The debris catcher is a waste receptacle that is adapted for use with a drill. The debris catcher is further adapted for use with a wall. The debris catcher captures and removes the waste generated by a drill when the drill is used to drill a hole in a wall. The debris catcher is a collection bag th
The debris catcher is a waste receptacle that is adapted for use with a drill. The debris catcher is further adapted for use with a wall. The debris catcher captures and removes the waste generated by a drill when the drill is used to drill a hole in a wall. The debris catcher is a collection bag that is attached to the wall underneath drill site such that debris generated from the drill site will fall into the debris catcher. The debris catcher comprises a collection bag, a first adhesive, a second adhesive, and a plurality of spring loaded clips.
대표청구항▼
1. A waste container comprising: a collection bag, a first adhesive, and a plurality of spring loaded clips;wherein the first adhesive, and the plurality of spring loaded clips are attached to the collection bag;wherein the waste container is a waste receptacle that is adapted for use with a tool;wh
1. A waste container comprising: a collection bag, a first adhesive, and a plurality of spring loaded clips;wherein the first adhesive, and the plurality of spring loaded clips are attached to the collection bag;wherein the waste container is a waste receptacle that is adapted for use with a tool;wherein the waste container is adapted for use with a wall;wherein the waste container captures and removes debris generated by the tool;wherein the collection bag that is attached to the wall underneath a tool site such that debris generated from the tool will fall into the waste container;wherein the waste container is disposable;wherein the collection bag comprises a first panel, a second panel, and a plurality of seams;wherein the plurality of seams joins the first panel and the second panel;wherein the first panel is formed from a first sheeting;wherein the first panel is formed in the shape of a base rectangle, a first triangle, and a second triangle;wherein the first panel is further defined with a first edge, a second edge a third edge, a fourth edge, a fifth edge, a sixth edge, a seventh edge, an eighth edge, a first surface, and a second surface;wherein the first triangle and the second triangle are attached to opposite edges of the base rectangle;wherein the first triangle has a right angle formed by the sixth edge and the seventh edge of the first panel;wherein the second triangle has a right angle formed by the fourth edge and the third edge of the first panel;wherein the third edge and the seventh edge are aligned to form a first line;wherein the first edge, the second edge, the eighth edge and the first line defines a rectangular sub-section contained within the base rectangle called the flap rectangle;wherein the second panel is formed from a second sheeting;wherein the second panel is formed in the shape of a rectangle;wherein the second panel is further defined with a ninth edge, a tenth edge, an eleventh edge, a twelfth edge, a third surface, and a fourth surface;wherein the plurality of seams comprises a first seam, a second seam, and a third seam;wherein the first seam joins the fourth edge and the tenth edge;wherein the second seam joins the fifth edge and the eleventh edge;wherein the third seam joins the sixth edge and the twelfth edge;wherein the first panel and the second panel are joined such that the first surface is proximal to the fourth surface;wherein each of the plurality of spring loaded clips is a spring loaded device;wherein each spring loaded clip selected from the plurality of spring loaded clips is attached to the first surface of the first panel;wherein each of the plurality of spring loaded clips is further defined with a closed position and an open position;wherein maximum torsional energy is stored within each spring loaded clip selected from the plurality of spring loaded clips when the selected spring loaded clip is in the closed position;wherein each spring loaded clip selected from the plurality of spring loaded clips comprises a first arm, a second arm, a spring and a retaining clip;wherein the first arm and the second arm are attached to the spring;wherein the retaining clip holds the selected spring loaded clip in the closed position;wherein the spring is a torsion spring;wherein the spring is further defined with a first spring shaft and a second spring shaft;wherein when the spring is in the relaxed shape the center axis of the first spring shaft and the center axis of the second spring shaft are perpendicular to each other;wherein the first arm is a first rectangular block structure that is further formed with a first hole;wherein the first hole is sized to receive the first spring shaft;wherein the second arm is a second rectangular block structure that is further formed with a second hole;wherein the second hole is sized to receive the second spring shaft. 2. The waste container according to claim 1wherein when spring is positioned such that the first arm and the second arm any spring loaded clip selected from the plurality of spring loaded clips are in contact the selected spring loaded clip is in the closed position;wherein the retaining clip holds the selected spring loaded clip in the closed position. 3. The waste container according to claim 2wherein the plurality of spring loaded clips further comprises a first spring loaded clip and a second spring loaded clip;wherein the first spring loaded clip is attached to the first surface of the first panel such that the first spring loaded clip will extend the first triangle at an angle perpendicularly away from the base rectangle;wherein the second spring loaded clip is attached to the first surface of the first panel such that the second spring loaded clip will extend the second triangle at an angle perpendicularly away from the base rectangle. 4. The waste container according to claim 3wherein the first adhesive is applied to the third surface of the second panel;wherein the first adhesive further comprises a first protective strip. 5. The waste container according to claim 4wherein the first adhesive is a pressure sensitive removable adhesive;wherein the first protective strip is a silicone treated paper strip that is placed over the first adhesive. 6. The waste container according to claim 5wherein the first panel and the second panel are formed from plastic sheeting;wherein each of the plurality of seams is selected from the group consisting of a heat bonded seam or an ultrasonically bonded seam;wherein the first arm, the second arm, and the retaining clip of each of the plurality of spring loaded clips is formed from molded plastic;wherein the first adhesive is a rubber based pressure sensitive adhesive. 7. The waste container according to claim 5wherein the first panel and the second panel are formed from paper;wherein each of the plurality of seams is a cyanoacrylate based adhesive seam;wherein the first arm, the second arm, and the retaining clip of each of the plurality of spring loaded clips is formed from molded plastic;wherein the first adhesive is a rubber based pressure sensitive adhesive. 8. The waste container according to claim 5wherein the waste container further comprises a second adhesive;wherein the second adhesive is applied to the second surface of the first panel;wherein the second adhesive further comprises a second protective strip. 9. The waste container according to claim 8wherein the second adhesive is a pressure sensitive removable adhesive;wherein the second protective strip is a silicone treated paper strip that is placed over the second adhesive. 10. The waste container according to claim 9wherein the first panel and the second panel are formed from plastic sheeting;wherein each of the plurality of seams is selected from the group consisting of a heat bonded seam or an ultrasonically bonded seam;wherein the first arm, the second arm, and the retaining clip of each of the plurality of spring loaded clips is formed from molded plastic;wherein the first adhesive is a rubber based pressure sensitive adhesive;wherein the second adhesive is a rubber based pressure sensitive adhesive. 11. The waste container according to claim 9wherein the first panel and the second panel are formed from paper;wherein each of the plurality of seams is a cyanoacrylate based adhesive seam;wherein the first arm, the second arm, and the retaining clip of each of the plurality of spring loaded clips is formed from molded plastic;wherein the first adhesive is a rubber based pressure sensitive adhesive;wherein the second adhesive is a rubber based pressure sensitive adhesive.
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