Product
Discover our main product range, including high-quality rubber vibration isolators, spring dampers, and air spring isolators.
Our vibration isolator products are designed to meet a wide range of industrial needs. They include:
- Anti vibration cone Mount
- Sandwich Mounts
What we provide
Explore details of our wide range of vibration isolators
Common Questions
Most Popular Questions
Anti Vibration Rubber Mounts are essential components used to reduce vibrations between industrial equipment and mounting surfaces. They are commonly found in applications such as pumps, compressors, generators, HVAC systems, and precision instruments. These mounts are made from high-quality rubber and metal structures, effectively absorbing the vibrations and noise generated by machinery during operation, preventing them from being transmitted to surrounding structures. This helps to reduce wear and tear on the equipment and extends its lifespan.
These mounts work by using the elastic deformation of rubber. When the equipment vibrates, the rubber material deforms, absorbing the vibration energy and preventing it from passing onto other structures. The rubber's elasticity allows the mount to withstand various pressure and shock directions, ensuring the stability of the equipment.
Anti Vibration Rubber Mounts are widely used in heavy-duty machinery and precision instruments that require smooth and stable operation. By using these mounts, equipment not only operates more efficiently but also reduces the risk of malfunction, lowering maintenance costs and ensuring continuous, stable production.
Rubber Bell Mounts are specifically designed to handle higher loads and provide effective vibration isolation. These mounts combine high-elasticity rubber with metal support structures and are especially effective at absorbing vertical vibrations. Their design allows them to support substantial loads while maintaining excellent vibration isolation, making them ideal for applications in heavy industrial machinery, engines, and power generation equipment.
The unique bell shape of these mounts allows them to absorb vibration effectively, particularly in high-vibration environments. Compared to other types of mounts, Rubber Bell Mounts offer superior stability and vibration control under heavy loads. They are particularly useful in power generation, engine systems, and various industrial machines that generate significant vibrations.
In addition to their superior vibration isolation, Rubber Bell Mounts are durable and capable of withstanding extreme environmental conditions, such as high temperatures and humidity. This makes them suitable for use in demanding industrial environments where reliable performance is required.
Rubber Feet Pads are simple and cost-effective vibration-damping products commonly used in household appliances, machine tools, laboratory equipment, and various industrial applications. They are typically installed at the bottom of equipment to reduce vibrations, noise, and friction while also protecting the floor from scratches or damage caused by the movement of equipment.
During operation, Rubber Feet Pads absorb the vibrations generated by the equipment and prevent them from transmitting to the ground. This not only reduces the noise produced by the equipment but also increases the stability of the equipment, preventing it from shifting or vibrating excessively. They are made from highly elastic rubber materials, ensuring durability, pressure resistance, and chemical resistance, which makes them suitable for various environmental conditions.
Another important function of Rubber Feet Pads is to protect the floor from scratches or wear caused by the friction between the equipment and the ground. This feature is particularly beneficial in environments with delicate or easily damaged flooring. Rubber Feet Pads are essential for household appliances, electronics, and industrial machinery.
Rubber Cone Mounts are designed with a unique conical shape to effectively absorb vibrations and provide reliable support for small to medium-sized equipment. The conical design allows these mounts to efficiently isolate vibrations from both vertical and horizontal directions, making them ideal for applications such as small mechanical devices, fans, pumps, and precision instruments.
These mounts are particularly suitable for small machinery that experiences frequent start-stop cycles. The conical design helps to reduce vibration, ensuring stable operation of equipment in environments that require precision and reliability. Rubber Cone Mounts can handle vibrations at lower frequencies, providing solid support while absorbing energy from the vibrations generated by the equipment.
Rubber Cone Mounts are also designed to handle different load capacities and are adaptable to a wide range of equipment, making them a versatile solution in various industrial applications. They provide excellent vibration isolation without adding bulk to the equipment, offering a simple yet effective solution for vibration damping.
Rubber Shear Mounts are a type of vibration isolator that works by absorbing vibrations through lateral shear deformation of the rubber material. This mechanism allows them to effectively isolate vibrations in both horizontal and vertical directions, providing superior vibration control compared to traditional mounts. Rubber Shear Mounts are ideal for use in engines, HVAC equipment, and industrial machinery.
The advantage of Rubber Shear Mounts lies in their ability to absorb vibrations across multiple directions, ensuring comprehensive vibration isolation. Their unique design allows them to dissipate vibration energy efficiently, which is essential in applications where vibration isolation is crucial for equipment performance and longevity. These mounts are often used in environments with complex vibration patterns, where both horizontal and vertical vibrations need to be controlled.
Rubber Shear Mounts are durable and can withstand significant loads while maintaining effective vibration isolation. They are also resistant to environmental factors like temperature changes, humidity, and chemicals, ensuring long-lasting performance in demanding conditions.
Choosing the right rubber vibration damping product is essential for ensuring the stable operation of equipment. The first factor to consider is the load-bearing capacity of the mount. Different equipment requires mounts with varying load capacities, so it is important to accurately calculate the load requirements and select the appropriate product.
Another important consideration is the frequency and amplitude of the vibrations generated by the equipment. If the equipment produces high-frequency vibrations, a more efficient vibration-damping material may be required. Conversely, for low-frequency, high-amplitude vibrations, a mount with greater strength and pressure resistance is necessary.
Environmental conditions, such as temperature, humidity, and exposure to chemicals, must also be taken into account. Different rubber materials, such as neoprene, EPDM, and NBR, have different performance characteristics under various environmental conditions, so it is crucial to choose the material that best suits the operating environment.
Lastly, the installation space and method are important factors to consider. Choosing the right mount type based on available installation space and ease of installation ensures optimal performance and long-term durability.
Yes, rubber mounts can be used in high-frequency vibration environments, but careful selection is necessary. High-frequency vibrations typically refer to vibrations with higher frequencies and shorter cycles. The effectiveness of a rubber mount in such conditions is closely related to the dynamic performance of the rubber material. To effectively isolate high-frequency vibrations, rubber mounts need to have higher hardness and optimized geometrical design to maintain both vibration isolation and load support capabilities.
In precision machinery applications, such as laser cutting machines, measurement devices, optical instruments, and high-end printing equipment, rubber mounts often require higher stiffness to prevent excessive deformation. To better adapt to high-frequency vibration environments, these devices usually employ additional damping layers or a combination of different mount types. For example, flexible mounts can be used for low-frequency vibration isolation, while stiffer mounts are used for high-frequency control. In some complex applications, damping layers are added to the mount design to further reduce frequency response and improve vibration isolation performance.
Additionally, material selection is crucial for high-frequency vibration environments. Materials like Neoprene, silicone, and some specialized polymers perform well in high-frequency environments, providing high damping effects with minimal deformation. For devices requiring precise vibration control, using these high-performance rubber materials and custom-designed mounts ensures stable operation and maintains the precision of the equipment.
Load capacity is one of the most critical factors when selecting rubber mounts, as the mount must support both the static and dynamic weight of the equipment while maintaining its vibration damping performance. If the mount's load capacity is insufficient, it will fail to adequately support the equipment, potentially leading to excessive rubber deformation or even failure. Overloading can accelerate wear and fatigue, reducing the damping effect and transferring vibrations to the equipment or surrounding structures.
When selecting a rubber mount, engineers must accurately calculate the total weight of the equipment, including dynamic forces during operation. For instance, certain machinery generates periodic vibrations or shock loads during operation, which vary significantly in intensity. Calculating these dynamic forces is essential in selecting a mount with the appropriate load rating to ensure long-term reliability. If the selected mount has too low a load capacity, it will not only fail to isolate vibrations effectively but also wear out prematurely, increasing maintenance costs and downtime.
Furthermore, load capacity is closely related to the hardness of the rubber material and the geometric design of the mount. Rubber mounts with higher hardness generally support larger static loads, but when subjected to dynamic loads or higher vibration frequencies, they may require softer rubber to provide better vibration isolation. Therefore, selecting the correct load capacity ensures smooth equipment operation, extended service life, and reduced maintenance costs.
Compression rubber mounts and shear rubber mounts, while both used for vibration isolation, have distinct working principles, suitable applications, and performance characteristics.
Compression rubber mounts primarily absorb vertical vibrations, making them ideal for supporting heavy equipment, particularly those generating mainly vertical oscillations, such as large generators, pumps, and compressors. In these applications, vibrations are often generated by the direct effect of load on the equipment. Compression mounts absorb these vertical vibrations by deforming the rubber material, effectively reducing vibration transmission to the surrounding structures or foundation.
In contrast, shear rubber mounts absorb horizontal and diagonal vibrations through lateral shear deformation of the rubber. These mounts are widely used in engine systems, HVAC systems, and equipment that requires multi-directional vibration control. Shear mounts not only isolate vertical vibrations but also handle horizontal or slanted vibrations, making them suitable for more complex vibration patterns. Their design allows them to provide stable damping effects in multiple directions, particularly in equipment subjected to asymmetric or complex loading conditions.
In practical applications, many industrial machines combine both compression and shear mounts to deal with different vibration directions. For example, large equipment that produces both vertical and horizontal composite vibrations often benefits from the use of both types of mounts, ensuring more comprehensive vibration isolation under varying load conditions.
Yes, rubber mounts are highly suitable for precision instruments, especially those that require high accuracy and stability, such as laser cutting machines, precision measurement devices, optical instruments, electronic equipment, and high-end medical devices. In these applications, vibrations can directly impact performance, particularly when high precision is required for measurements and operations. Rubber mounts help isolate vibrations, reducing external environmental influences, ensuring the equipment maintains its precision.
For precision applications, rubber mounts typically use soft, high-damping rubber materials to ensure even the smallest vibrations are effectively isolated. These mounts provide low-noise, zero-friction support, ensuring that the equipment maintains minimal vibration interference during operation, which is critical for maintaining measurement accuracy and long-term stability.
Furthermore, precision equipment often requires mounts with excellent elasticity to prevent excessive deformation that could lead to equipment displacement or performance degradation. As a result, rubber mounts are often designed with multi-layer structures or high-elasticity composite materials to accommodate various vibration frequencies and specific requirements of the equipment.
To meet the needs of different precision instruments, rubber mounts are often custom-designed to ensure stable operation in any working environment, maintaining high accuracy even in environments with mechanical or floor vibrations.
Temperature fluctuations have a significant impact on the performance of rubber vibration isolators. Rubber materials are sensitive to extreme temperatures, which can affect their physical properties and overall performance. Understanding how temperature affects rubber is crucial when choosing the right isolators for specific applications.
High Temperatures: Exposure to high temperatures can cause rubber to soften, which leads to a decrease in its load-bearing capacity and damping efficiency. When rubber softens, it may become more susceptible to deformation, reducing its ability to isolate vibrations effectively. In extreme heat conditions, such as those found in engine compartments, industrial ovens, or hot environments, the rubber may lose its elasticity and degrade faster.
Low Temperatures: On the other hand, extremely low temperatures can make rubber brittle, causing it to crack or break under stress. This results in a loss of elasticity and reduced vibration isolation performance. In cold environments, such as refrigeration systems, outdoor equipment, or machinery used in freezing temperatures, rubber may lose its flexibility, leading to premature wear and failure.
To mitigate these issues, selecting rubber materials with high resistance to both heat and cold is crucial. Materials like EPDM (Ethylene Propylene Diene Monomer) and Silicone are ideal for extreme temperature conditions. EPDM, for example, has excellent resistance to both heat and low temperatures, ensuring stable performance in fluctuating environmental conditions. Silicone rubber, known for its exceptional high-temperature resistance, remains flexible and effective in both low and high-temperature applications, such as in ovens, HVAC systems, and precision instruments.
Additionally, the mount's design and stiffness must be carefully considered. In high-temperature environments, mounts may require greater stiffness to prevent excessive deformation, while in extremely cold conditions, softer rubber may be needed to maintain flexibility.
In summary, temperature variations can significantly affect the performance of rubber vibration isolators, but by selecting the appropriate material and design, it is possible to ensure reliable and stable performance, even in extreme conditions. Proper material selection helps to extend the lifespan of the isolators and the equipment they support, reducing maintenance costs and enhancing overall system reliability.
Our rubber vibration damping products can indeed replace international brands while providing comparable or even superior performance. Manufactured with high-quality rubber materials and under strict quality control, our products meet the same high standards as internationally recognized brands, while offering a more competitive price point.
By using our products, customers can enjoy cost-effective solutions without compromising on performance. Our rubber mounts provide excellent vibration isolation, durability, and reliability, making them an ideal alternative to expensive international brands. Moreover, we offer customizable options to suit the specific needs of different applications, ensuring the best fit for our clients.
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