The present invention relates generally to tools for construction purposes, and particularly to an apparatus for enabling single-handed attachment of corner beads to drywall configurations.
Drywall is used pervasively well commercial and residential construction because of its ease of handling and ability to be cut into various shapes sizes. When two pieces of drywall are joined to form a right angle, i.e. an outside corner, an elongate metal frame known as a corner beads is mechanically secured over the outside corner to provide support and to maintain the drywall pieces prior to application of a finishing materials for thereover. Prior devices for attachment of corner beads to drywall corners usually require the worker to use one hand to hold a forming tool against the corner bead, thereby pressing the corner bead against the drywall pieces, while the workers second hand is used to apply pressure to the forming tool, typically with a rubber hammer. Because drywall corners may occur not only vertically but horizontally, it is sometimes awkward to use both hands for attachment of corner beads, particularly when a worker must utilize both hands overhead to manipulate the forming tool and hammer. Also, when applying pressure to the forming tool with repeated blows from a hammer, loosening of another portion of the corner bead already attached is quite common.
Some attempts have been made to simplify and automate the process of attaching a corner bead to an outside corner. For example, U.S. Pat. Nos. 4,288,016; 4,989,438; 5,524,807; 5,667,126; and 5,950,902 disclose apparatus for automated attachment of a corner bead to an outside drywall corner and, although, some of these devices theoretically may be handheld, many utilize external sources of power such as pressurized air or electric current to operate pairs of fastening guns. As such, these apparatus are rather heavy and do not appear to be easily operated with only a single hand, particularly for overhead use. In addition, for externally powered devices the coupling to the external power source limits mobility of the operator during utilization of the tool. A further drawback fastening guns type apparatus is that the fastening element, whether a screw, staple or other device, oftentimes separates from the drywall any corner bead, i.e. “pops” overtime often due to environmental and stress factors.
Accordingly, a need exists for an apparatus that enables single-handed attachment of corner beads to drywall configurations.
A further need exists for an apparatus that enables single-handed attachment of corner beads to drywall configurations that is light and easily handled, particularly for overhead use.
A further need exists for an apparatus that enables single-handed attachment of corner beads to drywall configurations that uses only manual power to couple the corner bead to the drywall.
A further need exists for an apparatus that enables attachment of corner beads to drywall configurations without fasteners or other attachment devices.
The invention contemplates a tool that can be held and operated with one hand to attach a corner bead to an outside corner of drywall. A substantially V-shaped member having a pair of interior surfaces disposed at an angle of less than 100° has a frame or handle attached thereto. The handle may be sized and shaped to fit comfortably in the palm of a human hand. A lever is pivotally attached to the handle. A pair of opposed pincers having pointed tips which extend through apertures within the pair of interior surfaces are movably coupled to the V-shaped member so as to allow the tips to move in a converging direction. A mechanical linkage system translates force applied to the lever into a the converging motion of the pincers.
In one embodiment, the mechanical linkage system comprises a number of support posts attached to the V-shaped member. The first or center of the support posts is attached at the exterior center of the V-shaped member near one end thereof. The second and third support posts are attached at the same end along the exterior surfaces forming the V-shape. The non-pointed ends of the pincers are pivotally joined together at a point along the center support post. A spring biases the pincers into an open or divergent configuration. An L-shaped linkage is pivotally mounted to each of second and third support posts. In the illustrative embodiment, the short leg of each L-shaped linkage is in contact with one of the pincers. The longer leg of each L-shaped linkage is pivotally coupled to the first end of one of the two extension members. The extension members are pivotally coupled at their respective second ends to a carriage slidably disposed within a track or groove in the center support post. A tab extending from the carriage is secured to one end of a cable. The second end of the cable is pivotally secured to the previously described lever. In the illustrative embodiment the cable is of a coaxial design with a movable multistrand wire core extending through a semi-rigid tubular sheath. An extreme end of the wire core is attached to the carriage tab while the extreme end of the wire is coupled to the top of the center support post. A tension mechanism, such as a coiled spring, is disposed about unsheathed or exposed length of the wire core to bias the wire/carriage away from the top of the center support post, and, therefore, bias the lever into an open position.
In use, the operator places the handle in the palm of his/her hand and squeezes the lever with the fingers of the same hand. The force applied to the lever causes the lever to pivot thereby causing the wire core of the cable to be at least partially retracted back into the exterior sheath. As the wire core is retracted, force is placed against the coiled spring causing a controlled movement of the carriage mechanism within the groove and towards the top of the center support post. As the carriage mechanism slides away from the V-shaped member force is transmitted through the extension members and causes each of the respective L-shaped members to pivot at their respective support posts forcing their respective short legs to urge the pincers in a converging direction in the interior of the V-shaped member.
To attach a corner bead to an exterior drywall corner, the corner bead is disposed with the V-shaped member of the apparatus and the lever actuated so that the converging pincers, particularly the pointed ends thereof, force portions of the corner bead into the drywall thereby frictionally engaging the corner bead to the drywall surfaces at opposing pairs of locations. Repeated use of the apparatus allows the corner beads to be mechanically secured, without additional fastening devices or adhesives, at multiple locations simply by repositioning the apparatus along the corner bead and actuating the lever handle.
According to one aspect of the invention, an apparatus for enabling single-handed attachment of corner beads to drywall comprises: a frame; a pair of contact surfaces coupled to the frame; a lever pivotally attached to the frame; a mechanism for biasing the lever into the first position; a pair of pincers pivotally connected to the frame; a linkage mechanism for transmitting force displacing the lever from the first position into a converging motion of the pincers.
According to a second aspect of the invention, an apparatus for enabling single-handed attachment of corner beads to drywall comprises: a pair of contact surfaces having a handle coupled thereto; a pair of pincers arranged for pivotable motion relative to said contact surfaces; a linkage mechanism for transmitting one of a pair of opposing forces applied to said handle into a force capable of deforming the corner bead.
According to another aspect of the invention, a method for enabling single-handed attachment of corner beads to drywall comprises: receiving a corner bead within a pair of contact surfaces held by a frame; transmitting to the corner bead force applied to the frame in a first direction; deforming the corner bead with force applied to the frame in a second direction, the second direction being substantially opposite the first direction, the force applied in the second direction being transmitted to and having a direct correlation to a defamation force applied to the corner bead.
The above and further advantages of the invention may be better understood by referring to the following description in conjunction with the accompanying drawings in which:
The invention contemplates a tool that can be held and operated with one hand to attach a corner bead to an outside corner of drywall. According an illustrative embodiment of the invention, referring to
Handle 14 has an inverted U-shaped defining a gripping area 14B interconnecting legs 14D-E.
Lever 16 is pivotally coupled to leg 14D of handle 14. Lever 16 also defines an elongated gripping area 16B.
A pair of opposed pincers 18 having pointed tips 18A extending through apertures 12C within members 12A-B are movably coupled to frame 12 so as to allow the tips 18A to move in a converging direction, as illustrated in
Linkage system 26 translates force applied to handle 14 and lever 16 into a converging motion forcing pincers 18 toward each other. Linkage system 26 comprises L-shaped members 28, pincer guides 30, extension arms 32, carriage 34, cable 36, coil spring 38, and miscellaneous connecting elements, such as screws, washers, etc.
The longer leg 18B of each L-shaped member 28 is pivotally coupled to the first end 3A of one of the two extension arms 32. Extension arms 32 are pivotally coupled at their respective second ends 32B to carriage 34. Carriage 34 is slidably disposed within a track or groove 40 formed by a pair of plates 44 mounted to the top of center support post 20.
In the illustrative embodiment the cable 36 is of a coaxial design with a movable multistrand wire core 36A extending through a semi-rigid tubular sheath 36B. An extreme end of the wire core 36A is attached to the carriage tab 34A while the extreme end of the wire sheath 36B is coupled to the top of the center support post via plate 44.
The second end of the cable 36 is pivotally secured to end 16B of lever 16.
The apparatus described herein enables transmitting to the corner bead force applied to the frame 12 in a first direction while deforming the corner bead with force applied to the lever 16 in a second direction, the second direction being substantially opposite the first direction. As such, one hand can provide the force in both the first and second directions.
In use, the operator places the handle 12 in the palm of his/her hand and squeezes the lever 16 with the fingers of the same hand. The force applied to the lever 16 causes the lever to pivot thereby causing the wire core of the cable 36 to be at least partially retracted back into the exterior sheath. As the wire core is retracted, force is placed against the coiled spring 38 causing a controlled movement of the carriage mechanism 34 within the groove and towards the top of the center support post 20. As the carriage mechanism slides away from the V-shaped members 12A-B, force is transmitted through the extension members 32 and causes each of the respective L-shaped members 28 to pivot at their respective support posts forcing their respective short legs to urge the pincers 18 in a converging direction into the interior of the V-shaped member.
To attach a corner bead to an exterior drywall corner, the corner bead is disposed with the V-shaped member of the apparatus and the lever actuated so that the converging pincers, particularly the pointed ends thereof, deform the corner bead and force portions of the corner bead into the drywall thereby frictionally engaging the corner bead to the drywall surfaces at opposing pairs of locations. Repeated use of the apparatus allows the corner beads to be mechanically secured, without additional fastening devices or adhesives, at multiple locations simply by repositioning the apparatus along the corner bead and actuating the lever handle. The apparatus of the present invention may be used with numerous commercially available corner bead designs that are formed of any soft metal, such as tin or other malleable materials. Note that no actual arrangement of apertures within the flanges of the corner bead are required since the apparatus described here in the catches the corner bead through deformation and not attachment elements such as screws, nails, staples, etc.
Handle 114 has a generally inverted U-shaped, and, in the second illustrative embodiment, is formed from complementary mating halves 114A-B, illustrated with
Lever 116 is pivotally coupled to handle 114. Lever 116 also defines an elongated gripping area 116B.
A pair of opposed pincers 118 having pointed tips 118A are disposed exterior of members 112A-B and are movably coupled to center support post 120 so as to allow the tips 118A to move in a converging direction, as illustrated in
Linkage system 126 translates force applied to handle 114 and lever 116 into a converging motion forcing pincers 118 toward each other. Linkage system 126 comprises extension arms 132, carriage 134, cable 136, coil spring 138, stop 150 and miscellaneous connecting elements, such as screws, washers, etc.
Extension arms 132 are pivotally coupled at their respective first ends to one of each of pincers 118. Extension arms 132 are pivotally coupled at their respective second ends to carriage 134. Carriage 134 is slidably disposed within a track or groove 140 formed in center support post 120.
In the illustrative embodiment, cable 136 may be of a design similar to cable 36 of apparatus 10. An extreme end of the wire core 136 is attached to the carriage 134 and passes through stop 150 and over rollers 146. The second end of the cable 136 is secured to slot 116C of lever 116.
Coiled spring 138, which serves as a tensioning mechanism, is disposed about a length of the wire core 136 to bias the wire/carriage away from the top of the center support post 120 and stop 150, and, therefore, biases the lever 116 into an open position. Spring 138 collectively defines the amount of force that must be applied to lever 116 in order to force pincers 118 to converge. In the illustrative embodiment, spring 138 may be partially compressed with a force in excess of approximately 2-3 pounds off pressure applied thereto.
In an embodiment, the arrangement of elements comprising linkage system 126 is illustrated in
In use, the operator places the handle in the palm of his/her hand and squeezes the lever with the fingers of the same hand. The force applied to the lever 116 causes cable 136 to be pulled. As the wire is pulled, force is placed against the coiled spring 138 causing a controlled movement of the carriage mechanism 134 towards the top of the center support post 120. As the carriage mechanism slides away from the V-shaped members 112A-B, force is transmitted through the extension arms 132 and causes each of the pincers 118 to pivot at their respective points of attachment to support post 120 and urging the pincers in a converging direction into the interior of the V-shaped member.
Referring now to
Referring also to
As illustrated, center support post 1120 is disposed opposite the apex of the interior angle formed by members 1112A-B, while side support posts 1122-1124 are disposed on the exterior surface of one of the respective frame members 1112A-B. Support posts 1120-1124 may be formed integrally from precision cast aluminum or other materials having suitable rigidity, along with the other elements comprising frame 112. In other embodiments, one or more of support posts 1120-1124 and the frame 1112 may be manufactured from separate components attached together, for example, welded steel components.
The center support post 1120 is configured to accommodate a coupling member 1152, including but not limited to a screw or a bolt, that pivotally couples the handle 1114 to the center support post 1120. In addition, the center support post 1120 defines a channel 1134, whose edges may act as a guide that can restrict the movement of the pincers 1118, as will be described below.
Handle 1114 has a rounded end 1114A on one end, a first coupling aperture 114B for coupling the handle 1114 to the center support post 1120 via the coupling member 1152, and a second coupling aperture 1114C on the opposite end for coupling the handle 1114 to a linkage system 1126 for controlling the movement of the pair of pincers 1118.
The pair of opposed pincers 1118 having pointed tips 1118A-B are movably coupled to the frame 1112 so as to allow the tips 1118A-B to move in a converging motion. Pincers 1118 may be formed from carbon steel or other materials having suitable rigidity. In some embodiments, the pincers 1118 are mounted to respective ends of the support posts 1122-1124.
A spring 1128 coupled to the pincers 1118 biases the pincers 1118 into a divergent configuration in which the pointed tips 1118A-B of the pincers 1118 are farthest from one another. The spring 1128 which, in the illustrative embodiment, may be formed of heat treated spring steel and is coupled to pincers 1118 via right angle ends 1130, which extend through apertures in pincers 1118. In the illustrative embodiment, spring 1128 may be partially compressed with approximately 2-3 pounds of pressure applied thereto.
The linkage system 1126 comprises a coupling member 1146, a delta shaped spreader 1142, and a member 1143, having a complementary shape to the channel 1134, coupled to the spreader 1142. The member 1143 can travel within the channel 1134 defined by the center support post 1120. The coupling member 1146 couples the handle 1114 to the spreader 1142 such that when a force is applied to the handle 1114, the coupling member 1146 causes the spreader 1142 and the member 1143 to move oppositely, thereby causing pincers 1118 to converge forcing a corner bead resting within V-shaped frame 1112 to become inwardly deformed into an exterior corner of drywall and thereby creating a frictional attachment to the drywall, without extra fastening devices. The force applied to the handle 1114 has to exceed the resistive force imparted by the spring 1126 for the spreader 1142 to move towards the convergent position.
The delta-shaped spreader 1142 has tapered sides that slide along a pair of pulleys 1140. The pulleys 1140 are operatively coupled to the pincers, such that when a force is applied to the handle 114 causing the delta-shaped spreader 1142 to move from a first position to a second position, the pincers 1118 move from the divergent position to the convergent position. In some embodiments, a bracket 1132 couples the pulleys 1140 to the pincers such that when the pincers move between the divergent and convergent positions, the pulleys 1140 also move.
The delta-shaped spreader 1142 is biased towards a first position by the pulleys 1140, which impart the force imparted by the spring 1128 on the pincers. In various embodiments, the extent to which the pincers 1118 diverge from one another or converge towards one another may be influenced by the movement of the member 1143 within the channel 1134 and the exterior side profile of the spreaders.
In various embodiments, the length of the channel can define the range of positions to which the pincers can extend. When the member 1143 contacts an upper end of the channel 1134, both illustrated in phantom in
From the foregoing, the reader can appreciate that the invention discloses an apparatus capable of receiving a corner bead within a pair of contact surfaces held by a frame; transmitting to the corner bead force applied to the frame in a first direction; deforming the corner bead with force having a component applied to the frame in a second direction, the second direction being substantially opposite the first direction, the force applied in the second direction being transmitted to and having a direct correlation to a defamation force applied to the corner bead.
Having described herein illustrative embodiments of the present invention, persons of ordinary skill in the art will appreciate various other features and advantages of the invention apart from those specifically described above. It should therefore be understood that the foregoing is only illustrative of the principles of the invention, and that various modifications and additions can be made by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, the appended claims shall not by the particular features which have been shown and described, but shall be construed also to cover any obvious modifications and equivalents thereof.
The present application is a continuation of the co-pending U.S. application Ser. No. 13/280,879, filed on Oct. 25, 2011, which is a continuation-in-part of U.S. application Ser. No. 11/409,231, filed on Apr. 21, 2006, now U.S. Pat. No. 8,042,243, issued on Oct. 25, 2011, which claims priority to U.S. Provisional Application Ser. No. 60/761,546, filed on Jan. 24, 2006, the subject matters of which are incorporated herein in their entireties by this reference for all purposes.
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Number | Date | Country | |
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60761546 | Jan 2006 | US |
Number | Date | Country | |
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Parent | 13280879 | Oct 2011 | US |
Child | 13470899 | US |
Number | Date | Country | |
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Parent | 11409231 | Apr 2006 | US |
Child | 13280879 | US |