(1) Field of the Invention
The present invention relates to a paint roller cover for preventing splatter from a cylindrical paint roller pad during painting and for subsequently cleaning paint from paint roller pads, and in particular to a paint roller cover that can remain attached to a paint roller pad during use and cleaning.
(2) Description of the Prior Art
Paint is commonly applied to large surfaces, such as walls, with a cylindrical paint roller pad that is coated with paint and then rolled over the surface to be painted. Normally, the pad will be carried on a spindle rotatably mounted on a handle. Heretofore, removal of paint, especially latex paint, from paint roller pads has usually been performed by placing the roller pad under a faucet and massaging the pad with the fingers. This procedure, in addition to being messy and time consuming, normally leaves some of the paint in the pad. Devices have been purposed in which the pad is placed in housing and cleaned by pumping water through the housing. Designs so far purposed have met with little commercial acceptance.
Thus, there is a need for a simple, mess-free, efficient and economical device for cleaning paint from paint roller pads, and particularly a device that will also prevent splattering of paint during painting. In addition, there is a need for a quick clean-up paint roller splatter cover that can be compactly stored and displayed for retail sale.
This need is addressed by the present invention, which is comprised of a quick clean-up paint roller cover that is attachable to a source of water, such as a faucet or spigot. The cover is designed as a “universal” cover, i.e., a cover that can be attached to most commercially available paint roller spindles. The quick clean-up paint roller cover is generally comprised of a painting splatter shield to prevent splatter of paint from the pad and catch paint drips during painting, a rinse splatter shield operable in combination with the painting splatter shield to partially cover the roller pad during cleaning, and a water source, i.e., a manifold, to tangentially spray water against a pad supported within the painting splatter and rinse splatter shields to rinse and spin clean the paint roller pad.
Preferably, the shields are molded of a transparent plastic so that the interior of the cover can be viewed during painting and cleaning. The painting splatter shield is preferably integrally molded with the manifold.
More specifically, the painting splatter shield of the invention is comprised of a semi-cylindrical side wall having a radius of curvature greater than the radius of the pad to be cleaned and a length greater than the length of the pad. The painting splatter shield side wall has an inner surface, an outer surface, front and back edges, and end edges. Parallel end walls are located at the ends of the side wall, and are preferably integrally formed with the side wall. Normally, the painting splatter shield side wall will extend around 180° or less of the pad when the pad is mounted.
The rinse splatter shield is also comprised of a semi-cylindrical side wall having a radius of curvature greater than the radius of the pad to be cleaned, but less than the radius of curvature of the painting splatter shield side wall, and a length greater than the length of the pad. The rinse splatter shield has an interior surface, an exterior surface, leading and trailing edges, and end edges. The rinse splatter shield also includes parallel end walls, with the rinse splatter shield side wall being shorter than the painting splatter shield side wall, so that the rinse splatter shield end walls fit inside the painting splatter shield end walls.
The rinse splatter shield is rotatable attached to the painting splatter shield and is rotatable between a closed position in which the rinse splatter shield side wall is substantially beneath the painting splatter shield side wall and a fully extended position in which the rinse splatter shield side wall is substantially exposed. When in the rinse position, the painting splatter shield and rinse splatter shield in combination will extend partially around the circumference of the paint pad, leaving a gap between the edges of the shields to permit discharge of water during rinsing. The terms closed position and stored position are used interchangeably throughout this specification with regard to the position of the rinse splatter shield when it is rotated such that the rinse splatter shield side wall is substantially beneath the painting splatter shield side wall.
Preferably, the rinse splatter shield also includes stops, e.g., cooperating notches and index tabs, to secure the rinse splatter shield relative to the painting splatter shield in the closed position during painting, and the fully extended position and intermediate positions during rinsing of the pad, creating a wider gap between the edges of the painting splatter shield and rinse splatter shield. For example, the rinse splatter shield can be rotated to the full extended position or to two partially extended positions for fast, medium and slow pad cleaning. A thumb tab may be provided on the rinse splatter shield to aid in manually moving the rinse splatter shield to the different positions.
In addition to the painting splatter and rinse splatter shields, the cover also includes a liquid manifold integral with the cover positioned to deliver a curtain of liquid to the paint roller to wash paint from the cylindrical pad after painting. The liquid manifold comprises a tubular section having a hollow interior, a closed lower end and an open upper end adapted for attachment to a hose. The tubular section includes a water outlet comprised of an elongated discharge opening or single slot in communication with the interior of the cover, whereby liquid is capable of flowing from the tubular section upper end through the hollow interior for discharge through the elongated discharge opening. In one embodiment, the water outlet comprised of the elongated discharge opening is segmented to form a plurality of spaced, longitudinally aligned holes in communication with the cover's interior. These holes are preferably covered by the rinse splatter shield when the rinse splatter shield is in the closed position, preventing paint from clogging the holes. A plug may be needed to plug the end of the liquid manifold depending on the injection molding process used to manufacture the shield.
The cover also includes means for supporting and mounting a paint pad with the longitudinal axis of the pad being coincident with the axis of curvature of the painting splatter and rinse splatter shields, and means for a user to hold the cover and pad during painting. In a first embodiment, the mounting means for the pad is a rotatable spindle that includes a handle extending substantially transverse to the axis of the spindle, with the spindle being mounted on the end walls of at least one of the shields for rotation within the shields. For example, the spindle handle adjacent one end of the spindle can be clipped to one end wall adjacent the spindle, while the opposite end of the spindle can be inserted into a rotatable end cap supported on the opposite end wall. In a second embodiment, roller pad end caps are attached to the ends of the pad for use in rotatably attaching the pad to the end walls of at least one of the shields, and a handle is attached to the outer surface of the painting splatter shield side wall.
More specifically, in a first embodiment, the cover is attached to a spindle or roller cage adapted to hold a rotatable cylindrical paint pad. The spindle includes a handle having an arm transverse to the spindle longitudinal axis, with a gripping section at the distal end of the arm. The spindle is rotatably supported on the end walls of the painting splatter and rinse splatter shields. For example, the distal end of the spindle, i.e., the end of the spindle opposite the handle grip, can be inserted into a bushing or other holder in one of the shield end walls, while the spindle at the intersection of the handle and spindle can be fitted into a slot in the painting splatter shield end wall and/or the rinse splatter shield end wall. An end cap can be fitted onto the distal end of the spindle to fit into the bushing or holder. The outer surface of the painting splatter shield end wall adjacent the handle end of the spindle can also include a clip to secure the spindle handle to the end wall. The clip may be in the form of a pair of spaced fins projecting outwardly from the end wall with the spacing between the fins being equal to or slightly greater than the diameter of the paint roller handle.
In a second embodiment, a detachable handle clips onto the outer surface of the painting splatter shield. The detachable cover handle is preferably hollow and includes an open proximal end to receive an extension pole for painting ceilings, etc. Some retailers of the present invention may consider the detachable handle as an after market option since the paint splatter and rinse splatter shield combination can be used with spindle and handle type paint roller frames. On the other hand, some purchasers of the paint roller tool of the present invention may prefer the detachable handle instead of a traditional spindle and handle type paint roller. In this case, the detachable handle would be sold along with the painting splatter and rinse splatter shields. In either case, the same mold could possibly be used to manufacture the painting splatter and rinse splatter shields. Therefore, the present invention offers manufacturing and marketing efficiencies.
A hose is also provided to attach the paint roller cover to a faucet or spigot. Generally, the hose will be a rubber or plastic hose having a fitting at one end adapted for attachment to a faucet or spigot, and the fitting at the other end being adapted for attachment to the paint roller cover. In a preferred embodiment, the fittings at both ends are female fittings. It will be understood, however, that one of the fittings may instead be male fittings, such as on a garden hose, or both may be male fittings, depending on the design of the tool attachment ends. Moreover, a plastic tube is provided to package the hose for sale and storage. The plastic tube has a cavity large enough to accommodate the hose in a folded configuration. The plastic tube may also hold a sheet of instructions on how to use the paint roller tool. Preferably, the plastic tube is transparent and is insertable within the paint roller tool in place of a paint roller pad. However, the paint roller tool can also be packaged with a useable paint roller pad.
Further still, the painting splatter shield includes a paint extraction tool that is releasibly attachable to the shield outer surface. The paint extraction tool has a handle and blade, wherein the blade has a semi-circular outer edge sized to receive a substantial arc-length of the circumference of the cylindrical paint pad. A clip or gripper tab extending outwardly from the painting splatter shield outer surface holds the paint extraction tool onto the painting splatter shield when the paint extraction tool is not in use.
The recommended first step in cleaning paint from a pad after painting is to remove the paint extractor tool from the clip on the outer surface of the painting splatter shield, and use it to scrape excess paint off the paint roller pad. Normally, the paint roller will be held with one hand to a position over a paint container while the other hand is used to scrape the blade of the paint extraction tool down the length of the paint roller pad, thereby scrapping excess paint off the pad and into the paint container. The roller pad can be rotated and scrapped until the desired amount of excess paint is removed. Then, the paint extractor tool is washed and returned to the gripper tab on the top of the painting splatter shield.
The quick clean-up roller cover is then prepared for washing by attaching one end of a hose to a faucet or spigot, and the other end of the hose to the upper end of the liquid manifold adapted for attachment to a hose. Next, the rinse splatter shield is readied for use by gripping the rinse splatter shield thumb tab with one hand while holding the painting splatter shield with the other and rotating the rinse splatter shield to one of its wash positions. The faucet or spigot is then turned on to wash the roller cover and pad. Water then enters the liquid manifold adjacent to the body of the cover. As water pressure builds within the liquid manifold, jets of water exit the plurality of holes in the liquid manifold tubular section creating a curtain of water that impacts generally tangentially against the roller pad causing the roller pad to spin, exposing all parts of the roller pad and interior of the painting splatter and rinse splatter shields to the curtain of water. The jets of water exit at an angle relative to the liquid manifold such that the various sized roller pads will spin when impacted. Centrifugal force resulting from the spinning, in conjunction with the force of the water curtain, forces the paint off of the roller pad and paint splatter shield. The rinse splatter shield contains the splatters resulting from the paint being forced off the paint roller by the curtain of water and centrifugal force. The liquid drainage gap between the back edge of the paint splatter shield and the leading edge of the rinse splatter shield allows the rinse solution to drain from the splatter shields and roller pad. Once the paint roller pad and roller are sufficiently clean of paint, the spigot or faucet is turned off, and the hose is removed from the liquid manifold. The rinse splatter shield is then rotated back to its stored position.
Other objectives of the invention will become apparent to one skilled in the art upon reading the following detailed description of the invention, taken with the drawings.
In the following description, terms such as horizontal, upright, vertical, above, below, beneath, and the like, are used solely for the purpose of clarity in illustrating the invention, and should not be taken as words of limitation. The drawings are for the purpose of illustrating the invention and are not intended to be to scale.
A liquid manifold 38 is preferably integral with painting splatter shield 22 and is adjacent to painting splatter shield back edge 32. It is also preferred that manifold 38 is positioned to direct a curtain of liquid against roller pad 13, preferably tangentially, to wash roller pad 13 and cover 20 after painting. Liquid manifold 38 comprises a tubular section 40 having a length approximately equal to side wall 24, a hollow interior 42, a closed lower end 44, and an open upper end 46 adapted for attachment to a hose 48. Open upper end 46 is a water inlet that receives water from hose 48.
The integral structure of painting splatter shield 22 lends itself to efficient and cost effective injection molding manufacturing. An injection-molding plug 45 is used to plug an injection hole left in end 44 as a result of an injection molding process during manufacture.
Bushings 62 and 64 on end walls 58 and 60, respectively, are rotatably mountable in bushing receivers 66 and 68 of
Rinse splatter shield 54 has a leading edge 70 and a trailing edge 72 as well as an interior surface 74 and an exterior surface 74a. A stop tab 78 is located along leading edge 70. Referring back to
Referring back to
Certain modifications and improvements will occur to those skilled in the art upon a reading of the foregoing description. It should be understood that all such modifications and improvements have been deleted herein for the sake of conciseness and readability but are properly within the scope of the following claims.
This application claims the benefit of the filing date of Provisional Application Ser. No. 60/686,717, filed Jun. 2, 2005.
Number | Name | Date | Kind |
---|---|---|---|
3730195 | Kay | May 1973 | A |
4011622 | Gillum et al. | Mar 1977 | A |
4108189 | Claiborne et al. | Aug 1978 | A |
4667363 | Calvert | May 1987 | A |
4700728 | Patterson | Oct 1987 | A |
4765353 | Rhoades | Aug 1988 | A |
5095928 | Phipps | Mar 1992 | A |
5238012 | Coronato | Aug 1993 | A |
5363869 | McDowell | Nov 1994 | A |
5614021 | Caitlin | Mar 1997 | A |
5839459 | Bisby | Nov 1998 | A |
6019111 | Gillies | Feb 2000 | A |
6450185 | Sallinen | Sep 2002 | B1 |
7325557 | Wallace, III | Feb 2008 | B2 |
20040231086 | Watkins | Nov 2004 | A1 |
Number | Date | Country | |
---|---|---|---|
20060272683 A1 | Dec 2006 | US |
Number | Date | Country | |
---|---|---|---|
60686717 | Jun 2005 | US |