US20050247019A1

US20050247019A1 - Adjustable joist gripper

Info

Publication number: US20050247019A1
Application number: US11/115,783
Authority: US
Inventors: Cris Pasto
Original assignee: Res Q Jack Inc
Current assignee: RES-Q-JACK Inc; Res Q Jack Inc
Priority date: 2004-04-27
Filing date: 2005-04-27
Publication date: 2005-11-10

Abstract

A carpentry tool for the installation of parallel boards includes an elongated lever having a rotatable cam pivotally affixed adjacent to a distal end of the lever, a gripper body pivotally affixed at a distal end of the lever, the gripper body having two lugs or brackets extending downward from the lower end of the gripper body, wherein the gripper body includes a two-piece telescopic section having an outer tubing member and an inner tubing member in slidable engagement, the inner tubing member including a first lug or bracket on a lower face thereof, the outer tubing member including a second lug or bracket on a lower face thereof, opposing the first bracket, and a spindle extending from an upper face thereof, and a mechanism for reversibly affixing the sliding inner and outer tubing members at predetermined points. Further disclosed are novel adjustable joist grippers for use with the apparatus.

Description

REFERENCE TO RELATED APPLICATIONS

This application claims an invention which was disclosed in Provisional Application No. 60/565,619, filed Apr. 27, 2004, entitled “IMPROVED RESCUE TOOLS”. The benefit under 35 USC § 119(e) of the United States provisional application is hereby claimed, and the aforementioned provisional application is hereby incorporated herein by reference in its entirety.

BACKGROUND OF THE INVENTION

1. Field of the Invention
The invention pertains generally to the field of carpentry tools. More particularly, the invention pertains to apparatus and methods for gripping a floor joist or wall stud and forcing abutting edges of parallel boards into contact with one another, such as during installation or repair of tongue-and-groove type flooring or other parallel boards over a frame, joist or stud.
2. Description of Related Art
Wooden flooring is usually supplied as boards having tongue-and-groove edges, such that the floor is laid over a subfloor by placing the boards next to each other, forcing the tongue on the edge of one board into the mating groove of the next, and nailing the boards in place through the edge, so that the nails are invisible when the next board is installed. Forcing the tongues into the grooves requires a fair amount of force, and the boards must be held tightly together as the nails are driven. In other applications, such as wherein no subflooring is used, parallel boards must be forced and held together prior to and during nailing.
Traditionally the installation and repair of wooden flooring and other parallel boards has required two carpenters. To assure a tight fit between the individual pieces of flooring the first carpenter forces the flooring being installed or repaired into proper position, while the second carpenter securely fastens the flooring being held to the subfloor, or fastens the parallel boards to a floor joist or wall stud, for example. To insure that the boards are held tightly together, it has generally been the case that nails are driven into the flooring, typically used at an angle, so that as the nail engages with the subfloor or joist, the individual boards are driven laterally into a tighter abutment with the board previously put in place. In this manner the flooring or wall is constructed, one piece at a time, gradually being laid from the base of a starting wall towards the base of an ending wall where the last piece will be put in place.
A number of devices have been developed in the past to aid in the installation of flooring and other parallel boards, but they have had a number of deficiencies which make them difficult to use.
Examples of prior art flooring clamps or jacks include Parrish, “FLOOR CLAMP” U.S. Pat. No. 10,061, issued in 1853; Foster, “FLOOR-CLAMPS”, U.S. Pat. No. 136,428, issued in 1873; or Lassahn, “CLAMPING DEVICE FOR CONSTRUCTING FLOORING, DECKING AND THE LIKE”, issued in 1964. All of these devices force the flooring into alignment using screw (Parrish), rack-and-pinion (Foster) or hydraulic (Lassahn) force exerted against the floor joists. Obviously, this would not work if the floor is being installed over a plywood subfloor.
Masters, “PUSH STICK FOR PLUMB AND LINE ADJUSTMENT OF STUD WALLS”, U.S. Pat. No. 4,660,806, issued in 1987, is a more general pushing device using a hydraulic ram, but is not used for flooring.
Powernail Co. Inc, P.O Box 300, Lincolnshire, Ill. 60069, currently markets two models of a flooring jack called a Powerjack™. Both use a ratchet mechanism to exert force on flooring. The Powerjack 100 has a bent leg which hooks over the edge of the tongue-in-groove flooring and a flat pressor foot moved by a ratchet. The unit rides on the flooring to be moved, while the pressor foot pushes against a stationary object such as a wall or a stud nailed to the subfloor, thus pulling the flooring into place. The Powerjack 200 is designed for glue down and gym floor installation by pushing from a subfloor anchor point. It has a flat foot which must be attached by nails or screws to the subfloor, and a second foot which can be moved by a ratchet to press against the tongue-in-groove flooring. Both have relatively restricted maximum distances from their anchor points, and, unless used right next to a wall in the case of the model 100, both require some sort of anchor attached to the subfloor.
Various other tools also are known for pushing deck or flooring boards and the like into parallel contact before nailing the boards to a joist. For example, U.S. Pat. No. 5,248,127 discloses a board press comprising a dog member dimensioned and configured to grip a joist and a lever attached to one end to the dog member by a ball and socket mounting for pivoting of lever about a pivot axis P—P. The ball and socket mounting enables the pivot axis to be angularly displaced about a point on pivot axis P—P, thereby permitting the user to pivot the lever perpendicularly to the edge of a board being pressed, despite twisting of the dog member on the joist during use. A method of pressing one or more boards disposed on a joist includes using the board press and pivoting the lever in a pivot plane, which is kept perpendicular to the edge of the board, while simultaneously twisting the dog member to seat it upon the joist.
U.S. Pat. No. 5,269,494 discloses a deck and soffit board camming or pushing device for pushing boards together. The camming device weighs no more than four pounds for forcing an unsecured member into contact with a secured member, where the unsecured member may be secured with a support member. The camming device includes a support plate which carries a locking arrangement. The locking arrangement includes a pair of locking lugs and a locking lever. The device also includes a camming member having camming surfaces and an operating lever having a handle. The camming member is pivotally secured with the support plate in an eccentric fashion. In operation the support member is positioned adjacent an unsecured member and on one of the support members. The lugs are arranged to extend along opposite sides of the support member. The locking lever is rotated in one direction, which locks the support plate with the support member. Now the operating lever is rotated to move the camming member against the unsecured member, which presses it into position adjacent the secured member. Here it is secured in position with the support member.
U.S. Pat. No. 5,826,858, the complete disclosure of which is hereby incorporated herein by reference, discloses a carpentry tool for pushing flooring boards into contact on ajoist, which can be operated with one hand, leaving the carpenter's other hand free for hammering. The tool includes a body member having offset clamping lugs for engaging each side of a joist. A cam lever pivotally mounted at one end of the body member is adapted to force a cam thereon into pushing contact with a flooring board supported by the joist.
U.S. Pat. No. 5,964,450, the complete disclosure of which is hereby incorporated herein by reference, discloses a flooring tool for the installation or repair of wooden tongue and groove flooring. The tool has a jack for exerting linear force, with a fixed and a movable portion. A pivoting gripper is mounted upon the movable portion, and a guide is mounted upon the fixed portion, which allows a brace such as a 2×4 board to be inserted into the guide and gripper and held in place, extending the reach and usefulness of the tool. A foot upon a push-pull rod extends downwards from the fixed portion of the jack, and pushes upon the flooring planks. In a preferred embodiment, two attachment points are provided for the foot on its rod, at each end of the fixed portion, providing maximum flexibility.
U.S. Pat. No. Des. 353,987 discloses a design for a tool for installing wooden planks. The tool functions by placing the ‘F’-shaped bracket, hereinafter referred to as the gripper body, which is pinned to the handle, over a floor joist or similar structure. The shorter cam member, which is also pinned to the handle, is placed adjacent the board to be pushed or straightened. When the user turns the handle into the board, the joist gripper twists and locks or binds itself to the joist, preventing it from sliding down the joist, and therefore allowing the translation of the cam to push the plank. The dimensions and shape of the joist gripper directly affect its ability to lock to the joist without slipping. A joist gripper with fixed position round shafts or legs will only lock to a particular joist width, with little tolerance for variation in joist width permitted. A slightly wider span between shafts and the gripper will slide. Too narrow a span will prevent the gripper from fitting over the joist.
The tools of the prior art have various drawbacks. Most require the carpenter to use both hands to operate the tool, while an assistant nails the boards to the supporting joist. Further, the tool of U.S. Pat. No. 5,269,494 requires the carpenter to rotate a locking lever in order to engage the tool with a floor joist, before the boards can be pushed into place. Most are undesirably complex and expensive. A need exists in the art for a simple, inexpensive tool for the installation of parallel boards, that can be operated with one hand and provides means for adjusting to different size joists or studs.

SUMMARY OF THE INVENTION

The present invention provides methods and apparatus for the installation of parallel boards, that can be operated with one hand and provides means for adjusting to different size joists or studs. According to a preferred aspect of the present invention, herein is disclosed a carpentry tool for the installation of parallel boards includes an elongated lever having a rotatable cam pivotally affixed adjacent to a distal end of the lever, a gripper body pivotally affixed at a distal end of the lever, the gripper body having two lugs or brackets extending downward from the lower end of the gripper body, wherein the gripper body includes a two-piece telescopic section having an outer tubing member and an inner tubing member in slidable engagement, the inner tubing member including a first lug or bracket on a lower face thereof, the outer tubing member including a second lug or bracket on a lower face thereof, opposing the first bracket, and a spindle extending from an upper face thereof, and a mechanism for reversibly affixing the sliding inner and outer tubing members at predetermined points. Further disclosed are novel adjustable joist grippers for use with the apparatus.
According to a preferred aspect of the present invention, herein is disclosed an adjustable joist gripper, including a two-piece telescopic section having an outer tubing member and an inner tubing member in slidable engagement, the inner tubing member including a first lug or bracket on a lower face thereof, the outer tubing member including a second lug or bracket on a lower face thereof, opposing said first bracket, and means for reversibly affixing the sliding inner and outer tubing members at predetermined points.
An advantage of the present invention is that it provides a tool for pushing parallel boards together, and is suitable for use with a variety of differently sized joists or studs.
These and other features and advantages will become readily apparent from the following Detailed Description, which should be read in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWING

FIG. 1 shows a prior art device for the installation of parallel boards.
FIG. 2 shows several examples of prior art adjustable gripper devices for the installation of parallel boards.
FIG. 3 shows two alternative examples of an adjustable gripper device for the installation of parallel boards, according to an embodiment of the invention.
FIG. 4 shows one example of an adjustable gripper device for the installation of parallel boards, according to an embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

The present invention provides a novel tool as a useful and convenient means for pushing boards together when building decks or, for example, installing sub-flooring over joists. It can also be used for pushing plywood sheets tightly together, such as for house framing and underlayments for roofs and for other purposes.
The boards, plywood or other materials, do not necessarily have to be 90 degrees to the supporting joist when they are being pushed by this tool. Any divergent angle of overlay over ajoist, stringer or stud can be accommodated.
As shown in FIGS. 1 and 2, tools for installing parallel boards by pushing them together are known to include an elongated lever (100) having a rotatable cam (50) pivotally affixed adjacent to a distal end of the lever for pushing the parallel boards, and a gripper body (200) having two lugs (300) for gripping a joist or stud, extending downward from the lower end of the gripper body. For example, the lugs (300) straddle a joist (not shown), which provides support to the tool. The cam (50) is aligned with the board to be pushed and the lever is actuated, pulling on the joist and pushing the board into place.
Construction lumber for framing houses and decks, and a multitude of other things, generally runs in thickness from 1 7/16″ to 1¾″ thick. The two lugs, when dropped over the thickness section of a joist will accommodate these common dimensions and others. This is accomplished by virtue of the separation of the two lugs. If canted at an angle, the lugs are, for example, farther apart and can accommodate wider widths of lumber.
All joists, studs, or similar framing members are not the same width. It is therefore desirable to have a built-in adjustment feature for the joist gripper to allow for variations in joist width. Several such grippers are known, each including one stationary leg and one leg that is movable relative thereto. One such gripper includes a movable leg slidably attached to the stationary leg, with an adjustment screw passing through the top of each leg, perpendicular to the legs. One problem associated with this design is complexity in manufacturing and thus cost. A variation of this design replaces the threaded rod or screw with a locating pin, where the leg may be incrementally adjustable. This model decreases the cost only slightly, and versatility is lost, as infinitesimal adjustment is gone. Another far simpler design involves the use of a fixed leg attached to a round pipe. The adjustable leg is typically of a pipe-clamp tail-stop, which has a spring-activated locking mechanism. However, due to the nature of the pushing and rotational forces acting on the tail-stop, slipping can occur. Pipe clamps utilize round tubing; they are designed to withstand loads parallel to the pipe, not rotational loads, hence the slippage potential.
Adjustable Gripper Examples
Two new adjustable joist grippers are herein disclosed. One embodiment is similar to the common pipe clamp described above. However, this embodiment includes means for resisting rotation of the tail-stop, which is what leads to the slippage. This is accomplished by altering the shape of the pipe. For example, a square tube or other non-round pipe or similar member would not permit rotation of an object that is slidably attached, assuming the fit between the two is close enough.
Another embodiment includes a fixed leg rigidly attached to a square or other shaped member. A second leg is slidably attached to the square member. The slidable leg is not permitted to twist. The adjustment for joist width is accomplished by pinning the slidable leg assembly at the desired location. Note that such means for attaching only allows for incremental adjustment. To overcome this problem, the shape of the legs is altered from the round shape to allow for greater width variation at each adjustment location, to achieve a sufficient lock on the joist. In a preferred embodiment, the slidable leg is a wide surface running dominantly parallel to the joist or other shape producing similar width. The wide leg allows for a wider variation in joist width to achieve a locking affect at any given pinned adjustment location. The fixed leg of the preferred embodiment is similarly shaped. An alternate shape of either leg or both legs would have a cutout or void near the upper portion of the leg adjacent the attached member to allow for use over an under deck fastening track (such as, for example products known as Deckmaster or Shadoetrack). In the preferred embodiment, the slidable leg is a piece of angle whose lengthwise axis extends downward from the engaged member. This shape gives the same effective face width parallel to the joist, along with the strength or stiffness of a larger square or other similar shape, without the bulk or weight. The fixed leg of the preferred embodiment is constructed of a round or similar leg extending axially down from the attached member. A flat plate is rigidly fixed to the bottom end of this leg and extends toward the joist with the forward protruding edge running parallel to the joist. This design creates the void to allow for use with the underdeck fastening tracks described above. The adjustable leg of the preferred embodiment is shorter than the fixed leg of the preferred embodiment which allows for quicker application over joists with the underdeck fastening tracks without readjusting slidable leg. Means of attaching the new adjustable gripper to the deck tool handle includes a similar pin connection.
Referring now to FIGS. 3 and 4, various embodiments of an adjustable joist gripper in accordance with the invention are shown. A preferred embodiment (FIG. 4) includes a two-piece telescopic section having an outer tubing member (500) and an inner tubing member (400) in slidable engagement, the inner tubing member including a first lug or bracket (600) on a lower face thereof, the outer tubing member including a second lug or bracket (600) on a lower face thereof, opposing said first bracket, and means for reversibly affixing the sliding inner and outer tubing members at predetermined points (pin, 700). The adjustable gripper further includes a pivot means (120) for attachment to a tool.
Accordingly, it is to be understood that the embodiments of the invention herein described are merely illustrative of the application of the principles of the invention. Reference herein to details of the illustrated embodiments is not intended to limit the scope of the claims, which themselves recite those features regarded as essential to the invention.

Claims

1. An adjustable joist gripper, comprising:

a two-piece telescopic section having an outer tubing member and an inner tubing member in slidable engagement;

said inner tubing member comprising a first lug or bracket on a lower face thereof;

said outer tubing member comprising a second lug or bracket on a lower face thereof, opposing said first bracket; and

means for reversibly affixing said sliding inner and outer tubing members at predetermined points.

2. The adjustable joist gripper of claim 1, wherein said outer tubing member further comprises a spindle extending from an upper face thereof.

3. The adjustable joist gripper of claim 1, wherein said outer tubing member further comprises a tubular member extending from a face thereof.

4. The adjustable joist gripper of claim 1, wherein one or more of said lugs or brackets comprises a wide surface running substantially parallel to a joist or other structure gripped.

5. The adjustable joist gripper of claim 1, wherein one or more of said lugs or brackets comprises a cutout or void near an upper portion of said lug.

6. The adjustable joist gripper of claim 1, wherein one or more of said lugs or brackets comprises an angle bracket.

7. The adjustable joist gripper of claim 1, wherein one or more of said lugs or brackets comprises a round or similar leg extending axially down, and a flat plate is rigidly fixed to the bottom end of this leg.

8. The adjustable joist gripper of claim 1, wherein one of said lugs or brackets is shorter than the other.

9. A carpentry tool for the installation of parallel boards, comprising:

an elongated lever having a rotatable cam pivotally affixed adjacent to a distal end of the lever;

a gripper body pivotally affixed at a distal end of the lever, said gripper body having two lugs or brackets extending downward from the lower end of the gripper body;

wherein said gripper body comprises a two-piece telescopic section having an outer tubing member and an inner tubing member in slidable engagement;

said outer tubing member comprising a second lug or bracket on a lower face thereof, opposing said first bracket, and a spindle extending from an upper face thereof; and

10. The adjustable joist gripper of claim 9, wherein said outer tubing member further comprises a tubular member extending from a face thereof.

11. The adjustable joist gripper of claim 9, wherein one or more of said lugs or brackets comprises a wide surface running substantially parallel to a joist or other structure gripped.

12. The adjustable joist gripper of claim 9, wherein one or more of said lugs or brackets comprises a cutout or void near an upper portion of said lug.

13. The adjustable joist gripper of claim 9, wherein one or more of said lugs or brackets comprises an angle bracket.

14. The adjustable joist gripper of claim 9, wherein one or more of said lugs or brackets comprises a round or similar leg extending axially down, and a flat plate is rigidly fixed to the bottom end of this leg.

15. The adjustable joist gripper of claim 9, wherein one of said lugs or brackets adjustable leg shorter than the other.