This pertains to the field of commercial and residential painting.
In commercial and residential painting the paintbrush, after use, must be cleaned properly. Currently this requires multiple tools and tasks:
This is a repetitive process; the painter has to use the hose, then the brush, then the hose again, then the brush again, and so on. This is inefficient use of the painter's time, in difficult conditions, for example if the painter is painting the outside of a high-rise building or the second story of a residential house. Also, the painter must turn the cleaning fluid flow on and off, which may be difficult if he is on for instance the third floor of a building and the fluid delivery hose attaches to a nozzle on the ground.
The following prior art seems pertinent:
U.S. Pat. No. 5,483,721 describes a self-cleaning paintbrush.
U.S. Pat. No. 6,408,475 describes a self-cleaning brush in general.
The first two of these patents refer to brushes where liquid comes through the handle of the brush, in order to clean itself.
U.S. patent application Ser. No. 11/516,770 describes a wire brush for cleaning paintbrushes. This is similar in intended use to the present invention. However, it is a fatally flawed design because it relies on a series of grommets to transmit water. In an environment full of paint droplets, such grommets will quickly become clogged and useless.
In an embodiment a multi-functional comb provides several different mechanisms for cleaning paintbrushes and paint rollers. The device attaches to a hose that supplies cleaning fluid under pressure through the handle of the device and out an aperture parallel to the teeth of the comb, such that some of the cleaning fluid washes the comb, thus cleaning it; and additionally the cleaning fluid sprays out over the painting or coating device one wishes to clean, or anything else at which one aims the comb. Normally the comb is designed to be held in the right hand. A switch one operates with the right thumb turns the cleaning fluid on or off. When held in the left hand, the switch can be operated with the left index or middle fingers.
One embodiment is shown in
The cleaning fluid sprays out over the teeth of the comb (105). Also, on the other side of the comb from the teeth is an arced scraper (104) that the user can scrape over paint rollers to strip them of paint.
One screws the comb onto a hose, puts the switch in the OFF position, and turns on the hose. To use the comb one holds the comb in ones right hand, where the hose attachment (102) is at the base of the fist, the comb teeth (103) are parallel to the thumb, and the fingers grasp above the scraper (104).
To comb out a paintbrush without water one runs the comb over the paintbrush, doing nothing else. To comb out a paintbrush while simultaneously washing it one turns the switch on; this causes the comb to spray water. One can then comb out the paintbrush while simultaneously washing it. One can. also use the comb to wash by spraying water without combing.
To clean a paint roller one runs the scraper (104) over the paint roller, thus squeezing the paint out from it. On can intersperse this with washing the paint roller by activating the switch, then washing the roller, and then deactivating the switch again.
In some embodiments the comb is designed to be held in the right hand, so the switch is on the left side of the comb's body where the right thumb can easily reach it to turn it on and off. In other embodiments the comb is designed to be held in the left hand; in this case the switch is on the right side of the comb's body, so the left thumb can easily reach it to turn it on and off.
In some embodiments the switch is a simple on-off switch. In other embodiments the switch also controls the volume of cleaning fluid flow. In still other embodiments there is a dial to control the flow rate of the cleaning fluid. In still other embodiments there is a switch to turn the water on and off, and a dial to control the flow rate.
In some embodiments the switch is intermittent, shutting off the flow of cleaning fluid when the switch is not depressed, while in other embodiments the switch requires on-actuation and off-actuation.
In some embodiments the arced roller scraper is mounted on the side of the comb. In other embodiments the scraper is mounted at the front of the comb. In other embodiments there is no arced roller scraper.
In some embodiments the arced scraper is made of metal. In other embodiments it is made of plastic. In other embodiments it is made of some other material.
In some embodiments the comb has one row of teeth. In other embodiments the comb has multiple rows of teeth.
In some embodiments the teeth are all of equal length. In other embodiments the teeth are of differing lengths in a regular pattern.
In some embodiments the comb's body is made of plastic. In other embodiments it is made of metal. In other embodiments it is made of rubber. In other embodiments it is made of some other material.
In some embodiments the comb's teeth are made of the same material as the comb. In other embodiments the teeth are made of some other material, including metal, plastic, or rubber.
In some embodiments the comb is manufactured as a single piece. In other embodiments it is manufactured as different pieces which may be assembled or disassembled; in some such embodiments the different pieces are of the same material, while in other such embodiments those pieces are of different materials.
In some embodiments the comb has a ring by which to hang it from a tool belt or some other work site gear. In other embodiments it does not.
In some embodiments there is one aperture for the cleaning fluid to exit the device. In other embodiments there is more than one aperture for the cleaning fluid to exit the device.
In some embodiments the cleaning fluid is water. In other embodiments the cleaning fluid is some other cleanser, such as turpentine or acetone. In other embodiments the cleaning fluid may be one of a plurality of choices.
In some embodiments the cleaning fluid comes through a hose connected to a faucet outlet of a plumbing system. In other embodiments the cleaning fluid comes through a hose from a reservoir of cleaning fluid.
In some embodiments the cleaning fluid is captured with a recirculating system that traps the effluent cleaning fluid for reuse or disposal. In some such embodiments the recirculating system filters the cleaning fluid.
Using this comb to clean paintbrushes is advantageous over what painters currently do in a number of different ways.
First, it allows the user to simultaneously comb out and wash a brush, instead of having to switch between a wire brush or separate comb, and a hose. Similarly when a painter cleans a paint roller he can use the scraper to scrape paint from the roller and then wash that paint away with the cleaning fluid stream.
Also, using this water comb is ecologically sound, in that it allows the painter to use only as much water as he needs to clean the paint from his brushes and rollers, and no more. This both conserves water, and allows the painter to collect all his waste water into a bucket, thereby enabling him to dispose of it properly. In contrast painters currently normally allow the hose to free-run because of the difficulties presented by the multiple-implement limitations of prior brush cleaning methods. The high volumes of water thus used overwhelm containers, leading to spillage and resulting lack of control of the fluid and solid waste.
It is noted that Ruiz also attempted to address some of these issues. However, our solution is different from, and better than, the one Ruiz presents, for the following reasons:
This invention claims the priority of U.S. Provisional Patent Application 61/434,418, filed on Jan. 19, 2011 by Mitra, Mejia and Lewis.
Number | Date | Country | |
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61434418 | Jan 2011 | US |