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A stabilizer cable has a first end and a second end, wherein the first end is coupled to a crane load. The stabilizer cable loops around a boom pulley that is attached to a crane boom, then runs through a traveler pulley, then loops around a floating pulley, then loops around a deflector pulley. The

A stabilizer cable has a first end and a second end, wherein the first end is coupled to a crane load. The stabilizer cable loops around a boom pulley that is attached to a crane boom, then runs through a traveler pulley, then loops around a floating pulley, then loops around a deflector pulley. The deflector pulley and the second end of the stabilizer cable are positioned such that an increase in tension of the stabilizer cable urges the suspended load toward the traveler pulley. Other embodiments are also described.

대표청구항 ▼

1. A system for sideways positioning or stabilizing of a load that is suspended from a crane, the system comprising: a crane boom;a lifting cable running alongside the crane boom and to be coupled to a load so as to suspend the load;a boom pulley attached to the crane boom;a floating pulley;a means

1. A system for sideways positioning or stabilizing of a load that is suspended from a crane, the system comprising: a crane boom;a lifting cable running alongside the crane boom and to be coupled to a load so as to suspend the load;a boom pulley attached to the crane boom;a floating pulley;a means for pulling the floating pulley;a traveler pulley;a deflector pulley; anda stabilizer cable with a first end and a second end, wherein the first end is to be coupled to the load, and wherein the stabilizer cable is to then loop around the boom pulley, then run through the traveler pulley, then loop around the floating pulley, and then loop around the deflector pulley, wherein the deflector pulley and the second end of the stabilizer cable are positioned such that an increase in tension of the stabilizer cable urges the suspended load toward the traveler pulley. 2. The system of claim 1, wherein the means for pulling the floating pulley is one of: (a) an adjuster rope and an adjuster drum winch, (b) an adjuster rope and an adjuster traction winch, (c) a linear actuator with a hydraulic motor, (d) a linear actuator with a pneumatic motor, or (e) a linear actuator with an electro-mechanical motor. 3. The system of claim 1, wherein the deflector pulley is attached to the load, or to a ballast that is attached to the lifting cable, or to a hook from which the load is suspended, and further wherein the second end of the stabilizer cable is attached to the traveler pulley. 4. The system of claim 1, wherein the deflector pulley is attached to the traveler pulley, and further wherein the second end of the stabilizer cable is attached to one of (a) the load, (b) a ballast that is attached to the lifting cable, or (c) a hook to which the load is attached. 5. The system of claim 1, wherein the means for pulling is operable to apply one of (a) a tightening force that increases the tension in the stabilizer cable by moving the floating pulley downward, (b) a holding force that maintains the same tension in the stabilizer cable by maintaining the position of the floating pulley, or (c) a loosening force that decreases the tension in the stabilizer cable thereby allowing the floating pulley to move upward due to the tension of the stabilizer cable that is looped around the floating pulley. 6. The system of claim 5 further comprising a crane base to which the crane boom is attached, wherein applying the tightening force by the pulling means is operable to move the suspended load horizontally or sideways so that the load is moved closer to the traveler pulley without moving the crane boom. 7. The system of claim 5 further comprising a crane cab in which a human operator is to be positioned when operating the crane to lift and lower the suspended load, wherein forces applied by the means for pulling are controlled by one of (a) a control interface in the crane cab, or (b) a wireless radio-signal remote control device. 8. The system of claim 1, wherein the load is a wrecking ball. 9. A system for use with a crane that suspends a load from a hook, the crane including a boom and a lifting cable, a first end of the lifting cable wrapped around a lifting winch, the lifting cable coupled to the hook, the system comprising: a stabilizer cable having a first end and a second end;a first attachment mechanism that couples the first end of the stabilizer cable to the hook;a boom pulley coupled to the boom, wherein the stabilizer cable runs from the first attachment mechanism to wrap around the boom pulley;a floating pulley, wherein the stabilizer cable runs from the boom pulley to wrap around the floating pulley;a traveler pulley positioned to travel along a section of the stabilizer cable between the boom pulley and the floating pulley;a pulling mechanism, wherein the floating pulley is coupled to the pulling mechanism;a deflector pulley coupled to the hook or the traveler pulley, wherein the stabilizer cable runs from the floating pulley to wrap around the deflector pulley; anda second attachment mechanism that couples the second end of the stabilizer cable to the hook or the traveler pulley, and wherein the stabilizer cable runs from the deflector pulley to the second attachment mechanism. 10. The system of claim 9, wherein the pulling mechanism comprises: an adjuster cable, wherein a first end of the adjuster cable is attached to the floating pulley; andan adjuster winch, wherein a second end of the adjuster cable is wrapped around the adjuster winch. 11. The system of claim 10, wherein the adjuster winch is a drum winch. 12. The system of claim 9, wherein the pulling mechanism comprises: a linear actuator rod attached to the floating pulley; anda motor to power the linear actuator rod, the motor being one of (a) hydraulic, (b) pneumatic, or (c) electro-mechanical. 13. The system of claim 9, wherein the pulling mechanism is operable to apply one of (a) a tightening force to increase the tension in the stabilizer cable, (b) a holding force to maintain tension in the stabilizer cable, or (c) a loosening force operable to decrease the tension in the stabilizer cable. 14. The system of claim 13, wherein applying the tightening force of the pulling mechanism is operable to move the suspended load substantially horizontally so that the load is moved closer to the boom of the crane, without moving the boom of the crane and without moving a base of the crane to which the boom is attached. 15. The system of claim 9, wherein the deflector pulley is attached to the traveler pulley and the second attachment mechanism couples the second end of the stabilizer cable to the hook. 16. The system of claim 9, wherein the deflector pulley is coupled to the hook, and the second attachment mechanism attaches the second end of the stabilizer cable to the traveler pulley. 17. A method for stabilizing or controlling horizontal positioning of a load that is held by a hook of a crane, the crane including a boom, a lifting cable, a first end of the lifting cable wrapped around the lifting winch, and wherein the lifting cable is coupled to the hook, the method comprising: coupling a first end of a stabilizer cable to the load;passing the stabilizer cable through a boom pulley that is coupled to the crane boom;passing the stabilizer cable through a traveler pulley;passing the stabilizer cable through a floating pulley that is attached to a pulling mechanism; and one of (i) passing the stabilizer cable through a deflector pulley that is coupled to the load and attaching a second end of the stabilizer cable to the traveler pulley, or(ii) passing the stabilizer cable through a deflector pulley that is attached to the traveler pulley and coupling a second end of the stabilizer cable to the load. 18. The method of claim 17, further comprising: activating the pulling mechanism to pull the floating pulley downward, hold the floating pulley in place, and allow the floating pulley to be pulled upward, thereby respectively increasing, holding, and decreasing tension along the stabilizer cable. 19. The method of claim 18, wherein activating the pulling mechanism to increase tension in the stabilizer cable is operable to move the load substantially horizontally closer to the boom of the crane without moving the boom of the crane or a base of the crane. 20. The method of claim 17, wherein the stabilizer cable forms a closed loop, the method further comprising activating the lifting winch in one direction to take in the lifting cable and thereby raise the load, and activating the lifting winch in an opposite direction to let out the lifting cable and thereby lower the load, wherein the closed loop of the stabilizer cable automatically rotates in one direction while the load rises and in an opposite direction while the load falls.