A diver's pump is a manually operated low pressure air compressor used to provide divers in standard diving dress with air while they are underwater.[1][2]

Diver's pump
Three cylinder rotary diver's pump "П3" (flywheels removed), manufactured in USSR in 1977.
Other namesDiving air pump
UsesSupply of breathing air to a copper helmet diver

Rotary

edit
 
Manually operated two-cylinder diver's air pump without cabinet, showing the functional components
 
Two men operating a rotary diver's air pump
 
Arrangement drawing of a 3-cylinder rotary air pump

Rotary pumps are driven by a crankshaft that is rotated by handles on two flywheels attached to the ends of the shaft on each side of the pump. Rotary pumps were built with one, two or three cylinders,[3] and are operated by a team of two men. Pistons attached to the crankshaft draw in air through the inlet valves and then pump it through the outlet valves to an air hose which delivers the air to the helmet of the diver. Cylinders, valves and outlet fittings for air are generally made from brass for corrosion resistance in the marine environment. Rotary operated pumps were manufactured with single or double action.[4][3]

Flow of air through the helmet could be controlled by manually adjusting the back-pressure on the helmet exhaust valve, usually on the lower right side of the bonnet, and by manually adjusting the inlet supply valve on the airline, usually fastened to the front lower left of the corselet.[5] Flow rate would also be affected by the surface delivery system and depth. Manual pumps would be operated at the speed necessary for sufficient air supply, which could be judged by delivery pressure and feedback from the diver. Many manual pumps had delivery pressure gauges calibrated in units of water depth - feet or metres of water column - which would provide the supervisor with a reasonable indication of diver depth. If the diver needed more air, the operators would have to crank faster.

Lever

edit
 
Two-cylinder lever pump

Lever pumps have one or two cylinders, which are operated by rocking a beam with handles attached to its ends which is pivoted at the centre for a two-cylinder pump, and at the end for a single cylinder pump.[6] Vertical lever pumps with bell-crank operation were also made, usually for shallow water work. The piston rods are connected to the beam near the pivot.[1][2] Upward movement of the pistons pulls the air into the cylinders through the inlet valves, and then downward movement pumps the air through the hose to the helmet of the diver in a single action pump. Cylinders, valves and outlet for air are usually made from brass for reliability.[1]

Other components

edit
 
Pressure gauge on Siebe Gorman manual diver's pump, indicating delivered pressure in pounds per square inch (black) and feet sea water (red)

The pump may be mounted in a cabinet for protection during transport and storage, and may be fitted with one or more pressure gauges.

edit

See also

edit

References

edit
  1. ^ a b c Davis, RH (1955). Deep Diving and Submarine Operations (6th ed.). Tolworth, Surbiton, Surrey: Siebe Gorman & Company Ltd. p. 693.
  2. ^ a b Stillson, GD (1915). "Report in Deep Diving Tests". US Bureau of Construction and Repair, Navy Department. Technical Report. Archived from the original on July 7, 2012. Retrieved 2008-09-12.{{cite journal}}: CS1 maint: unfit URL (link)
  3. ^ a b Pardoe 2016, pp. 155–176.
  4. ^ Double action cylinders deliver on both the up- and down-stroke.
  5. ^ "U.S. Navy Standard Deep Sea Diving Outfit training film 43424 NA" on YouTube
  6. ^ Pardoe 2016, pp. 176, 181–185.

Sources

edit

Staff (2016). The Anthony and Yvonne Pardoe Collection of Diving Helmets and Equipment – illustrated catalogue (PDF). Exeter, UK: Bearnes Hampton & Littlewood. Archived from the original (PDF) on 2020-10-29. Retrieved 2017-12-09.

edit