Hydraulically driven cooling fan responsive to engine load

What is claimed is: 1. A hydraulic fan drive for a cooling system of an internal combustion engine, comprising: a variable displacement pump driven by the internal combustion engine; a constant displacement motor driven by the variable displacement pump and operably connected to a fan wheel to rotationally drive the fan wheel; a main line hydraulically connecting the variable displacement pump to the constant displacement motor; an electronic regulating unit operably connected to the constant displacement motor, the electronic regulating unit configured to regulate a temperature of a fluid in a radiator using the constant displacement motor; an actuating cylinder configured to decrease and increase, respectively, a pivot angle of the variable displacement pump; a load-sensing valve acted upon in a first direction by a pumping pressure force in a control line hydraulically connecting the load-sensing valve to the main line and acted upon in a second direction by a load sensing pressure force in a further control line, which is hydraulically connected to the control line by a constrictor, and a first spring force of a first spring, the load-sensing valve configured to supply pressure medium to the actuating cylinder when the pumping pressure force exceeds a sum of the load sensing pressure force and the first spring force and to drain pressure medium from the actuating cylinder when the sum of the load sensing pressure force and the first spring force exceeds the pumping pressure force; a pressure-limiting valve hydraulically connected to the further control line and configured to set the load sensing pressure based upon a second spring force of a second spring and a magnet force of a proportional magnet operably connected to the electronic regulating unit, the electronic regulating unit configured to control the proportional magnet based upon the temperature of the fluid; a pressure-regulating valve hydraulically positioned between the load-sensing valve and the actuation cylinder and configured to supply the pressure medium to the actuating cylinder to reduce the pivoting angle of the variable-displacement pump when the pumping pressure reaches a maximum pumping pressure; and a shut off valve arranged in the main line and configured to open and close to enable and prevent, respectively, flow through the main line, wherein the electronic regulating unit is configured to prevent the flow through the main line by controlling the shut off valve to close in response to a sensed increase in a load of the internal combustion engine. 2. The hydraulic fan drive of claim 1 , wherein the electronic regulating unit is configured to sense the increase in the load of the internal combustion engine based upon a speed of the internal combustion engine. 3. The hydraulic fan drive of claim 1 , wherein the electronic regulating unit configured to control the proportional magnet based upon the temperature of the fluid so as to maintain the temperature of the fluid approximately constant. 4. The hydraulic fan drive of claim 1 , wherein the hydraulic fan drive is configured such that the pumping pressure reaches the maximum pumping pressure in response to the shut off valve being controlled to close.