An elevator includes hoisting ropes and a compensating device. The hoisting ropes include first rope portions under a first rope tension that go upward from an elevator car and second rope portions under a different, second rope tension that go downward from the elevator car. The compensating device
An elevator includes hoisting ropes and a compensating device. The hoisting ropes include first rope portions under a first rope tension that go upward from an elevator car and second rope portions under a different, second rope tension that go downward from the elevator car. The compensating device acts in substantially opposite directions on the first and second rope portions in order to do one or more of the following: equalize the first, second, or first and second rope tensions; compensate the rope tensions between the first and second rope tensions; equalize rope elongation in the first, second, or first and second rope portions; compensate the rope elongations between the first and second rope portions; and render a ratio of the first rope tension to the second rope tension substantially constant. The compensating device produces an auxiliary force acting substantially in a same direction as the first rope tension.
대표청구항▼
1. An elevator without counterweight, comprising: an elevator car;a set of hoisting ropes;a traction sheave; anda compensating device;wherein the elevator car is at least partially supported using the set of hoisting ropes,wherein the set of hoisting ropes includes at least one rope or a number of p
1. An elevator without counterweight, comprising: an elevator car;a set of hoisting ropes;a traction sheave; anda compensating device;wherein the elevator car is at least partially supported using the set of hoisting ropes,wherein the set of hoisting ropes includes at least one rope or a number of parallel ropes,wherein the traction sheave moves the elevator car using the set of hoisting ropes,wherein the set of hoisting ropes includes first and second rope portions,wherein the elevator car includes one or more first diverting pulleys from which the first rope portions extend upward from both sides of the one or more first diverting pulleys,wherein the elevator car includes one or more second diverting pulleys from which the second rope portions extend downward from both sides of the one or more second diverting pulleys,wherein the first rope portions are under a first rope tension,wherein the second rope portions are under a second rope tension that is different from the first rope tension,wherein the compensating device acts in substantially opposite directions on the first and second rope portions in order to do one or more of the following: compensate the rope tensions between the first and second rope tensions;compensate the rope elongations between the first and second rope portions; andrender a ratio of the first rope tension to the second rope tension substantially constant;wherein the compensating device produces an auxiliary force acting substantially in a same direction as the first rope tension, andwherein the compensating device includes: a first diverting pulley, located below the elevator car, that acts directly and in the substantially opposite directions on the first and second rope portions; anda buffer that dampens impacts on the first diverting pulley and reduces slackening of the set of hoisting ropes due to the impacts. 2. The elevator of claim 1, wherein the compensating device further includes a track, and wherein a motion of the compensating device on the track is guided by at least one of guide rails and guiding ropes. 3. The elevator of claim 2, where the guide rails are made from metallic or plastic material. 4. The elevator of claim 1, wherein the second rope tension is increased in relation to the first rope tension by utilizing the auxiliary force acting substantially in the same direction as the first rope tension. 5. The elevator of claim 1, wherein the compensating device includes an auxiliary device fitted within the elevator to produce the auxiliary force acting substantially in the same direction as the first rope tension. 6. The elevator of claim 1, wherein the auxiliary force acting substantially in the same direction as the first rope tension is produced by a gravitational force caused by a mass of the first diverting pulley. 7. The elevator of claim 1, wherein a mass moving with the first diverting pulley is increased using an auxiliary weight to produce the auxiliary force acting substantially in the same direction as the first rope tension. 8. The elevator of claim 1, wherein the compensating device includes more than one first diverting pulley. 9. The elevator of claim 1, wherein the elevator car is provided with one or more second diverting pulleys that increase a suspension ratio above the elevator car and from which the hoisting ropes go upward, and wherein the elevator car is provided with one or more third diverting pulleys that increase the suspension ratio below the elevator car and from which the hoisting ropes go downward. 10. The elevator of claim 1, wherein the elevator is without machine room. 11. The elevator of claim 1, wherein the auxiliary force acting substantially in the same direction as the first rope tension is produced by a gravitational force caused by a mass of the first diverting pulley and that of a suspension of the first diverting pulley. 12. The elevator of claim 1, wherein the first diverting pulley functions as a compensating wheel. 13. The elevator of claim 1, wherein the first diverting pulley is supported by the buffer when the rope elongation of the set of hoisting ropes has been completely discharged. 14. The elevator of claim 1, wherein the first diverting pulley, located below the elevator car, acts in the substantially opposite directions on rope portions extending from the first diverting pulley. 15. A method for forming an elevator without counterweight, the elevator comprising an elevator car, a set of hoisting ropes, a traction sheave, and a compensating device, the method comprising: at least partially supporting the elevator car using the set of hoisting ropes;causing the traction sheave to move the elevator car using the set of hoisting ropes; andproducing an auxiliary force using the compensating device;wherein the set of hoisting ropes includes at least one rope or a number of parallel ropes,wherein the set of hoisting ropes includes first and second rope portions,wherein the elevator car includes one or more first diverting pulleys from which the first rope portions extend upward from both sides of the one or more first diverting pulleys,wherein the elevator car includes one or more second diverting pulleys from which the second rope portions extend downward from both sides of the one or more second diverting pulleys,wherein the first rope portions are under a first rope tension,wherein the second rope portions are under a second rope tension that is different from the first rope tension,wherein the compensating device acts in substantially opposite directions on the first and second rope portions in order to do one or more of the following: compensate the rope tensions between the first and second rope tensions;compensate the rope elongations between the first and second rope portions; andrender a ratio of the first rope tension to the second rope tension substantially constant;wherein the auxiliary force acts substantially in a same direction as the first rope tension, andwherein the compensating device includes: a first diverting pulley, located below the elevator car, that acts directly and in the substantially opposite directions on the first and second rope portions; anda buffer that dampens impacts on the first diverting pulley and reduces slackening of the set of hoisting ropes due to the impacts. 16. The method of claim 15, wherein the auxiliary force is caused by one or more of a mass of the first diverting pulley, a mass of suspensions of the first diverting pulley, and a mass of auxiliary weights used with the first diverting pulley. 17. The method of claim 15, wherein the auxiliary force is used to change the ratio of the first rope tension to the second rope tension. 18. The method of claim 15, wherein the elevator is without machine room. 19. The method of claim 15, wherein the first diverting pulley is supported by the buffer when the rope elongation of the set of hoisting ropes has been completely discharged. 20. Use of an auxiliary force that is produced in a compensating device of an elevator, the elevator including an elevator car and a set of hoisting ropes, and that acts substantially in a same direction of a first rope tension in the elevator, wherein the set of hoisting ropes includes first and second rope portions,wherein the elevator car includes one or more first diverting pulleys from which the first rope portions extend upward from both sides of the one or more first diverting pulleys,wherein the elevator car includes one or more second diverting pulleys from which the second rope portions extend downward from both sides of the one or more second diverting pulleys,wherein the first rope portions are under the first rope tension,wherein the second rope portions are under a second rope tension that is different from the first rope tension,wherein the compensating device acts in substantially opposite directions on the first and second rope portions in order to do one or more of the following: compensate the rope tensions between the first and second rope tensions;compensate the rope elongations between the first and second rope portions; andrender a ratio of the first rope tension to the second rope tension substantially constant, andwherein the compensating device includes a first diverting pulley, located below the elevator car, that acts directly and in the substantially opposite directions on the first and second rope portions. 21. The use of claim 20, wherein the elevator is without machine room.
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이 특허에 인용된 특허 (11)
Biewald Joachim (Winnenden/Degenhof DEX) Scheub Volker (Waiblingen DEX) Holler Helge (Pforzheim DEX) Fenkl Karl (Stuttgart DEX) Hugel Stefan (Schwaikheim DEX) Barth Wolfgang (Bietigheim-Bissingen DEX, Cable tensioning device for elevators.
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