CURRENT DISPATCH TIME ON ORDERS IS 3-4 WORKING DAYS!, PLEASE CONTACT US 12 HOURS PRIOR FOR 'COLLECT IN STORE' ORDERS AUTOBRITE DIRECT LTD 01782 623819 AUTOBRITE DIRECT LTD 01782623819 Items 1 to 12 of 19 total Autobrite New Soft Hair Dressing Brush The DBS Detailing Brush Set - By Autobrite Direct Nilfisk Alto Buddy 15 230v 1.3KW Wet & Dry Domestic Vacuum Cleaner Long reach move it brush (Plastic) Disposable Paper Printed Floor Mats - 1 Pack Interior Jumbo Detailing Brush - By Autobrite Disposable Seat covers - 1 Roll Disposable Heavy duty Seat covers - 1 Box Prufit dog hair removal tool Rubber dog hair remover tool Autobrite Interior Cleaning Textured Upholstery Sponge Carpet & Upholstery Brush - Heavy DutyChoosing and understanding the proper cleaning system is important. Some systems may leave residues which accelerate re-soiling and defeats the whole purpose of cleaning! There are 2 main cleaning methods when it comes to carpet:

Many people believe that dry cleaning your carpet is like dry cleaning you clothing. It’s not the same. All carpet cleaning methods use some water one form or another! Here are the three methods of dry cleaning carpet: 1 ) Dry foam method. When a carpet cleaner uses dry foam, he applies shampoo to your carpet, allows it to dry, and then sucks the dried shampoo into a vacuum.  Can you imagine applying shampoo to your hair, allowing it to dry and then removing the shampoo from your head with a vacuum?  This method can leave a residue in your carpet, which is one reason dry foam is not very effective. 2 ) Dry-Chem method is similar to dry foam. The major difference is that when a  dry-chemical is used, the company uses a machine bonnet that spins form side to side to absorb the dirt in the carpet. After the bonnet is  saturated with dirt another cotton bonnet is applied.  Bonnet cleaning is like trying to use a large towel to rub the dirt out of your carpet.  Like dry foam, its not very effective for deep down restorative cleaning.

3 ) Dry-compound method spreads an absorbent mixture that looks like wet sawdust all over your carpeting. Then the machine brushes the mixture into the carpet, which in theory causes dirt to absorb in the mixture. When the mixture has dried, a vacuum cleaner sucks the material out of the carpeting. Because the carpet is not rinsed in any way, this method is not very effective and any particles not vacuumed are left behind in your carpet. These methods are only capable of  light surface cleaning because they cannot  remove the soil which is embedded deep in the pile and leave a large amount of cleaning agent left in the carpet. Most carpet manufacturers recommend the hot water extraction method in order to protect your carpets warranty. Hot water extraction is the only way to give your carpets a “deep clean” -and that’s what Buddy’s Carpet Care does! Pre-spray is applied to the carpet before-hand to dissolve and prepare soil for removal during the cleaning.

A hot cleaning solution is injected at high pressure into the carpeting to suspend soil and other pollutants (bacteria, allergens, dust etc..) This is what sets the Hot Water Extraction method apart from other forms of cleaning. Steaming hot 215° water kills germs and evaporates much faster for quicker drying times creating a cleaner, healthier environment that lasts. The powerful vacuum extraction system removes the soil (and other pollutants) leaving virtually no residue behind. electrolux vacuum cleaner youtubePowerful air movers are set in place to further aid in the drying process. low noise portable vacuum cleaner(Drying times will vary depending on the humidity and density of the carpet.)vac wet dry vacuum cleaner

This safe, effective method is best for your carpet and you! To find out which type of cleaning  top carpet manufacturers are recommending click here! Sign in if you're already registered. In case you haven't heard the new, robots will likely replace 5M U.S. jobs by 2020. These new models can talk to you, vacuum the floors, clean the windows, and even patrol your house when you are not there.Small bloblike creatures may be the ocean's most efficient feeders, a new study suggests. The salp, a 5-inch-long, barrel-shaped organism that resembles a streamlined jellyfish, lives in mid-ocean waters where it filters the seawater for food particles. "We had long thought that salps were about the most efficient filter-feeders in the ocean," said study researcher Larry Madin, director of research at Woods Hole Oceanographic Institution in Massachusetts. But the new results show these animals can consume particles that span a huge size range, or about four orders of magnitude.

If sized up that range would be like eating everything from a mouse to a horse, Madin said. The finding, published this week in the journal Proceedings of the National Academy of Sciences, "implies that salps are more efficient vacuum cleaners than we thought," said study researcher Roman Stocker of MIT. Salps, which can live for weeks or months as single globs or chains of 100 or more individuals, swim and eat in rhythmic pulses, each of which draws seawater in through an opening at the front end of the animal. A nanometer-scale mucus net captures the food particles, mostly phytoplankton, which ends up in the gut where they get digested. Until now, it was thought the 1.5-micron-wide holes in the mesh meant only particles larger than that got captured, while smaller particles would slip through the mucus net. (For comparison, the diameter of a human hair is about 100 microns.) But a mathematical model suggested salps somehow might be capturing food particles smaller than that, said study researcher Kelly Sutherland, then working on her Ph.D. at MIT and WHOI.

In the laboratory at WHOI, Sutherland and her colleagues offered salps food particles of three sizes: smaller, around the same size as, and larger than the mesh openings. "We found that more small particles were captured than expected," said Sutherland, now a post-doctoral researcher at Caltech. "When exposed to ocean-like particle concentrations, 80 percent of the particles that were captured were the smallest particles offered in the experiment." The finding helps explain how salps can survive in the open ocean where the supply of larger food particles is low. In addition, the results reveal the importance of the salps in carbon cycling. Scientists believe its waste material may help remove carbon dioxide (CO2) from the upper ocean and the atmosphere. After eating both small and large particles, the animals release waste that consists of these particles packed into larger, denser globs. The larger and denser the carbon-containing pellets, the sooner they sink to the ocean bottom.

"This removes carbon from the surface waters, and brings it to a depth where you won't see it again for years to centuries," Sutherland said. The research was funded by the National Science Foundation and the Woods Hole Oceanographic Institution Ocean Life Institute. Dangers in the Deep: 10 Scariest Sea Creatures The Truth Behind Global Jellyfish Swarms Images: Rich Life Under the Sea Open in new window When attacked by a predator, this deep-sea jellyfish (Atolla wyvillei) uses bioluminescence to "scream" for help. The amazing light show is known as a burglar alarm display. This jellyfish was photographed by the ROV Hyper Dolphin east of Japan's Izu-Oshima Island, 2,640 feet (805 meters) below the surface. The Census of Marine Life is aimed at cataloging as many species of sea creatures as possible. This is a Venus flytrap sea anemone (Actinoscyphia sp.) from the Gulf of Mexico. Its common name includes references to two terrestrial plants ("Venus flytrap" and "anemone"), but the species is classified as a type of polyp.

It closes its tentacles to capture prey or protect itself. A deep-water octopus (Benthoctopus sp.) sits on the seafloo in the Gulf of Mexico's Alaminos Canyon, about 8800 feet (2700 meters) beneath the sea surface. This queen angelfish (Holacanthus ciliaris) was spotted near an oil rig in the Gulf waters off the coast of Texas. This Gulf of Mexico amphipod, Phronoma sedentaria, is known as the "Cooper of the Sea" because the crustacean species lives inside a barrel-shaped creature known as a salp, also shown here. Branchiocerianthus imperator is the largest known type of solitary hydroid. Hydroids look like flowers, but they're actually animals with tentacles. This one was spotted by the HOV Shinkai 2000 in Japan's Sagami Bay at a depth of 2,200 feet (670 meters). Asteronyx loveni is a type of brittle star that tends to cling onto another marine species known as the sea pen. This brittle star was spotted with its arms flung wide in Japanese waters off Sanriku, at a depth of 4,150 feet (1,265 meters).

The spider conch (Lambis chiragra) has six spines on the lip of its shell. The shell's pearly interior displays beautiful tints of orange and yellow. The species is listed as "vulnerable" on the Red List of threatened animals of Singapore. Osedax worms, more commonly known as boneworms, consume bones on the seafloor. The reddish feathery plumes act as gills. All Osedax males are dwarfs and live on the trunks of females. This red-lined paper bubble (Hydatinidae gen. sp.) was discovered in a sperm whale carcass in the Kagoshima whale fall, off Japan's Cape Nomamisaki. The gastropod's tiny eyes are protected by cephalic shields. The "paper bubble" is actually an extremely thin shell. The giant Caribbean anemone (Condylactis gigantea) grows to a height of about 6 inches (15 centimeters). Its tentacles are beautiful ... but they contain toxin-bearing nematocysts that paralyze the sea anemone's prey. The bearded fireworm (Hermodice carunculata) is a type of bristleworm, with groups of white bristles along each side.

The venom-filled bristles easily penetrate the flesh and break off if this worm is handled. They produce an intense burning sensation in the area of contact, hence the common name of the Caribbean species. These nocturnal echinoderms (Ophiothrix suesonii) are called sponge brittle stars. They are very common in the Caribbean. They are so named because they are found exclusively either inside or outside living sponges. Imagine living in the sea where it is permanently dark, cold, and food is hard to find. For many animals at depth, it may be weeks to months between meals. If you find something to eat, you have to hang on to it. This is why so many deep-sea fishes have lots of big teeth. This dragonfish, spotted off the coast of Australia, even has teeth on its tongue. They would be terrifying animals ... if they weren’t the size of a banana. The sargassumfish (Histrio histrio) is a member of the frogfish family (Antennariidae), a group of small, globular fishes with stalked, grasping, limblike pectoral fins with small gill openings behind the base, a trapdoor-like mouth high on the head, and a "fishing lure" (formed by the first dorsal spine) on the snout.