Product Description
Tapered roller bearings are self-contained bearings with tapered raceways on both the inner and outer rings of the bearing. Single row tapered roller bearings can accommodate radial and unidirectional axial loads. When a bearing is subjected to radial loads, it produces an axial force component, so when it needs another bearing that can accommodate the opposite axial force to balance. Â
HM133444HM133416XD F (6 1 /2* 12)Â Â Â Â 129848 6*11Â Â Â Â
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| New Designations : | TBU150x250x160 | Â | |||
| Main demensions : | 150 × 250 × 160 | Bore Dia × Outside Dia × Width Dia (mm) | |||
| ID : | 150 mm | Inside diameter(I.D) | |||
| OD : | 250 mm | Outside diameter(O.D) | |||
| T(B) : | 160 mm | Thickness(W.D) | |||
| C : | 943 kN | Basic dynamic load rating, Radial | |||
| C0 : | 1940 kN | Basic static load rating, Radial | |||
| Grease rpm : | 7 DE |
120 |
195 |
126 |
131.35 |
|
TBU 130x230x150 |
197726 |
130 |
230 |
150 |
150 |
|
TBU 130x230x160 |
BT2-8546 |
130 |
230 |
150 |
160 |
|
TBU 150x250x160 |
353130-2RS |
150 |
250 |
154.5 |
160 |
|
CZPT 130x230x150 |
BT2-8670-01 |
130 |
230 |
166.35 |
150 |
|
CZPT 130x230x160 |
BT2-8671 |
130 |
230 |
176.35 |
160 |
|
CZPT 150x250x160 |
353130B |
150 |
250 |
180.6 |
160 |
|
CZPT 150x250x160 |
BT2-8720 BD |
150 |
250 |
180.6 |
160 |
|
Class C (5″x9″) |
BT2-8735 BB |
119.008 |
195.263 |
36.525 |
142.875 |
|
Class D (5 1/2″xlO”) |
BT2-8547 BB |
131.775 |
207.963 |
146.75 |
152.4 |
|
Class E(6″xll”) |
BT2-8516 BB |
144.475 |
220.663 |
155.575 |
163.51 |
|
Class F (6 1/2″x12″) |
BT2-8612 BB |
157.175 |
252.413 |
177.8 |
184.15 |
|
CZPT Class K (6 1/2″x9″) |
BT2-8606 |
157.175 |
250 |
180.6 |
160 |
|
CZPT 150x260x160 |
150 |
260 |
180.6 |
160 |
 |
|
CZPT 160x270x170 |
160 |
270 |
195 |
170 |
 |
|
Bearing number |
d mm |
D mm |
T mm |
B mm |
Mass kg |
|
HM120848/HM12571XD |
38.1 |
65.088 |
19.812 |
18.288 |
0.24 |
|
26880-26822 |
39.688 |
79.375 |
23.812 |
25.4 |
0.55 |
|
HM801349-HM801310 |
40.483 |
82.55 |
29.37 |
28.575 |
0.73 |
|
LM501349-LM501310 |
41.275 |
73.431 |
19.558 |
19.812 |
0.32 |
|
HM85715-HM85710 |
41.275 |
88.9 |
30.162 |
29.37 |
0.9 |
|
HM85716-HM85710 |
41.275 |
88.9 |
30.162 |
29.37 |
0.89 |
|
HM85719-HM85710 |
44.45 |
88.9 |
30.162 |
29.37 |
0.84 |
|
HM903249-HM903210 |
44.45 |
95.25 |
30.958 |
28.575 |
1 |
|
HM807040-HM85711 |
44.45 |
104.775 |
36.12 |
36.512 |
1.62 |
|
LM157149-LM157110 |
45.242 |
73.431 |
19.558 |
19.812 |
0.31 |
|
LM503349-LM503310 |
45.987 |
74.976 |
18 |
18 |
0.3 |
|
T411 |
101.6 |
215.9 |
46.038 |
– |
8.89 |
|
T441 |
111.76 |
223.52 |
55.88 |
– |
11.4 |
|
HM89249-HM89210 |
36.512 |
79.375 |
29.37 |
28.829 |
1.02 |
|
JL69349-JL69310 |
38 |
63 |
17 |
17 |
0.19 |
|
LM29749-LM29710 |
38.1 |
65.088 |
18.034 |
18.288 |
0.22 |
|
HM120848 |
HM12571XD |
HM120848/HM12571XD |
101.6*165.1*114.3 |
|
HM120846 |
 |
 |
100*165.1*114.3 |
|
HM124646 |
HM124618XD |
HM124646/HM124618XD |
119.06*195.26*142.9 |
|
HM124649 |
HM124616XD |
HM124649/HM124616XD |
120*195*131.4 |
|
HM127446 |
HM127415XD |
HM127446/HM127415XD |
131.75*207.96*152.4 |
|
HM127442 |
HM127417XD |
HM127442/HM127417XD |
130*210*132 |
|
HM127746 |
H127715XD |
HM127746/HM127715XD |
130*230*160 |
|
NP178837 |
NP571784 |
NP178837/NP571784 |
130*250*159 |
|
HM129848 |
HM129814XD |
HM129848/HM129814XD |
144.45*220.66*163.5 |
|
HM129843 |
HM129813XD |
HM129843/HM129813XD |
140*220*140 |
|
HM133444 |
HM133416XD |
HM133444/HM133416XD |
157.15*252.41*184.2 |
|
HM133436 |
HM133413XD |
HM133436/HM133413XD |
150*250*160 |
|
HM133448 |
 |
 |
160*250*160 |
|
HM136948 |
HM136916XD |
HM136948/HM136916XD |
177.79*276.23*185.7 |
|
H337840 |
H337816XD |
H337840/H337816XD |
165.09*301.7*196.85 |
|
H337844 |
 |
 |
174.61 |
|
NP891226 |
NP379567 |
NP891226/NP379567 |
144.45*219.87*140 |
|
NP877824 |
NP335917 |
NP877824/NP335917 |
157.15*249.87*160 |
|
NP239427 |
NP540329 |
NP239427/NP540329 |
165.09*263.53*166.7 |
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| Packing&Delivery |
Packing
A. plastic box+outer carton+pallets
B. plastic bag+box+carton+pallet
C. tube package+middle box+carton+pallet
D. Of course we will also be based on your needs
Delivery
1.Most orders will be shipped within 3-5 days of payment being received.
2.Samples will be shipped by courier as FedEx,UPS,DHL,etc.
3.More than 3000 set bearings, it is recommended to be shipped by sea (sea transportation).
Scope of application
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| Type: | Rope Hook |
|---|---|
| Certification: | GS |
| Dedicated to Epbs: | Excavator Special |
| Samples: |
US$ 100/Piece
1 Piece(Min.Order) | Order Sample Rail bearings
|
|---|
.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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|---|---|
|
Initial Payment Full Payment |
| Currency: | US$ |
|---|
| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How does proper installation and alignment impact the performance and longevity of track bearings?
Proper installation and alignment play a critical role in the performance and longevity of track bearings. Correct installation ensures that the bearings are positioned and secured accurately, while proper alignment ensures that the load is distributed evenly and the bearings operate smoothly. Here’s an explanation of how proper installation and alignment impact the performance and longevity of track bearings:
Installation Impact:
- Load Distribution: Proper installation ensures that the track bearings are aligned and positioned correctly, allowing for even load distribution. When bearings are installed incorrectly, the load may be unevenly distributed, leading to excessive wear on certain parts of the bearings and reduced overall performance.
- Stability and Rigidity: Accurate installation provides stability and rigidity to the track bearings. Properly secured bearings minimize the risk of movement or vibration during operation, which can cause additional stress, premature wear, and potential damage to the bearings and surrounding components.
- Reduction of Misalignment: Correct installation minimizes the chances of misalignment between the track bearings and the track or guide rails. Misalignment can lead to uneven loading, increased friction, and accelerated wear and tear on the bearings. Proper alignment reduces these issues, ensuring smooth and efficient operation.
- Prevention of Contamination: During installation, it is important to take precautions to prevent contamination of the track bearings. Proper handling techniques, cleanliness, and the use of appropriate tools or protective measures help avoid introducing dirt, dust, or debris that can compromise the bearing’s performance and longevity.
Alignment Impact:
- Reduced Friction and Wear: Proper alignment of track bearings helps minimize friction and wear. When bearings are misaligned, excessive forces and irregular motion can occur, leading to increased friction and accelerated wear. Proper alignment ensures that the bearings operate within their intended design parameters, reducing friction and promoting longevity.
- Optimal Load Distribution: Correct alignment ensures that the load is distributed evenly across the track bearings. This prevents excessive stress on specific areas of the bearings, reducing the risk of premature failure and extending their service life. Optimal load distribution also contributes to smoother operation and improved overall performance.
- Minimized Noise and Vibration: Proper alignment helps minimize noise and vibration during operation. Misaligned track bearings can result in irregular motion, leading to unwanted noise and vibration that can affect the performance, comfort, and efficiency of the machinery or equipment. Proper alignment promotes smoother and quieter operation.
- Improved Efficiency: When track bearings are correctly aligned, the machinery or equipment experiences reduced resistance and improved efficiency. Misalignment can result in energy losses, increased power consumption, and decreased overall efficiency. Proper alignment ensures optimal power transfer and minimizes energy wastage.
It is important to follow the manufacturer’s guidelines and recommendations for the specific track bearings being installed. Proper installation techniques, including accurate positioning, secure fastening, and appropriate alignment, contribute to the optimal performance, reliability, and longevity of track bearings in various applications.
Can track bearings be used in both light-duty and heavy-duty machinery applications?
Yes, track bearings can be used in both light-duty and heavy-duty machinery applications. They are versatile components that offer reliable support for linear motion in a wide range of industrial settings. Here’s a detailed explanation:
1. Light-Duty Machinery Applications:
In light-duty machinery applications, track bearings provide cost-effective and efficient solutions for various tasks. Light-duty track bearings are designed to handle lower loads and are commonly used in applications such as:
- Office automation equipment
- Consumer electronics
- Printing machinery
- Small conveyors and material handling systems
- Automated vending machines
- Textile machinery
These applications typically involve lighter loads and lower operating speeds, making light-duty track bearings suitable for providing smooth and reliable linear motion.
2. Heavy-Duty Machinery Applications:
Track bearings are also widely used in heavy-duty machinery applications that require robust components capable of handling substantial loads and challenging operating conditions. Heavy-duty track bearings are designed to withstand higher loads and offer increased durability. They are commonly employed in applications such as:
- Material handling equipment
- Construction machinery
- Mining equipment
- Transportation systems
- Industrial automation
- Large-scale conveyors
- Steel mills
These applications often involve heavy loads, high operating speeds, and demanding environments. Track bearings in heavy-duty machinery applications are engineered to provide reliable performance, extended service life, and resistance to factors such as contamination, shock, and vibration.
Track bearings are available in various sizes, designs, and load capacities, allowing them to be tailored to the specific requirements of both light-duty and heavy-duty machinery applications. Manufacturers offer a range of options to accommodate different load capacities, operating conditions, and performance specifications.
It is important to consider the specific requirements and operating conditions of the machinery application when selecting track bearings. Consulting with bearing manufacturers or industry experts can help ensure the appropriate track bearings are chosen for optimal performance and reliability in both light-duty and heavy-duty machinery applications.
Can you describe the load-carrying capacity and load ratings of track bearings?
Track bearings are designed to withstand and carry various types of loads while maintaining smooth and controlled motion along a track or guide rail. The load-carrying capacity and load ratings of track bearings are crucial factors to consider when selecting the appropriate bearing for a specific application. Let’s delve into these concepts:
Load-Carrying Capacity:
The load-carrying capacity of a track bearing refers to its ability to support and distribute the applied loads without excessive deformation or failure. It is influenced by several factors, including the bearing’s design, materials, and operating conditions. The load-carrying capacity is typically specified in terms of static load capacity and dynamic load capacity.
The static load capacity indicates the maximum load that a track bearing can support without permanent deformation. It is determined by the bearing’s internal geometry, material strength, and the contact area between the rolling elements and raceways. Static loads are those that do not cause relative motion between the bearing and the track, such as when the bearing is stationary or subjected to a constant load.
The dynamic load capacity represents the maximum load that a track bearing can handle while still allowing smooth rolling motion. It takes into account the bearing’s ability to handle both radial and axial loads and considers factors such as the bearing’s internal clearance, lubrication, and operating speed. Dynamic loads are those that cause relative motion between the bearing and the track, such as when the bearing is subjected to varying loads or subjected to motion along the track.
Load Ratings:
Load ratings provide standardized values that indicate the maximum allowable loads for track bearings based on industry standards. These load ratings are commonly provided by bearing manufacturers and help users select the appropriate bearing for their specific application requirements. The two primary load ratings used for track bearings are the radial load rating and the axial load rating.
The radial load rating specifies the maximum radial load that a track bearing can withstand while maintaining proper performance and service life. It is expressed as a static load rating and a dynamic load rating. The static radial load rating indicates the maximum radial load that the bearing can support without permanent deformation, while the dynamic radial load rating represents the maximum radial load that the bearing can handle under typical operating conditions.
The axial load rating indicates the maximum axial load that a track bearing can withstand without excessive deformation or failure. It considers the applied axial force in the direction perpendicular to the track or guide rail. The axial load rating is typically provided as a static load rating and a dynamic load rating.
It’s important to note that load ratings are based on specific operating conditions, such as a certain speed, lubrication, and temperature. It is necessary to consider the actual operating conditions and factors such as shock loads, vibrations, and misalignments when applying load ratings to real-world applications.
By understanding the load-carrying capacity and load ratings of track bearings, engineers and designers can make informed decisions to ensure reliable and safe performance of the bearings in their applications.
editor by CX 2024-04-25