1. A directly-driven power swing rod device without dead points comprising:
A control rod provided at its bottom with a coordinate rod base, said coordinate rod base bored with a lateral guide hole having a wide space in opposite sides, a vertical center hole bored at a central portion under said guide hole and extending upward through and out of said guide hole, a positioning hole provided in one side of said coordinate rod base, said positioning hole located flush with but perpendicular to said guide hole:
A first and a second L-shaped frame respectively formed with a lateral wall and a vertical wall, said first and said second L-shaped frame arranged together to define a square opening for said coordinate rod base of said control rod to be positioned therein, said first L-shaped frame provided on its lateral wall with a hole base corresponding to said guide hole of said coordinate rod base, said hole base having a bearing hole with a bearing fixed therein with a bearing, said second L-shaped frame provided on its vertical wall with a hole base facing said positioning hole of said coordinate rod base, said hole base having a bearing hole installed therein with a bearing:
Two motors respectively provided with a position detecting coder, said position detecting coder receiving a coordinate message and immediately transmitting it to a control device, said control device able to control the rotating angles of said motor, said motors respectively disposed on said vertical wall of said first L-shaped frame and said lateral wall of said second L-shaped frame, said motors respectively having their shafts connected with said vertical wall of said first L-shaped frame and said lateral wall of said second L-shaped frame: and
A first and a second interacting member respectively inserted in said guide hole and said positioning hole of said coordinate rod base, said first interacting member inserted through said guide hole of said coordinate rod base and extending out of said bearing hole in said lateral wall of said first L-shaped frame to be positioned thereon, said first interacting member bored in the center with a vertical through hole conforming to said vertical center hole of said rod base, a bolt inserted from under said center hole of said rod base and passing through said through hole of said first interacting member, said bolt finally engaging with the upper end of said center hole of said coordinate rod base, said second interacting member having one end inserted in said positioning hole of said coordinate rod base, said second interacting member having the other end fitted in said bearing hole in said vertical wall of said second L-shaped frame:
Said control rod controlled to move and produce deflection, said position detecting coders of said two motors detecting a coordinate message and transmitting it to said control device, said control device controlling said two motors to rotate or stop rotating and controlling the extent of the angle to be rotated, said control device able to precisely control the rotating angle of said shafts of said motors, said shafts driving said first and said second L-shaped frame to swing to supply said control rod with an auxiliary power to enable a user to handle said control rod with less force so that said control rod device can be driven directly with effects of heavy load and high-speed response.
2. The directly power swing rod device without dead points as claimed in claim 1, wherein said coordinate rod base of said control rod together with said two L-shaped frames has the outer circumferential sides partitioned off and shielded by a protective frame having a round opening at the topside for the upper portion of said control rod to extend up therethrough and be limited in shifting angles by said round opening.
3. The directly driven power swing rod device without dead points as claimed in claim 1, wherein said coordinate rod base is bored in the center with a lateral guide hole with a capsule shape.
4. The directly driven power swing rod, device without dead points as claimed in claim 1, wherein said positioning hole of said coordinate rod base is formed with female threads, and said second interacting member has one end formed with a threaded end to be threadably connected with said positioning hole.
5. The directly driven power swing rod device without dead points as claimed in claim 1, wherein said vertical center hole of said coordinate rod base has its upper end extending out of said guide hole and formed therein with female threads, with a bolt inserted from under said vertical center hole and passing through said through hole of said first interacting member and then engaging with said female threads of said center hole of said coordinate rod base.
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 adaptor device configured to be mounted on a cable guard of a compound archery bow for use in carrying a compound archery bow on a harness around the body of a user, said adaptor device comprising:
a substantially cylindrical body portion, said substantially cylindrical body portion comprising:
a first end and a second end;
a middle portion;
said first end of said substantially cylindrical body portion comprising a first end portion;
said second end of said substantially cylindrical body portion comprising a second end portion;
said first end portion comprising a rear extension piece;
said rear extension piece comprising two holes being configured to receive and securely hold a carrier ring to connect said adaptor device, and thus a compound archery bow, to a harness worn by a user;
a rectangular open portion being disposed through said first end portion, said middle portion, and said second end portion;
an open side, said open side exposing said open portion to permit connection of said adaptor device to a cable guard of a compound archery bow, and disconnection of said adaptor device from a cable guard of a compound archery bow;
said middle portion of said substantially cylindrical body portion having a set of locking grooves disposed on each side of said open side and disposed parallel to said open side, said locking grooves running from said first end portion to said second end portion;
a moveable locking device, said moveable locking device comprising:
a substantially C-shaped piece;
an extended tab disposed at one end of said substantially C-shaped piece and extending horizontally from said substantially C-shaped piece; and
a locking lip disposed at the convergence of the inner edge of said substantially C-shaped piece and said extended tab;
said tab being configured to be pushed to move said locking device between:
an open, non-locked position in which said open side of said open portion is open and uncovered to permit connection of said adaptor device to a cable guard of a compound archery bow, and disconnection of said adaptor device from a cable guard of a compound archery bow; and
a closed, locked position in which said locking device covers and substantially closes said open side of said body portion to lock a cable guard of a compound archery bow therein to permit carrying of a compound archery bow on a harness worn by a user; and
said locking lip being configured and disposed to engage with said locking grooves upon said moveable locking device being moved into said closed, locked position.
2. The adaptor device according to claim 1, wherein said adaptor device is configured to be disposed substantially between the handle portion and the cables of a compound archery bow.
3. The adaptor device according to claim 2, wherein:
said adaptor device is configured to be used by both left handed and right handed users;
said adaptor device comprises plastic nylon;
said rectangular open portion is non-curvilinear, elliptical, circular, or non-circular; and
said first end portion and said second end portion are configured and disposed to hold said locking device in place on said substantially cylindrical body portion.
4. An adaptor device being configured to be mounted on a cable guard of a compound archery bow for use in carrying said compound archery bow on a harness of a user, said adaptor device comprising:
a substantially cylindrical body portion, said substantially cylindrical body portion comprising:
a top end, a middle portion, and a bottom end;
said top end comprising a rear extension piece;
said rear extension piece comprising at least one hole being configured and disposed to receive and securely hold a carrier ring;
an open portion being disposed through said substantially cylindrical body portion;
an open side, said open side exposing said open portion to permit connection of said adaptor device to a cable guard of a compound archery bow, and disconnection of said adaptor device from a cable guard of a compound archery bow;
a set of locking grooves disposed on each side of said open side of said open portion and disposed parallel to said open portion, said locking grooves running from said top end to said bottom end;
a locking device, said locking device comprising:
a substantially C-shaped piece;
a tab being disposed at one end of said substantially C-shaped piece and extending horizontally from said substantially C-shaped piece; and
a locking lip being disposed at the convergence of the inner edge of said substantially C-shaped piece and said tab;
said tab being configured to be pushed to move said locking device between:
an open, non-locked position in which said open side of said open portion is open and uncovered to permit connection of said adaptor device to a cable guard of a compound archery bow, and disconnection of said adaptor device from a cable guard of a compound archery bow; and
a closed, locked position in which said locking device covers and substantially closes said open side of said body portion to lock a cable guard of a compound archery bow therein to permit carrying of a compound archery bow on a harness worn by a user; and
said locking lip being configured and disposed to engage with said locking grooves upon said locking device being moved into a closed, locked position.
5. The adaptor device according to claim 4, wherein:
said top end of said substantially cylindrical body portion comprises a first end portion; and
said bottom end of said substantially cylindrical body portion comprises a second end portion.
6. The adaptor device according to claim 5, wherein said first end portion and said second end portion are configured and disposed to hold said locking device in place on said substantially cylindrical body portion.
7. The adaptor device according to claim 6, wherein said adaptor device is configured to be disposed substantially between the handle portion and the cables of a compound archery bow.
8. The adaptor device according to claim 7, wherein said adaptor device is configured to be used by both left handed and right handed users.
9. The adaptor device according to claim 8, wherein said adaptor device comprises plastic nylon.
10. The adaptor device according to claim 9, wherein said open portion is rectangular, non-curvilinear, elliptical, circular, or non-circular.
11. An adaptor device being configured to connect a compound archery bow to a harness worn by a user to permit carrying of a compound archery bow on a harness worn by a user, said adaptor device comprising:
a body portion, said body portion comprising:
a connecting structure being configured to connect said body portion to a harness worn by a user;
an open portion being disposed through said body portion and being configured to receive an elongated portion of a compound archery bow therein; and
an open side, said open side exposing said open portion to permit connection of said adaptor device to an elongated portion of a compound archery bow, and disconnection of said adaptor device from an elongated portion of a compound archery bow;
a moveable locking device being configured to be moved between:
an open, non-locked position in which said open side of said open portion is open and uncovered to permit connection of said adaptor device to an elongated portion of a compound archery bow, and disconnection of said adaptor device from an elongated portion of a compound archery bow; and
a closed, locked position in which said locking device covers and substantially closes said open side of said body portion to lock an elongated portion of a compound archery bow therein to permit carrying of a compound archery bow on a harness worn by a user;
said body portion comprises a locking structure disposed on at least one side of said open side of said open portion; and
said locking device comprises a locking structure configured and disposed to engage with said locking structure of said body portion to permit locking of said locking device in said closed, locked position.
12. The adaptor device according to claim 11, wherein:
said locking structure of said locking device comprises a lip; and
said locking structure of said body portion comprises a groove configured to engage with said lip.
13. The adaptor device according to claim 12, wherein said body portion is substantially C-shaped.
14. The adaptor device according to claim 13, wherein said adaptor device is configured to be connected to a cable guard of a compound archery bow.
15. The adaptor device according to claim 14, wherein:
said connecting structure of said body portion comprises a rear extension piece; and
said rear extension piece comprises at least one hole being configured and disposed to receive and securely hold a carrier ring configured to be connected to a harness worn by a user.
16. The adaptor device according to claim 15, wherein said adaptor device is configured to be disposed substantially between the handle portion and the cables of a compound archery bow.
17. The adaptor device according to claim 16, wherein said adaptor device is configured to be used by both left handed and right handed users.
18. The adaptor device according to claim 17, wherein said adaptor device comprises plastic nylon.
19. The adaptor device according to claim 18, wherein said open portion is rectangular, non-curvilinear, elliptical, circular, or non-circular.