A lift that is configured to securely lift, carry and deposit a control unit using three degrees of movement. The lift comprises a chassis having a support frame and a power source connected to the support frame. A pivot member rotatably connects to the support frame, wherein the pivot member has a
A lift that is configured to securely lift, carry and deposit a control unit using three degrees of movement. The lift comprises a chassis having a support frame and a power source connected to the support frame. A pivot member rotatably connects to the support frame, wherein the pivot member has a pivot plate and a rod rotatably connected to the pivot plate. A lift frame connects to the rod of the pivot plate, wherein a lift arm rotatably connects to the lift frame. The lift further comprises a pressurized fluid drive operatively connected to the power source and operatively connected to the pivot plate, the lift frame and the lift arm. The fluid drive is configured to reciprocally move the pivot plate, the lift frame and the lift arm such that the lift arm moves in three degrees of movement with respect to the chassis.
대표청구항▼
1. A lift for carrying a load, the lift comprising: a chassis having a support frame, the support frame having a front end, a back end and opposing side ends;a pivot member rotatably connected to the support frame, the pivot member having a pivot plate and a rod rotatably connected to the pivot plat
1. A lift for carrying a load, the lift comprising: a chassis having a support frame, the support frame having a front end, a back end and opposing side ends;a pivot member rotatably connected to the support frame, the pivot member having a pivot plate and a rod rotatably connected to the pivot plate;a lift frame connected to the rod of the pivot plate, the lift frame having opposing upright members that extend upward from the rod and having a lift arm rotatably connected to the upright members, the lift arm comprising a tine extending outward therefrom; anda pressurized fluid drive operatively connected to the pivot plate, the lift frame and the lift arm, the pressurized fluid drive comprising a pivot cylinder mounted to the support frame and operatively connected to the pivot member, the pivot cylinder configured to pivot the lift frame and the tine from side-to-side between the opposing side ends, and wherein the fluid drive is configured to reciprocally move the pivot plate, the lift frame and the lift arm such that the lift arm moves in three degrees of movement with respect to the chassis. 2. The lift of claim 1 wherein the pressurized fluid drive comprises a lift cylinder vertically mounted to the lift frame and operatively connected to the lift arm. 3. The lift of claim 2 wherein the lift cylinder is configured to raise and lower the lift arm relative to the support frame. 4. The lift of claim 1 wherein the pivot cylinder angularly rotates the pivot member from between about 45 degrees to about 135 degrees as measured between the side ends of the support frame. 5. The lift of claim 1 wherein the pressurized fluid drive comprises a tilt cylinder operatively connected to the lift frame. 6. The lift of claim 5 wherein the tilt cylinder is configured to tilt the lift frame forward and backward about an axis to the support frame. 7. The lift of claim 6 wherein the tilt cylinder angularly rotates the lift frame from between about 45 degrees to about 135 degrees as measured between the front end and the back end of the support frame. 8. The lift of claim 1 wherein each upright member includes a groove and the lift arm includes a rolling member wherein the groove is configured to slidably receive and maintain the rolling member. 9. The lift of claim 1 wherein the support frame includes a pair of outriggers having wheels, the wheeled outriggers being telescopically adjustable to selectively adjust the distance between the outriggers. 10. The lift of claim 1 further comprising a control interface operatively connected to the pressurized fluid drive and configured to selectively manipulate the fluid drive to selectively position the lift arm in the three degrees of motion relative to the chassis. 11. A walk behind lift for carrying a load, the lift comprising: a chassis having a support frame and a power source, the support frame having a front end, a back end, opposing side ends and a handle;a pivot member rotatably connected to the support frame, the pivot member having a pivot plate and a rod rotatably connected to the pivot plate;a lift frame connected to the rod of the pivot plate, the lift frame having opposing upright members that extend upward from the rod and having a lift arm rotatably connected to the upright members; anda pressurized fluid drive operatively connected to the power source, the pressurized fluid drive comprising a lift cylinder vertically mounted to the lift frame and operatively connected to the lift arm to reciprocally move the lift arm vertically, a pivot cylinder angularly mounted to the support frame and operatively connected to the pivot member to pivot the lift frame side-to-side from between about 45 degrees to about 135 degrees as measured between the side ends of the support frame, and a tilt cylinder mounted to the support frame and operatively connected to the lift frame to tilt the lift frame forward and backward about another axis; anda control interface operatively connected to the power source and to the pressurized fluid drive, the control interface being configured to selectively manipulate at least one of the lift cylinder, the tilt cylinder and pivot cylinder to selectively position the lift arm through three degrees of movement relative to the chassis. 12. The lift of claim 11 wherein the tilt cylinder is configured to reciprocally move the lift frame with respect to the support frame from between about 45 degrees to about 135 degrees as measured between the front end and the back end of the support frame. 13. The lift of claim 11 wherein the lift arm is configured to hold the control unit having a weight up to and including 1500 lbs. 14. The lift of claim 11 wherein the support frame includes a pair of outriggers having wheels, the wheeled outriggers being telescopically adjustable to selectively adjust the distance between the outriggers. 15. The lift of claim 14 wherein the pair of wheeled outriggers are adjustably spaced from each other between a range from about 30 inches to about 50 inches. 16. A method of moving an environmental control unit across a terrain and toward an installation site and setting the control unit on the installation site, the method comprising: providing a chassis having a lift frame and having a lift arm adjustably connected to the lift frame;providing a pressurized fluid drive operatively connected to the lift frame and the lift arm; moving the chassis toward the control unit;adjusting wheels of the chassis to set a width distance between the wheels based on a weight of the control unit;loading the control unit onto the lift arm;grasping a handle of the chassis;moving the chassis across the terrain and toward the installation site;selectively activating the pressurized fluid drive to move at least the lift frame and lift arm to maintain the loaded control unit substantially level with respect to the terrain; andselectively activating the pressurized fluid drive to move at least the lift frame and lift arm through three degrees of movement by at least one of vertically lifting the lift arm, by pivotally moving the lift frame from between about 45 degrees to about 135 degrees as measured between the side ends of the chassis and by tilting the lift frame from between about 45 degrees to about 135 degrees as measured between front end and back ends of the chassis to set the control unit on the installation site.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (22)
Francis E. Lanciaux, Jr., Attachable frame for lifting and moving a container.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.