Strap Wrench

Abstract

A strap wrench comprising a handle with a central channel and detachable strap anchored at one end of the handle. The strap is held in place in a channel by means of a rocker arm which is biased to press the strap against a portion the strap positioned in the channel. The strap is initially positioned in the channel by the user pressing one side of the rocker arm to open the channel. Once the strap is initially seated, the rocker arm may be released and the loop may be further tightened by pulling the strap through the channel. Free movement of the strap may be enhanced by applying pressure to the rocker arm.

Description

Summary of Invention

[0009] It is an object of the present invention to allow tightening of the strap of a strap wrench in accordance with the present invention around the tubular member without applying pressure to the rocker arm.

[0010] It is also an object of the present invention to create a strap wrench where the strap is automatically locked in position.

[0011] It is also a further object of the present invention to create a strap wrench with allows the user to release the strap by simply applying pressure to a rocker arm on the handle of the wrench It is a further object of the invention which allows the user to change the strap when necessary due to wear on the strap or for use with different sized pipes, oil filters, jars and the like.

[0012] It is an additional object of the present invention to creating a strap wrench which reduces the wear on the strap.

[0013] The present invention is a strap wrench comprising a handle and detachable strap. The handle has an enlarged opening for receiving and holding one end of the strap One end of the strap is enlarged and shaped to be received in said enlarged opening in the handle. While removable, when the enlarged end of the strap is so placed in the enlarged opening in the handle, the strap is anchored at that endThe handle has a lengthwise channel passing through it through which the other end of the strap passes. The strap is held in place in the channel by means of a rocker arm which is biased by a spring to press the strap against the far wall of the channel when the strap is positioned in the channel. The surface of the rocker arm which engages the strap has a means for frictionally engaging the strap such as grooves, teeth, roughened surface or a layer off high friction material such as a rubber pad. In addition or as a alterative, the surface of the channel opposite the point of contact of the rocker arm may have a similar friction means for engaging the strap when the strap is pressed against it.

[0014] When the strap is drawn through the channel, the strap creates a loop above the top of the handle for placement around the tubular member which requires turning. The strap is initially positioned in the channel by the user pressing one side of the rocker arm to release the open the the channel. Once the strap is initially seated, the rocker arm may be released and the loop may be tightened by pulling the strap through the channel since this will act to move the contact between the strap and the rocker arm to a portion of the rocker arm without a friction means. Once the rocker arm is released, the loop may only be enlarged by applying pressure to one side of the rocker arm. Free movement of the strap may also be enhanced by applying pressure to the rocker arm.

[0015] Due to the flexibility of the strap, the strap wrench may also be used on non-circular tubular objects. Further uses and advantages will become apparent from the detailed description of the preferred embodiment.

Brief Description of Drawings

[0016] Fig. 1 is a perspective view of a strap wrench in accordance with the present invention.

[0017] Fig. 2 is a front view of a strap wrench in accordance with the present invention.

[0018] Fig. 3 is an exploded perspective view of a strap wrench in accordance with the present invention.

[0019] Fig. 4 is a front view of the of the handle of the present invention with the rocker arm removed but showing the rocker arm biasing means

[0020] Fig. 5 is a back view of the rocker arm.

[0021] Fig. 6 is a prospective view of the rocker arm.

Detailed Description

[0022] Referring to Fig. 1 - 6, a driving device in accordance with the present invention is shown for driving tubular members. It comprises a handle 10 having a longitudinal opening or channel 12 passing through its entire length proportioned as to receive a strap 13. In one end of the handle 10 is an enlarged cavity 14 in communication with a slit 15. Slit 15 forms an open passage between the enlarged cavity 14 and the exterior of the handle 10. Strap 13 has an enlarged end 16 positioned within cavity 14. The portion of strap 13 adjacent the enlarged end 16 passes through slit 15. This arrangement anchors the enlarged end 16 of strap 13 in the handle 10, but allows replacement of the strap to replace a worn strap or to use straps at different length.

[0023] In use the other end of strap 13 passes through channel 12 in the handle 10, thereby forming a loop 30 for engaging a tubular member (not shown) which is to be driven by the strap wrench. The handle 10 both holds the strap13 in place after the loop30 is sized to tightly fit around the tubular member and to transmit the turning force from the handle 10 to the tubular member. The handle 10 has a fixed pawl 17 positioned on the opposite side of the channel 12 from cavity 14 and thus the enlarged end 16 of strap13. Pawl 17 has teeth 18 designed to engage strap 13 on the opposite side of channel 12. As will be more fully discussed hereinafter, the pawl17 is the primary means by which a turning energy is transmitted from the handle 10 to the strap 13 and then through the strap 13 to the tubular member to be driven.

[0024] The strap 13 is held in position by means of rocker arm 19. Rocker arm 19 is held in place and pivoted around screw 20. Screw 20 passes through opening 21 in rocker arm 19 and screws into post 22 which forms part of the handle 10. Torsion spring 23 is looped around and held in position by post 22. One end of the torsion spring 23 is held against downward movement by post 28. The other end of the torsion spring 23 is bent at right angles to the remainder of the spring 23 so as to allow it to be positioned in a cavity 24 in rocker arm 19. This biases the rocker arm 19 into engagement with the far wall of channel 12.Alternatively a coil spring with one end in engagement with the handle 10 and the other end in engagement with the cavity 24 of rocker arm 19 or other equivalent biasing means may be used.

[0025] The biasing spring 23 biases the rocker arm 19 into engagement with the strap 13 holding it in place. The engagement between rocker arm 19 and strap 13 maybe enhanced by having a friction means 25 either forming part of or being attached to the rocker arm 19 at its area of contact with the strap 13. This friction means 25 may consist of a roughen surface, teeth, groves, or bumps in the surface of rocker arm 19 opposite where the rocker arm 19 comes into engagement with the strap 13. Equally as shown in Fig6, it may be an addition of a high friction material, fabric or coating such as a rubber pad 25 shown attached to rocker arm19 by any suitable means such as a screw. In addition or alternatively a similar friction means 26 may be placed on the opposite interior wall of channel 12, thereby increasing the frictional engagement and assuring that the strap 13 once position positioned will maintain the desired loop 30 size.

[0026] In operation, the enlarged end 16 of strap 13 is positioned in cavity 14 so as to fix that end of the strap13. The other end of the strap 13 is then passed around the tubular member to be driven and then through channel 12. The user raises rocker arm 19 by pressing against the front end 27 of rocker arm 19 allowing the strap 13 to be pulled into and through channel 12. Since the friction means 25 is being held away from the strap 13 the strap 13 easily passes through the channel 12 allowing the strap 13 to be tightly positioned around the tubular member to be driven. Upon release of rocker arm 19, the friction means 25 is positioned against strap 13 and thus against the far wall of channel 12. Given the positioning of friction means 25 and if added, friction means 26, the strap 13 may be further tightened around the tubular member after release of the rocker arm 19 by pulling on the free end of strap 13.In doing so the area of contact between the strap 13 and the rocker arm 19 is shifted away from the friction means 25 & 26. However, the loop 30 formed by strap 13 can only be enlarged by applying pressure to area 27 of rocker arm 19.

[0027] The user must apply pressure to the handle 10 in the direction that brings pawl 17 against strap 13 and thus allows transmission of forces from the handle 10 through the strap 13 to the member. If it is desired to drive the tubular member in the opposite direction, the handle 10 is simply turned over and re-engaged so that the pawl 17 will engage the strap 13 when the handle 10 is driven in the desired direction.

[0028] It is understood that the present embodiment described above is to be considered as illustrative and not restrictive. It will be obvious to those skilled in the art to make various changes, alterations and modifications to the invention described herein. To the extent that these variations, modifications and alterations depart from the scope and spirit of the appended claims, they are intended to be encompassed therein.

Claims

1. A strap wrench for engaging with and for driving a tubular member, said driving device comprising:

2. The driving device according to claim 1, wherein said first end of said handle further includes a pawl having at least one tooth formed thereon for engaging with said strap.

3. The driving device according to claim 1, wherein the securing means is a rocker arm mounted on the handle.

4. The driving device according to claim 3, wherein the rocker arm has a bias means which holds a portion of the rocker arm in contact with the strap in the channel.

5. The driving device according to claim 4, wherein at the area where the rocker arm contacts the strap, the rocker arm has a friction means to aid in preventing movement of the strap.

6. The driving device according to claim 4, wherein at the area in the channel opposite where the rocker arm contacts the strap, the channel has a friction means to aid in preventing movement of the strap.

7. The driving device according to claim 4, wherein at the area where the rocker arm contacts the strap, the rocker arm has a friction means and at the area in the channel opposite where the rocker arm contacts the strap, the channel has a friction means, to aid in preventing movement of the strap.

8. The driving device according to claim 4, wherein the bias means on the rocker can be overcome by placing pressure on a portion of the rocker arm.

9. The driving device according to claim 1, wherein the end of the strap which is removably secured to the first end of the handle has an enlarged cross-section which is removably positioned in a corresponding recess in the handle.