Product Description
High Quality Multiple Types/Size Flexible Coupling, Rubber Shaft Coupling with Aluminum block 130*70 8AS Replacement of Many Types of machine excavator
Our main products:
steel cover lock, filter, oil grid, pump, cylinder head, crankshaft, camshaft, connecting rod, connecting rod bearing, valve, plunger, nozzle, exhaust valve, engine assembly, intake pump , fan blade, engine preheater, radiator, intake valve, main bearing, crankshaft bearing, nozzle, nozzle pipe, oil pump, piston, piston pin, piston ring, plunger, valve seat, thrust bearing, valve guide, valve Seats, valve seals, gasket sets, water pumps, turbochargers, generators, starters, sensors…
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| ENGINE CUSHION | ||||||||||||||
| NO. | LB NO. | Model | OEM NO. | Name | NO. | LB NO. | Model | OEM NO. | Name | NO. | LB NO. | Model | OEM NO. | Name |
| 1 | KLB-Q3001 | PC40 | 105*53*10 | ENGINE CUSHION | 15 | KLB-Q3015 | E312 FRONT |
95*28*16 | ENGINE CUSHION | 29 | KLB-Q3571 | SK230 | 90*45*21 | ENGINE CUSHION |
| 2 | KLB-Q3002 | PC120-6 4D102 | 82*46*18 | ENGINE CUSHION | 16 | KLB-Q3016 | EX312 REAR |
95*29*17 | ENGINE CUSHION | 30 | KLB-Q3030 | HD250 | 59*31*13 | ENGINE CUSHION |
| 3 | KLB-Q3003 | PC200-3 | 124*68*45 205-01-71111 |
ENGINE CUSHION | 17 | KLB-Q3017 | ZAX230 FRONT |
95*28*16 | ENGINE CUSHION | 31 | KLB-Q3031 | HD450 FRONT |
97*15*19 | ENGINE CUSHION |
| 4 | KLB-Q3004 | PC200-5/6 FRONT |
80*46*19 20Y-01-12210 |
ENGINE CUSHION | 18 | KLB-Q3018 | E320B | 110*40*22 | ENGINE CUSHION | 32 | KLB-Q3032 | HD450 REAR |
118*36*19 | ENGINE CUSHION |
| 5 | KLB-Q3005 | PC200-5 REAR |
130*73*25 20Y-01-12221 |
ENGINE CUSHION | 19 | KLB-Q3019 | E330B | 136*44*25 | ENGINE CUSHION | 33 | KLB-Q3033 | LS120 | 87*42*17 | ENGINE CUSHION |
| 6 | KLB-Q3006 | PC200-6 6D102 |
20Y-01-12222 | ENGINE CUSHION | 20 | KLB-Q3571 | DH220-3 FRONT |
68*70*12 | ENGINE CUSHION | 34 | KLB-Q3034 | LS280 FRONT |
86*23*16 | ENGINE CUSHION |
| 7 | KLB-Q3007 | EX200 | ENGINE CUSHION | 21 | KLB-Q3571 | DH220-3 REAR |
110*105*14 | ENGINE CUSHION | 35 | KLB-Q3035 | LS280 REAR |
96*25*16 | ENGINE CUSHION | |
| 8 | KLB-Q3008 | EX200-5 REAR |
167*110*14 | ENGINE CUSHION | 22 | KLB-Q3571 | DH220-5 | 104*74*19 | ENGINE CUSHION | 36 | KLB-Q3036 | SH60 SH65 |
120*110*12 | ENGINE CUSHION |
| 9 | KLB-Q3009 | EX200-6 REAR |
175*135*16 | ENGINE CUSHION | 23 | KLB-Q3571 | DH280 FRONT |
165*200*16 | ENGINE CUSHION | 37 | KLB-Q3037 | 6D22 FRONT |
70*35*21 | ENGINE CUSHION |
| 10 | KLB-Q3571 | EX200 FRONT |
120*155*14 | ENGINE CUSHION | 24 | KLB-Q3571 | DH280 REAR |
200*110*20 | ENGINE CUSHION | 38 | KLB-Q3038 | 6D22 REAR |
95*41*22 | ENGINE CUSHION |
| 11 | KLB-Q3011 | EX200 REAR |
165*105*14 | ENGINE CUSHION | 25 | KLB-Q3571 | SK60 FRONT |
98*103*12 | ENGINE CUSHION | 39 | KLB-Q3039 | DH55 FRONT |
100*48*17 | ENGINE CUSHION |
| 12 | KLB-Q3012 | EX200 | 126*100*11 | ENGINE CUSHION | 26 | KLB-Q3026 | SK60 REAR |
98*103*16 | ENGINE CUSHION | 40 | KLB-Q3040 | SH200A3 | 137*160*16 | ENGINE CUSHION |
| 13 | KLB-Q3013 | EX300 FRONT |
87*35*20 | ENGINE CUSHION | 27 | KLB-Q3571 | SK120 FRONT |
100*15*19 | ENGINE CUSHION | |||||
| 14 | KLB-Q3014 | EX300 REAR |
110*39*22 | ENGINE CUSHION | 28 | KLB-Q3571 | SK120 FEAR |
100*47*19 | ENGINE CUSHION | |||||
| COUPLING | ||||||||||||||
| NO. | LB NO. | Model | OEM NO. | Name | NO. | LB NO. | Model | OEM NO. | Name | NO. | LB NO. | Model | OEM NO. | Name |
| 1 | KLB-Q2001 | 25H 162*92 | COUPLING | 22 | KLB-Q2571 | 16A | 155*76 | COUPLING | 43 | KLB-Q2043 | S32S | 235*97 | COUPLING | |
| 2 | KLB-Q2002 | MS110 DH55 | 30H 195*105 | COUPLING | 23 | KLB-Q2571 | 16AS | 155*76 | COUPLING | 44 | KLB-Q2044 | S25S | 163*58 | COUPLING |
| 3 | KLB-Q2003 | 30H | 195*105 | COUPLING ASSY | 24 | KLB-Q2571 | 22A | 153*76 | COUPLING | 45 | KLB-Q2045 | E200B | 14T | COUPLING |
| 4 | KLB-Q2004 | EX200-2 | 40H 170*90 | COUPLING | 25 | KLB-Q2571 | 25A | 185*102 | COUPLING | 46 | KLB-Q2046 | 50AC | 14T 205*40 | COUPLING |
| 5 | KLB-Q2005 | 40H | 170*90 | COUPLING ASSY | 26 | KLB-Q2026 | 25AS | 185*102 | COUPLING | 47 | KLB-Q2047 | SH280 | COUPLING | |
| 6 | KLB-Q2006 | 45H | 183*92 | COUPLING | 27 | KLB-Q2571 | 28A | 178*93 | COUPLING | 48 | KLB-Q2048 | E200B 12T | COUPLING | |
| 7 | KLB-Q2007 | 45H | 183*92 | COUPLING ASSY | 28 | KLB-Q2571 | 28AS | 178*93 | COUPLING | 49 | KLB-Q2049 | 50AM 16T | 205*45 | COUPLING |
| 8 | KLB-Q2008 | 90H | 203*107 | COUPLING | 29 | KLB-Q2571 | 30A | 215*118 | COUPLING | 50 | KLB-Q2050 | SH200 | 14T 205*40 | COUPLING |
| 9 | KLB-Q2009 | 90H | 203*107 | COUPLING ASSY | 30 | KLB-Q2030 | 30AS | 215*118 | COUPLING | 51 | KLB-Q2051 | E330C | 350*145 | COUPLING |
| 10 | KLB-Q2571 | 50H | 195*110 | COUPLING | 31 | KLB-Q2031 | 50A | 205*108 | COUPLING | 52 | KLB-Q2052 | E330C | COUPLING | |
| 11 | KLB-Q2011 | 50H | 195*110 | COUPLING ASSY | 32 | KLB-Q2032 | 50AS | 205*108 | COUPLING | 53 | KLB-Q2053 | 168mm*48m 26T 3H | COUPLING | |
| 12 | KLB-Q2012 | 110H | 215*110 | COUPLING | 33 | KLB-Q2033 | 90A | 272*140 | COUPLING | 54 | KLB-Q2054 | 242mm*72mm 50T 8H | COUPLING | |
| 13 | KLB-Q2013 | 110H | 215*110 | COUPLING ASSY | 34 | KLB-Q2034 | 90AS | 272*140 | COUPLING | 55 | KLB-Q2055 | 295mm*161mm 48T 12H | COUPLING | |
| 14 | KLB-Q2014 | 140H | 245*125 | COUPLING | 35 | KLB-Q2035 | 140A | 262*132 | COUPLING | 56 | KLB-Q2056 | 352mm*161mm 48T 8H | COUPLING | |
| 15 | KLB-Q2015 | 140H | 245*125 | COUPLING ASSY | 36 | KLB-Q2036 | 140AS | 262*132 | COUPLING | 57 | KLB-Q2057 | 352mm*161mm 46T 8H | COUPLING | |
| 16 | KLB-Q2016 | 160H | 255*134 | COUPLING | 37 | KLB-Q2037 | E300B | 16T 278*54 | COUPLING | 58 | KLB-Q2058 | 318mm*72mm 50T 8H | COUPLING | |
| 17 | KLB-Q2017 | 160H | 255*134 | COUPLING ASSY | 38 | KLB-Q2038 | E450 | 16T 360*52 | COUPLING | 59 | KLB-Q2059 | 315mm 42T | COUPLING | |
| 18 | KLB-Q2018 | 4A | 104*53 | COUPLING | 39 | KLB-Q2039 | SH430 | 12T 205*35 | COUPLING | 60 | KLB-Q2060 | 268mm*100mm 42T 6H | COUPLING | |
| 19 | KLB-Q2019 | 4AS | 104*53 | COUPLING | 40 | KLB-Q2040 | SH200 | 14T 205*40 | COUPLING | 61 | KLB-Q2061 | 167mm*90mm 47T 3H | COUPLING | |
| 20 | KLB-Q2571 | 8A | 130*70 | COUPLING | 41 | KLB-Q2041 | 50ASM | 20T 205*40 | COUPLING | 62 | KLB-Q2062 | 182mm 42T | COUPLING | |
| 21 | KLB-Q2571 | 8AS | 130*70 | COUPLING | 42 | KLB-Q2042 | SH160(SH60) | 15T 173*22 | COUPLING | 63 | KLB-Q2063 | 220mm 46T | COUPLING | |
1Q:What is your brand?
1A:Our own brand: Mita Group and its range of excavator parts.
2Q:Do you have your own factory? Can we have a visit?
2A:Absolutely, you are alwayswelcome to visit our factory.
3Q:How do you control the quality of the products?
3A:Our factory was obtained the ISO9001CERTIFICATE.Every process of the production is strictly controlled. And all products will be inspected by QC before shipment.
4Q:How long is the delivery time?
4A:2 to 7 days for ex-stock orders. 15 to 30 days for production.
5Q:Can we print our company logo onproduct and package?
5A:Yes, but the quantity of the order is required. And we need you to offer the Trademark Authorization to us.
6Q:Can you provide OEM BRAND package?
6A:Sorry, we can only offer our company ACT BRAND package or neutral packing,blank package ifyou need, and the Buyers’ Brand as authorized.7Q:How long is the warranty period?7A:3 months
Can flexible couplings be used in servo motor and stepper motor applications?
Yes, flexible couplings are commonly used in both servo motor and stepper motor applications. They play a crucial role in connecting the motor shaft to the driven load while compensating for misalignments and providing other essential benefits:
- Servo Motor Applications: Servo motors require precise motion control and high responsiveness. Flexible couplings are well-suited for servo motor applications because they offer the following advantages:
- Misalignment Compensation: Servo motors are sensitive to misalignments, which can lead to decreased performance and increased wear. Flexible couplings can accommodate angular, parallel, and axial misalignments, ensuring that the motor and driven load remain properly aligned during operation.
- Vibration Damping: Flexible couplings help reduce vibrations, which is crucial for servo motor applications that require smooth and precise motion. By absorbing and dissipating vibrations, flexible couplings contribute to the overall stability and accuracy of the system.
- Backlash Minimization: Some flexible couplings have minimal to no backlash, making them suitable for high-precision servo motor applications where any play or clearance between components could affect performance.
- High Torque Capacity: Servo motors often require high torque transmission capabilities. Flexible couplings are available in various designs and materials, allowing for the selection of couplings with appropriate torque ratings for specific servo motor applications.
- Stepper Motor Applications: Stepper motors are commonly used in open-loop control systems where precise positioning is necessary. Flexible couplings are used in stepper motor applications due to the following reasons:
- Misalignment Tolerance: Stepper motors can experience misalignments, especially in dynamic applications. Flexible couplings can handle misalignments without introducing significant backlash or affecting the stepper motor’s accuracy.
- Cost-Effectiveness: Flexible couplings are often more cost-effective than other types of couplings, making them a practical choice for stepper motor applications, especially in cases where precision requirements are not as stringent as in servo motor systems.
- Shock Load Absorption: Some stepper motor applications involve abrupt starts and stops, leading to shock loads. Flexible couplings can absorb these shocks and protect the motor and driven load from damage.
- Simplicity: Flexible couplings are simple in design and easy to install, making them a popular choice in various stepper motor applications.
Overall, flexible couplings offer valuable benefits in both servo motor and stepper motor applications. They help improve system performance, reduce wear on components, and enhance the overall reliability of the motion control systems they are employed in.
How does a flexible coupling handle alignment issues in long-distance shaft connections?
In long-distance shaft connections, it is common to encounter alignment issues due to factors such as thermal expansion, foundation settlement, or machinery shifts. Flexible couplings play a crucial role in handling these alignment issues and ensuring efficient power transmission. Here’s how they achieve this:
- Misalignment Compensation: Flexible couplings are designed to accommodate both angular and parallel misalignments between shafts. When the shafts are not perfectly aligned, the flexibility of the coupling allows it to bend or flex, reducing the transmission of misalignment forces to connected equipment.
- Reduced Stress on Equipment: By absorbing and compensating for misalignment, flexible couplings reduce the stress and loads imposed on connected machinery. This feature is particularly important in long-distance shaft connections, where misalignment can be more pronounced.
- Torsional Flexibility: In addition to angular and parallel misalignments, long-distance shaft connections may also experience torsional misalignment. Flexible couplings can handle torsional flexibility, allowing smooth torque transmission even if the connected shafts have slightly different rotational speeds.
- Vibration Damping: Long-distance shaft connections can be susceptible to vibrations due to the extended span and potential resonance. Flexible couplings help dampen these vibrations, protecting the connected equipment from excessive wear and fatigue.
- Resilience to Shock Loads: Long-distance shaft connections in industrial settings may experience shock loads due to sudden starts, stops, or equipment malfunctions. Flexible couplings can absorb and dissipate some of these shock loads, safeguarding the connected components.
- Longevity: By mitigating the effects of misalignment, vibrations, and shock loads, flexible couplings contribute to the longevity of the connected equipment and reduce maintenance and replacement costs over time.
When selecting a flexible coupling for long-distance shaft connections, it is essential to consider factors such as the degree of misalignment, torque requirements, operating conditions, and the environment in which the coupling will be used. Regular inspection and maintenance of the flexible coupling can further enhance its performance and ensure reliable operation in long-distance shaft connections.
What are the advantages of using flexible couplings in mechanical systems?
Flexible couplings offer several advantages in mechanical systems, making them essential components in various applications. Here are the key advantages of using flexible couplings:
- Misalignment Compensation: One of the primary advantages of flexible couplings is their ability to compensate for shaft misalignment. In mechanical systems, misalignment can occur due to various factors such as installation errors, thermal expansion, or shaft deflection. Flexible couplings can accommodate angular, parallel, and axial misalignment, ensuring smooth power transmission and reducing stress on the connected equipment and shafts.
- Vibration Damping: Flexible couplings act as damping elements, absorbing and dissipating vibrations and shocks generated during operation. This feature helps to reduce noise, protect the equipment from excessive wear, and enhance overall system reliability and performance.
- Torsional Flexibility: Flexible couplings provide torsional flexibility, allowing them to handle slight angular and axial deflections. This capability protects the equipment from sudden torque fluctuations, shock loads, and torque spikes, ensuring smoother operation and preventing damage to the machinery.
- Overload Protection: In case of sudden overloads or torque spikes, flexible couplings can absorb and distribute the excess torque, protecting the connected equipment and drivetrain from damage. This overload protection feature prevents unexpected failures and reduces downtime in critical applications.
- Reduce Wear and Maintenance: By compensating for misalignment and damping vibrations, flexible couplings help reduce wear on the connected equipment, bearings, and seals. This results in extended component life and reduced maintenance requirements, leading to cost savings and improved system reliability.
- Compensation for Thermal Expansion: In systems exposed to temperature variations, flexible couplings can compensate for thermal expansion and contraction, maintaining proper alignment and preventing binding or excessive stress on the equipment during temperature changes.
- Electric Isolation: Some types of flexible couplings, such as disc couplings, offer electrical isolation between shafts. This feature is beneficial in applications where galvanic corrosion or electrical interference between connected components needs to be minimized.
- Space and Weight Savings: Flexible couplings often have compact designs and low inertia, which is advantageous in applications with space constraints and where minimizing weight is crucial for performance and efficiency.
- Cost-Effectiveness: Flexible couplings are generally cost-effective solutions for power transmission and motion control, especially when compared to more complex and expensive coupling types. Their relatively simple design and ease of installation contribute to cost savings.
In summary, flexible couplings play a vital role in mechanical systems by providing misalignment compensation, vibration damping, overload protection, and torsional flexibility. These advantages lead to improved system performance, reduced wear and maintenance, and enhanced equipment reliability, making flexible couplings a preferred choice in various industrial, automotive, marine, and aerospace applications.
editor by CX 2023-08-14