Mould for the production of closures in compression moulding machines

The invention claimed is: 1. A mould for the production of closures of plastic material with a tear-off membrane, in a compression moulding machine, the mould comprising a male die element, including a first abutment surface, and a female die element, movable relative to each other along a moulding orientation, such that the mould is positionable between a closed configuration, in which the male die element and the female die element are in contact with each other, and an open configuration, in which the male die element and the female die element are spaced apart, wherein the female die element includes: a first block, a second block and a third block, aligned with each other and movable relative to each other along the moulding orientation; a first spring, interposed between the first block and the second block; a second spring, interposed between the second block and the third block and configured to apply an opening force along the moulding orientation to keep the second block and the third block spaced apart when no other forces are applied, wherein the first spring is configured to apply a closing force along the moulding orientation to keep the second block and the first block in contact with each other when no other forces are applied. 2. The mould according to claim 1 , wherein, relative to the moulding orientation, the first block is interposed between the male die element and the second block, and the second block is interposed between the first block and the third block. 3. The mould according to claim 2 , comprising a first cooling circuit, configured to cool the male die element, and a second cooling circuit, configured to cool the female die element, in which the second cooling circuit comprises a recirculation duct configured to traverse the first block, the second block and the third block. 4. The mould according to claim 3 , wherein the second cooling circuit comprises: a first internal duct, defining a respective cooling path inside the first block; a second internal duct, defining a respective cooling path inside the second block; a third internal duct, defining a respective cooling path inside the third block, wherein the first internal duct, the second internal duct and the third internal duct are connected to each other in series. 5. The mould according to claim 1 , wherein the male die element includes: an annular body at one end of the male die element, facing the female die element and centrally defining a slide cavity; a central block, movable in the slide cavity along the moulding orientation, between a moulding position, where it is retracted relative to the female die element, and a releasing position, where it is extended towards the female die element. 6. The mould according to claim 5 , wherein the male die element includes a pressurizing duct, connected to the slide cavity and configured to inject air into the slide cavity to facilitate extraction of the closure. 7. The mould according to claim 6 , wherein the annular body comprises a toothed bush and a receiving bush, spaced apart by a flow gap and wherein the annular body comprises at least one communication passage which is open onto the flow gap and onto the pressurizing duct to allow the passage of air and/or water. 8. The mould according to claim 1 , wherein the male die element comprises an outer bush that is movable relative to the annular body along the moulding orientation.