU212 3.2
HCFLU213-40
HCFLU213
2-1/2 65 256 210 152 38 22 56 21 89.6 34.1   M18 HC213-40
HC213
FLU213 4.05
HCFLU214-44
HCFLU214
2-3/4 70 264 216 157 38 23 58 21 89.6 34.1   M18 HC214-44
HC214
FLU214 4.17
HCFLU215-47
HCFLU215-48
HCFLU215
15/16
3
75 275 225 164 41 24 62 21 95.8 37.3   M18 HC215-47
HC215-48
HC215
FLU215 4.65

UCME200

Bearing Uint No. Shaft Dia d Dimemsinons(mm) Bolt Used Bearing No. Housing No. Housing Weight
(Kg)
H J A2 A1 A S f Bi n (mm)
mm
UCME204 20 100 78 2 8 17 9 62 31 12.7 M8 UC204 ME204 0.37
UCME205 25 115 90 2.5 9 19 9 70 34 14.3 M8 UC205 ME205 0.55
UCME206 30 125 100 2 9.5 20.5 11.5 80 38.1 15.9 M10 UC206 ME206 0.66
UCME207 35 135 110 1 10 20.5 11.5 90 42.9 17.5 M10 UC207 ME207 0.79
UCME208 40 145 120 1 11.5 23 11.5 100 49.2 19 M10 UC208 ME208 1
UCME209 45 155 130 2 12 25 14 106 49.2 19 M12 UC209 ME209 1.24
UCME210 50 165 135 1 13 25 14 110 51.6 19 M12 UC210 ME210 1.53
UCME211 55 185 150 0 15 27.5 18 125 55.6 22.2 M16 UC211 ME211 1.95
UCME212 60 195 160 1 16 29 18 135 65.1 25.4 M16 UC212 ME212 2.15
UCME214 70 215 177 0 18 32 18 150 74.6 30.2 M16 UC214 ME214 3.15
UCME215 75 220 184 0 18 32 18 160 77.8 33.3 M16 UC215 ME215 3
UCME216 80 220 184 -2 18 31 18 180 82.6 33.3 M16 UC216 ME216 2.8
UCME218 90 265 220 -4 20 32 23 190 96 39.7 M20 UC218 ME218 5.1

HCFE200

Bearing Uint No. Shaft Dia d Dimensinonsmm Bolt Used Bearing No Housing No Housing Weight (Kg)
H J A2 A1 A S f Z (mm)
mm
HCFE205 25 115 92 9.5 9 22 9 75 36.4 M8 HC205 FE205 0.55
HCFE206 30 127 105 10.5 9.5 22.5 9 85 40.6 M8 HC206 FE206 0.7
HCFE207 35 135 110 9 10 22.5 11.5 90 41.3 M10 HC207 FE207 0.75
HCFE208 40 145 120 11.5 11.5 26 11.5 100 46.4 M10 HC208 FE208 0.98
HCFE209 45 155 130 11.5 12 26.5 14 105 46.4 M12 HC209 FE209 1.25
HCFE210 50 165 136 12.5 13 27.5 14 115 50.6 M12 HC210 FE210 1.48
HCFE212 60 195 165 17 16 33 14 140 63.8 M12 HC212 FE212 2.15

UCT200

Bearing Unit NO. Shaft Dia d Dimensions(mm) Bearing No. Housing No. Weight(kg)
in mm 0 g p q S b k e a W i l h t Z Bi n
UCT201-8
UCT202-9
UCT202-10
UCT203-11
UCT204-12
UCT201
UCT202
UCT203
UCT204
1/2
9/16
5/8
11/16
12
15
17
20
16 10 51 32 19 51 12 78 89 94 32 21 61 2 51 31 12.7 UC201-8
UC202-9
UC202-10
UC203-11
UC204-12
UC201
UC202
UC203
UC204
T204 0.56
UCT205-13
UCT205-14
UCT205-15
UCT205-16
UCT205
13/16
7/8
15/16
1
25 16 10 51 32 19 51 12 76 89 97 32 24 62 2 57 34.1 14.3 UC205-13
UC205-14
UC205-15
UC205-16
UC205
T205 0.63
UCT206-17
UCT206-18
UCT206-19
UCT206-20
UCT206
1-1/16
1-1/8
1-3/16
1-1/4
30 18 10 56 37 22 57 12 89 102 113 37 28 70 2 62 38.1 15.9 UC206-17
UC206-18
UC206-19
UC206-20
UC206
T206 0.95
UCT207-20
UCT207-21
UCT207-22
UCT207-23
UCT207
1-1/4
1-5/16
1-3/8
1-7/16
35 16 13 64 37 22 64 12 89 102 129 37 30 78 3 72 42.9 17.5 UC207-20
UC207-2
UC207-22
UC207-23
UC207
T207 1.09
UCT208-24
UCT208-25
UCT208
1-1/2
1-9/16
40 19 16 83 49 29 83 16 102 114 144 49 33 88 3 82 49.2 19 UC208-24
UC208-25
UC208
T208 1.72
UCT209-26
UCT209-27
UCT209-28
UCT209
1-5/8
1-11/16
1-3/4
45 19 16 83 49 29 83 16 102 117 144 49 35 87 3 82 49.2 19 UC209-26
UC209-27
UC209-28
UC20g
T209 1.75
UCT210-29
UCT210-30
UCT210-31
UCT210-32
UCT210
1-13/16
1-7/8
1-15/16
2
50 19 16 83 49 29 88 18 102 117 149 49 37 90 3 87 51.6 19 UC210-29
UC210-30
UC210-31
UC210-32
UC210
T210 1.75
JCT211-32
UCT211-33
UCT211-34
UCT211-35
UCT211
2
2-1/16
2-1/8
2-3/16
55 25 19 102 64 35 95 22 130 146 171 64 38 106 4 92 55.6 22.2 UC211-32
UC211-33
UC211-34
UC211-35
UC211
T211 2.8
JCT212-38
UCT212-37
JCT212-38
UCT212-39
UCT212
2-1/4
2-5/16
2-3/8
2-7/16
60 32 19 102 64 35 102 22 130 146 194 64 42 119 4 102 65.1 25.4 UC212-36
UC212-37
UC212-38
UC212-39
UC212
T212 3.4
UCT213-40
UCT213-41
UCT213
2-1/2
2-9/16
65 32 21 111 70 41 121 26 151 167 224 70 44 137 4 107 651  25.4 UC213-40
UC213-41
UC213
T213 5
UCT214-42
UCT214-43
UCT214-44
UCT214
2-518
2-11/16
2-3/4
70 32 21 111 70 41 121 26 151 167 224 70 46 137     74.6 30.2 UC214-42
UC214-43
UC214-44
UC214
T214 4.7
UCT215-45
UCT215-46
UCT215-47
UCT215-48
UCT215
2-13/16
2-7/8
2-15/16
3
75 32 21 111 70 41 121 26 151 167 232 70 48 140     77.8 33.3 UC215-45
UC215-46
UC215-47
UC215-48
UC215
T215 5.1
UCT216-50
UCT216
3-1/8 80 32 21 111 70 41 121 26 165 184 235 70 51 140     82.6 33.3 UC²1677
UC216
T216 5.5
JCT217-52
UCT217
3-1/4 85 38 29 124 73 48 157 30 173 198 260 73 54 162     85.7 34.1 JC217-52
UC317
T217 74 
UCT218-56
UCT218
3-1/2 90 40 30 130 80 48 140 30 190 215 275 80 55 170     96 39.7 UC²1875
UC218
T218 10.2

UCNST200

Bearing Unit NO. Shaft Dia
d
Dimensions(mm) Eearing No Haus
  No
HUEN
Wt (kg
(in) (mm) 0 9 P 9 $ b k e a   W j   h Bi n
UCNST204-12
UCNST204
3/4 20 16 10 48 31 19 44 7.9 76.2 89  91 37 20 59 31 17.2 UC204-12
UC204
NST204 0.68
UCNST205-13
UCNST205-14
UCNST205-15
UCNST205-16
UCNST205
13/16
7/8
15/16
25 16 10 48 31 19 49 7.9 76.2 89 137 37 20 59 34 174 UC205-13
UC205-14
UC205-15
UC205-16
UC205
NST205 0.61
UCNST206-17
UCNST206-18
UCNST206-19
UCNST206-20
UCNST206
1-1/16
1-1/8
1-3/16
1-1/4
30 16 13 54 34 22 60 7.9 89 102 110 41 22 70 38.1 20 UC206-17
UC206-18
UC206-19
UC206-20
UC206
NST206 0.79
UCNST207-20
UCNST207-21
UCNST207-22
UCNST207-23
UCNST207
1-1/4
1-5/16
1-3/8
1-7/16
35 19 13 54 34 22 67 7.9 89 102 118 41 23 75 49.2 19.7 UC207-20
UC207-21
UC207-22
UC207-23
UC207
NST207 1.14
UCNST208-24
UCNST208-25
UCNST208
1-1/2
1-9/16
40 19 16 67 40 29 75 7.9 101.8 114 130 46 25 83 49.2 23 UC208-24
UC208-25
UC208
NST208 1.87
UCNST209-26
UCNST209-27
UCNST209-28
UCNST209
1-5/8
1-11/16
1-3/4
45 19 16 67 40 29 79 7.9 101.6 114 138 46 26 87 49.2 23 UC209-26
UC209-27
UC209-28
UC209
NST209 1.51
UCNST210-29
UCNST210-30
UCNST210-31
UCNST210-32
UCNST210
1-13/16
1-7/8
-15/16
2
50 19 16 67 40 29 84 7.9 101.6 114 145 46 27 91 51.6 22.7 UC210-29
UC210-30
UC210-31
UC210-32
UC210
NST210 1.62
UCNST211-32
UCNST211-33
UCNST211-34
UCNST211-35
UCNST211
2
2-1/16
2-1/8
2-3/16
55 25.4 19 83 49 35 94 7.9 130.2 146 164 54 29 105 55.6 27 UC211-32
UC211-33
UC211-34
UC211-35
UC211
NST211 3
UCNST212-36
UCNST212-37
UCNST212-38
UCNST212-39
UCNST212
2-1/4
2-5/16
2-318
2-7/16
60 25.4 19 83 49 35 103 7.9 130.2 146 188 54 30 113 65 26.9 UC212-36
UC212-37
UC212-38
UC212-39
UC212
NST212 3.48

UCLC200

Bearing Unt NO. Shaft Dia
d
Dimensions(mm) Bearing No. Housing No. Housing
Wt (kg)
(in)     (mm) a l Bi n
UCLC201-8
UCLC202-9
UCLC202-10
UCLC203-11
UCLC201
UCLC202
UCLC203
1/2
9/16
5/8
11/16
    12
    15
    17
68.3 22 26 10 UC201-8
UC202-9
UC202-10
UC203-11
UC201
UC202
UC203
LC203 0.4
UCLC204-12
UCLC204
3/4     20 74.8 22 31 12.7 UC204-12
UC204
LC204 0.42
UCLC205-13
ICLC205-14
UCLC205-15
UCLC205-16
UCLC205
13/16
7/8
15/16
1
    25 79.4 28 34 14.3 UC205-13
UC205-14
UC205-15
UC205-16
UC205
LC205 0.54
UCLC206-17
UCLC206-18
UCLC206-19
UCLC206-20
UCLC206
1-1/16
1-1/8
1-3/16
1-1/4
    30 88.9 28 38.1 15.9 UC206.17
UC206-18
UC206-19
UC206-20
UC206
LC206 0.64
UCLC207-20
UCLC207-21
UCLC207-22
UCLC207-23
UCLC207
1-1/4
1-5/16
1-3/8
1-7/16
    35 98.4 31 42.9 17.5 UC207-20
UC207-21
UC207-22
UC207-23
UC207
LC207 0.71
UCLC208-24
UCLC208-25
UCLC208
1-1/2
1-9/16
    40 106.4 37 49.2 19 UC208-24
UC208-25
UC208
LC208 1.07
UCLC209-26
UCLC209-27
UCLC209-28
UCLC209
1-5/8
1-11/16
1-3/4
    45 111.1 36.5 49.2 19 UC209-26
UC209-27
UC209-28
UC209
LC209 1.02
UCLC210-29
UCLC210-30
UCLC210-31
UCLC210-32
UCLC210
1-13/18
1-7/8
1-15/16
2
    50 115.9 37 51.6 19 UC210-29
UC210-30
UC210-31
UC210-32
UC210
LC210 1.1
UCLC211-32
UCLC211-33
UCLC211-34
UCLC211-35
UCLC211
2
2-1/16
2-1/8
2-3/16
    60 125.4 40.5 55.6 22.2 UC211-32
UC211-33
UC211-34
UC211-35
UC211
LC211 1.36
UCLC212-36
UCLC212-37
UCLC212-38
UCLC212-39
UCLC212
2-1/4
2-5/16
2-3/8
2-7/16
    60 149.2 41 65.1 25.4 UC212-36
UC212-37
UC212-38
UC212-39
UC212
LC212 2.33
UCLC213-40
UCLC213-41
UCLC213
2-1/2
2-9/16
    65 149.2 41 65.1 25.4 UC213-40
UC213-41
UC213
LC213 1.87

 

Product Application

Transportation field:
Pillow block bearing are widely used in transportation equipment, such as cars, trains, locomotives, ships, and so on.

Industrial production field:
Pillow block bearing are also widely used in various production equipment, such as injection molding machines, rubber machines, food machinery, and so on.

Mechanical equipment field:
Pillow block bearing are widely used in various types of mechanical equipment, such as machine tools, agricultural machinery, construction machinery, metallurgical equipment, papermaking machinery, and so on.

Packaging & Shipping

FAQ

 

Q: Are you trading company or manufacturer?
A: We are bearing manufacturer.

Q: How do you control quality of bearing?
A: All products and services passed ISO9001-2008 Quality Certificate.

Q: What is the MOQ?
A: It depends on the bearing type. You can send inquiry or send e-mail  for more information.

Q: How about the package?
A: Industrial packing in general condition (Plastic tube+ carton+ pallet). Accept design package when OEM.

Q: How long is the delivery time?
A: The lead time for sample orders is 3-5 days, for bulk orders is 5-20 days., depends on the model and quantity.

Q: How about the shipping?
A: We can arrange the shipment or you may have the forwarder.

Q: Is sample avaiable?
A: Yes, sample order is acceptable.

Q: Can we use our own LOGO or design on bearings?
A: Yes. OEM is acceptable. We can design the bearing with your requirements and use your own LOGO and package design.

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Raceway: Spherical Raceway
Material: Bearing Steel
Bearing Block Model: P
Samples:
US$ 2/Piece
1 Piece(Min.Order)

|

Order Sample

Customization:
Available

|

Customized Request

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Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

pillow block bearing

What role do pillow block bearings play in applications with varying temperature and environmental conditions?

Pillow block bearings play a crucial role in applications with varying temperature and environmental conditions by providing reliable and durable support for rotating shafts and components. Their specific contributions in such applications can be explained as follows:

  • Temperature Stability:
  • Pillow block bearings are designed to withstand a wide range of operating temperatures. They are often constructed with materials that can handle both high and low temperature extremes. Specialized heat-resistant materials, such as high-temperature alloys or heat-treated steels, are used to ensure the bearing’s stability and integrity even in applications with elevated temperatures. By maintaining their structural integrity under varying temperature conditions, pillow block bearings help ensure the continued functionality and performance of the machinery.

  • Expansion and Contraction Compensation:
  • Varying temperature conditions can cause thermal expansion and contraction of the components in machinery. Pillow block bearings are engineered to accommodate these dimensional changes. By allowing for slight movement and adjustment due to thermal expansion, they help prevent excessive stress on the shafts and other components. This compensation for thermal expansion and contraction contributes to the overall stability and longevity of the machinery, even in environments with significant temperature fluctuations.

  • Environmental Protection:
  • In applications with varying environmental conditions, pillow block bearings provide protection against contaminants, moisture, and other external elements. They often incorporate sealing mechanisms, such as rubber seals or labyrinth seals, to prevent the entry of dirt, dust, water, and other contaminants into the bearing. This protection helps maintain the cleanliness and integrity of the bearing’s internal components, reducing the risk of premature wear, corrosion, or damage caused by environmental factors. By safeguarding the bearing, pillow block bearings ensure reliable and efficient operation in environments with varying conditions.

  • Corrosion Resistance:
  • In corrosive environments where moisture, chemicals, or other corrosive agents are present, pillow block bearings with corrosion-resistant materials, such as stainless steel or special coatings, offer additional protection. These bearings are designed to withstand the corrosive effects of the environment, preventing degradation and maintaining their functionality over an extended period. By providing corrosion resistance, pillow block bearings enhance the reliability and lifespan of machinery operating in environments with varying temperature and corrosive conditions.

  • Shock and Vibration Absorption:
  • Applications with varying temperature and environmental conditions often involve machinery subjected to shocks and vibrations. Pillow block bearings are engineered to absorb and dampen these shocks and vibrations, reducing their impact on the rotating shafts and other components. This absorption capability helps prevent excessive stress, minimizes the risk of component failure, and ensures the smooth and reliable operation of the machinery, even in environments with dynamic conditions.

  • Maintenance and Longevity:
  • Pillow block bearings designed for applications with varying temperature and environmental conditions often incorporate features that simplify maintenance and extend bearing life. They may have lubrication systems or self-lubricating properties that ensure proper lubrication even in challenging environments. Additionally, they may be designed for easy inspection, cleaning, and replacement, allowing for timely maintenance and minimizing downtime. These features contribute to the longevity and reliability of the machinery in applications with varying temperature and environmental conditions.

In summary, pillow block bearings play a critical role in applications with varying temperature and environmental conditions by providing temperature stability, compensating for expansion and contraction, protecting against contaminants and corrosion, absorbing shocks and vibrations, and facilitating maintenance and longevity. Their ability to withstand and adapt to changing conditions ensures the reliable operation and extended lifespan of machinery in diverse environments.

pillow block bearing

How do different types of pillow block bearings, like split and solid, differ in terms of design and functionality?

Different types of pillow block bearings, such as split and solid designs, exhibit variations in their design and functionality. Here’s a detailed explanation of how these types differ:

  • Split Pillow Block Bearings:
  • Split pillow block bearings, also known as split plummer block bearings, are designed with a split housing that allows for easy mounting and dismounting without the need to remove other components or disassemble the shaft. The housing is divided into two or more parts, typically split horizontally or vertically, which can be separated to access the bearing. The split design offers several advantages:

    • Easy Installation and Maintenance: Split pillow block bearings simplify the installation and maintenance process by providing convenient access to the bearing without dismantling the shaft or surrounding equipment. This feature is particularly beneficial in scenarios where quick and efficient bearing replacement or inspection is required.
    • Space Constraints: Split bearings are advantageous in applications where space limitations make it challenging to maneuver or remove solid bearings. The split design allows for easy insertion and removal of the bearing, even in confined spaces.
    • Shaft Alignment: Split pillow block bearings often incorporate features that assist with shaft alignment. This ensures proper alignment between the rotating shaft and the bearing, reducing friction, wear, and vibration.
    • Temperature Expansion: The split housing design accommodates thermal expansion or contraction of the bearing components. This capability is particularly important in applications where temperature variations occur, preventing potential damage or misalignment due to thermal effects.
  • Solid Pillow Block Bearings:
  • Solid pillow block bearings, also referred to as solid plummer block bearings, have a one-piece housing that encloses the bearing. The housing is typically made of cast iron, ductile iron, or other durable materials. Solid pillow block bearings offer the following characteristics:

    • Stability and Strength: Solid bearings provide a robust and rigid housing, offering excellent stability and support for the bearing and the shaft. They are capable of handling high loads and resisting deformation or deflection under heavy operating conditions.
    • Environmental Protection: The solid housing design provides enhanced protection against contaminants, moisture, and debris. It helps to shield the bearing from external elements, reducing the risk of premature wear, corrosion, or damage.
    • Sealing Options: Solid pillow block bearings often feature various sealing options, such as rubber seals, felt seals, or labyrinth seals. These seals help to retain the lubricant and prevent the ingress of contaminants, maintaining the integrity and performance of the bearing.
    • Design Variations: Solid bearings are available in different configurations and styles to accommodate specific application requirements. This includes variations in the shape, dimensions, mounting methods, and sealing arrangements of the housing.

In summary, split pillow block bearings and solid pillow block bearings differ in their design and functionality. Split bearings offer easy installation and maintenance, space-saving advantages, assistance with shaft alignment, and accommodation for temperature expansion. On the other hand, solid bearings provide stability, strength, environmental protection, sealing options, and various design variations. The choice between these types depends on the specific application needs, including accessibility requirements, load capacity, environmental conditions, and maintenance considerations.

pillow block bearing

What factors should be considered when selecting a pillow block bearing for a specific application?

When selecting a pillow block bearing for a specific application, several factors should be taken into consideration to ensure optimal performance and reliability. Here’s a detailed explanation of the factors that should be considered:

  • Load Requirements:
  • One of the primary factors to consider is the load requirements of the application. Determine the magnitude and direction of the loads that the bearing will be subjected to, including both radial and axial loads. This will help in selecting a pillow block bearing with the appropriate load capacity and load distribution characteristics to handle the specific application’s demands.

  • Speed and Operating Conditions:
  • Consider the speed at which the bearing will operate and the operating conditions it will be exposed to. Factors such as temperature, humidity, vibration, and contamination levels can affect bearing performance. Select a pillow block bearing that is designed to withstand the anticipated speed and operating conditions, ensuring proper lubrication, heat dissipation, and protection against external elements.

  • Shaft Size and Misalignment:
  • Take into account the shaft size and any potential misalignment that may occur during operation. Ensure that the pillow block bearing has the correct bore size to fit the shaft diameter. Additionally, consider the self-aligning capability of the bearing to accommodate any misalignments or shaft deflections that may occur. This will help prevent premature wear and failure of the bearing.

  • Environmental Factors:
  • Assess the environmental factors that the pillow block bearing will be exposed to. Consider the presence of contaminants, such as dust, dirt, moisture, or chemicals, and select a bearing with appropriate sealing or shielding options to prevent ingress and protect against corrosion. For harsh or specialized environments, consider choosing bearings with specific coatings or materials that offer enhanced resistance to corrosion, high temperatures, or aggressive substances.

  • Maintenance Requirements:
  • Consider the maintenance requirements of the application. Evaluate factors such as accessibility, lubrication intervals, and ease of bearing replacement. Select a pillow block bearing that aligns with the maintenance capabilities and resources available, ensuring that the bearing can be properly lubricated, inspected, and serviced as needed to maintain optimal performance and prolong its service life.

  • Cost and Availability:
  • While considering the technical requirements, it’s also essential to evaluate the cost and availability of the pillow block bearing. Compare the pricing and availability from different suppliers or manufacturers. Keep in mind that choosing a high-quality bearing from a reputable supplier may provide better long-term value through improved performance and durability.

By carefully considering these factors when selecting a pillow block bearing for a specific application, you can ensure that the chosen bearing meets the requirements of the application, operates reliably, and contributes to the overall efficiency and productivity of the machinery or system.

China wholesaler Long Life Pillow Block Bearing Farms China Brand Agricultural Pillow Block Bearing Ucme207 Ucme208 Ucme209 Pillow Blocks Bearing   bearing distributorsChina wholesaler Long Life Pillow Block Bearing Farms China Brand Agricultural Pillow Block Bearing Ucme207 Ucme208 Ucme209 Pillow Blocks Bearing   bearing distributors
editor by CX 2024-04-11