What are the functions of built-in spring isolation vibrating hammer?
Publish Time: 2024-08-01
Built-in spring isolation vibratory hammer, as a device that combines vibratory hammer and spring vibration isolation technology, its role is mainly reflected in the following aspects:
1. Vibration effect
Pile sinking and pile pulling: The vibratory hammer generates up and down vibrations through the relative movement of two eccentric gears, so that the object being acted on (such as piles) and the surrounding soil layer are separated, reducing friction resistance, thereby achieving the purpose of pile sinking or pile pulling. This is the most basic and core function of the vibratory hammer, which is widely used in the construction of infrastructure such as buildings, bridges, and roads.
Improve construction efficiency: The construction efficiency of vibratory hammers is usually much higher than that of traditional pile-driving machinery, especially in high-frequency hydraulic vibratory hammers. High-frequency vibration can quickly penetrate various geological layers, including pebble layers, sand layers, etc., thereby shortening construction time and improving work efficiency.
2. Spring vibration isolation effect
Reduce vibration transmission: The main function of the built-in spring is to isolate and reduce the transmission of vibration generated by the vibratory hammer during work to the surrounding environment. The spring has good elasticity and damping properties, which can effectively absorb and disperse vibration energy and reduce the impact of vibration on surrounding equipment, buildings and personnel.
Protect equipment: The vibration isolation effect of the built-in spring can protect the vibratory hammer itself and its supporting equipment from damage caused by vibration impact. Long-term vibration impact may cause wear and loosening of equipment components, and spring vibration isolation can effectively alleviate this impact and extend the service life of the equipment.
Improve construction safety: When constructing in urban areas, crowded places or places with strict restrictions on vibration, the built-in spring isolation vibratory hammer is particularly important. It can significantly reduce vibration and noise pollution during construction, reduce the impact on the surrounding environment and residents' lives, and improve the safety and environmental protection of construction.
3. Comprehensive advantages
Versatility: The built-in spring isolation vibratory hammer not only has a strong ability to sink and pull piles, but also has good vibration isolation performance. This allows it to be used under a variety of complex geological and construction conditions to meet the needs of different projects.
Environmental protection: Compared with traditional pile driving machinery, the built-in spring isolation vibratory hammer generates less noise and vibration during construction, which is more in line with the requirements of modern environmental protection construction.
Economic efficiency: Although the initial investment of the built-in spring isolation vibratory hammer may be high, its efficient construction capacity and good vibration isolation performance can significantly reduce construction costs and maintenance costs, and improve overall economic benefits.
In summary, the built-in spring isolation vibratory hammer plays an important role in infrastructure construction. It can not only improve construction efficiency and quality, but also protect equipment and environmental safety. It is one of the important development directions of modern pile driving machinery.