Abstract: The invention relates to an apparatus for noise attenuation in an impact pile driving device wherein the apparatus comprises a pile guide being attachable to the lower end of a hammer of an impact pile driving device. The apparatus according to the invention comprises compressing arrangement in connection with the pile guide having at least one compressing element and mechanical, hydraulic or pneumatic compressing means for compressing a pile fitted in to the pile guide transversally by means the at least one compressing element. The invention relates also an impact pile driving device and a method for noise attenuation in an impact pile driving device.

Abstract: There is provided ram block arrangement for a piling hammer (100a), comprising: a ram block (104) comprising a frame arrangement (106) for enclosing one or more ram weights therein, wherein the ram block (104) is configured movable by an electric machine (108).

Abstract: There is provided ram block arrangement for a piling hammer (100a), comprising: a ram block (104) comprising a frame arrangement (106) for enclosing one or more ram weights therein, wherein the ram block (104) is configured movable by an electric machine (108).

Abstract: There is provided a linear electric machine comprising a mover connected to a ram block for striking a pile, a processor operatively connected to the linear electric machine and configured to determine a total target kinetic energy for striking a pile using a ram block connected to a mover of a linear electric machine of the piling hammer, determine a first portion of the total target kinetic energy for striking the pile at least based on a mass of the ram block, determine a second portion of the total target kinetic energy for striking the pile based on the total target kinetic energy and the first portion of the total target kinetic energy, and control the linear electric machine to accelerate the mover based on the determined second portion of the kinetic energy for striking the pile by the linear electric machine.

Abstract: There is provided a piling hammer comprising a linear electric machine comprising a mover connected to a ram block for striking a pile, a processor operatively connected to the linear electric machine and configured to determine a recoiled kinetic energy from striking the pile using a ram block connected to a mover of the linear electric machine, determining at least a portion of the determined recoiled kinetic energy for regenerative braking the of the mover to a peak position, control the linear electric machine to decelerate the mover to the peak position based on the determined at least a portion of the determined recoiled kinetic energy.

Abstract: The invention relates to an apparatus for noise attenuation in an impact pile driving device wherein the apparatus comprises a pile guide being attachable to the lower end of a hammer of an impact pile driving device. The apparatus according to the invention comprises compressing arrangement in connection with the pile guide having at least one compressing element and mechanical, hydraulic or pneumatic compressing means for compressing a pile fitted in to the pile guide transversally by means the at least one compressing element. The invention relates also an impact pile driving device and a method for noise attenuation in an impact pile driving device.

Abstract: A driving cylinder of a pile driving rig includes a solenoid valve for controlling an operation of the driving cylinder, which solenoid valve, is a slide valve, which is located at least partly at a piston-side head of the driving cylinder, and a stem of the slide valve is at least partly outside an inner cylinder liner in a direction of motion of a piston part. Further disclosed is a pile driving rig comprising the driving cylinder according to the invention.

Abstract: A pile driving rig lower cushion made of material having elasticity modulus of 500-3500 Mpa. The lower cushion comprises two end surfaces and at least one side surface. The first end surface is to be placed against the drive cap of the pile driving rig. The second end surface is to be placed against the end of a pile. The lower cushion has at least one flexible section at the side surface that is more flexible than remaining sections of the side surface in at least one direction. The dimensions of the lower cushion are such that the lower cushion fits snugly into the drive cap housing only when the flexible area is compressed. The lower cushion remains in its place within the drive cap housing due to compressive force caused by the at least one flexible section and friction forces resulting therefrom.

Abstract: The object of the invention is a pile driving rig lower cushion, which is a piece made of a material whose modulus of elasticity is 500-3,500 MPa and which comprises two end surfaces and at least one side surface between them, and in which lower cushion the first end surface is placeable against the drive cap housing of the pile driving rig and the end of the pile to be fitted into the drive cap housing of the pile driving rig is placeable against the second end surface.

Abstract: The invention relates to an arrangement for supporting a thin-walled steel pile (5; 17; 26; 35) in an impact pile driving device, the arrangement comprising a supporting surface (4; 14; 23; 31), to which the steel pile (5; 17; 26; 35) can be supported, and in which arrangement the supporting surface (4; 14; 23; 31) is provided with one or more absorbing surfaces (6; 16; 25; 33) to be placed against the end of the wall (8; 18, 26; 36) of the steel pile (5; 17; 26; 35).

Abstract: A driving cylinder of a pile driving rig includes a solenoid valve for controlling an operation of the driving cylinder, which solenoid valve, is a slide valve, which is located at least partly at a piston-side head of the driving cylinder, and a stem of the slide valve is at least partly outside an inner cylinder liner in a direction of motion of a piston part. Further disclosed is a pile driving rig comprising the driving cylinder according to the invention.

Abstract: The invention relates to a method for controlling the driving engine (M) and hydraulic pumps (PUMP1, PUMP2) of a hydraulic machine (10), the method comprising: —driving at least one hydraulic variable displacement pump (PUMP1, PUMP2) that supplies pressurized medium to the hydraulic system of the machine by the driving engine (M), —determining the working pressure pi, p2) and volume flow (Qip, Q2p) output from at least one hydraulic pump (PUMP1, PUMP2), —determining the torque (T-ip, T2p) required of at least one hydraulic pump (PUMP1, PUMP2) or the total torque (Tpk0k) required by two or more hydrau¬lic pumps (PUMP1, PUMP2) by means of the working pressure (p-i, p2) and volume flow (Qip, Q2p) of pressurized medium output from at least one hydraulic pump (PUMP1, PUMP2), as well as the rotation speed (i) of the driving engine (M); —controlling the rotation speed (i) of the driving engine (M) and the dis¬placement (V1p, V2p) of at least one hydraulic pump (PUMP1, PUMP2) auto¬matically so that the torque (Td, Td

Abstract: The invention relates to an arrangement for supporting a thin-walled steel pile (5; 17; 26; 35) in an impact pile driving device, the arrangement comprising a supporting surface (4; 14; 23; 31), to which the steel pile (5; 17; 26; 35) can be supported, and in which arrangement the supporting surface (4; 14; 23; 31) is provided with one or more absorbing surfaces (6; 16; 25; 33) to be placed against the end of the wall (8; 18, 26; 36) of the steel pile (5; 17; 26; 35).