The Structure And Working Principle Of Hydraulic Impact Pile Hammer

Based on the hydraulic impact hammer structure and operating principle, it can be divided into single-acting and double-acting types. The single-acting type uses a hydraulic mechanism to quickly release the hammer core to a predetermined height, and the hydraulic impact hammer pile driver core drives the pile through free fall. The double-acting type uses a hydraulic mechanism to raise the hammer core to a predetermined height, then accelerates the energy from the hydraulic system, increasing the impact rate and driving the pile. This also corresponds to two pile driving theories. The single-acting excavator impact hammer corresponds to the heavy hammer light driving theory, characterized by heavy weight, low impact rate, and long impact time. The hammer achieves high penetration per stroke, making it suitable for piles of various shapes and materials, with a low damage rate, and is particularly well-suited for concrete pipe piles. The hydraulic hammer pile driver corresponds to the light hammer heavy driving theory, featuring low weight, high impact rate, short action time, and high impact energy.

The hydraulic impact pile hammer can be used for pipe piles, square piles, I-shaped steel piles, steel casing piles, and more. The price of a hydraulic impact pile hammer depends on the project requirements. The hydraulic impact pile hammer, also known as a high-speed hydraulic impact pile hammer or hydraulic impact pile driver, is a new generation of electromechanical, hydraulic, and multifunctional driving equipment developed using various innovative technologies. The hydraulic hammer pile driver has the advantages of adjustable impact strength, high pile sinking efficiency, no damage to piles, and easy mobility.