IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0686626
(2010-01-13)
|
등록번호 |
US-8484818
(2013-07-16)
|
발명자
/ 주소 |
- Ritorto, Jr., Joseph Thomas
- Lattanzio, Christopher Robert
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
8 |
초록
▼
System(s), method(s), and device(s) that facilitate efficient removal of a nut(s) from a wheel stud or bolt are presented. A nut removal facilitator device comprises a first arm with a holder component, wherein the first arm is attached to a lever component and a second arm, which includes a force a
System(s), method(s), and device(s) that facilitate efficient removal of a nut(s) from a wheel stud or bolt are presented. A nut removal facilitator device comprises a first arm with a holder component, wherein the first arm is attached to a lever component and a second arm, which includes a force applicator component. A socket of a wrench is placed on a desired nut, with the wrench handle portion near the socket held within the holder component and an end portion of the wrench handle in contact with the force applicator component. A force can be received at the top portion of the lever component is leveraged based on the length of the lever component. The leveraged force is transferred to the force applicator component which applies the transferred force to the wrench handle to move the handle and socket in the desired direction to loosen and remove the nut.
대표청구항
▼
1. A device, comprising: a lever component that receives a force of a first amount in a first direction at a top portion of the lever component and, in response to the receipt of the force, generates a leveraged force of a second amount in the first direction at a bottom portion of the lever compone
1. A device, comprising: a lever component that receives a force of a first amount in a first direction at a top portion of the lever component and, in response to the receipt of the force, generates a leveraged force of a second amount in the first direction at a bottom portion of the lever component, wherein the second amount is greater than the first amount;a first arm that is associated with the lever component;a second arm that receives the leveraged force generated by the lever component; anda force applicator component that receives the leveraged force from the second arm to facilitate movement of the force applicator component in the first direction to apply the leveraged force in the first direction to an end region of a handle of a wrench, when the wrench is held within a holder component of the device, to facilitate movement of the wrench in the first direction to loosen a nut from an externally threaded cylinder, when the nut is within a socket of the wrench and is fastened to the externally threaded cylinder, to facilitate removal of the nut from the externally threaded cylinder. 2. The device of claim 1, further comprising: the holder component that is located at a bottom end of a first arm of the device, wherein the holder component is cylindrically shaped with a portion cutaway to form an open region that causes the holder component to be C-shaped, wherein the open region facilitates receiving of the handle of the wrench within an inner region of the holder component. 3. The device of claim 1, further comprising: a hinge component located at a top end of the first arm, wherein the bottom portion of the lever component is attached to the hinge component, wherein the second arm has a top end attached to the hinge component of the first arm and a bottom end attached to the force applicator component. 4. The device of claim 1, further comprising: a magnet component that is attached to the first arm and generates a magnetic force that receives and holds the nut on a surface of the magnetic component in response to the nut being placed on the magnetic component. 5. The device of claim 3, wherein the top portion of the lever component is hollow and the bottom portion of the lever component is insertable into the top portion of the lever component to facilitate adjustment of a length of the lever component to facilitate placement of the device in a closed position. 6. The device of claim 5, wherein the lever component is moveable about a hinge of the hinge component to facilitate placement of the top portion of the lever component in closer proximity to the holder component and the second arm is moveable about another hinge of the hinge component towards the first arm to that to facilitate placement of the force applicator component in closer proximity to the holder component to facilitate placement of the device in the closed position. 7. The device of claim 1, wherein the second amount for the leveraged force is determined based at least in part on a length of the lever component and the first amount for the force, and the first direction is one of a counterclockwise direction or a clockwise direction relative to the externally threaded cylinder. 8. A system, comprising: a holder component that is located at a bottom end of a first arm that is associated with a lever component, wherein the holder component is cylindrically shaped with a portion cutaway to form an open region, and the open region facilitates reception of a handle of a wrench therein; anda force applicator component that receives a leveraged force from a bottom portion of the lever component and applies the leveraged force to an end region of the handle of the wrench to facilitate movement of the wrench in a direction that, when a nut is within a socket of the wrench, loosens the nut that is fastened on a bolt to facilitate removal of the nut from the bolt, wherein the leveraged force is generated in response to a force received at a top portion of the lever component, wherein the force is a lesser amount of force than the leveraged force. 9. The system of claim 8, further comprising: the lever component that receives the force and generates the leveraged force at the bottom portion of the lever component in response to the force being received at the top portion, wherein the lever component comprises a handle component that facilitates generation of the leveraged force. 10. The system of claim 8, further comprising: the first arm that comprises a hinge component at its top end, wherein a bottom end of the bottom portion of the lever component is connected to the hinge component; anda second arm that has the force applicator component attached to its bottom end and is attached to the hinge component at its top end, wherein the second arm facilitates transfer of the leveraged force to the force applicator component. 11. The system of claim 8, further comprising: a magnet component that is attached to the first arm and generates a magnetic force that receives and holds the nut on a surface of the magnetic component. 12. The system of claim 8, wherein an amount of leveraged force generated is a function of a length of the lever component and an amount of the force received by the lever component. 13. A method, comprising: generating a leveraged force in a direction in response to a force received at a top end of a lever component in the direction, wherein an amount of the leverage force is based at least in part on a length of the lever component and an amount of the force received at the top end of the lever component; andapplying the leveraged force to a force applicator component to move the force applicator component in the direction to facilitate having the force applicator component apply the leveraged force to an end portion of a handle of a wrench when the wrench is within a holder component associated with the lever component to facilitate rotating the nut located within a socket of the wrench in the direction to at least one of loosen or remove the nut, wherein the socket is located at an end of the wrench that is opposite from an end of the wrench that is closest to where the end portion of the handle of the wrench is located. 14. The method of claim 13, further comprising: receiving a middle portion of the handle of the wrench in the holder component via an open region in the holder component; andholding the middle portion of the handle of the wrench in the holder component while the leveraged force is applied to the end portion of the handle of the wrench to facilitate stabilizing the wrench while the socket is on the nut. 15. The method of claim 13, further comprising: applying the socket to the nut;receiving the force at the top end of the lever component to facilitate generating the leveraged force; andtransferring the leveraged force to the force applicator component to facilitate applying the leveraged force to the end portion of the handle of the wrench. 16. The method of claim 13, further comprising: constructing a first bar comprising the holder component, wherein the holder component is structured to hold a middle portion of the handle of the wrench therein;constructing a second bar comprising the force applicator component, wherein the second arm and the force applicator component are structured such that the force applicator component is placeable on the end portion of the handle of the wrench; andconstructing the lever component comprising a top portion and a bottom portion, wherein the top portion is hollow and the bottom portion is sized, wherein the bottom portion fits within the top portion to facilitate controlling an overall length of the lever component. 17. The method of claim 16, further comprising: attaching a bottom end of the bottom portion to a first hinge associated with the first bar;attaching a top end of the second bar to a second hinge associated with the first bar; andattaching the force applicator component to a bottom end of the second bar via a third hinge. 18. The method of claim 17, further comprising: attaching a first rubber grip to an inside region of the holder component to facilitate gripping of the middle portion of the handle of the wrench; andattaching a second rubber grip to an inside region of the force applicator component to facilitate minimizing slippage of the end portion of the handle of the wrench away from the force applicator component when the leveraged force is applied to the end portion of the handle of the wrench. 19. The method of claim 17, further comprising: inserting at least a portion of the bottom portion of the lever component into the top portion of the lever component to facilitate collapsing the lever component to a closed position;moving the lever component about the first hinge to bring the lever component in closer proximity to the holder component; andmoving the second arm about the third hinge to bring the force applicator component associated with the second arm in closer proximity to the holder component of the first arm. 20. The method of claim 17, further comprising: removing at least a portion of the bottom portion of the lever component from inside the top portion of the lever component to facilitate extending the lever component to an open position;moving the lever component about the first hinge away from the holder component to bring the lever component in an upright position; andmoving the second arm about the third hinge away from the holder component of the first arm to a position that facilitates holding of the wrench within the holder component while the force applicator component is in contact with the end portion of the wrench to facilitate applying the leveraged force to the end portion of the wrench.
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