A power tool includes a main body, a power input shaft unit having a driving bevel gear, and a power output shaft unit having a driven bevel gear to mesh with the driving bevel gear. The center of the power input shaft unit defines a first axis. The center of the power output shaft unit defines a second axis. The main body has an elbow portion corresponding in position to the intersection of the first axis and the second axis. An outer circumference of the elbow portion has a first plane parallel to the second axis and a second plane parallel to the first axis. The first plane is located between the second axis and the driving bevel gear. The second plane is located between the first axis and the driven bevel gear. The first plane and the second plane collectively define a recessed space.

A mobile power tool comprising a drive unit is disclosed. The drive unit has an aqueous lubricant and/or the drive unit is set up for operation with the aqueous lubricant, wherein, before the start of a running-in phase of the drive unit, a bond roughness sigma of two interacting contact surfaces of the drive unit is greater than 0.01 m, preferably at least 0.1 m.

A sealing geometry for a mobile power tool is provided wherein the mobile power tool has a drive unit, wherein the sealing geometry is designed to seal off an interior (IB), containing a lubricant, of the drive unit from an exterior (AB) outside the drive unit. The sealing geometry has a seal that is contactless at least during operation of the drive unit.

A sealing geometry for a mobile power tool is provided wherein the mobile power tool has a drive unit, wherein the sealing geometry is designed to seal off an interior (IB), containing a lubricant, of the drive unit from an exterior (AB) outside the drive unit. The sealing geometry has a seal that is contactless at least during operation of the drive unit.

A hydraulic breaker provided with an automatic lubricant supply structure is proposed. The automatic lubricant supply structure is configured to automatically supply a lubricant without a separate hose, using a working fluid, and is disposed in the body of the hydraulic breaker, and can be used without a separate external part.

A percussion tool comprises a housing and an electric motor positioned within the housing. The motor has a nominal outer diameter of up to about 80 mm and is operable to output at least about 2760 W. The percussion tool further comprises a battery pack supported by the housing for providing power to the motor. The battery pack includes a plurality of battery cells having a nominal voltage of up to 80 Volts and a sustained operating discharge current of between about 40 A and about 60 A. The percussion tool further comprises a percussion mechanism driven by the motor and including a striker supported for reciprocation in the housing. The percussion tool has a ratio of impact energy to mass that is greater than or equal to 2.5 Joules/kilogram.

A percussion tool comprises a housing and an electric motor positioned within the housing. The motor has a nominal outer diameter of up to about 80 mm and is operable to output at least about 2760 W. The percussion tool further comprises a battery pack supported by the housing for providing power to the motor. The battery pack includes a plurality of battery cells having a nominal voltage of up to 80 Volts and a sustained operating discharge current of between about 40 A and about 60 A. The percussion tool further comprises a percussion mechanism driven by the motor and including a striker supported for reciprocation in the housing. The percussion tool has a ratio of impact energy to mass that is greater than or equal to 2.5 Joules/kilogram.

A power tool includes a main body, a power input shaft unit having a driving bevel gear, and a power output shaft unit having a driven bevel gear to mesh with the driving bevel gear. The center of the power input shaft unit defines a first axis. The center of the power output shaft unit defines a second axis. The main body has an elbow portion corresponding in position to the intersection of the first axis and the second axis. An outer circumference of the elbow portion has a first plane parallel to the second axis and a second plane parallel to the first axis. The first plane is located between the second axis and the driving bevel gear. The second plane is located between the first axis and the driven bevel gear. The first plane and the second plane collectively define a recessed space.

A power tool includes a main body, a power input shaft unit having a driving bevel gear, and a power output shaft unit having a driven bevel gear to mesh with the driving bevel gear. The center of the power input shaft unit defines a first axis. The center of the power output shaft unit defines a second axis. The main body has an elbow portion corresponding in position to the intersection of the first axis and the second axis. An outer circumference of the elbow portion has a first plane parallel to the second axis and a second plane parallel to the first axis. The first plane is located between the second axis and the driving bevel gear. The second plane is located between the first axis and the driven bevel gear. The first plane and the second plane collectively define a recessed space.

A percussion tool comprises a housing, an electric motor positioned within the housing, a percussion mechanism driven by the electric motor and including a striker supported for reciprocation in the housing, a battery pack removably coupled to the housing for providing power to the electric motor when coupled to the housing, and an electronic controller including an electronic processor and a memory. The electronic controller is coupled to the electric motor and configured to activate the motor and determine whether the percussion tool is in a loaded condition. In response to determining that the percussion tool is in the loaded condition, the electronic controller is configured to operate the motor in accordance with a predetermined profile and in response to determining that the percussion tool is in a no load condition, the electronic controller is configured to operate the motor at a no-load speed.