Lenspomp: een noodzakelijke pomp voor boot
Feb 22, 2022
Lenspompenzijn het belangrijkst voor een schip omdat ze de boot drijvend houden. Er zijn twee basistypen:centrifugaalendiafragma.
Centrifugale pompengebruik waaiers, en zijn meestal elektrisch of mechanisch aangedreven. Ze zijn afhankelijk van een elektrische bron of direct mechanisch vermogen vanaf de motor- of generatoras. Bij het installeren van elektrische pompen zijn de bedradingsverbindingen van cruciaal belang. Verbindingen moeten waterdicht zijn en zo goed mogelijk uit de weg worden bevestigd om interferentie met de pomp en/of vlotterschakelaar te voorkomen.
Some electric marine pumps include an internal float switch which, of course, activates the pump when water rises. These are usually smaller pumps, and the internal switch design can render them more susceptible to blockage and sticking due to bilge debris. Most bilge pumps require a separate float switch allowing easy testing of the switch and pump (manually lifting the switch arm) and separate installation positions for the switch and pump. For example; wisdom holds that two pumps may be better than one. Both pumps can be strategically located in the bilge, but the switch for one pump can be higher than the other. This allows automatic operation of only one pump for regular duty, thereby reducing current draw and the life of only the one pump. As any long time boater knows, emergencies happen. When water intake exceeds the capabilities of the primary pump, the higher switch will activate the back-up pump.
There are many type of centrifugal pump can meet the requirement. vertical pump( CLH, CLZ, CQX ) horitontal pump (CWZ, CWL, CIS) etc.
For smaller boats or those without power such as sailboats, rowing boats, etc., a manual suction or diafragma type:werkt goed. Deze pompen kunnen goedkoop en draagbaar zijn. Ze hebben ook het voordeel dat ze niet gemakkelijk worden geblokkeerd door vuil in de bilge. Ze zijn betrouwbaar en werken geweldig zolang je ze van stroom kunt voorzien. Het probleem is, op grotere boten, hoe lang kun je de pompen bemannen? Hoewel deze pompen ook mechanisch of elektrisch kunnen worden aangedreven, zijn ze meestal groter en zwaarder, dus centrifugaalpompen zijn de gebruikelijke keuze; maar opties zijn goed. Overweeg, indien van toepassing, beide typen.
This brings us to another point. When purchasing pumps, do not skimp; as important as life jackets, rafts, ELT's and VHF's can be in an emergency, the good bilge pump is often your first line of defense against losing a boat and sometimes more. At the very least, in a flooding situation, good pumps can buy you time for options.
It is important to understand that advertised marine pump ratings in gallons per hour (GPH) are not accurate for normal use. Pumps are tested and rated in laboratory conditions with short outflow pipes on the horizontal. Under actual conditions we have to consider "head" which means overcoming both the friction of the outflow tubing and gravity to raise the water to the through-hull fitting. Common bilge pump tubing is a corrugated design which creates a great deal of friction. Smooth bore tubing is more expensive, but better.
Also, consider friction loss as outflow is restricted at the smaller diameter through-hull fitting. Now we have to lift the water from the bilge to overboard, usually through a through-hull fitting. Holes in a boat near the water line are to be avoided as much as possible. The through-hulls for your pumps should be at least eight inches above the waterline. For mono hull sailors, don't forget you're going to heel. For small boaters or commercial applications, remember that the water line will be higher if you heavily load the boat. You should always use a "safety loop" when piping overboard. That is, the piping should be looped higher than the through-hull to prevent water coming in if the through-hull is submerged. This loop, of course, increases the head, so it must be considered when choosing a pump.