This impactor focuses on the core demand of "low power and high efficiency" in low-pressure drilling, precisely adapting to three major scenarios: small-scale infrastructure pile foundations, shallow geological exploration, and small-scale water conservancy projects, providing reliable power support for efficient drilling under low-pressure conditions.

Its key performance is optimized around "high efficiency and energy conservation" : Firstly, the impact energy performance is outstanding, with a significant advantage in the category of low-pressure impactors. It can efficiently break slightly hard rock layers and meet the drilling requirements of shallow slightly hard strata. Second, the internal air passage design is scientific, with a high air flow utilization rate. This not only saves energy consumption and reduces usage costs but also stabilizes the air flow to drive the movement of components, ensuring continuous and powerful impact actions and guaranteeing that the drill bit always maintains a good rock-breaking effect.

It has strong adaptability in actual scenarios: During the construction of small-scale infrastructure (such as pile foundations for urban shops and low-rise residential buildings), it can efficiently drill into shallow and slightly hard rock layers, facilitating rapid pile formation. In shallow geological exploration, it can precisely control the drilling rhythm under low wind pressure to ensure the integrity of geological structure sampling within tens of meters underground. When performing hole operations on small-scale water conservancy projects such as rural canals and small DAMS, it can also achieve efficient drilling with low power consumption, taking into account both practicality and economy, and accelerating small and medium-sized low-pressure drilling projects.