Xi'an Hoan Microwave Co., Ltd.
Xi'an Hoan Microwave Co., Ltd.
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JZP Series
In the field of modern engineering technology, the JZP-15 vibration isolator is playing an indispensable role as a vital spare part. It has unique performance characteristics and can exhibit flexible damping effects in a variety of complex working environments and conditions.
As far back as the middle of the 20th century, damping technologies began to emerge in the field of construction and mechanical engineering. In the early days, simple damping devices were used in the structural damping of industrial plants to reduce the impact of vibrations generated during machine operation on the overall stability of the plant. With the continuous advancement of science and technology, damping technology continues to innovate, and its application range is becoming more and more extensive.
In all types of mechanical systems, the interaction between connected components has a profound impact on overall performance. Whether it is a temporary connection device or a permanent joint, the dynamic response characteristics of the device are largely determined by factors such as contact deformation, friction and vibration damping. For example, in large-scale wind turbines, the damping characteristics of the connection between the blades and the hub are directly related to the stability and reliability of the blades at different wind speeds. Once the damping effect is not good, the blades may vibrate excessively under the action of strong winds, which will not only reduce the efficiency of power generation, but also may cause safety hazards.
However, making an accurate mathematical description of damping phenomena in structures has always been an extremely challenging task. This is mainly due to the high complexity of the friction process itself and the difficulty of accurately characterizing the stresses and deformations at the joints of the components. In practice, friction is not a simple linear process, it is affected by a combination of factors, such as material surface properties, contact pressure, relative movement speed, and ambient temperature and humidity. These factors intersect to make it extremely difficult to build a generic and accurate mathematical model.
Despite the difficulties, the JZP-15 shock absorber has been widely used in many high-end fields due to its excellent performance. In the precision instrument manufacturing industry, such as the production line of high-precision optical instruments, it can effectively isolate external vibration interference and ensure the ultra-high precision of the instrument in the process of processing and testing. In the aerospace field, JZP-15 shock absorbers are installed in the electronic equipment compartment of the spacecraft, which can provide reliable protection for sensitive electronic components and ensure the normal operation of various systems of the spacecraft in the strong shock and vibration environment of rocket launch. It also plays an important role in the electrical control system of high-speed trains, reducing the impact of vibration on electrical equipment during train driving, improving the stability and reliability of the system, so as to ensure the safe and efficient operation of trains.
Performance parameters
| Model | Nominal load (kg) | Static displacement (mm) | Operating temperature (℃) | Resonant frequency (Hz) | Damping ratio | Impact experiments | expiration date | Expiration date |
| JZP-2.5 | 2.5 | ≤0.3 | -45~+65 | 41.5±5 | ≥0.13 | 100g12次 | 8 | 5 |
| JZP-3.2 | 3.2 | |||||||
| JZP-4.2 | 4.2 | |||||||
| JZP-5.2 | 5.2 | |||||||
| JZP-6.0 | 6.0 | |||||||
| JZP-7.0 | 7.0 | |||||||
| JZP-7.5 | 7.5 | |||||||
| JZP-8.5 | 8.5 | |||||||
| JZP-10.5 | 10.5 | |||||||
| JZP-13.5 | 13.5 | |||||||
| JZP-15 | 15 |
* Unique Characteristics of Xi'an Hoan's Vibration Isolators *
* No creep or ageing.
* High internal damping.
* Very wide temperature range.
* Wide variety of possible fittings.
* Rapid and economical prototyping.
* Extremely rugged construction and long lifespan.
* Excellent combined shock and vibration isolation.
* Not affected by chemical agents, seawater, ozone, UV rays
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