Product Description
Product Description
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Material |
304/316/316L/CF3/CF8/CF8M/1.4301/1.4408/1.4404/SCH22/SCS13/SCS14/17-4PH/WCB/GS45/HK | ||
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Standard |
DIN / JIS / ASTM / ASME / BS / GB / ISO |
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| Thread Ending | NPT / BSPT / BSP / DIN / ISO | ||
| Product weight | 0.005kg~45kg | ||
| Dimensional tolerance | Casting ISO8062 CT5~CT7 ; Machining ISO2768 | ||
| Manufacturing process | Precision casting, investment casting, precision machining NC/CNC | ||
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Application |
Stainless Steel Pipe System,water system, petrolum system etc.Medicine, food, chemical industry, etc |
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| Type | Tee, elbow, union, pair wire, quick connector, clamp connector, valve, valve body, pump, impeller, mechanical parts, food machinery, stainless steel customized parts |
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Service |
OEM |
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Delivery |
By Sea / By Air / By Express |
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| Shipping port | ZheJiang / QingDao / ZheJiang /BeiJin | ||
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Packing |
Carton Box / Plywood Case / Special Packaging CHINAMFG Customer Requirements |
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| Supply cycle | Samples are 25-35 days; the order can be adjusted according to the situation for 55 days of normal manufacturing period. | ||
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Payment Terms |
100% TT / 30%TT in advance, balance 70% before delivery |
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| Our advantage | We have more than 15 years of manufacturing management experience; we have professional technical engineers in investment casting, machining and quality inspection; we have long-term stable and continuous optimization of product quality and supply cycle management plHangZhou. |
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Product Show
FAQ
1,What are your strengths?
We have foundry workshop and machining workshop; We have an independent quality inspection team and production process management team; We can provide you with the drawing mapping, mold or product design and manufacturing, as well as the inspection and monitoring management of your products in China;
2,When can I get the price?
The quotation shall provide detailed and complete information within 24 hours after receiving the inquiry. And solutions.
3,How long can you finish the sample?
It is usually completed in 3-5 weeks; Different products adjust the cycle.
4,How long can you finish the order?
After receiving the sample confirmation information, the casting time is usually 6-7 weeks; The finished product was added for another 2-3 weeks;
We welcome your inquiry and cooperation!
HangZhou CHINAMFG Electric Technology Co., Ltd
Can you explain the Concept of Slip in a Fluid Coupling?
In a fluid coupling, slip refers to the relative speed difference between the impeller and the runner. When the impeller, which is connected to the driving shaft, rotates, it induces the flow of hydraulic fluid inside the coupling. This fluid flow in turn drives the rotation of the runner, which is connected to the driven shaft.
However, due to the operating principle of fluid couplings, there is always a certain amount of slip between the impeller and the runner. This slip occurs because the fluid coupling needs to allow for a small speed difference in order to transmit torque smoothly.
During startup or under heavy load conditions, the impeller’s rotational speed may be slightly higher than the runner’s rotational speed. This speed difference causes the hydraulic fluid to circulate between the impeller and the runner, generating hydrodynamic forces that transmit torque from the driving shaft to the driven shaft.
Slip is an inherent and controlled characteristic of fluid couplings, and it is essential for their smooth operation. However, excessive slip can lead to energy losses and reduced efficiency. Therefore, fluid couplings are designed to have an optimal slip value for specific applications, balancing the need for torque transmission and energy efficiency.
Real-World Case Studies: Improved Performance with Fluid Couplings
Fluid couplings have been widely adopted in various industries, and numerous real-world case studies demonstrate their positive impact on performance and efficiency. Here are a few examples:
Case Study 1: Mining Conveyor System
In a large mining operation, a conveyor system used to transport heavy loads of ore experienced frequent starts and stops due to fluctuating material supply. The abrupt starting and stopping led to significant wear and tear on the conveyor components, causing frequent breakdowns and maintenance downtime.
After installing fluid couplings at critical points in the conveyor system, the soft start and stop capability of the fluid couplings significantly reduced the mechanical stress during operation. This led to a smoother material flow, reduced conveyor wear, and extended equipment life. Additionally, the fluid couplings’ overload protection feature prevented damage to the conveyor during peak loads, ensuring uninterrupted production.
Case Study 2: Marine Propulsion System
In a marine vessel equipped with traditional direct drive systems, the crew faced challenges in maneuvering the ship efficiently. The fixed propeller arrangement made it challenging to control the vessel’s speed and direction accurately, leading to increased fuel consumption and decreased maneuverability.
By retrofitting the vessel’s propulsion system with fluid couplings, the ship’s performance improved significantly. The fluid couplings allowed for flexible and smooth speed control, enabling precise maneuvering and reduced fuel consumption. The ability to adjust the load on the propeller enhanced the vessel’s overall efficiency, resulting in reduced operating costs and improved environmental sustainability.
Case Study 3: Industrial Pumping Station
In an industrial pumping station, the constant starting and stopping of the pumps caused water hammer and pressure surges within the pipeline network. The sudden hydraulic shocks led to pipe bursts, valve failures, and increased energy consumption.
After implementing fluid couplings in the pump drive systems, the pumps could be softly started and stopped. The fluid couplings’ torque control capabilities ensured a gradual increase in pump speed, eliminating water hammer and pressure surges. As a result, the pumping station’s reliability improved, maintenance costs decreased, and the energy consumption reduced due to smoother pump operations.
These case studies demonstrate the positive effects of using fluid couplings in various applications. They highlight how fluid couplings contribute to improved performance, reduced mechanical stress, enhanced control, and cost savings in industrial machinery and systems.
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Maintenance Practices for Fluid Couplings
Regular maintenance is crucial to keep a fluid coupling in good condition and ensure its longevity. Here are the key maintenance practices:
- Fluid Level Checks: Regularly inspect the fluid level in the fluid coupling. Maintain the fluid level within the recommended range specified by the manufacturer.
- Fluid Quality: Monitor the quality of the fluid in the fluid coupling. Check for any signs of contamination, degradation, or discoloration. If the fluid shows signs of wear, replace it following the manufacturer’s guidelines.
- Fluid Replacement: As part of routine maintenance, consider replacing the fluid periodically, even if there are no visible signs of wear. Fluid replacement intervals may vary based on the application and operating conditions.
- Lubrication: Ensure proper lubrication of the fluid coupling components, including bearings and seals, as specified by the manufacturer.
- Inspections: Regularly inspect the fluid coupling for any signs of leaks, damage, or unusual noises during operation. Address any issues promptly to prevent further damage.
- Alignment: Verify that the fluid coupling is correctly aligned with the connected equipment. Misalignment can lead to premature wear and reduced performance.
- Coupling Bolts: Check and tighten the coupling bolts as needed to maintain proper coupling integrity.
- Temperature Monitoring: Monitor the operating temperature of the fluid coupling. Elevated temperatures may indicate an issue that needs attention.
- Vibration Analysis: Periodically perform vibration analysis to detect any abnormal vibrations that could indicate potential problems.
- Manufacturer Guidelines: Follow the maintenance guidelines and recommendations provided by the fluid coupling manufacturer.
By adhering to these maintenance practices, you can extend the life of your fluid coupling, improve its reliability, and minimize the risk of unexpected failures.
editor by CX 2023-12-15