The present invention relates to drywall sanding, and more particular to a dust collection bag for collecting dust and debris created by the use of manual drywall sanders.
Manual drywall sanders typically include a sanding element (e.g. sandpaper mounted to a support plate), and a pole mounted to the sanding element. The user can sand high walls and ceilings without using a ladder by using the pole to manipulate the sanding element over the surface to be sanded (i.e. the working surface). However, since the working surface of the wall or ceiling is above the user's head, dust and debris from the sanding process falls down onto the user, creating health issues for the user's eyes and lungs.
One proposed solution is disclosed in U.S. Pat. No. 7,104,877, which is incorporated herein by reference for all purposes. This patent discloses a dust collection bag that attaches over the sanding element to collect dust and debris. The dust collection bag is attached to the sanding element via springs. When not in use, the dust bag extends beyond the sanding element (i.e. the sanding element is retracted inside the open end of the bag). When the user presses the device against the working surface, the open end of the bag first engages the working surface, after which the bag is pushed backward by the working surface (against the force of the springs) until the sanding element becomes flush with the open end of the bag (so that both the bag and the sanding element engage with the working surface). When the device is withdrawn from the working surface, the sanding element recedes back into the open end of the bag.
There are several drawbacks to the device disclosed in the U.S. Pat. No. 7,104,877. First, if the user wants to pull back the device to see the working surface, they have to pull back the extra amount it takes for the sanding element to recede into the bag (so that the bag can be withdrawn from the working surface). Additionally, having the sanding element retract in and out of the bag, and having the bag collapse and expand each time the working surface is engaged, tends to blow the collected dust and debris out of the bag. For some surfaces, the spring loaded force of the bag on the working surface can make it difficult to effectively sand that surface (i.e. the friction of the bag on the working surface makes it difficult to operate the sanding element effectively). In practice, the device is not convenient or efficient to use.
There is a need for a dust collection mechanism for a manual sander that efficiently collects dust and debris, without unduly blocking the field of view of the working surface when the device is withdrawn therefrom.
The aforementioned problems and needs are addressed by a dust collection assembly that includes a bag having an open upper end and a lower end terminating in an aperture and a rigid frame supporting the open upper end of the bag. The rigid frame includes a periphery to which the open upper end of the bag is attached, and a pair of opposing engagement portions extending from the periphery towards a center of the open upper end of the bag.
A manual sander assembly includes a sanding element with an upper sanding surface and a lower surface with mounting bolts extending therefrom, a pole rotatably connected to the sanding element lower surface, a bag having an open upper end and a lower end terminating in an aperture where the pole extends through the aperture, and a rigid frame supporting the open upper end of the bag. The rigid frame includes a periphery to which the open upper end of the bag is attached, and a pair of opposing engagement portions extending from the periphery towards a center of the open upper end of the bag. Each of the engagement portions is removably connected to one of the mounting bolts such that the sanding element is rigidly held at the open upper end of the bag.
Other objects and features of the present invention will become apparent by a review of the specification, claims and appended figures.
The present invention is a dust/debris collection bag assembly 1 illustrated in
The edges of bag 10 that form the open end 12 preferably fold over and engage with the outer periphery 18. This engagement can be removably secured by the use of hook and loop attachment strips 24/26, as best shown in
The engagement of the bag assembly 1 to a manual sander 28 is shown in
The bag assembly 1 is mounted to the manual sander 28 by sliding pole 32 through aperture 14 until the open end 12 of bag 10 is even with the sanding element 30. The bolts 40 are inserted into notches 22 of frame 16, and secured thereto using any appropriate securing means (e.g. wing nuts 42). Once mounted, the open end 12 of bag 10 is rigidly held even with sanding element 30.
During use, the open end 12 of bag 10 is rigidly held approximately even with the sanding element 30, so that any dust or debris generated by sanding the working surface will be collected by bag 10. A snug fit (e.g. by the use of elastic material) of aperture 14 around pole 32 will prevent the dust/debris from leaking out the bottom of bag 10. Preferably, frame 16 (or at least the engagement portions 20 thereof) are formed of a rigid but malleable material (e.g. metal). Therefore, the precise alignment of the open end 12 of bag 10 relative to the sanding element 30 can be adjusted by bending the engagement portions 20 of frame 16. Thus, the user can adjust the assembly such that, during use, the open end 12 of bag 10 slides along the working surface along with the sanding element 30, or the open end 12 of bag 10 is spaced from the working surface by a predetermined gap of the user's choice, depending upon the conditions and type of working surface involved. Once set, this alignment can stay fixed during use. Also during use, the user can withdraw the sanding element from the working surface without having the bag obscure the working surface. Also, by including a notch 22 in the engagement portions 20, the engagement portions 20 can be secured to and removed from bolts 40 without having to completely remove wing nuts 42.
It is to be understood that the present invention is not limited to the embodiment(s) described above and illustrated herein, but encompasses any and all variations falling within the scope of the appended claims. For example, references to the present invention herein are not intended to limit the scope of any claim or claim term, but instead merely make reference to one or more features that may be covered by one or more of the claims.
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