Safety valve

The invention claimed is: 1. A dairy installation safety valve comprising: a valve body defining a bore, an intake in communication with the bore, an exhaust in communication with the bore, and a bleed opening in communication with the bore, and an additional opening in communication with the bore; a first spacer disposed in the bore and in communication with the intake; a second spacer disposed in the bore and in communication with the exhaust, and the second spacer is sealed from the first spacer; a third spacer disposed in the bore and in communication with the bleed opening, and the third spacer is sealed from the first spacer and the second spacer; a fourth spacer disposed in the bore and in communication with the additional opening and is sealed from the first spacer, the second spacer, and the third spacer; and a piston slidably disposed in: the bore, the first spacer, the second spacer, the third spacer; and the fourth spacer for movement between a blocking position and a throughput position; and the piston defines a cavity, a first opening, and a second opening; and in the throughput position the first opening is in communication with the intake and the cavity and the second opening is in communication with the exhaust, the cavity, and the first opening, and the bleed opening is closed, and the additional opening is closed; and in the blocking position, the first opening is in communication with the third spacer and the cavity and the bleed opening and the second opening is in communication with the fourth spacer and the cavity and the additional opening. 2. The safety valve of claim 1 , wherein the first opening is in communication with the second opening via the cavity. 3. The safety valve of claim 1 , wherein the cavity extends in the direction of a longitudinal piston axis of the piston. 4. The safety valve of claim 1 , wherein the intake and the exhaust are closed by the piston, the bleed opening is in communication with the cavity of the piston in the blocking position. 5. The safety valve of claim 1 , wherein in the throughput position the first opening communicates with the cavity of the piston, and the second opening communicates with the cavity of the piston to connect the intake to the exhaust, and the bleed opening is closed by the piston. 6. The safety valve of claim 1 , and further comprising: a drive element engaged with the piston, to slide the piston between the blocking position and the throughput position. 7. The safety valve of claim 1 , wherein the safety valve further comprises: a pretensioned force accumulator that pretensions the piston to the blocking position. 8. The safety valve of claim 1 , and further comprising: a sensor unit disposed to detect the position of the piston. 9. The safety valve of claim 1 , and further comprising: a drive element operatively engaged with the piston; and a sensor unit disposed to detect the position of the drive element. 10. The safety valve of claim 1 , and further comprising: a sensor unit having: a magnetic element attached to the piston to determine a position of the piston. 11. The safety valve of claim 1 , wherein the valve body of the safety valve is a 3/2-way valve. 12. The safety valve of claim 1 , wherein the valve body of the safety valve is a 5/2-way valve. 13. A dairy installation safety valve comprising: a valve body defining a bore, an intake in communication with the bore, an exhaust in communication with the bore, a bleed opening in communication with the bore, and an additional opening in communication with the bore; a first spacer disposed in the bore and in communication with the intake; a second spacer disposed in the bore and in communication with the exhaust, and the second spacer is sealed from the first spacer; a third spacer disposed in the bore and in communication with the bleed opening, and the third spacer is sealed from the first spacer and the second spacer; a fourth spacer disposed in the bore and in communication with the additional opening; a nozzle joined to and defining a constricting flow pattern out of the additional opening; and a piston slidably disposed in: the bore, the first spacer, the second spacer, the third spacer, and the fourth spacer for movement between a blocking position and a throughput position; and the piston defines a cavity a first opening and a second opening; and in the throughput position, the first opening is in communication with the intake and the cavity, and the second opening is in communication with the exhaust, the cavity, and the first opening, and the bleed opening is closed and the additional opening is closed; and in the blocking position, the first opening is in communication with the third spacer and the bleed opening, and the second opening is closed, and the intake is in communication with the additional opening via a constriction of the piston.