BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1. is a perspective view of an embodiment of the current invention facing toward the radius plate.
FIG. 2. is a view of the embodiment of FIG. 1 facing toward the pressure plate.
FIG. 3. is a view of embodiment of FIG. 1 facing toward the back plate.
FIG. 4. is a close view of a wheel assembly in one embodiment of the invention.
FIG. 5. is the wheel suspension spring in one embodiment of the invention.
FIG. 6. is an exploded perspective view of the pressure plate and wiper assembly in one embodiment of the invention.
FIG. 7. is a cross section of the pressure plate of FIG. 6 with the wiper in place.
FIG. 8. is a transverse cross section of the pressure plate of FIG. 6 with the wiper in place.
FIG. 9. is a perspective view of a wiper of the present invention.
FIG. 10. is an end view of a wiper of the present invention.
DETAILED DESCRIPTION OF THE INVENTION
FIGS. 1-3 show various perspectives of an embodiment of the present invention. The flat box comprises a back plate or pivot plate 2, left and right side plates 3 and 4, a pressure plate 5, and a radius plate 6. The pressure plate is pivotably attached at the pivot end 7 to the pivot end 8 of the back plate 2 with an axle assembly 9.
Back plate 2 includes a slot 10 for expulsion of drywall compound onto the wall. A trowling blade 11 is attached above slot 10 to distribute the drywall compound as it comes out of the unit. An adjustable crown spring 12 and dial 13, known in the art, are attached at radius plate 6 to adjust the arc of the trowling blade 11.
Pressure plate 5 is preferably an anodized aluminum rectangular plate fitted to the dimensions of the box. The pressure plate incorporates handle mounting screws 14 for attachment of a long handle (not shown).
In one embodiment, a pressure plate handle spacer 15, comprising a raised area of the plate 5 the size of a standard flat box handle mounting plate (not shown) is integrally manufactured with the pressure plate. To save weight, the handle spacer may have one or more channels 16, decreasing the amount of plate material but maintaining the structural strength needed to sustain the pressure applied by the operator.
The pressure plate 5 also incorporates one or more pressure plate springs 17. These springs 17 supply a counterforce that tends to pull the pressure plate 5 away from the back plate 2 when the operator is not exerting force against the pressure plate 5, so the drywall compound does not come out of the box while it is being moved to the next location. If the spring 17 pulls the pressure plate 5 all the way back, as the fixed springs of the prior art do, drywall compound falls back into the box and requires extra exertion to be pushed back to the slot 10. The springs 17 of one embodiment of the invention are adjustable. One end 18 of the spring 17 is held in place by a spring anchor nut 19 attached to a spring anchor bolt 20. The other end 21 of the spring 17, near the pivot axle 9, is attached to a turnbuckle-type spring tension adjuster 22 that attaches through an aperture 23 in an extension 24 of the pressure back plate. Turning the barrel of the turnbuckle 22 permits the operator to set the tension on either or both springs 17. Optimally, the tension can be set so that the pressure plate 5 pulls back the minimum amount required to keep the mud from coming out of the box while the unit is moved. Other spring tension assemblies may be used for this function.
In another embodiment, the flat box includes independently suspended wheels parallel to the back plate. For each wheel 45, as shown in FIGS. 4 and 5 suspension spring 30 is a stainless steel clip with a tubular channel 31 at one end and a pair of wheel mounting apertures 32 at the ends of flex legs 33. Shoulder bolt 34 passes through the wheel mounting apertures 32 and is secured by nut 35 to form an axle for wheel 45. Mounting shoulder bolt 36 passes through the tubular channel 31 and an aperture 37 in side plate 3 and is secured by nut 38, holding the spring in place. Retaining screw 39 threads through a small aperture 40 in the side plate 3, positioned so that the retaining screw 39 sits above the spring 30 and inhibits the spring 30 from flopping around. A tension adjuster bolt 41 with a lock nut 42 fits in slotted opening 43 in the side plate 3 and sits under the spring 30. The tension bolt 41 may be positioned toward the front of the flat box, whereby the wheel 45 is on a more flexible mount, or positioned toward the rear of the flat box, whereby a shorter length of the spring 30 is available, thus making the wheel 45 stiffer.
The wheels 45 decrease the friction as the flat box is dragged across the wall. With independent suspension, either of the wheels 45 can ride over a rough spot on the wall without disturbing the balance of the flat box or the position of the trowling blade against the wall.
As seen in FIGS. 6-10, a wiper 50, made of a flexible material such as polymer rubber substitute such as the nitrile copolymer known as Buna-N, or other materials known in the industry, is attached to the pressure plate 5 by inserting ridges 51 in the wiper into slot 53 in the pressure plate. The wiper prevents backward escape of drywall compound as the pressure plate is pushed toward the back plate, and cleans drywall compound off the interior surface of the radius plate, pushing it toward the slot. The leading edge 52 of wiper 50 does not extend beyond the interior surface 54 of pressure plate 5 into the enclosure formed by the surrounding plates. This configuration allows the pressure plate to be pushed flat against the back plate 2 without damaging the wiper 50, and permits expulsion of nearly all the drywall compound from the flat box.
As seen more particularly in FIGS. 6-8, wiper 50 fits into a recess or slot 53 created by a raised extension 57 across the width of the pressure plate 5. Left and right wiper retainers, 54, 55, are clamped over the wiper 50 and held to the pressure plate with nuts and bolts 56. Wiper edge 52 extends peripherally beyond pressure plate 5 just enough to create a seal with the side plates 3,4 and the radius plate 6 sufficient to keep the drywall compound beneath the pressure plate as the pressure plate moves against the back plate, squeezing compound out through the exit slot 10.
Although the invention has been described with respect to specific embodiments, persons of ordinary skill in the art will readily understand that the inventive concepts may be applied to a variety of configurations including, without limitation, variations in the adjustable pressure spring assemblies or the independent wheel suspensions.