Pneumatic inflator for automatically inflating inflatable articles to a desired pressure

The invention is claimed as follows: 1. A pneumatic inflator comprising: a housing; a first pressure regulator supported by the housing, a compressed air source being fluidically connectable to the first pressure regulator such that air may flow from the compressed air source to the first pressure regulator; a control valve supported by the housing, the control valve being fluidically connectable to an inflation hose such that air may flow from the control valve to the inflation hose; a normally open actuatable control valve supported by the housing; a second pressure regulator supported by the housing; and a pressure repeater supported by the housing, a return air hose being fluidically connectable to the pressure repeater such that air may flow from the return air hose to the pressure repeater; wherein the first pressure regulator, the control valve, the normally open control valve, the second pressure regulator, and the pressure repeater are arranged such that, when the compressed air source is fluidically connected to the first pressure regulator, the control valve is fluidically connected to the inflation hose, and the return air hose is fluidically connected to the pressure repeater: (a) when: (i) air pressure inside the return air hose is less than a desired air pressure set by the second pressure regulator, and (ii) the control valve is actuated from a closed position to an open position, air flows from the compressed air source into the inflation hose; and (b) thereafter, when the air pressure inside the return air hose exceeds the desired air pressure, the control valve is automatically actuated into the closed position, which stops the air flow from the compressed air source into the inflation hose. 2. The pneumatic inflator of claim 1 , wherein the control valve includes a manual actuator that, when actuated when the control valve is in the closed position, shifts the control valve from the closed position to the open position. 3. The pneumatic inflator of claim 2 , wherein the manual actuator includes a foot pedal. 4. The pneumatic inflator of claim 1 , which includes a normally closed actuatable control valve supported by the housing, and wherein the first pressure regulator, the control valve, the normally open control valve, the second pressure regulator, the pressure repeater, and the normally closed control valve are arranged such that, when the compressed air source is fluidically connected to the first pressure regulator, the control valve is fluidically connected to the inflation hose, and the pressure repeater is fluidically connected to the return air hose: (a) when: (i) the air pressure inside the return air hose is less than the desired air pressure, and (ii) the control valve is actuated into the open position, air flows from the compressed air source into the inflation hose; and (b) thereafter, when the normally closed control valve is actuated from a closed position to an open position, the control valve is automatically actuated into the closed position, which stops the air flow from the compressed air source into the inflation hose. 5. The pneumatic inflator of claim 4 , wherein the normally closed control valve includes a manual actuator that, when actuated when the normally closed control valve is in the closed position, shifts the normally closed control valve from the closed position to the open position. 6. The pneumatic inflator of claim 5 , wherein the manual actuator includes a push button. 7. The pneumatic inflator of claim 1 , wherein the pressure repeater is configured to: (a) when air of a first pressure flows from the return air hose into a first air inlet of the pressure repeater and air of a second pressure flows from the second pressure regulator into a second air inlet of the pressure repeater, the second pressure being greater than the first pressure, enable air to flow from the second air inlet of the pressure repeater through the pressure repeater; and (b) when air of a third pressure flows from the return air hose into the first air inlet of the pressure repeater and air of a fourth pressure flows from the second pressure regulator into the second air inlet of the pressure repeater, the third pressure being greater than the fourth pressure, prevent air from flowing from the second air inlet of the pressure repeater through the pressure repeater. 8. The pneumatic inflator of claim 1 , wherein: (1) the control valve includes an air inlet, an air outlet, and an air pilot actuator, the control valve being fluidically connectable to the inflation hose such that air may flow from the air outlet of the control valve to the inflation hose; (2) the normally open control valve includes an air inlet, an air outlet, and an air pilot actuator, the normally open control valve being fluidically connected to the control valve such that air may flow from the air outlet of the normally open control valve to the air pilot actuator of the control valve; (3) the pressure repeater includes a first air inlet, a second air inlet, and an air outlet, the pressure repeater being fluidically connected to the normally open control valve such that air may flow from the air outlet of the pressure repeater to the air pilot actuator of the normally open control valve, the return air hose being fluidically connectable to the pressure repeater such that air may flow from the return air hose to the first air inlet of the pressure repeater; (4) the second pressure regulator includes an air inlet and an air outlet, the second pressure regulator being fluidically connected to the pressure repeater such that air may flow from the air outlet of the second pressure regulator to the second air inlet of the pressure repeater; and (5) the first pressure regulator includes an air inlet and an air outlet, the first pressure regulator being fluidically connected to: (a) the control valve such that air may flow from the air outlet of the first pressure regulator to the air inlet of the control valve, (b) the normally open control valve such that air may flow from the air outlet of the first pressure regulator to the air inlet of the normally open control valve, and (c) the second pressure regulator such that air may flow from the air outlet of the first pressure regulator to the air inlet of the second pressure regulator. 9. A pneumatic circuit comprising: a control valve including an air inlet, an air outlet, and an air pilot actuator, the control valve being fluidically connectable to an inflation hose such that air may flow from the air outlet of the control valve to the inflation hose; a normally open control valve including an air inlet, an air outlet, and an air pilot actuator, the normally open control valve being fluidically connected to the control valve such that air may flow from the air outlet of the normally open control valve to the air pilot actuator of the control valve; a pressure repeater including a first air inlet, a second air inlet, and an air outlet, the pressure repeater being fluidically connected to the normally open control valve such that air may flow from the air outlet of the pressure repeater to the air pilot actuator of the normally open control valve, a return air hose being fluidically connectable to the pressure repeater such that air may flow from the return air hose to the first air inlet of the pressure repeater; a first pressure regulator including an air inlet and an air outlet, the first pressure regulator being fluidically connected to the pressure repeater such that air may flow from the air outlet of the first pressure regulator to the second air inlet of the pressure repeater; and a second pressure regulator including an air inlet and an air outlet, the second pressure regulator be