Regulator for a power tool

The invention claimed is: 1. A regulator for a power tool having a motor for tightening a fastener in order to unite two or more pieces into a joint, wherein said regulator regulates the power tool when tightening the fastener, so that the fastener is tightened to a predetermined target force (F target ), wherein the regulator regulates the power tool by calculating an output signal (i q ) to the power tool based on a calculated target energy (E target _ rivet ) that is required to reach the target force (F target ), and by increasing or decreasing a speed of the motor of the power tool during tightening of the fastener in accordance with the calculated output signal (i q ), wherein the target energy (E target _ rivet ) that is required to reach the target force (F target ) depends on a measured value (k r ) of a stiffness of the joint, and the regulator calculates the target energy (E target _ rivet ) for a soft or hard joint according to the equation: E target ⁢ _ ⁢ rivet = ( F target ) 2 2 * k r ( f8 ) wherein the measured value (k r ) of the stiffness of the joint is measured during tightening of the fastener, and wherein the measured value (k r ) of the stiffness of the joint is measured according to the equation: k r =F/δ, where F is an actual force in the joint, and δ is an actual traveled distance by which the fastener is compressed in the joint. 2. A regulator for a power tool having a motor for tightening a fastener in order to unite two or more pieces into a joint, wherein said regulator regulates the power tool when tightening the fastener, so that the fastener is tightened to a predetermined target torque (T target ), wherein the regulator regulates the power tool by calculating an output signal (i q ) to the power tool based on a calculated target energy (E target ) that is required to reach the target torque (T target ), and by increasing or decreasing a speed of the motor of the power tool during tightening of the fastener in accordance with the calculated output signal (i q ), wherein the target energy (E target ) that is required to reach the target torque (T target ) depends on a measured value (k j ) of a stiffness of the joint, and the regulator calculates the target energy (E target ) for a soft or hard joint according to the equation: E target = T target 2 2 * ⁢ k j , ( f3 ) wherein the measured value (k j ) of the stiffness of the joint is measured during tightening of the fastener, and wherein the measured value (k j ) of the stiffness of the joint is measured according to the equation: k j =T/φ j , where T is an actual torque in the joint, and φ j is an actual angle by which the fastener is tightened in the joint. 3. The regulator according to claim 2 , wherein a braking energy (E error ), which is an amount of energy the motor needs to add in order to reach the target torque (T target ) follows the relationship: E error =E target +E operator −E joint −E rot   (f2) where E target is the target energy required to reach the target torque (T target ), where E operator is a kinetic energy from an operator handling the power tool, where E joint is a potential energy in the joint, and where E rot is a kinetic rotational energy of the motor. 4. The regulator according to claim 3 , wherein the output signal (i q ) from the regulator is dependent on a torque constant (k m ) in the motor of the power tool, the measured value (k j ) of the stiffness of the joint (k j ) and a gear ratio (N) of a gear of the power tool according to the equation: i q = E error k m * ⁢ N * ⁡ ( T target - T k j ) . ( f7 ) where T is the actual torque in the joint. 5. The regulator according to claim 3 , wherein the output signal (i q ) is calculated based on the braking energy (E error ).