1. A tree pruner comprising:
a handle mounted with a first pulley;
a stationary cutting blade mounted on the handle and provided with a transmission teeth portion;
a driving bar mounted with a second pulley and provided with a driving teeth portion engaged with the transmission teeth portion, and a positioning portion;
a pull cord connected with the handle and running over the first pulley and the second pulley such that the pull cord is pullable to move the driving bar;
a spring member having one end fastened to the stationary cutting blade and the other end fastened to the driving bar;
a movable cutting blade pivotally mounted on the stationary cutting blade and the driving bar and moveable relative to the stationary cutting blade by the driving bar; and
a positioning member pivotally mounted on the stationary cutting blade and pivotable between a first position where the positioning member is engaged with the positioning portion of the driving bar to lock the driving bar such that the driving bar can not drive the moveable cutting blade to move relative to the stationary cutting blade and a second position where the positioning member is disengaged with the positioning portion of the driving bar such that the driving bar is moveable to drive the moveable cutting blade to move relative to the stationary cutting blade.
2. The tree pruner as claimed in claim 1, wherein the positioning portion is a protrusion, and the positioning member has a hook engageable with the protrusion when the positioning member is located at the first position.
3. The tree pruner as claimed in claim 2, wherein the positioning member has a tab pushable by the user to move the positioning member between the first position and the second position.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. An apparatus for the installation and removal of curved screen elements in a mechanical shaker, comprising:
a screen bed, which houses at least one pneumatic control device;
a carrier frame, which sits on said screen bed, and where said curved screen elements are supported;
a plurality of hold down bars; and
a carrier frame mounting bracket assembly, which is connected to said hold down bars and said pneumatic control device, where said pneumatic control device vertically positions said hold down bars;
wherein said carrier frame comprises a plurality of curved supports each having a valley between two peaks and supporting one of said curved screen elements;
wherein each of said curved supports shares at least one peak with another of said curved supports; and
wherein there is one of said hold down bars slidingly disposed through said carrier frame at each of said shared peaks.
2. The apparatus of claim 1, wherein said carrier frame further comprises a plurality of hold down bar guides, wherein one of said hold down bar guides is attached at each of said shared peaks, and wherein each of said guides comprises a curved shape having a valley with an opening in said guide valley configured so that a portion of one of said hold down bars can slidingly move through said opening and remain connected with said carrier frame mounting bracket assembly during said vertical positioning.
3. The apparatus of claim 2, wherein said pneumatic control device is configured to move said hold down bars upward to a first position that does not resist the sliding movement of said screen elements into or away from said carrier frame, and downward to a second position that resists movement of said screen elements from said carrier frame and which clamps said carrier frame with said screen bed.
4. The apparatus of claim 3, wherein each of said hold down bars has two opposing ledges and each of said ledges is configured to clamp an edge of one of said screen elements against said carrier frame when said hold down bars are in said second position.
5. The apparatus of claim 4, wherein each of said hold down bars comprises two connected metal plates and each of said plates has one of said ledges.
6. An apparatus for the installation and removal of screen elements in a mechanical shaker, comprising:
curved screen elements;
a mounting bracket assembly;
a carrier frame, which sits on a screen bed and over the mounting bracket assembly and which supports the curved screen elements;
a plurality of hold down bars which are slid through the carrier frame and attached to the mounting bracket assembly;
a plurality of hold down bar guides each having a valley with a first opening;
a pneumatic cylinder having a piston,
the mounting bracket assembly being connected to the piston of the pneumatic cylinder; and
the hold down bars being configured to be pneumatically moved upward and downward through the carrier frame;
wherein said carrier frame comprises a plurality of curved supports each having a valley between two peaks and supporting one of said curved screen elements;
wherein each of said curved supports shares at least one peak with another of said curved supports;
wherein there is one of said hold down bar guides positioned at each of said shared peaks; and
wherein there is one of said hold down bars slidingly disposed through said first opening of each of said hold down bar guides.
7. The apparatus of claim 6, wherein said hold down bars are configured to be pneumatically moved between a downward position that resists movement of said screen elements away from said carrier frame, and an upward position that does not resist the sliding movement of said screen elements into or away from said carrier frame.
8. The apparatus of claim 7, wherein each of said hold down bars has two ledges and each of said ledges is configured to clamp an edge of one of said screen elements to said carrier frame when said hold down bar is in said downward position.
9. The apparatus of claim 8, wherein each of said hold down bars comprises two connected metal plates and each of said plates has one of said ledges.
10. The apparatus of claim 9, wherein each of said hold down bar guides has a second opening, and wherein there is one of said hold down bars slidingly disposed through said first opening and said second opening of each of said hold down bar guides.
11. The apparatus of claim 10, wherein said piston is configured to be pneumatically moved upward to move said mounting bracket assembly upward, and wherein said piston is configured to be pneumatically moved downward to move said mounting bracket assembly downward.
12. A method for the installation and removal of curved screen elements in a mechanical shaker, comprising the steps of:
pneumatically moving a plurality of hold down bars up through openings in a carrier frame in said shaker to a first position that does not resist the sliding movement of said curved screen elements into or away from said carrier frame; and
pneumatically moving said hold down bars down through said openings to a second position that resists the sliding movement of said curved screen elements into or away from said carrier frame,
wherein said carrier frame comprises a plurality of curved supports each having a valley between two peaks and configured to support one of said curved screen elements,
wherein each of said curved supports shares at least one peak with another of said curved supports, and
wherein there is one of said hold down bars slidingly disposed through said carrier frame at each of said shared peaks.
13. The method of claim 12, further comprising the steps of:
sliding said screen elements on said curved supports when said hold down bars are in said first position;
clamping said screen elements to said carrier frame with ledges on said hold down bars when said hold down bars are in said second position; and
locking said carrier frame with a screen bed with said ledges on said hold down bars when said hold down bars are in said second position.
14. The method of claim 13, further comprising the steps of:
shaking said screen elements with said mechanical shaker after the step of clamping;
moving said hold down bars to said first position after the step of shaking; and
sliding said screen elements away from said carrier frame.
15. The method of claim 14, further comprising the steps of:
pneumatically moving a piston upward to move said hold down bars to said first position; and
pneumatically moving said piston downward to move said hold down bars to said second position.
16. The method of claim 15, wherein said carrier frame has a plurality of hold down bar guides each having a \u201cU\u201d shape with a valley having an opening, wherein there is one of said hold down bar guides attached at each of said shared peaks, and wherein each of said openings has one of said hold down bars slidingly positioned therein.
17. The method of claim 16, wherein each of said hold down bars has two opposing ledges and each of said ledges is configured to clamp an edge of one of said screen elements against said carrier frame when said hold down bar is in said second position.
18. The method of claim 17, wherein each of said hold down bars comprises two connected metal plates and each of said plates has one of said ledges.
19. The apparatus of claim 18, wherein each of said hold down bar guides has two openings, and wherein there is one of said hold down bars slidingly disposed through said two openings of each of said hold down bar guides.