Best Spin Mops

Best Spin Mops: What are they?

Spin mops are used to clean up spills, dust, dirt and other debris from surfaces. They are usually made out of wood or plastic and have a handle attached to them. Some spin mops come with a brush attachment, but these brushes may not always reach all areas of the surface being cleaned. Most spin mops also come with sponges which are designed to soak up spilled liquids such as water or oil.

The most common types of spin mops are the ones that have handles, and those that do not. These two categories are known as disposable and non-disposable.

Disposables are typically manufactured using recycled materials; however, some manufacturers use new materials when making their disposables. Non-disposables tend to be made from natural fibers such as bamboo or cotton, although synthetic fiber spin mops exist too.

Disposables are generally considered to be better than non-disposables because they require less maintenance and cleaning. However, if you’re looking for something that will last longer, then a disposable spin mop might be right for you.

If you want to save money though, then non-disposable spin mops may be your best bet.

What makes a good quality spin mop?

To be considered a good quality spin mop, it should have a nice grip and easy maneuverability. The handle should also be comfortable to hold for longer periods of time. In addition to this, the spin mop head shouldn’t fall off or easily detach from the handle when in use. Last but not least, it’s important to keep in mind that not all spin mops can get rid of grime and dirt.

Sources & references used in this article:

Cleaning bucket assembly by A Danko – US Patent App. 29/627,616, 2020 – Google Patents

Macroscopic orientation effects in broadline NMR-spectra of model membranes at high magnetic field strength: A method preventing such effects by T Brumm, A Möps, C Dolainsky, S Brückner… – Biophysical journal, 1992 – Elsevier

Transverse relaxation in supported and nonsupported phospholipid model membranes and the influence of ultraslow motions: A 31P‐NMR study by C Dolainsky, A Möps, TM Bayerl – The Journal of chemical physics, 1993 –

iWarp: a 100-MOPS, LIW microprocessor for multicomputers by C Peterson, J Sutton, P Wiley – IEEE Micro, 1991 –