IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0363081
(2006-02-28)
|
등록번호 |
US-7389978
(2008-06-24)
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발명자
/ 주소 |
- Rowlay,Stephen
- Lombardi,Keith M
- Cumming,Alisdair
|
출원인 / 주소 |
|
대리인 / 주소 |
Pillsbury Winthrop Shaw Pittman, LLP
|
인용정보 |
피인용 횟수 :
10 인용 특허 :
62 |
초록
▼
A jaw for a bar clamp and a method of using a bar clamp, the bar clamp including a trigger having a first force applying mechanism to apply a first force against the drive lever at a first point on the drive lever that is remote from the bar as the trigger pivots with respect to the main section to
A jaw for a bar clamp and a method of using a bar clamp, the bar clamp including a trigger having a first force applying mechanism to apply a first force against the drive lever at a first point on the drive lever that is remote from the bar as the trigger pivots with respect to the main section to provide low mechanical advantage to the drive lever. The trigger also having a second force applying mechanism to apply a second force against the drive lever at a second point on the drive lever that is closer to the bar than the first point as the trigger pivots with respect to the main section to provide high mechanical advantage to the drive lever.
대표청구항
▼
What is claimed is: 1. A jaw for a bar clamp, comprising: a main section structured and arranged to permit a bar to pass-through; a clamping face extending from said main section; a drive lever structured and arranged to couple the bar; a handle extending from said main section; and a trigger pivot
What is claimed is: 1. A jaw for a bar clamp, comprising: a main section structured and arranged to permit a bar to pass-through; a clamping face extending from said main section; a drive lever structured and arranged to couple the bar; a handle extending from said main section; and a trigger pivoted to said main section, said trigger having a first force applying mechanism structured and arranged to apply a first force against said drive lever at a first point on said drive lever that is remote from the bar as said trigger pivots with respect to said main section to provide low mechanical advantage to said drive lever, said trigger having a second force applying mechanism structured and arranged to apply a second force against said drive lever at a second point on said drive lever that is closer to the bar than said first point as said trigger pivots with respect to said main section to provide high mechanical advantage to said drive lever, wherein the first force applying mechanism is structured and arranged such that, as the trigger is pivoted away from its nonactuated position, the first force applying mechanism applies the first force against the drive lever before the second force applying mechanism applies the second force against the drive lever. 2. A jaw according to claim 1, wherein said main section is a housing with two opposite openings to permit the bar to pass through. 3. A jaw according to claim 1, wherein said drive lever has an aperture for the bar to pass through. 4. A jaw according to claim 1, wherein said drive lever is biased toward said trigger by a resilient element. 5. A jaw according to claim 4, wherein said housing has a resiliently biased bar breaking lever coupled to a release lever. 6. A jaw according to claim 1, wherein said first force applying mechanism is a resilient member that is operatively positioned such that the first force is transferred to the drive lever via the resilient member. 7. A jaw according to claim 6, wherein said resilient member is a spring. 8. A jaw according to claim 6, wherein said trigger has a body portion and said resilient member is fastened to said body portion and to said drive lever. 9. A jaw according to claim 1, wherein said second force applying mechanism is an projection that extends toward said drive lever. 10. A jaw according to claim 1, wherein said second force applying mechanism is structured and arranged to be spaced from said drive lever when said trigger is in a nonactuated position. 11. A jaw according to claim 1, wherein said first force applying mechanism is structured and arranged to apply said first force against said drive lever while said second force applying mechanism applies said second force against said drive lever. 12. A jaw for a bar clamp, comprising: a main section structured and arranged to permit a bar to pass-through; a clamping face extending from said main section; a drive lever structured and arranged to couple the bar; a handle extending from said main section; and a trigger pivoted to said main section, said trigger having a resilient member coupled to said drive lever to apply a first force against said drive lever at a first point on said drive lever that is remote from the bar as said trigger pivots with respect to said main section to provide low mechanical advantage to said drive lever, said trigger having a second force applying mechanism structured and arranged to apply a second force against said drive lever at a second point on said drive lever that is closer to the bar than said first point as said trigger pivots with respect to said main section to provide high mechanical advantage to said drive lever, said resilient member being structured and arranged to apply said first force against said drive lever in an extended position, wherein the trigger is structured and arranged such that, as the trigger is pivoted away from its nonactuated position, the resilient member applies the first force against the drive lever before the second force applying mechanism applies the second force against the drive lever. 13. A jaw according to claim 12, wherein said resilient member is a spring. 14. A jaw according to claim 12, wherein said second force applying mechanism is an projection that extends toward said drive lever. 15. A jaw according to claim 12, wherein said trigger has a body portion and said resilient member is fastened to said body portion and to said drive lever. 16. A jaw according to claim 12, wherein said second force applying mechanism is structured and arranged to be spaced from said drive lever when said trigger is in a nonactuated position. 17. A jaw for a bar clamp, comprising: a main section structured and arranged to permit a bar to pass-through; a clamping face extending from said main section; a drive lever structured and arranged to couple the bar; a handle extending from said main section; and a trigger pivoted to said main section, said trigger having a first force applying mechanism structured and arranged to apply a first force against said drive lever as said trigger pivots with respect to said main section, and a second force applying mechanism structured and arranged to apply a second force against said drive lever as said trigger pivots with respect to said main section, wherein said first force applying mechanism is structured and arranged to provide a lower mechanical advantage to said drive lever than said second force applying mechanism is structured and arranged to provide, and wherein the first force applying mechanism is structured and arranged to apply said first force against said drive lever before said second force applying mechanism applies said second force against said drive lever as the trigger is pivoted away from its nonactuated position. 18. A method of using a bar clamp, comprising: positioning a first jaw on a first bar clamp, the first jaw being selectively securable on the first bar; positioning a second jaw with a mechanical motor unit on the first bar, the second jaw having a main section structured and arranged to permit the first bar to move the first jaw relative to the second jaw, a clamping face extending from the main section, a drive lever that couples the first bar, a handle extending from the main section, and a trigger pivoted to the main section; and activating the mechanical motor unit to move the first bar and to force the first jaw toward the second jaw, the activating of the mechanical motor unit occurring by pulling the trigger towards the handle to apply a first force against the drive lever at a first point on the drive lever that is remote from the bar as the trigger pivots with respect to the main section to provide low mechanical advantage to the drive lever, and further pulling the trigger toward the handle to apply a second force against the drive lever at a second point on the drive lever that is closer to the bar than the first contact point as the trigger pivots with respect to the main section to provide high mechanical advantage to the drive lever, wherein the first force is applied against the drive lever before the second force. 19. A method of claim 18, further comprising: removing the first jaw and the second jaw from the first bar; and positioning the first jaw and the second jaw on a second bar, which has a length that is different than the length of the first bar. 20. A method of claim 18, wherein the first force is applied against the drive lever while the second force is applied against the drive lever.
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