EAZY supporting holding and clamping system

Abstract

The present invention relates to a supporting, holding and clamping tool system and a method associated with the system. With respect to the system, it is a pair of devices and attachments designed to attach to a wall to support construction sheathing while securing it to the wall, which may also be used for a versatile clamping device. This system can be used by one person to facilitate installing heavy sheets of sheet rock, Siding, plywood or other materials to be installed on the vertical wall or surface.

Claims

1. A system for holding, supporting, and/or clamping, comprising: a wall back plate, said wall back plate having an upper surface and a lower surface, four countersunk mounting holes and two threaded holes, each of said two threaded holes configured to receive a work bench pin; a block attached to said upper surface of said wall back plate, said block having a base portion having a first threaded portion and a second threaded portion extending into and terminating within said block, whereby a first said work bench pin is threaded through a first one of said two threaded holes and into said first threaded portion, and a second said work bench pin is threaded through a second one of said two threaded holes and into said second threaded portion, said block further having a threaded bore extending substantially parallel to said upper surface of said wall back plate; and an adjustment screw threaded through said threaded bore, said adjustment screw having a first end and a second end opposite said first end; said adjustment screw further having a handle extending through a portion proximate said first end of said adjustment screw, a hex head shaped portion at said first end, a swivel having a first side attached to said second end of said adjustment screw and a clamp head attached to a second side of said adjustment screw.

2. The system of claim 1, further comprising: a saddle clamp attached to said lower surface of said wall back plate which allows for attachment to wall studs.

3. The saddle clamp of claim 2, further comprising: a knob handle or a cam lock lever, said cam lock lever configured to affix and release said saddle clamp from said wall studs.

4. The system of claim 1, further comprising: an L-shaped accessory configured to support a sheathing or horizontal surface during installation, said L-shaped accessory being secured to said clamp head, wherein: said L-shaped accessory is configured such that, during installation, a user may slip one edge of said sheathing onto one or more of said systems equipped with said L-shaped accessory.

5. The system of claim 1, further comprising: a template, into which a series of holes are drilled, which can be used by a user to accurately drill additional holes along a surface which will allow for insertion of respective said pins by a first end of each said pins, a second end opposite said first end of each of said pins traveling through an underside of the wall back plate.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1A: An overview of the system with a front (top) view.

(2) FIG. 1B: An overview of the system with a side view.

(3) FIG. 2: Side view with A list of parts with numbers associated with a name for each part or function.

(4) FIG. 3: An application diagram to illustrate the use as a 24 clamp.

(5) FIG. 4: An application diagram to illustrate the use for a holding device which is attached to 24 studs at a height above the floor to hold materials to assist in attachment of the materials to a wall.

(6) FIG. 5: An application when the units may be used to hold or push materials away from each other.

(7) FIG. 6: An application when the units may be used in conjunction with holes drilled in a work bench or other material to be used a clamp which the units can be simply lifted from the surface at one position and placed at another with the pins in the units that fit into the pre drilled holes.

(8) FIG. 7: A diagram of the method of assembly of accessories depending upon the application the system will be used for.

(9) FIG. 8: An updated diagram of the base wall mounting plate.

(10) FIG. 9: Drywall attachment installation and application FIG. 10: Installation and application of Saddle clamp.

(11) FIG. 11: Snap on handle diagram and operation.

(12) FIG. 12: Anti pivot pins illustration.

(13) FIG. 13: Diagram of template for drillings holes in work bench or other stock so the unit can be used with the repositioning pins which are mounted to the underside of the base plate.

(14) FIG. 14: Top view of original design.

(15) FIG. 15: Side view of original design.

(16) FIG. 16: Bottom view of the end of the adjustment screw in the threaded nut block

(17) FIG. 17: View of clamp surface design

(18) FIG. 18A: Side view of a saddle clamp embodiment with a knob handle design

(19) FIG. 18B: Side view of a saddle clamp embodiment with a cam lock lever design

DETAILED DESCRIPTION

(20) The present invention is directed to holding, supporting and clamping tool. In its most complete form, the device is made up of the following components The base plate made of iron, aluminum or steel or of any material which is of sufficient strength to accomplish the intended use of the tool which is recommended to be 3/16 inch or inch thick with countersink holes for mounting the device to materials with screws, threaded holes for mounting accessories. A threaded body which may be made of iron, steel, aluminum or other suitable material which will support the tension when the device is under a load. A threaded adjustment bolt or screw with a machined or hex nut, with Philips slots machined in the end at the tail and with a sliding removable handle through the tail end of the adjustment screw made of iron, steel or other suitable material to accommodate the tension when the device is under a load.

(21) A clamp head made of iron, steel, aluminum or other suitable material to accommodate the weight or pressure when under a load recommended at least to thick depending upon the type of material is used to manufacture the tool which is attached with a swivel to the adjustment screw inch diameter 5 long, made of iron, steel or other suitable material to accommodate the tension when the device is under a load. The threads may be machine, acme, course or other at the desire of the manufacturer or production company that makes and markets the product. The center of the clamp head should be at 1 from the surface of the work surface. The clamp head should be slightly smaller than 2 inches so the head does not scrape the work surface when being adjusted.

(22) Accessories Include:

(23) A saddle clamp which can be attached to the base plate to facilitate quick installation to the work with out marring the work, Pins which are screwed to the underside of the base plate as per diagram designed for quick repositioning when used in conjunction of a material with holes drilled at one inch on center. This could be a work bench, lumber, iron, aluminum or other material which the user chooses. A handle made of wood, polymer, plastic, iron, steel or other suitable material to accommodate the tension when the device is under a load which may be installed to the tail of the adjustment screw in place of the sliding handle, An attachment that can be mounted to the clamp head with counter sink screws for use with sheathing application to prevent sheathing from slipping off the head or to assist in mounting sheathing horizontal such as sheet rock being mounted to the ceiling, or other material which is needed to be mounted to a horizontal surface.

(24) The face of the clamp surfaces or head surface which comes in contact with wood or other materials which may be being held, supported, or clamped are machined with a grid (similar to the surface on a framing hammer or which is common on other brands of vices or clamps) for additional grip of the wood or other material surface. It should further be noted that: The tool may be made all of Iron/steel or a combination of materials such as Iron, steel, aluminum, polymer, or other suitable materials to accommodate the tension or necessary strength when the device is under a load. If the body is made of material such as aluminum or polymer a steel or iron sleeve threaded to receive the adjustment bolt may need to be installed in the aluminum or polymer or other materials which may not be sufficient to work with the adjustment screw to prevent the adjustment screw from damaging the body or failing and causing injury to the user. Methods of tightening the adjustment screw may include a sliding T handle which is removable to accommodate using a nut driver, or wrench when using the or hex end which is machined as part of the tail end of the adjustment screw which is also machined with Philips slots which gives the user the option to use a screw driver to operate the adjustment screw, or a handle which will fit over the tail end which will engage and snap on to the or hex nut which is machined as part of the adjustment screw.

(25) FIG. 1A Shows an overview of the device 100 which is multipurpose which can be used in several different ways and applications. FIG. 1 shows the view of the front (top) and overall concept of the device including components. The device could be made of all Iron parts, or a combination of Iron, Aluminum, composite, or other. Whichever works for the industry and the market.

(26) FIG. 1B Shows the same embodiment of the device 100 in FIG. 1A with a side view, not including the options or accessories. Accessories are in another FIG. following. The head plate 150 needs to be attached to the adjustment screw with a swivel or pivot to allow the screw turning with out turning the head which will be very close to the material it is attached to. The device is limited only by the imagination of the user.

(27) FIG. 2 shows a side view of the components with numbers and matching names or descriptions. Clamp Head 201 with counter sink screw holes connects atop a swivel 202. The swivel connects to an adjustment screw 204. One shown component is a handle for the adjustment screw 205. Another shown component is a threaded nut block, also known as body or device body, 203 with a threaded bore adapted to receive the adjustment screw therethrough. Another component shown is a wall plate 206, also referred to as a wall back plate in this patent application, with countersink screw holes. Further shown components are holes 208 to mount accessories or non-mar material. Additional components are threaded holes 207 adapted to receive work bench pins, shown spaced 1 on center.

(28) FIG. 3 shows items to be clamped together 302. Using a pair of the devices (recommended to be sold as a pair) can be mounted either with screws through holes provided in the base plate or with the saddle clamp which mounts to the base plate to threaded holes positioned to the back plate which can then be mounted to the to a 24 piece of lumber at what ever the desired distance and becomes a vice or clamp. The device could also be mounted to Iron, aluminum or other substance by simply drilling and tapping holes to fit common inch screws or bolts.

(29) FIG. 4 shows a sheathing application 400 wall studs 402 connecting a stud wall bottom plate 404 and a stud wall top plate 408. 406 is sheathing, drywall, plywood, siding, or similar, and is held up by the devices 100. For one person attaching sheets of construction material to the upper portion of a wall without help can be difficult to hold while installing nails or screws. Using this device allows a person to set the sheet on the heads of the device to support the sheet while the installer can install enough nails or screws in the sheet to hold it. The devices may then be moved to the next section of the wall in preparation for the next sheet. Sheathing is often required to be tight to the ceiling, the adjustment screws allow for adjusting the sheath once it is supported by the device which free's up a hand.

(30) This is what started the idea. I am a building and remodeling contractor, often I am working alone. While working in a house putting up sheet rock I found that I couldn't lift the sheets to the ceiling and hold it with both hands and still hold screws and a screw gun all at the same time, I had to have a helper. This is a device to hold sheathing at distances off the floor to a wall while it is being attached, this makes it possible or easier for one person to move sheets of material into the exact place be wants it. Then using a screw gun it can be secured to the wall. The adjustment screws make it possible to fine tune the position of the sheathing so it fits exactly where it is wanted.

(31) FIG. 5 is a spreader application. Work bench 502 receives devices 100. The devices may be placed facing in opposite directions between two objects to push the objects apart from each other. As my imagination started working I realized that often there are times when objects need to be spaced and held apart from each other. I realized that these could be turned around and become a spreader or a device to hold materials apart at exactly the correct desired space or may assist in straightening warped or bent materials.

(32) FIG. 6 shows a work bench application 600. Devices 100 are again received by work bench 502. Holes may be drilled in a work bench or any surface desired at, for example, 1 on center intervals. The device with removable pins installed can be placed with pins in the holes. This allows the device to be moved easily and quickly. It would be handy to be able to just lift the device or devices and reposition them without having to install screws every time. So, I put pins that are screwed into the underside of the base plate at 1 inch on center, then drills in a work bench, 24 lumber other material that matched the pins. The device could quickly be moved along the series of holes to clamp or spread materials.

(33) FIG. 7 shows an assembly and usage description. Suggested assembly of the unit accessories, and where the accessories are to be placed. Set screw 706 is placed in the optional handle 710 and helps connect it below the adjustment screw 204. To use the optional handle remove the sliding handle then slide the optional handle over the tail end of the adjustment screw. Tighten the handle set screw.

(34) At 708, to mount Saddle clamp to the device slide the clamp over the device mounting plate and install screws in the threaded holes. NOTE: The revised device places the Saddle clamp in front of the device body. For work bench application install pins into the device body. The device is then ready to send pins into the series of holes in the work bench or other board with holes prepared at 1 on center.

(35) FIG. 8 shows a wall mounting base plate and describes how the hole positions and purpose in base plate is designed to mount to the surface or the accessories. There are two threaded holes 806 for mounting quick release saddle clamp used to mount to a 24 so the device may be attached and released quickly for quick repositioning. Threaded holes on center to insert quick movement pins for use when inserting into predrilled holes in a flat surface, such as a work bench, 24, or bar with holes drilled at 1 inch on center. Further, there are two threaded holes, 804, for mounting quick release saddle clamp used to mount to a 24 so the device may be attached and released quickly for quick repositioning. It also shows four countersink holes 802 to facilitate mounting to a surface using wood screws.

(36) FIG. 9 is an overview diagram of a redesigned, tool which may improve functionality of the tool from the original design and shows the drywall attachment installation and application. Drywall accessories 902 may be used to support drywall or other sheathing 904 while installing to a wall 906, ceiling, or other horizontal surface. Shows the drywall attachment installation and application.

(37) FIG. 10 shows the saddle clamp how it is intended to mount to the tool then to the work which would be the narrow edge of lumber which is 1 inch thick, and the clamp and know incorporated into one side of the saddle clamp for quick repositioning. The tool with the saddle clamp may also work in conjunction with screws in order to give additional strength for when the tool is need for more clamping pressure. Wood screw 1002 is for mounting directly to surface 1006 (such as 24 lumber). Saddle clamp 1004 is shown in a lumber mounting application.

(38) FIG. 11 shows a snap on handle operation. This shows a hand-held handle rather than the sliding T style. The handle may be removed so a wrench may be used alternately. The hex nut also has Philips slots in the tail end which will accommodate a screw driver or drill/driver. being able to remove the handle may be handy in tight spaces, the adjustment screw could then be turned with a wrench. A drill/driver could be used to speed up the operation. The tail of the adjustment screw has a hex nut machined into the tail. The tail part where the handle slides over the adjustment screw has a spring-loaded ball catch which matches up with a ring inside the receiver of the handle. The hex nut fits into a female hex shaped receiver for the nut. The nut has a Philips slot to accommodate a screw driver. Ball catch 1102 fits into the groove for ball catch 1104.

(39) FIG. 12 illustrates anti-pivot pins from a side view of the device. Some applications may require the clamp head to be stationary and not be able to pivot or spin. This diagram shows pins or bars installed in the tool to prevent pivoting or spinning of the clamp head and offer more secure holding, supporting, or clamping. Pins or bars 1202 slide through the body to prevent the head from pivoting.

(40) FIG. 13 illustrates a template for drilling holes on which to place the device with pins installed. It is a template for the user to be able to drill a series of holes at, for example, exactly 1 inch on center. This should be made of a reusable material which is to inch thick such as Iron, Aluminum, Plastic or other material which would be able to be used over and over. For the template application, install the pins into the device body. Draw a line on the surface to be drilled of the desired length of the planned quick clamp. Place the template at the beginning lined with the line you have just drawn. Drill holes with the template, then place the device in the first two holes, position the device in through the template and into the last two holes, drill holes using the available holes in the template. Repeat the process until the desired length is accomplished. 1302 shows the set screw for the handle. 1304 shows a template with 8 holes at 1 on center.

(41) FIG. 14 shows a version 1400 of the original design. Improvements and designs have been added. This is included to show alternate designs.

(42) FIG. 15 shows another version 1500 of the original design. Improvements and designs have been added. This is included to show alternate designs.

(43) FIG. 16 shows another version 1600 of the original design. Improvements and designs have been added. This is included to show alternate designs. 1602 is the end of the adjustment screw, a hex nut or hex head, machined as part of the adjustment screw to match the socket end of the removable handle. It may include a Philips slot to accommodate a Philips screw driver or Philips driver bit.

(44) FIG. 17 shows that All Clamp surfaces which contact surfaces being mounted to or contact materials being held in place should be grided 1702, or have a removable part which will grip the surface without damage.

(45) FIG. 18A shows one embodiment of the saddle clamp. 1804 is a knob clamp.

(46) FIG. 18B shows a second embodiment of the saddle clamp attachment. This embodiment functions with a cam leaver/lock handle.

(47) In general, a professionally manufactured tool may be fine-tuned for functionality or prospective user appeal. Or to match the manufacturer or marketing companies scheme and marketing practices. There is another option in style which may be more attractive for marketing and also may be lighter. This may be a unit with the center of the clamp head at 1 inches from the work surface. The function would be the same. A larger size may be desirable for many applications. The tool may be manufactured at various sizes.

(48) The devices may also be attached a 24 board or other dimensional board to turn lumber into a versatile clamp, or attached to a work bench to use a portion of a workbench to clamp, hold, or support materials.

(49) The core components of the invention are: a mounting base plate, screw body, adjustment screw, clamping head, saddle clamp, drywall attachment and removable pins which, generally speaking, are configured as follows: The mounting base plate is attached to the wall, lumber, workbench or other materials with common wood screws or drywall screws, the screw body is the part which is drilled and threaded to receive the adjustment screw which is attached to the clamping head via a swivel.

(50) With respect to the system it should be further noted that The system includes accessories such as a saddle clamp which allows attaching to a 24 lumber with out marring or making screw holes, an accessory part that can attach to the clamp head which prevents sheathing from slipping off the clamp head, and two types of removable handles. With the handles removed there is a hex nut machined in the tail of the adjustment screw and phillips slots milled in to the tail of the adjustment screw allowing for use with a nut driver or a screw driver.

(51) With respect to the associated method, In order to carry out the method the following core steps are followed: For sheathing support attach 2 of the devices to vertical studs, set the sheathing on the clamping heads, use the adjustment screw to level or fine position the materials.

(52) The system may be attached to a board (lumber) 2 devices at any distance facing each other desired to accommodate the materials to be clamped. Or the devices may be mounted facing away from each other to spread or hold materials a specific distance apart from each other.

(53) The devices may be mounted on a work bench either with screws, or the removable pins may be installed in the underside of the mounting plate in threaded holes spaced 1 inch on center which corresponding to a series of holes which may be drilled in the work bench or lumber or other surface at 1 intervals in a straight line and may be quickly positioned simply by lifting the device out of the holes and moved to a closer or farther position along the series of holes to each other.

(54) The system includes a template to assist the user in drilling a series of holes usually in wood such as a work bench or lumber to be used with the pins which are installed in each of the two device.

(55) Ultimately, at the conclusion of these steps allows one person operation in many instances where otherwise more than one person would be required and or more convenience generally.

(56) Different features, variations and multiple different embodiments have been shown and described with various details. What has been described in this application at times in terms of specific embodiments is done for illustrative purposes only and without the intent to limit or suggest that what has been conceived is only one particular embodiment or specific embodiments. It is to be understood that this disclosure is not limited to any single specific embodiments or enumerated variations. Many modifications, variations and other embodiments will come to mind of those skilled in the art, and which are intended to be and are in fact covered by both this disclosure. It is indeed intended that the scope of this disclosure should be determined by a proper legal interpretation and construction of the disclosure, including equivalents, as understood by those of skill in the art relying upon the complete disclosure present at the time of filing.

(57) Additional Information

(58) As with any mechanical device if the device Is used incorrectly or abused it may be dangerous to the user or others who may be in the vicinity.