Historically, brush making machines have been used to produce brushes of different shapes and sizes. These machines have been instrumental in promoting a wide variety of brushing applications such as deburring, polishing, edge radiusing, and honing. They have also been used in agricultural applications such as cleaning seeds and grains, as well as removing skins from nuts. Many modern industries utilize brushing machines for a range of processing applications.

A new brush factory has opened in the town of Wymondham, Norfolk, to celebrate the history of the region’s famous brush-making industry. The new ‘Brush with the Past’ project, funded by the Heritage Lottery Fund, aims to promote and enhance the heritage of the area through a series of exhibitions, events and activities. The project will see a series of displays and activities take place in Wymondham, Roydon and Diss to bring the towns’ brush-making past to life for visitors.

The first major brush factory in the United States was established in 1918 at North 28th and Boyd Streets in Omaha, Nebraska. The Wiens Omaha Brush Company built the factory, which was the only dairy brush plant in the west at that time. It became the second largest brush factory in the world after Nagl’s factory at 18 Huron Rd. The two factories were competing against each other and both had great success in the market. After a while, Nagl sold his shares in the business to Cheseborough-Pond’s of New York City, which consolidated its two plants with one in Jefferson City. Eventually, both factories closed.

Another famous manufacturer of brush manufacturing machines is Borghi of Castelfranco Emilia, Italy. Founded in 1948, Borghi is a leading manufacturer of staple-set and anchor-set brush making machinery. It has a worldwide network of sales and technical support subsidiaries. Borghi has a reputation for reliability and superior customer service.

Its products include broom and brush machinery for the production of hog bristle, horse hair, and synthetic tufts. The firm also manufactures a line of linear trimming and flagging machinery to work in conjunction with staple-set and anchor-set machines. Besides these machines, the Borghi Group also provides a variety of ancillary equipment such as cutting and drying systems, yarn feed and winding machines, and wire-twisting machines.

If your brushing machine exhibits signs of overload, the first thing to do is check the ammeter to make sure it’s still within its nameplate rating. If it is, then the problem probably lies with a fault in the armature windings. A defective armature winding will cause excessive sparking at the brushes and may be visible as burned spots on the commutator. It will also be evident by the high-resistance connections between the risers and the commutator. If this is the case, the armature must be replaced. The commutator is the heart of your brushing system, so it’s important to get it right. If you suspect an armature fault, contact the manufacturer or visit their website for repair information. brush machine factory