Torque Tool

Abstract

My invention is a unique tool that permits the winding and unwinding (tensioning and de-tensioning) of torsion springs in situations where adjacent obstructions would otherwise disallow the normal means of this process when using normal trade tools. Sometimes access can be so limited that even the installation of similar tools can be impossible which is why I design it with removable jaw clamp bolts and assembly bolt finger clearance.

Claims

1. A torsion spring adjustment tool for the purpose of winding, unwinding, loading or unloading torsion springs and comprised of: 1. Two each identical halves to be bolted together and manufactured from aluminum, steel or other suitable material using traditional casting and machining methods having an engagement jaw (21) bored at its end through its thickness and each half to include a removable jaw pin or hex head machine bolt (20) of adequate length to act as a winding peg. 2. Said halves to have adequate clearance above and around the assembly hole locations to permit the insertion of assembly bolts (23) using one's fingers without requiring special tools and comprised of one each non-threaded assembly bolt hole of adequate diameter along one edge and one each threaded hole of adequate diameter along the opposite edge. 3. Each said half shall have 4 winding holes (24) bored to adequate depth and diameter that are spaced 45 degrees apart so that when two halves are enjoined they create a total of 8 winding holes around the circumference of the assembled tool.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

[0008] FIG. 1: Side view of clamp jaws. This view shows the assembled Torque Tool with jaws (21) oriented to the left, jaw pin or hex head machine bolt (20) in place, and bolted together by the assembly bolt (23) that is located in the assembly hole area.

[0009] FIG. 2: Exploded three dimension view of clamp halves. This view shows the Torque Tool as it would be in preparation for assembly onto a torsion spring.

[0010] FIG. 3: Top view of clamp half. This view shows the top half of the assembled Torque Tool oriented toward the left where it would engage the winding cone of a torsion spring via the jaw pin or hex head machine bolt (20). Both Clamp Halves are secured together at the assembly hole area via the Clamp Half Fastening Bolts and Washers (23), each of which is on opposite sides the Clamp Halves.

[0011] FIG. 4: Front end view of bolted clamp halves. This view shows the assembled Torque Tool from the jaw end where it engages the torsion spring with the jaw pin or hex head machine bolts (20) inserted.

[0012] FIG. 5: Right end view of bolted clamp halves. This view shows the assembled Torque Tool from the non-working end.

[0013] FIG. 6: Bottom view of bolted clamp halves. This view shows the bottom half of the assembled Torque Tool oriented toward the left where it would engage the winding cone of a torsion spring via the jaw pin or hex head machine bolt (20). Both Clamp Halves are secured together at the assembly hole area via the Clamp Half Fastening Bolts and Washers (23), each of which is on opposite sides the Clamp Halves. This view shows that the bottom and top halves of the Torque Tool are exact duplicates of one another.

[0014] FIG. 7: Three dimensional view of bolted clamp halves. This view shows the Torque Tool as it appears assembled but not attached to a torsion spring.

[0015] FIG. 8: Side view of bolted clamp halves attached to a torsion spring. This view shows the Torque Tool in its working position sandwiching a torsion rod (26) and secured to a torsion spring (28) via two of the existing four winding holes (27). The torsion spring cone set screws (not shown) have been removed from the threaded holes (29) for clarity.

DETAILED DESCRIPTION OF THE INVENTION

[0016] The Torque Tool is a simple two piece bolt-on-device, comprised of two identical halves, that attach to the end of a torsion spring and adds four more winding holes, for a total of eight holes, each spaced 45 degrees from one another, thus permitting 45 degrees of turn.

[0017] Realizing the need for versatility and ease of access in terms of attachment to existing 4 hole torsion spring winding cones, as well as ease of assembly of the two halves of the tool, the Torque Tool was originally designed with all of its current features without influence by any subsequently introduced designs or products that appeared in the public domain immediately prior to this submission. It is obvious that having removeable jaw pins and having more room for one's fingers to assemble the two halves of the tool, without the need for special bolts or tools, are unique advantages. These features give the Torque Tool the unique advantage of being able to be attached to an existing torsion spring winding cone in more than one way, making it more versatile and easier to use. Normally, with adequate clearance between the torsion spring winding cone and any adjacent obstructions, it can be assembled with both of the jaw bolts, or pins, in place in the jaw clamps. If adjacent obstructions do not permit enough room to sandwich the Torque Tool around the existing torsion spring cone with the jaw bolts, or pins, in place, then they can be removed and re-inserted once the Torque Tool is assembled and in place over the existing torsion spring winding cone.

[0018] Another way to install the Torque Tool is to remove both jaw bolts, or pins, and assemble both halves of the Torque Tool onto the torsion rod a distance away from the existing torsion spring winding cone then slide it into proper alignment over the existing torsion spring winding cone and then install one or both of the jaw bolts, or pins, into place. The Torque Tool can be operated with only one jaw bolt, or pin, in place if desired.

[0019] Since both halves of the Torque Tool are identical, the threaded assembly hole on each half is on the opposite side as the other when assembling. This provides an assembly advantage in cases where adjacent obstructions do not permit assembly as in the case if both threaded holes were on the same side as the obstructing surface. These methods of engagement with the existing torsion spring winding cone are desirable whenever one of the opposing winding holes is so obstructed that there is no room to insert the second half of the Torque Tool if it had a stationary jaw bolt, or pin, attached to the jaw. This provides several unique and advantageous alternate means of attaching the Torque Tool to torsion springs.