How Does a Manual Water Pump Work?

AI Thread Summary
A manual water pump operates using various mechanisms, primarily positive displacement and vacuum creation. The rotary type functions similarly to a car oil pump, while squeeze pumps create a vacuum to draw water in through one-way valves. Modifications can be made to dispense specific volumes, such as 100 ml per pump, by adjusting the bellows chamber size or using mechanical stops. The bellows type works by collapsing to expel water and expanding to create a vacuum for drawing in liquid. Understanding these principles allows for effective customization of manual water pumps.
PortlandG
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could anyone please tell me how a manual/hand water pump works?

thanks
 
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Welcome to PF, Portland.
There are several different kinds of hand pumps. The rotary (crank) type is usually just a positive-displacement gear unit, similar to the oil pump in a car. The smaller ones that you squeeze produce a vacuum by squishing the air out (first squeeze) through a one-way valve, then sucking the fluid in through a different one-way valve. After that, the cycle is the same except that it's the fluid in the 'chamber' that gets squished out.
 
Thanks for your reply Danger,

Is that how this water pump works? http://www.foryourwater.com/mm5/merchant.mvc?Screen=PROD&Store_Code=FYW&Product_Code=P0100&Category_Code=FYWWP

I've been trying to figure it out for a while! I want to modify one to dispense pre-measured amounts of water, let's say only 100 ml with each pumping action!
 
From the outside, it would appear that it's a simple 'bellows' type, which is a variation on the 'squeeze' type. Think of it like an accordion. When you push down, the bellows collapse and force whatever is in them out through the one-way valve in the spout. When they spring back up, a vacuum is created which allows ambient air pressure to force liquid from the reservoir through the other one-way valve into the bellows chamber.
There are 3 ways that immediately come to mind for calibrating the amount pumped per stroke. One is to just make the bellows chamber the proper size to contain that volume. The second would be to use an off-the-shelf unit that's overly large and fill up the excess space with something like insulation foam. Third would be also with an oversized unit, but with some sort of mechanical stop to prevent full travel of the stroke.
 

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