Product Description
HIWIN brand bearing sliding block bearing slider HGW25HC 1610WHY-15 HGH20HA 1809BHCH-0067 EGH 20CA 09D045 cam block bearing
| Series/size | Installation dimensions [mm] | Dimensions of the block [mm] | Dynamic load | Static load | CAD | |||||
| H | W | B | C | L1 | L | M | rating Cdyn [N]* | rating C0 [N] | ||
| RGW15CC | 24 | 47 | 38 | 30 | 45,0 | 68,0 | M5 | 11300 | 24000 | CAD |
| RGW20CC | 30 | 63 | 53 | 40 | 57,5 | 86,0 | M6 | 21300 | 46700 | CAD |
| RGW20HC | 30 | 63 | 53 | 40 | 77,5 | 106,0 | M6 | 26900 | 63000 | CAD |
| RGW25CC | 36 | 70 | 57 | 45 | 64,5 | 97,9 | M8 | 27700 | 57100 | CAD |
| RGW25HC | 36 | 70 | 57 | 45 | 81,0 | 114,4 | M8 | 33900 | 73400 | CAD |
| RGW30CC | 42 | 90 | 72 | 52 | 71,0 | 109,8 | M10 | 39100 | 82100 | CAD |
| RGW30HC | 42 | 90 | 72 | 52 | 93,0 | 131,8 | M10 | 48100 | 105000 | CAD |
| RGW35CC | 48 | 100 | 82 | 62 | 79,0 | 124,0 | M10 | 57900 | 105200 | CAD |
| RGW35HC | 48 | 100 | 82 | 62 | 106,5 | 151,5 | M10 | 73100 | 142000 | CAD |
| RGW45CC | 60 | 120 | 100 | 80 | 106,0 | 153,2 | M12 | 92600 | 178800 | CAD |
| RGW45HC | 60 | 120 | 100 | 80 | 139,8 | 187,0 | M12 | 116000 | 230900 | CAD |
| RGW55CC | 70 | 140 | 116 | 95 | 125,5 | 183,7 | M14 | 130500 | 252000 | CAD |
| RGW55HC | 70 | 140 | 116 | 95 | 173,8 | 232,0 | M14 | 167800 | 348000 | CAD |
| RGW65CC | 90 | 170 | 142 | 110 | 160,0 | 232,0 | M16 | 213000 | 411600 | CAD |
| RGW65HC | 90 | |||||||||
| Series/size | Installation dimensions [mm] | Dimensions of the block [mm] | Dynamic load | Static load | CAD | |||||
| H | W | B | C | L1 | L | M × l | rating Cdyn [N]* | rating C0 [N] | ||
| MGW5C | 6,5 | 17 | 13 | – | 14,1 | 20,5 | M2,5 × 1,5 | 680 | 1180 | CAD |
| MGW7C | 9 | 25 | 19 | 10 | 21,0 | 31,2 | M3 × 3 | 1370 | 2060 | CAD |
| MGW7H | 9 | 25 | 19 | 19 | 30,8 | 41,0 | M3 × 3 | 1770 | 3140 | CAD |
| MGW9C | 12 | 30 | 21 | 12 | 27,5 | 39,3 | M3 × 3 | 2750 | 4120 | CAD |
| MGW9H | 12 | 30 | 23 | 24 | 38,5 | 50,7 | M3 × 3 | 3430 | 5890 | CAD |
| MGW12C | 14 | 40 | 28 | 15 | 31,3 | 46,1 | M3 × 3,6 | 3920 | 5590 | CAD |
| MGW12H | 14 | 40 | 28 | 28 | 45,6 | 60,4 | M3 × 3,6 | 5100 | 8240 | CAD |
| MGW15C | 16 | 60 | 45 | 20 | 38,0 | 54,8 | M4 × 4,2 | 6770 | 9220 | CAD |
| MGW15H | 16 | 60 | 45 | 35 | 57,0 | 73,8 | M4 × 4,2 | 8930 | 13380 | |
| Series/ | Installation | Dimensions of the block [mm] | Dynamic load | Static load | CAD | |||||
| size | dimensions [mm] | rating Cdyn [N]* | rating C0 [N] | |||||||
| H | W | B | C | L1 | L | M × l | ||||
| EGH15SA | 24 | 34 | 26 | – | 23,1 | 40,1 | M4 × 6 | 5350 | 9400 | CAD |
| EGH15CA | 24 | 34 | 26 | 26 | 39,8 | 56,8 | M4 × 6 | 7830 | 16190 | CAD |
| EGH20SA | 28 | 42 | 32 | – | 29,0 | 50,0 | M5 × 7 | 7230 | 12740 | CAD |
| EGH20CA | 28 | 42 | 32 | 32 | 48,1 | 69,1 | M5 × 7 | 1571 | 21130 | CAD |
| EGH25SA | 33 | 48 | 35 | – | 35,5 | 59,1 | M6 × 9 | 11400 | 19500 | CAD |
| EGH25CA | 33 | 48 | 35 | 35 | 59,0 | 82,6 | M6 × 9 | 16270 | 32400 | CAD |
| EGH30SA | 42 | 60 | 40 | – | 41,5 | 69,5 | M8 × 12 | 16420 | 28100 | CAD |
| EGH30CA | 42 | 60 | 40 | 40 | 70,1 | 98,1 | M8 × 12 | 23700 | 47460 | CAD |
| EGH35SA | 48 | 70 | 50 | – | 45,0 | 75,0 | M8 × 12 | 22660 | 37380 | CAD |
| EGH35CA | 48 | 70 | 50 | 50 | 78,0 | 108,0 | M8 × 12 | 33350 | 64840 | |
| Series/ | Installation | Dimensions of the block [mm] | Dynamic load | Static load | CAD | |||||
| size | dimensions [mm] | rating Cdyn [N]* | rating C0 [N] | |||||||
| H | W | B | C | L1 | L | M × l | ||||
| QEH15SA | 24 | 34 | 26,0 | – | 23,1 | 40,1 | M4 × 6 | 8560 | 8790 | CAD |
| QEH15CA | 24 | 34 | 26,0 | 26 | 39,8 | 56,8 | M4 × 6 | 12530 | 15280 | CAD |
| QEH20SA | 28 | 42 | 32,0 | – | 29,0 | 50,0 | M5 × 7 | 11570 | 12180 | CAD |
| QEH20CA | 28 | 42 | 32,0 | 32 | 48,1 | 69,1 | M5 × 7 | 16500 | 25710 | CAD |
| QEH25SA | 33 | 48 | 35,0 | – | 35,5 | 60,1 | M6 × 9 | 18240 | 18900 | CAD |
| QEH25CA | 33 | 48 | 35,0 | 35 | 59,0 | 83,6 | M6 × 9 | 26030 | 31490 | CAD |
| QEH30SA | 42 | 60 | 40,0 | – | 41,5 | 67,5 | M8 × 12 | 26270 | 27820 | CAD |
| QEH30CA | 42 | 60 | 40,0 | 40 | 70,1 | 96,1 | M8 × 12 | 37920 | 46630 | CAD |
| QEH35SA | 48 | 70 | 50,0 | – | 51,0 | 76,0 | M8 × 12 | 36390 | 36430 | CAD |
| QEH35CA | 48 | 70 | 50,0 | 50 | 83,0 | 108,0 | M8 × 12 | 51180 | 59280 | |
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HIWIN brand bearing sliding block bearing slider HGW25HC 1610WHY-15 HGH20HA 1809BHCH-0067 EGH 20CA 09D045 cam block bearing
LM Series Linear Ball Bushing Bearing : Manufactured with rubber seals these linear ball bushings are characterised by their smooth movement, high rigidity and low friction, they are easy to maintain or replace and have a good life span in service. They consist of steel outer housings with sets of balls running around their own tracks within the low friction polyamide / steel inner raceways. The UU series has the benefit of rubber seals to prevent the ingress of dust and moisture.
Closed: LM Closed types – the outer raceway is solid with no relief machined so clearances are preset, choose the adjustable type if you need to control clearances.
Benefits: Low friction, low maintenance, rubber seal limits moisture and dirt ingress, cost effective solution
HIWIN brand bearing sliding block bearing slider HGW25HC 1610WHY-15 HGH20HA 1809BHCH-0067 EGH 20CA 09D045 cam block bearing
HIWIN brand bearing sliding block bearing slider HGW25HC 1610WHY-15 HGH20HA 1809BHCH-0067 EGH 20CA 09D045 cam block bearing
|
Product Name |
HIWIN brand bearing sliding block bearing slider HGW25HC 1610WHY-15 HGH20HA 1809BHCH-0067 EGH 20CA 09D045 cam block bearing |
|
Brand |
OEM / TFN / SEMRI / ZYS |
|
Material |
GCr15/GCr15SiMn |
|
Certifications |
ISO 9001:2008,SGS |
| Delivery time |
1.For samples: 1-3days 2.For order: Generally 15-20 days after deposit |
|
Payment Terms |
A:100% TT B: 30% T/T in advance .70% before shipment or against copy of B/L C. Western union and PayPal |
|
Application |
Steel Industry, Mining&Construction, Papermaking Machinery, vibrating screens, shakers, conveyors, speed reducers transmissions, and other heavy machinery plastic molding,sanitation facilities,wire industry,Optical detection,Technical Equipment,Generator,Leather Products,Blood coagulation reagent,Dental Drill etc,surgical instruments,electrostatic protection |
| Package | 1. Industrial packaging: Plastic tube (10pcs in 1 tube)+ carton + plywood pallets; plastic bag + kraft paper + carton + plywood pallets;
2.Commercial packing: 1pc/plastic bag+ single color box+ carton + plywood pallets; 3.According to customer’s requirements |
| Feature | High precision, low noise, high speed, long life, high reliability, heavy load and high temperature resistance. |
|
Service |
OEM and ODM(any brands you want) |
HIWIN brand bearing sliding block bearing slider HGW25HC 1610WHY-15 HGH20HA 1809BHCH-0067 EGH 20CA 09D045 cam block bearing
Packing of linear bearing
HIWIN brand bearing sliding block bearing slider HGW25HC 1610WHY-15 HGH20HA 1809BHCH-0067 EGH 20CA 09D045 cam block bearing
Certificates of linear bearing
HIWIN brand bearing sliding block bearing slider HGW25HC 1610WHY-15 HGH20HA 1809BHCH-0067 EGH 20CA 09D045 cam block bearing
Advantage of linear bearing
HIWIN brand bearing sliding block bearing slider HGW25HC 1610WHY-15 HGH20HA 1809BHCH-0067 EGH 20CA 09D045 cam block bearing
FAQ of linear bearing
1. Q: Are you a factory or trading company?
A: CZPT Bearing is specialized in manufacturing and exporting bearings.
TFN Bearing have own factory and warehouse.
2. Q: Can I get some samples and do you offer the sample free?
A: Yes, sure, CZPT Bearing are honored to offer you samples. Can you buy a ticket?
3. Q: What is the payment?
A: 30% T/T In Advance, 70% T/T Against Copy Of B/L
B: 100% L/C At Sight
4. Q: What is the MOQ for bearing?
A: CZPT Bearing MOQ is 1 PC.
5. Q: What kind of service you can offer?
A: Technology support; Installation guidance; OEM.
6. Q: Which type of linear bearing can supply ?
A: Linear CZPT bearing, linear ball screw and linear bearing blocks
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| Feature: | Vacuum, Magnetically, Low Temperature, Corrosion Resistant, High Temperature, High Speed |
|---|---|
| Function: | Super |
| Flange Shape: | Oval |
| Shape: | Straight |
| Series: | Hgw Egh HGH |
| Material: | Bearing Steel |
| Samples: |
US$ 0.1/Set
1 Set(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
Differences Between Plain Sliding Bearings and Self-Lubricating Bearings
Plain sliding bearings and self-lubricating bearings are two distinct types of bearings used in various applications. Here are the key differences between them:
Plain Sliding Bearings:
- Plain sliding bearings, also known as bushings, are simple bearing components that consist of a cylindrical sleeve made of a bearing material.
- These bearings require external lubrication, such as grease or oil, to reduce friction and wear between the bearing and the shaft.
- Regular maintenance and lubrication are essential to ensure proper operation and longevity.
- Plain sliding bearings are cost-effective and suitable for applications where lubrication can be easily provided.
- They are commonly used in low-speed and low-load applications, where the shaft slides within the bearing.
Self-Lubricating Bearings:
- Self-lubricating bearings, also known as maintenance-free bearings, are designed to operate without the need for external lubrication.
- These bearings incorporate solid lubricants, such as graphite, PTFE (polytetrafluoroethylene), or other additives, directly into the bearing material.
- The solid lubricants are released gradually as the bearing operates, reducing friction and providing a consistent lubricating film.
- Self-lubricating bearings are ideal for applications where frequent maintenance or lubrication is impractical or not feasible.
- They are suitable for both low-load and high-load applications, as the self-lubricating properties help extend the bearing’s service life.
In summary, plain sliding bearings require external lubrication and are suitable for applications where lubrication can be provided, while self-lubricating bearings incorporate solid lubricants and operate without the need for regular maintenance. The choice between these two types depends on factors such as the application’s operating conditions, maintenance requirements, and budget considerations.
Enhancing Efficiency of Marine Propulsion Systems with Sliding Bearings
Sliding bearings play a crucial role in enhancing the efficiency of marine propulsion systems and various ship components. Here’s how sliding bearings contribute to the efficiency of maritime applications:
Reduced Friction: Sliding bearings are designed to minimize friction between moving parts. In marine propulsion systems, such as propeller shafts and stern tubes, reduced friction results in less energy loss and improved fuel efficiency.
Smooth Operation: Sliding bearings provide smooth and controlled movement of rotating or linear components. In marine applications, this smooth operation translates to improved maneuverability, reduced vibrations, and enhanced overall performance.
Load Distribution: Sliding bearings distribute loads evenly across bearing surfaces. This even distribution helps prevent localized wear and reduces the risk of premature failure, ensuring reliable operation of ship components.
Resistance to Harsh Environments: Marine environments expose equipment to corrosive saltwater, extreme temperatures, and harsh weather conditions. Sliding bearings are often designed with materials and coatings that offer corrosion resistance and durability, ensuring longevity even in challenging maritime settings.
Enhanced Lubrication: Lubrication is vital for reducing wear and friction in sliding bearings. Many marine applications use advanced lubrication systems that optimize the distribution of lubricants, further reducing friction and improving efficiency.
Space Efficiency: Sliding bearings are compact and require minimal space, making them suitable for marine systems where space is limited. This efficient use of space is particularly important in ship design and layout.
Customization for Specific Needs: Sliding bearings can be tailored to meet the specific requirements of different ship components. This customization ensures that bearings are optimized for their intended functions, further contributing to efficiency.
Reduced Maintenance: Properly designed sliding bearings require less maintenance compared to some other types of bearings. This reduced maintenance need translates to less downtime and increased operational efficiency for marine vessels.
Optimized Performance: Overall, the efficient and reliable performance of sliding bearings in marine propulsion systems and ship components leads to improved energy efficiency, reduced operational costs, and extended service life of the equipment.
By incorporating sliding bearings into marine applications, shipbuilders and operators can achieve enhanced efficiency, reliability, and sustainability in their operations.
Advantages of Sliding Bearings Compared to Other Bearings
Sliding bearings, also known as plain bearings or journal bearings, offer several advantages compared to other types of bearings. These advantages make them suitable for specific applications where their characteristics are beneficial:
- High Load-Carrying Capacity: Sliding bearings can handle high loads due to their larger contact area and distribution of pressure, making them suitable for heavy machinery and industrial equipment.
- Low Friction: Sliding bearings operate on the principle of sliding friction, which can result in lower frictional losses and energy consumption compared to rolling element bearings.
- Simplicity: Sliding bearings have a straightforward design with fewer components, reducing complexity and potential points of failure.
- Cost-Effectiveness: The simpler design and manufacturing process of sliding bearings can lead to lower production costs and maintenance expenses.
- Shock and Vibration Absorption: Sliding bearings can dampen shocks and vibrations due to their ability to accommodate misalignments and absorb dynamic forces.
- High-Temperature Applications: Some sliding bearings are capable of operating in high-temperature environments where other types of bearings might fail.
- Self-Lubrication: Some sliding bearings are designed with self-lubricating materials, reducing the need for external lubrication and maintenance.
- Noisiness: Sliding bearings often produce less noise than rolling element bearings, which can be advantageous in noise-sensitive applications.
- Corrosion Resistance: Sliding bearings made from materials such as bronze or plastic can offer better corrosion resistance in certain environments.
- Adaptability to Dirty Environments: Sliding bearings can perform well in dirty or contaminated environments where rolling element bearings might be more prone to failure due to debris.
However, it’s important to note that sliding bearings also have limitations, such as higher frictional heat generation, potential for stick-slip behavior, and limited suitability for high-speed applications. The choice between sliding bearings and other types of bearings depends on the specific requirements of the application and the trade-offs that need to be considered.
editor by CX 2024-05-06