Dual control dead man system

The invention claimed is: 1. A safety shut-off system capable of being controlled by either an electric dead man's switch or a pneumatic dead man's switch, comprising: a relay valve comprising a pneumatic dead man's switch connection and an electrically operated solenoid, wherein the relay valve capable of switching from a venting position to an operating position, wherein in the operating position a pressurized gas port is in fluid communication with a control circuit inlet/outlet; and a dead man's switch, wherein the dead man's switch is selectively interchangeable between either a pneumatic dead man's switch capable of being pneumatically connected to the pneumatic dead man's switch connection of the relay valve and engagement of the pneumatically operated dead man's switch shifts the relay valve from its venting position to its operating position; or an electrically operated dead man's switch capable of being electrically connected to the electrically operated solenoid of the relay valve and engagement of the electrically operated dead man's switch shifts the relay valve to its operating position and wherein selectively interchanging the dead man's switch does not comprise replacing the relay valve or re-plumbing internal control lines or hoses. 2. The safety shut-off system of claim 1 , wherein the relay valve further comprises a pressurized gas port, a control circuit inlet/outlet, and a spool chamber vent. 3. The safety shut-off system of claim 2 , wherein the pneumatically operated dead man's switch is connected to a spool chamber vent of the relay valve. 4. The safety shut-off system of claim 1 , wherein the relay valve comprises an electrically operated solenoid valve; wherein the solenoid valve in its operating position provides fluid communication between the pressurized gas port and a spool chamber in the relay valve and at the same time blocks the pneumatic dead man's port, and the solenoid valve in its venting position provides fluid communication between the pneumatic dead man's port and the spool chamber. 5. The safety shut-off system of claim 1 , comprising a control circuit and the control circuit is in fluid communication with the control circuit inlet/outlet and the control circuit is in fluid communication with at least one pneumatically operated shut off valve. 6. The safety shut-off system of claim 1 , wherein a control line from the pneumatic dead man's switch is connected to the relay valve. 7. The safety shut-off system of claim 6 , wherein engaging of the pneumatic dead man's switch provides fluid communication between a source of pressurized gas and the relay valve to shift the spool from the venting position to the operating position. 8. The safety shut-off system of claim 7 , wherein the operating position provides fluid communication between a source of pressurized gas and the control circuit. 9. A blast system, comprising: a slurry piping system, wherein the slurry piping system comprises a slurry shut off valve; a pressurized gas piping system; a relay valve connected to a source of pressurized gas and a control circuit, wherein the control circuit is connected to slurry shut off valve; and a dead man's switch, wherein in the dead man's switch may be interchanged between one of a pneumatic dead man's switch capable of being connected to the relay valve and engagement of the pneumatically operated dead man's switch shifts the relay valve to its operating position; or an electrically operated dead man's switch capable of being connected to a solenoid of the relay valve and engagement of the electrically operated dead man's switch shifts the relay valve to its operating position and wherein selectively interchanging the dead man's switch does not comprise replacing the relay valve or re-plumbing internal control lines or hoses. 10. The blast system of claim 9 , wherein the pressurized gas piping system comprises an air shutoff valve and the control circuit is connected to the air shutoff valve. 11. The blast system of claim 10 , comprising a mixer, wherein the slurry piping system and the pressurized gas piping system are connected to the mixer. 12. The blast system of claim 11 , wherein an abrasive media piping system comprises a blast hose and a blast nozzle and one of the pneumatically dead man's switch and the electrically operated dead man's switch is connected adjacent to the blast nozzle.