Product Description
Product Description
Rubber joints are mainly used in food pipelines, so the material of food-grade rubber soft joints must be non-toxic and odorless.
All the rubber joints produced by our company are made of imported silicone collagen materials. Using scientific production technology, the batch method is used to produce raw rubber, aiming at the high tear resistance and high transparency of gas-phase rubber, the super-high and low hardness of mixtures, and their functionality. High-quality silica gel tube produced by mixing rubber and other characteristics, this product has a wide range of adaptability.
Product Parameters
Material of parts
NO Name Material
1 Flange Q235
2 Outer/inner rubber NR,NBR,EPDM
3 Key frame Nylon cord fabric
4 Pressurized ring Steel wire strand
DN(mm) | Inch(mm) | Length | Axial displacement(mm) | Horizontal displacement | Angle of deflection | ||
Extension | Compression | ||||||
32 | 1 ¼ | 95 | 6 | 9 | 9 | 15° | |
40 | 1 ½ | 95 | 6 | 10 | 9 | 15° | |
50 | 2 | 105 | 7 | 10 | 10 | 15° | |
65 | 2 ½ | 115 | 7 | 13 | 11 | 15° | |
80 | 3 | 135 | 8 | 15 | 12 | 15° | |
100 | 4 | 150 | 10 | 19 | 13 | 15° | |
125 | 5 | 165 | 12 | 19 | 13 | 15° | |
150 | 6 | 180 | 12 | 20 | 14 | 15° | |
200 | 8 | 210 | 16 | 25 | 22 | 15° | |
250 | 10 | 230 | 16 | 25 | 22 | 15° | |
300 | 12 | 245 | 16 | 25 | 22 | 15° | |
350 | 14 | 255 | 16 | 25 | 22 | 15° | |
400 | 16 | 255 | 16 | 25 | 22 | 15° | |
450 | 18 | 255 | 16 | 25 | 22 | 15° | |
500 | 20 | 255 | 16 | 25 | 22 | 15° | |
600 | 24 | 260 | 16 | 25 | 22 | 15° |
Data above is only for reference, if you want much more information, please contact us.
We have various types of molds and multiple sets rubber vulcanizing equipment, which can meet mass production and customization requirements.
Technical Conditions
Type | I | I I | I I I |
Working pressure | 1.0(10) | 1.6(16) | 2.5(25) |
Explosion pressure | 2.0(20) | 3.0(30) | 4.5(45) |
Vacuum | 53.3(400) | 86.7(650) | 100(750) |
Applicable Tempefture -15ºC~+80ºC,Special reachable-30ºC~+160ºC
Applicable Media “Air,water,sea water,vacuum,hot water,oil,acid,alkali,etc.”
Production process
products application
Product application
This product is widely used in chemical industry, construction, water supply and drainage, petroleum, heavy and light industry, refrigeration, sanitation, plumbing, fire protection, electric power and other basic engineering.According to different materials can be made of acid resistance, alkali resistance, corrosion resistance, oil resistance, high temperature resistance, radiation resistance, wear resistance, aging resistance and other varieties, to adapt to a variety of media and the environment.We can also do pressure testing.
Company Profile
HangZhou Ruixuan pipeline equipment factory was founded in 1996.It is an excellent enterprise specializing in manufacturing and selling pipe fittings.It’s located in Xicun village ,HangZhou city,ZheJiang province ,the concentrated area of pipeline equipment industry in China.The company factory is located in Xicun town pipeline equipment industrial park.It covered an area of20000 square meters.
At present, the company has the production capacity of pipeline equipment with a maximum diameter of 4000mm, and its main products are: Steel expansion joint, flexible waterproof sleeve, large diameter flange, double flange force transfer expansion joint, large deflection loose sleeve compensation joint, spherical compensation joint, sleeve compensator, bellows compensator, non-metallic compensator, rubber expansion joint, DC medium no thrust sleeve compensator, flexible expansion pipe and other pipeline equipment. The annual production capacity is 30 million sets.
The flexible telescopic pipe equipment is mainly used in the pipeline crossing different geological structures under different conditions and the application of pipe installation drop, reduce or avoid the impact of geological settlement and crustal activity on the pipeline, so that the construction unit can save more than 50% of the cost when purchasing the equipment. The rubber expansion joint series products of the company, the maximum production diameter of 3600mm, have been applied in millions of units of thermal power projects in China for many times, and have been praised by the users.
The company passed ISO9001:2008 quality management system certification in 2009 and ISO14000:2004 environmental management system certification in 2009. The company has a strict quality control system, standard production process, standard factory inspection hand section, to ensure that every product meets the national standards and customer requirements.
Business philosophy: responsible production of products, return the trust of customers; To build a community with a sense of belonging and appreciate employees’ contributions; Make a contribution to the society of enterprises, give back to the good times. HangZhou Ruixuan pipeline equipment factory is willing to work with friends from all walks of life hand in hand, mutual support, create a better future!
Certifications
exhibition
FAQ
1) How can I get more details about your products?
You can send an email to our email address. We will provide catalogue and pictures of our products for your reference.We can also supply pipe fittings, bolt and nut, gaskets etc. We aim to be your piping system solution provider.
2) How can I get some samples?
If you need, we will offer you samples for free, but new customers are expected to pay express charge.
3) Do you provide customized parts?
Yes, you can give us drawings and we will manufacture accordingly.
4) I can’t see the goods or touch the goods, how can I deal with the risk involved?
Our quality management system conforms to the requirement of ISO 9001:2015 verified by DNV. We are absolutely worth your trust. We can accept trial order to enhance mutual trust.
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Brand Name: | Ruixuan |
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Technics: | Valcanized Formed |
Connection: | Flange |
Samples: |
US$ 8/Piece
1 Piece(Min.Order) | Order Sample |
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Customization: |
Available
| Customized Request |
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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$ |
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Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How do you calculate the torque capacity of a universal joint?
Calculating the torque capacity of a universal joint involves considering various factors such as the joint’s design, material properties, and operating conditions. Here’s a detailed explanation:
The torque capacity of a universal joint is determined by several key parameters:
- Maximum Allowable Angle: The maximum allowable angle, often referred to as the “operating angle,” is the maximum angle at which the universal joint can operate without compromising its performance and integrity. It is typically specified by the manufacturer and depends on the joint’s design and construction.
- Design Factor: The design factor accounts for safety margins and variations in load conditions. It is a dimensionless factor typically ranging from 1.5 to 2.0, and it is multiplied by the calculated torque to ensure the joint can handle occasional peak loads or unexpected variations.
- Material Properties: The material properties of the universal joint’s components, such as the yokes, cross, and bearings, play a crucial role in determining its torque capacity. Factors such as the yield strength, ultimate tensile strength, and fatigue strength of the materials are considered in the calculations.
- Equivalent Torque: The equivalent torque is the torque value that represents the combined effect of the applied torque and the misalignment angle. It is calculated by multiplying the applied torque by a factor that accounts for the misalignment angle and the joint’s design characteristics. This factor is often provided in manufacturer specifications or can be determined through empirical testing.
- Torque Calculation: To calculate the torque capacity of a universal joint, the following formula can be used:
Torque Capacity = (Equivalent Torque × Design Factor) / Safety Factor
The safety factor is an additional multiplier applied to ensure a conservative and reliable design. The value of the safety factor depends on the specific application and industry standards but is typically in the range of 1.5 to 2.0.
It is important to note that calculating the torque capacity of a universal joint involves complex engineering considerations, and it is recommended to consult manufacturer specifications, guidelines, or engineering experts with experience in universal joint design for accurate and reliable calculations.
In summary, the torque capacity of a universal joint is calculated by considering the maximum allowable angle, applying a design factor, accounting for material properties, determining the equivalent torque, and applying a safety factor. Proper torque capacity calculations ensure that the universal joint can reliably handle the expected loads and misalignments in its intended application.
What are the signs of a failing universal joint and how do you diagnose it?
Diagnosing a failing universal joint involves identifying specific signs and symptoms that indicate potential problems. Here’s a detailed explanation:
A failing universal joint can exhibit several signs that indicate a need for inspection, repair, or replacement. Some common signs of a failing universal joint include:
- Clunking or Knocking Noise: One of the most noticeable signs is a clunking or knocking noise coming from the universal joint area. This noise is often more pronounced during acceleration, deceleration, or when changing gears. The noise may indicate excessive play or wear in the joint’s components.
- Vibration: A failing universal joint can cause vibrations that are felt throughout the vehicle. These vibrations may be more noticeable at higher speeds or under load conditions. The vibrations can be a result of imbalanced driveshafts or misaligned yokes due to worn or damaged universal joint bearings.
- Difficulty in Power Transfer: As a universal joint deteriorates, power transfer from the transmission to the driven wheels may become less efficient. This can lead to a decrease in acceleration, reduced towing capacity, or difficulty in maintaining consistent speed. Loss of power transfer efficiency can occur due to worn or seized universal joint components.
- Visible Wear or Damage: A visual inspection of the universal joint can reveal signs of wear or damage. Look for excessive play or movement in the joint, rust or corrosion on the components, cracked or broken yokes, or worn-out bearings. Any visible signs of damage indicate a potential issue with the universal joint.
- Grease Leakage: Universal joints are typically lubricated with grease to reduce friction and wear. If you notice grease leakage around the joint or on the surrounding components, it may indicate a failing seal or a damaged bearing, which can lead to joint failure.
To diagnose a failing universal joint, the following steps can be taken:
- Perform a visual inspection: Inspect the universal joint and surrounding components for any visible signs of wear, damage, or leakage. Pay attention to the condition of the yokes, bearings, seals, and grease fittings.
- Check for excessive play: While the vehicle is on a level surface and the parking brake is engaged, attempt to move the driveshaft back and forth. Excessive play or movement in the universal joint indicates wear or looseness.
- Listen for abnormal noises: During a test drive, listen for any clunking, knocking, or unusual noises coming from the universal joint area. Pay attention to noise changes during acceleration, deceleration, and gear changes.
- Monitor vibrations: Note any vibrations felt through the vehicle, especially at higher speeds or under load conditions. Excessive vibrations can indicate problems with the universal joint or driveshaft.
- Seek professional inspection: If you suspect a failing universal joint but are uncertain about the diagnosis, it’s recommended to consult a professional mechanic or technician with experience in drivetrain systems. They can perform a comprehensive inspection, including measurements and specialized tests, to accurately diagnose the condition of the universal joint.
It’s important to address any signs of a failing universal joint promptly to avoid further damage, drivability issues, or potential safety hazards. Regular maintenance, including periodic inspection and lubrication, can help prevent premature universal joint failure.
In summary, signs of a failing universal joint include clunking or knocking noises, vibrations, difficulty in power transfer, visible wear or damage, and grease leakage. Diagnosing a failing universal joint involves visual inspection, checking for excessive play, listening for abnormal noises, monitoring vibrations, and seeking professional inspection when necessary.
What is a universal joint and how does it work?
A universal joint, also known as a U-joint, is a mechanical coupling that allows for the transmission of rotary motion between two shafts that are not in line with each other. It is commonly used in applications where shafts need to transmit motion at angles or around obstacles. The universal joint consists of a cross-shaped or H-shaped yoke with bearings at the ends of each arm. Let’s explore how it works:
A universal joint typically comprises four main components:
- Input Shaft: The input shaft is the shaft that provides the initial rotary motion.
- Output Shaft: The output shaft is the shaft that receives the rotary motion from the input shaft.
- Yoke: The yoke is a cross-shaped or H-shaped component that connects the input and output shafts. It consists of two arms perpendicular to each other.
- Bearings: Bearings are located at the ends of each arm of the yoke. These bearings allow for smooth rotation and reduce friction between the yoke and the shafts.
When the input shaft rotates, it causes the yoke to rotate along with it. Due to the perpendicular arrangement of the arms, the output shaft connected to the other arm of the yoke experiences rotary motion at an angle to the input shaft.
The universal joint works by accommodating the misalignment between the input and output shafts. As the input shaft rotates, the yoke allows the output shaft to rotate freely and continuously despite any angular displacement or misalignment between the two shafts. This flexibility of the universal joint enables torque to be transmitted smoothly between the shafts while compensating for their misalignment.
During operation, the bearings at the ends of the yoke arms allow for the rotation of the yoke and the connected shafts. The bearings are often enclosed within a housing or cross-shaped cap to provide protection and retain lubrication. The design of the bearings allows for a range of motion and flexibility, allowing the yoke to move and adjust as the shafts rotate at different angles.
The universal joint is commonly used in various applications, including automotive drivelines, industrial machinery, and power transmission systems. It allows for the transmission of rotary motion at different angles and helps compensate for misalignment, eliminating the need for perfectly aligned shafts.
It is important to note that universal joints have certain limitations. They introduce a small amount of backlash or play, which can affect precision and accuracy in some applications. Furthermore, at extreme angles, the operating angles of the universal joint may become limited, potentially causing increased wear and reducing its lifespan.
Overall, the universal joint is a versatile mechanical coupling that enables the transmission of rotary motion between misaligned shafts. Its ability to accommodate angular displacement and misalignment makes it a valuable component in numerous mechanical systems.
editor by CX 2024-02-14