IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0343108
(2001-07-27)
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우선권정보 |
JP-2000-226858(2000-07-27); JP-2001-179828(2001-06-14) |
국제출원번호 |
PCT/JP01/006494
(2001-07-27)
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§371/§102 date |
20030721
(20030721)
|
국제공개번호 |
WO02/009816
(2002-02-07)
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발명자
/ 주소 |
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출원인 / 주소 |
|
대리인 / 주소 |
Knobbe, Martens, Olson &
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인용정보 |
피인용 횟수 :
1 인용 특허 :
3 |
초록
▼
An elevated location descent apparatus comprising a descending device, a braking device and a power transmitting device; the descending device comprising sprockets positioned in a vertical plane, a suspension chain positioned around the sprockets and a payload-suspending means attached to the suspen
An elevated location descent apparatus comprising a descending device, a braking device and a power transmitting device; the descending device comprising sprockets positioned in a vertical plane, a suspension chain positioned around the sprockets and a payload-suspending means attached to the suspension chain, the braking device comprising a fluid pump converting the rotational movement of a crankshaft into the reciprocal movement of pistons, which reciprocal movement causes the fluid pump to receive a fluid from an inlet and discharge the fluid through an outlet, a fluid circulating conduit connecting the outlet of the fluid pump with the inlet of the fluid pump wherein the fluid discharged from the fluid pump circulates, a flow-restricting valve adjusting the amount of the fluid passing through the outlet of the fluid pump to generate the fluid resistance, and a rotational governor controlling the flow-restricting valve based on the rotational speed of the sprocket; the power transmitting device comprising a transmission means that transmits the rotational force of the sprocket of the descending device to the crankshaft of the braking device; and the elevated location descent apparatus being designed to apply braking force to the rotation of the sprocket of the descending device by controlling the flow-restricting valve through the use of the rotational governor to vary the fluid resistance applied to the compression movement of the pistons in accordance with the speed of the sprocket generated by the weight of a payload when the payload is attached to the suspension chain.
대표청구항
▼
The invention claimed is: 1. An elevated location descent apparatus comprising a descending device, a braking device and a power transmitting device, the descending device comprising sprockets positioned in a vertical plane, a suspension chain positioned around the sprockets and a payload-suspendin
The invention claimed is: 1. An elevated location descent apparatus comprising a descending device, a braking device and a power transmitting device, the descending device comprising sprockets positioned in a vertical plane, a suspension chain positioned around the sprockets and a payload-suspending means attached to the suspension chain, the braking device comprising a fluid pump converting the rotational movement of a crankshaft into the reciprocal movement of pistons, which reciprocal movement causes the fluid pump to receive a fluid from an inlet and discharge the fluid through an outlet, a fluid circulating conduit connecting the outlet of the fluid pump with the inlet of the fluid pump in which the fluid discharged from the fluid pump circulates, a flow-restricting valve adjusting the amount of the fluid passing through the outlet of the fluid pump to generate the fluid resistance, and a rotational governor controlling the flow-restricting valve based on the rotational speed of the sprocket, the power transmitting device comprising a transmission means that transmits the rotational force of the sprocket of the descending device to the crankshaft of the braking device, the elevated location descent apparatus being designed to apply braking force to the rotation of the sprocket of the descending device by controlling the flow-restricting valve through the use of the rotational governor to vary the fluid resistance applied to the compressing movement of the pistons in accordance with the rotational speed of the sprocket generated by the weight of a payload when the payload is attached to the suspension chain. 2. An elevated location descent apparatus according to claim 1, wherein the braking device further comprises an auxiliary braking device, the auxiliary braking device comprising a casing filled with the fluid, a pump impeller provided in the casing, a turbine runner provided opposed to the pump impeller and movably placed in the casing so that the distance from the pump impeller is variable and a rotational governor controlling the distance between the pump impeller and the turbine runner in accordance with the rotational speed of the sprocket, the power transmitting device further comprises a transmission means that transmits the rotational force of the sprocket of the descending device to the turbine runner of the auxiliary braking device, the descending device further comprises a vertically movable housing placed in an immovable housing, the vertically movable housing being upwardly urged by springs, an upper sprocket being held in the vertically movable housing, and a lower sprocket being connected to the ground by means of an anchoring spring, and the auxiliary braking means further comprises a controlling means narrowing the distance in accordance with the downward movement of the vertically movable housing, the braking device being designed to apply braking force to the rotation of the sprocket of the descending device by controlling the flow-restricting valve through the use of the rotational governor to vary the fluid resistance applied to the compressing movement of the pistons in accordance with the rotational speed of the sprocket generated by the weight of a payload when the payload is suspended to the suspension chain, and the auxiliary braking device being designed to apply braking force to the rotation of the sprocket of the descending device, before the pistons of the fluid pump generate braking force, in accordance with the downward movement of the vertically movable housing caused by the weight of the payload and narrowing the distance. 3. An elevated location descent apparatus according to claim 2 wherein the controlling means comprises a link mechanism and is designed to move the turbine runner by mechanically acting in accordance with the downward movement of the vertically movable housing. 4. An elevated location descent apparatus according to claim 1, further configured to generate braking force in accordance with the rotational speed of the sprocket so as to lower the payload at a constant rate. 5. An elevated location descent apparatus according to claim 2, wherein a fluid outlet and a fluid inlet provided in the casing are connected by a fluid circulating conduit in which the fluid discharged from the fluid outlet of the casing returns to the fluid inlet of the casing, and a fluid cooling means is provided in the fluid circulating conduit. 6. An elevated location descent apparatus according to claim 1, wherein the payload-suspending means is an escape hook for hooking a safety belt rolled around a human body. 7. An elevated location descent apparatus according to claim 6 wherein the escape hook comprises a hook body grooved to receive the chain, a pair of serrated blades pivotally mounted to the hook body so as to move to open or closed positions, elastic bodies providing spring force to the direction of the closed position of the serrated blades to clamp the suspension chain received in the chain receiving groove and a lever for releasing the suspension chain from the serrated blades by moving the serrated blades to the open position against the spring force provided by the elastic bodies. 8. An elevated location descent apparatus according to claim 7 further comprising a release mechanism in which a hook-shaped arm is horizontally and pivotally mounted to the hook body, with a metal opening portion for the safety belt disposed at the end of the hook-shaped arm, so that when the hook-shaped arm swings upward from a position that results from a payload being suspended on the metal opening portion for the safety belt, the suspension chain is released from the serrated blades. 9. An elevated location descent apparatus according to claim 7, further comprising a release mechanism in which a vertically movable impact lever is provided in the hook body so that it protrudes downward from the hook body in such a way that when the serrated blades are in the closed position, the impact lever protrudes downward by the spring force provided from the elastic bodies, and when the impact lever moves upward against the spring force provided by the elastic bodies, the serrated blades move to the open position and release the hook body from the suspension chain. 10. An elevated location descent apparatus according to claim 2, further configured to generate braking force in accordance with the rotational speed of the sprocket so as to lower the payload at a constant rate. 11. An elevated location descent apparatus according to claim 3, further configured to generate braking force in accordance with the rotational speed of the sprocket so as to lower the payload at a constant rate. 12. An elevated location descent apparatus according to claim 3, wherein a fluid outlet and a fluid inlet provided in the casing are connected by a fluid circulating conduit in which the fluid discharged from the fluid outlet of the casing returns to the fluid inlet of the casing, and a fluid cooling means is provided in the fluid circulating conduit. 13. An elevated location descent apparatus according to claim 4, wherein a fluid outlet and a fluid inlet provided in the casing are connected by a fluid circulating conduit in which the fluid discharged from the fluid outlet of the casing returns to the fluid inlet of the casing, and a fluid cooling means is provided in the fluid circulating conduit. 14. An elevated location descent apparatus according to claim 2, wherein the payload-suspending means is an escape hook for hooking a safety belt rolled around a human body. 15. An elevated location descent apparatus according to claim 3, wherein the payload-suspending means is an escape hook for hooking a safety belt rolled around a human body. 16. An elevated location descent apparatus according to claim 4, wherein the payload-suspending means is an escape hook for hooking a safety belt rolled around a human body. 17. An elevated location descent apparatus according to claim 5, wherein the payload-suspending means is an escape hook for hooking a safety belt rolled around a human body. 18. An elevated location descent apparatus according to claim 8, further comprising a release mechanism in which a vertically movable impact lever is provided in the hook body so that it protrudes downward from the hook body in such a way that when the serrated blades are in the closed position, the impact lever protrudes downward by the spring force provided from the elastic bodies, and when the impact lever moves upward against the spring force provided by the elastic bodies, the serrated blades move to the open position and release the hook body from the suspension chain.
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