Automatic cleaning method for a pump system comprising a softstarter arrangement

The invention claimed is: 1. A method for controlling circuitry of a softstarter arrangement to operate an electric motor provided for driving a pump in a pump system, the circuitry electrically connecting the motor to electric mains, the method comprising the steps of: (i) controlling the circuitry of the softstarter arrangement to accelerate the motor up to full speed in a forward direction; (ii) controlling the circuitry of the softstarter arrangement to decelerate the motor when the motor has run at full speed in the forward direction for a first period of time; (iii) controlling the circuitry of the softstarter arrangement to accelerate the motor up to a specified speed in a reverse direction; (iv) controlling the circuitry of the softstarter arrangement to decelerate the motor when the motor has run at the specified speed in the reverse direction for a second period of time; and (v) repeating the steps (i)-(iv) one or more times, wherein the steps (i)-(v) are configured to cut unwanted solid objects in the pump system by pump blades of the pump and flush away effluent residues; wherein the motor is a three phase motor electrically connected to three phases of the mains and the softstarter arrangement is a two-phase or three-phase softstarter arrangement configured to operate the three phase motor, and wherein the steps (iii) and (iv) are preceded by shifting the electric connections of two of the three phases of the mains to the three phase motor and are followed by shifting back the electric connections of said two of the three phases to the three phase motor, thereby providing the specified speed in the reverse direction to be similar to the full speed in the forward direction, the shifting and shifting back being performed by means of operating two line contactors interconnection between the mains and the circuitry of the softstarter arrangement. 2. The method of claim 1 wherein the step (ii) further comprises controlling the circuitry of the softstarter arrangement to decelerate the motor when the motor has run at full speed in the forward direction for the first period of time to a de-energized state; and the step (iii) further comprises controlling the circuitry of the softstarter arrangement to accelerate the motor up to the specified speed in the reverse direction when the motor has been de-energized for a third period of time. 3. The method of claim 1 wherein the step (iv) further comprises controlling the circuitry of the softstarter arrangement to decelerate the motor when the motor has run at the specified speed in the reverse direction for the second period of time to a de-energized state; and step (v) further comprises repeating the step (i) such that the circuitry of the softstarter arrangement is controlled to accelerate the motor up to full speed in the forward direction when the motor has been de-energized for a fourth period of time. 4. The method of claim 1 wherein each period of time is between 0.5 and 60 seconds. 5. The method of claim 4 wherein each period of time is between one and ten seconds. 6. The method of claim 1 wherein the steps (i)-(v) are performed in response to a manual operator command received from an operator of the pump system. 7. The method of claim 1 wherein the steps (i)-(v) are performed automatically in response to an automatically received or measured set of parameters related to operation of the motor. 8. The method of claim 1 wherein the steps (i)-(v) are performed automatically in response to an automatically received or measured set of parameters indicating that the motor is operating inefficiently due to a jammed or clogged condition in the pump system. 9. The method of claim 1 wherein the steps (iii) and (iv) are performed by means of controlling the circuitry of the softstarter arrangement to operate in slow speed mode, the slow speed mode providing the specified speed in the reverse direction to be up to about ⅓ of the full speed in the forward direction. 10. The method of claim 1 wherein the steps (iii) and (iv) are performed by means of controlling the circuitry of the softstarter arrangement using vector flow control, the vector flow control providing the specified speed in the reverse direction to be similar to the full speed in the forward direction. 11. The method of claim 10 wherein using the vector flow control includes using electromagnetic torque estimation and proportional plus integral regulation. 12. A non-transitory computer program for controlling circuitry of a softstarter arrangement to operate an electric motor for driving a pump, the computer program comprising computer program code which, when run on a processor of a control device, causes the processor to execute the method as claimed in claim 1 . 13. A softstarter arrangement comprising circuitry and a control device configured to perform the method as claimed in claim 1 . 14. A computer program product for controlling circuitry of a softstarter arrangement to operate an electric motor for driving a pump in a pump system, the circuitry electrically connecting the motor to electric mains, the computer program product comprising: a non-transitory computer storage means storing a computer program; the computer program comprising computer program code which, when run on a processor of a control device, causes the processor to execute the steps of: (i) controlling the circuitry of the softstarter arrangement to accelerate the motor up to full speed in a forward direction; (ii) controlling the circuitry of the softstarter arrangement to decelerate the motor when the motor has run at full speed in the forward direction for a first period of time; (iii) controlling the circuitry of the softstarter arrangement to accelerate the motor up to a specified speed in a reverse direction; (iv) controlling the circuitry of the softstarter arrangement to decelerate the motor when the motor has run at the specified speed in the reverse direction for a second period of time; and (v) repeating the steps (i)-(iv) one or more times, wherein the steps (i)-(v) are configured to cut unwanted solid objects in the pump system by pump blades of the pump and flush away effluent residues; wherein the motor is a three phase motor electrically connected to three phases of the mains and the softstarter arrangement is a two-phase or three-phase softstarter arrangement configured to operate the three phase motor, and wherein the steps (iii) and (iv) are preceded by shifting the electric connections of two of the three phases of the mains to the three phase motor and are followed by shifting back the electric connections of said two of the three phases to the three phase motor, thereby providing the specified speed in the reverse direction to be similar to the full speed in the forward direction, the shifting and shifting back being performed by means of operating two line contactors interconnection between the mains and the circuitry of the softstarter arrangement. 15. A softstarter arrangement provided for operating an electric motor arranged to drive a pump in a pump system, the softstarter arrangement comprising: circuitry and a control device that includes a processor and storage means storing a computer program, the circuitry electrically connecting the motor to electric mains, wherein the computer program comprises instructions that, when executed by the processor, cause the control device to: (i) control the circuitry of the softstarter arrangement to accelerate the motor up to full speed in a forward direction; (ii) control the circuitry of the softstarter arrangement to decelerate the motor when the mo