Cooling of a drive system for diaphragm pumps

The invention claimed is: 1. A drive unit for a diaphragm pump, the drive unit comprising: a first hollow body; a piston, wherein the piston divides the hollow body into a first chamber and a second chamber, the first chamber being configured to supply fluid to the diaphragm pump and the second chamber having an inlet valve and an outlet valve, wherein the second chamber is configured to draw a gas flow through the inlet valve and to force the gas flow out through the outlet valve to an outlet line; a motor driving the piston via a spindle extending through the second chamber from the motor to the piston, wherein the motor is disposed below the second chamber; and a heat sink comprising a monolithic first heat sink disposed below the second chamber and directly adjacent to the motor so as to be thermally coupled thereto, wherein the heat sink is thermally coupled to the motor and thermally and fluidically coupled to the second chamber via the outlet valve; wherein the outlet line is disposed within the first heat sink. 2. The drive unit of claim 1 , wherein an inlet of the second chamber is coupled to the inlet valve and an outlet of the second chamber is coupled to the outlet valve. 3. The drive unit of claim 1 , wherein the inlet valve and/or the outlet valve is a check valve. 4. The drive unit of claim 1 , wherein a filter unit is provided, and the inlet valve-fluidically couples the filter unit and the second chamber. 5. The drive unit of claim 4 , wherein the filter unit comprises a replaceable filter and the filter is held between a filter bowl and a filter cover. 6. The drive unit of claim 1 , wherein a gap seal is arranged between an inner wall of the hollow body and the piston. 7. The drive unit of claim 6 , wherein the gap seal comprises at least one O-ring guided in at least one groove of the piston. 8. The drive unit of claim 1 , wherein the hollow body comprises a thermal coating.