EP1953110A1 - Unite de levage pour installation d ascenseur et procede de montage de cable pour ascenseur - Google Patents

Unite de levage pour installation d ascenseur et procede de montage de cable pour ascenseur Download PDF

Info

Publication number: EP1953110A1
Authority: EP; European Patent Office
Prior art keywords: main rope; leader; hoisting machine; elevator; sheave
Prior art date: 2005-11-22
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Withdrawn

Application number

EP05809382A

Other languages

German (de)

English (en)

Other versions

EP1953110A4 (fr

Inventor

Naoyuki c/o Mitsubishi Denki Kabushiki Kaisha MARUYAMA

Kenichi c/o Mitsubishi Denki Kabushiki Kaisha NAKAHASHI

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Mitsubishi Electric Corp

Original Assignee

Mitsubishi Electric Corp

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

2005-11-22

Filing date

2005-11-22

Publication date

2008-08-06

2005-11-22 Application filed by Mitsubishi Electric Corp filed Critical Mitsubishi Electric Corp

2008-08-06 Publication of EP1953110A1 publication Critical patent/EP1953110A1/fr

2012-09-26 Publication of EP1953110A4 publication Critical patent/EP1953110A4/fr

Status Withdrawn legal-status Critical Current

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Classifications

- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B19/00—Mining-hoist operation
- B66B19/02—Installing or exchanging ropes or cables
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B7/00—Other common features of elevators
- B66B7/06—Arrangements of ropes or cables
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B11/00—Main component parts of lifts in, or associated with, buildings or other structures
- B66B11/0065—Roping
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B7/00—Other common features of elevators

Definitions

the present invention relates to a hoisting machine unit for installing an elevator, which is mounted with a hoisting machine for raising/lowering a car and a counterweight, and to a method of looping a main rope for the elevator.
a flat band-shaped leader strip made of an elastic material is coupled to the main rope, thrust into the housing from an entrance hole thereof, moved along an inner surface of the housing, and then pulled out from an exit hole of the housing to loop the main rope around the driving sheave.
the main rope is looped around the driving sheave after the hoisting machine has been installed in a hoistway (see Patent Document 1).
Patent Document 1 JP 2002-362851 A
the present invention has been made to solve the above-mentioned problem, and it is therefore an obj ect of the present invention to obtain a hoistingmachine unit for installing an elevator and a method of looping a main rope for an elevator which make it possible to loop the main rope around a sheave with ease.
a hoisting machine unit for installing an elevator includes: an attachment frame; a hoisting machine having a driving sheave and provided on the attachment frame; a leader strip, which is looped around the driving sheave, for pulling and moving a main rope for suspending a car to loop the main rope around the driving sheave; and a holding device for holding both ends of the leader strip with respect to the attachment frame.
Fig. 1 is a plan view showing a hoisting machine unit for installing an elevator according to Embodiment 1 of the present invention.
a hoisting machine unit 1 for installing an elevator is installed in an upper portion within a hoistway in setting up the elevator.
a car (not shown) and a counterweight (not shown) are suspended within the hoistway by means of a plurality of first main ropes and a plurality of second main ropes after the hoisting machine unit 1 for installing the elevator has been installed in the upper portion within the hoistway.
the hoisting machine unit 1 for installing the elevator has an attachment frame 2, a unit-mounted component 3 provided on the attachment frame 2, a plurality of first leader strips 4 for conducting the respective first main ropes to the unit-mounted component 3, and a plurality of second leader strips 5 for conducting the respective second main ropes to the unit-mounted component 3.
the unit-mounted component 3 has a hoisting machine 6, a first car-side return sheave 9, a second car-side return sheave 10, a first counterweight-side return sheave 11, a second counterweight-side return sheave 12, and a turning sheave 13.
the hoisting machine 6 has a hoisting machine body 7 including a motor, and a driving sheave 8 that is rotated by the hoisting machine body 7.
the hoisting machine 6 is designed as a low-profile hoisting machine having a structure in which the driving sheave 8 is larger in radial dimension than in axial dimension.
the first car-side return sheave 9, the second car-side return sheave 10, the first counterweight-side return sheave 11, the second counterweight-side return sheave 12, and the turning sheave 13 are designed as driven sheaves that are rotated as the driving sheave 8 rotates when the first main ropes and the second main ropes are attached to the unit-mounted component 3.
Respective rotational shafts of the first car-side return sheave 9, the second car-side return sheave 10, the first counterweight-side return sheave 11, and the second counterweight-side return sheave 12 are disposed perpendicularly to a rotational shaft of the driving sheave 8.
a plurality of groove portions are provided in an outer peripheral portion of each of the sheaves 8 to 13 along a rotational direction thereof.
Main rope latches 14 to 19, which face the outer peripheral portions of the sheaves 8 to 13, respectively, are attached to the sheaves 8 to 13, respectively.
the respective first leader strips 4 and the respective second leader strips 5 are selectively looped around the respective sheaves 8 to 13 to be attached to the unit-mounted component 3.
the respective first leader strips 4 are continuously looped around the first counterweight-side return sheave 11, the driving sheave 8, and the first car-side return sheave 9 in the stated order.
the respective second leader strips 5 are continuously looped around the second counterweight-side return sheave 12, the driving sheave 8, the turning sheave 13, and the second car-side return sheave 10 in the stated order.
the respective first leader strips 4 and the respective second leader strips 5 are lower in bending rigidity than the respective main ropes for suspending the car and the counterweight.
Fig. 2 is a partial lateral view showing a state in which the hoisting machine unit 1 for installing the elevator shown in Fig. 1 is installed in the upper portion within the hoistway.
the attachment frame 2 is fixed to an inner wall surface of a hoistway 20.
the hoisting machine 6 is disposed horizontally so that the rotational shaft of the driving sheave 8 extends vertically.
the hoisting machine 6 is disposed such that the driving sheave 8 is located at a position higher than the hoisting machine body 7.
the driving sheave 8 faces a ceiling surface within the hoistway 20.
first main ropes 21 To conduct each of first main ropes 21 placed at a landing 31 to the unit-mounted component 3, an end of the first main rope 21 is connected to one end of a corresponding one of the first leader strips 4 via a connection portion 22.
the first leader strip 4 is moved by being pulled in such a direction as to conduct the first main rope 21 to the unit-mounted component 3. That is, the first leader strip 4 is moved while the other end thereof is pulled.
the first leader strip 4 tows the first main rope 21 in such a manner as to conduct the first main rope 21 to the unit-mounted component 3.
the first main rope 21 is moved together with the first leader strip 4 to be continuously looped around the first counterweight-side return sheave 11, the driving sheave 8, and the first car-side return sheave 9 in the stated order.
an end of the second main rope is connected to one end of a corresponding one of the second leader strips 5 via a connection portion.
the second leader strip 5 is moved by being pulled in such a direction as to conduct the second main rope to the unit-mounted component 3, so the second main rope is continuously looped around the second counterweight-side return sheave 12, the driving sheave 8, the turning sheave 13, and the second car-side return sheave 10 in the stated order.
Fig. 3 is an enlarged view showing the connection portion 22 of Fig. 2 .
the first leader strip 4 has a bendable core cable (e.g., a wire or the like) 23, and a covering material (e.g., rubber or the like) 24 for covering the core cable 23.
the core cable 23 is exposed from the covering material 24 at one end of the first leader strip 4.
the exposed portion of the core cable 23 is annularly bent and swaged by a swaging member 25 to be made into a leader strip-side annular portion 26.
the first main rope 21 is manufactured by twisting a plurality of strands 27.
the respective strands 27 are loosened at the end of the first main rope 21. That one of the respective strands 27 which is located at a central portion of the first main rope 21 is passed through the leader strip-side annular portion 26.
the portion of the strand 27 passed through the leader strip-side annular portion 26 is annularly bent and swaged by a swaging member 28 to be made into a main rope-side annular portion 29. In this manner, the first leader strip 4 and the first main rope 21 are connected to each other.
the connection portion 22 has the leader strip-side annular portion 26 and the main rope-side annular portion 29.
connection portion as described above is constructed to connect the second leader strip 5 and the second main rope to each other.
the hoisting machine unit 1 for installing the elevator has been assembled in advance.
the hoisting machine unit 1 for installing the elevator is assembled by attaching the hoisting machine 6, the first car-side return sheave 9, the first counterweight-side return sheave 10, the second car-side return sheave 11, the second counterweight-side return sheave 12, and the turning sheave 13 to the attachment frame 2 at predetermined positions thereof, respectively, looping the plurality of the first leader strips 4 around the first counterweight-side return sheave 11, the driving sheave 8, and the first car-side return sheave 9 in succession, and then looping the plurality of the second leader strips 5 around the second counterweight-side return sheave 12, the driving sheave 8, the turning sheave 13, and the second car-side return sheave 10 in succession (in a unit assembling process).
the hoisting machine unit 1 for installing the elevator is conveyed to a place where the elevator is to be set up, and is then installed in the upper portion within the hoistway 20.
the attachment frame 2 is fixed within the hoistway 20 such that the driving sheave 8 faces the ceiling surface within the hoistway 20 (in a unit installing process).
the connection portion 22 between each of the first leader strips 4 and the corresponding one of the first main ropes 21 is formed by passing the strand 27 at the end of the first main rope 21 through the leader strip-side annular portion 26, which is provided in advance at one end of the first leader strip 4, to form the main rope-side annular portion 29.
the same connection portion as described above is also formed between each of the second leader strips 5 and the corresponding one of the second main ropes (in a connection process).
the respective first main ropes 21 are successively looped around the first counterweight-side return sheave 11, the driving sheave 8, and the first car-side return sheave 9 in the stated order
the respective second main ropes are successively looped around the second counterweight-side return sheave 12, the driving sheave 8, the turning sheave 13, and the second car-side return sheave 10 in the stated order.
the respective first main ropes 21 and the respective second main ropes are attached to the unit-mounted component 3 (in a main rope looping process).
both the ends of each of the first main ropes 21 and both the ends of each of the second main ropes are brought down, and the car and the counterweight within the hoistway 20 are suspended by means of the respective first main ropes 21 and the respective second main ropes.
the first leader strips 4 and the second leader strips 5 are looped in advance around the driving sheave 8 of the hoisting machine 6 provided on the attachment frame 2, the first main ropes 21 and the second main ropes are connected to the first leader strips 4 and the second leader strips 5, respectively, after the hoisting machine unit 1 for installing the elevator has been installed within the hoistway 1, and the first leader strips 4 and the second leader strips 5 are pulled to be moved, so the first main ropes 21 and the second main ropes are looped around the driving sheave 8. It is therefore possible to perform the operation of looping the first leader strips 4 and the second leader strips 5 around the driving sheave 8 outside the hoistway 20.
the components and the like on the inner wall surface of the hoistway 20 and within the hoistway 20 do not cause obstruction in looping the first leader strips 4 and the second leader strips 5 around the driving sheave 8, so it is possible to perform the operation of looping the first leader strips 4 and the second leader strips 5 with ease.
the first main ropes 21 and the second main ropes are conducted to the outer peripheral portion of the driving sheave 8 by the first leader strips 4 and the second leader strips 5, respectively, even after the hoisting machine unit 1 for installing the elevator has been installed within the hoistway 20, so it is possible to loop the first main ropes 21 and the second main ropes around the driving sheave 8 with ease without removing the main rope latch 14, which faces the outer peripheral portion of the driving sheave 8, from the driving sheave 8.
the main rope latch 14 which faces the outer peripheral portion of the driving sheave 8, from the driving sheave 8.
the attachment frame 2 is provided with the first car-side return sheave 9, the first counterweight-side return sheave 10, the second car-side return sheave 11, the second counterweight-side return sheave 12, and the turning sheave 13 in addition to the hoisting machine 6, and the first leader strips 4 and the second leader strips 5 are looped around the respective sheaves 8 to 13 selectively and successively. Therefore, even in the case where the attachment frame 2 is provided with a plurality of sheaves, it is possible to perform the operation of successively looping the first main ropes 21 and the second main ropes around the respective sheaves with ease.
each of the first leader strips 4 and the second leader strips 5 is made by covering the core cable 23 with the covering member 24.
the construction of the first leader strips 4 and the second leader strips 5 is not limited thereto as long as the first leader strips 4 and the second leader strips 5 are lower in bending rigidity than the first main ropes 21 and the second main ropes, respectively.
the first leader strip and the second leader strip may each be manufactured by twisting a plurality of strands 32.
the first leader strip 4 and the first main rope 21 are connected to each other by twisting the strands 27 of the first leader strip 4 and the strands 32 of the first main rope 21 together. That is, at the end of the first main rope 21, two of the plurality of the strands 27 are removed to form strand grooves 33. At one end of the first leader strip 4, only two of the plurality of the strands 32 are left while the other of the strands 32 are cut off. The two remaining strands 32 are fitted along the strand grooves 33 formed at the end of the first main rope 21, respectively. Thus, the strands 32 are twisted together with the strands 27, so the first leader strip 4 and the first main rope 21 are connected to each other ( Fig. 4 ). The second leader strip 5 and the second main rope are also connected to each other in the same manner.
the strand 27 at the end of the first main rope 21 is passed through the leader strip-side annular portion 26 provided at one end of the first leader strip 4, and the strand 27 thus passed therethrough is annularly bent to form the main rope-side annular portion 29, so the first leader strip 4 and the first main rope 21 are connected to each other.
the first leader strip 4 and the first main rope 21 may be connected to each other via a universal joint 34.
the universal joint 34 has a base shaft 35, and a pair of ring members 36 and 37 provided through the base shaft 35 to be rotatable about an axial direction of the base shaft 35.
the core cable 23 is passed through the ring member 36, the strand 27 is passed through the ring member 37, and the passed portions of the core cable 23 and the strand 27 are each tied with a wire or the like so as to assume an annular shape.
the first main rope 21 is rotated with respect to the second leader strip 4. It is therefore possible to prevent the first main rope 21 from being wrenched with respect to the first leader strip 4 even when the first main rope 21 is looped around a plurality of sheaves continuously. As a result, it is possible to prevent the connection portion between the first leader strip 4 and the first main rope 21 from being wrenched to a rupture.
Fig. 6 is a partial lateral view showing a hoisting machine unit for installing an elevator according to Embodiment 2 of the present invention.
the attachment frame 2 is provided with a plurality of holding devices 41 for holding both ends of each of the first leader strips 4 and both ends of each of the second leader strips 5 with respect to the attachment frame 2, respectively.
the respective holding devices 41 are disposed within an outside dimension of the attachment frame 2 (within the attachment frame 2).
both the ends of each of the first leader strips 4 and both the ends of each of the second leader strips 5 are also disposed within the outside dimension of the attachment frame 2 (within the attachment frame 2).
holding devices 41 are, for example, adhesive tapes for sticking both the ends of each of the first leader strips 4 and both the ends of each of the second leader strips 5 to the attachment frame 2, respectively, hold-down plates for holding down both the ends of each of the first leader strips 4 and both the ends of each of the second leader strips 5 onto the attachment frame 2, respectively, and the like.
Each of the holding devices 41 holds both the ends of a corresponding one of the first leader strips 4 and both the ends of a corresponding one of the second strips 5, so a predetermined tensile force is applied to each of the first leader strips 4 and the second leader strips 5. Even when the hoisting machine unit 1 for installing the elevator is tentatively placed on a floor surface 42, the first leader strips 4 and the second leader strips 5 are held by the hoisting machine unit 1 for installing the elevator while remaining apart from the floor surface 42.
Embodiment 2 of the present invention is identical to Embodiment 1 of the present invention in other constructional details.
the attachment frame 2 is provided with the holding devices 41 for holding both the ends of each of the first leader strips 4 and both the ends of each of the second leader strips 5 with respect to the attachment frame 2, respectively, so the predetermined tensile force can be applied to each of the first leader strips 4 and the second strips 5.
the hoisting machine unit 1 for installing the elevator to be conveyed and installed within the hoistway 20 more reliably.
both the ends of each of the first leader strips 4 and both the ends of each of the second leader strips 5 are disposed within the outside dimension of the attachment frame 2. It is therefore possible to prevent the first leader strips 4 and the second leader strips 5 from being wedged between the attachment frame 2 and the floor surface 42 to be indented when the hoisting machine unit 1 for installing the elevator is tentatively placed on the floor surface 42. Accordingly, it is possible to prevent the first leader strips 4 and the second leader strips 5 from decreasing in tensile strength. As a result, it is possible to prevent the first leader strips 4 and the second leader strips 5 from being ruptured.
Fig. 7 is a partial lateral view showing a state in which the hoisting machine unit 1 for installing an elevator according to Embodiment 3 of the present invention is installed in the upper portion within the hoistway 20.
the attachment frame 2 is provided with a guide device 51 for guiding the first leader strips 4 and the first main ropes 21 such that the first leader strips 4 and the first main ropes 21 are moved along the outer peripheral portion of the first counterweight-side return sheave 11, and a guide device 52 for guiding the first leader strips 4 and the first main ropes 21 such that the first leader strips 4 and the first main ropes 21 are moved along the outer peripheral portion of the first car-side return sheave 9.
the guide device 51 is disposed below the first counterweight-side return sheave 11.
the guide device 52 is disposed below the first car-side return sheave 9. That is, the guide device 51 is disposed on the side where the first main ropes 21 are led into the unit-mounted component 3, and the guide device 52 is disposed on the side where the first main ropes 21 are led out from the unit-mounted component 3.
the guide devices 51 and 52 are attached to the attachment frame 2 via attachment members 53 and 54, respectively.
the attachment members 53 and 54 are removable from the attachment frame 2.
a main rope hold-down device 55 for holding down the first main ropes 21 or the second main ropes that are pulled up from the landing 31 to be led into the unit-mounted component 3, and a turning device 56 for changing the direction of the first leader strips 4 or the second leader strips 5, which are led out from the unit-mounted component 3 to be pulled down, into an upward direction.
the main rope hold-down device 55 has a guide roller 57 that is rotated as the first main ropes 21 or the second main ropes are moved.
the turning device 56 has a guide roller 58 that is rotated as the first leader strips 4 or the second leader strips 5 are moved.
a plurality of rotary tables 59 for placing the first main ropes 21 and the second main ropes thereon respectively are provided at the landing 31 of the uppermost floor. In leading the first main ropes 21 and the second main ropes into the unit-mounted component 3, the first main ropes 21 and the second main ropes are reeled out while the respective rotary tables 59 are rotated.
the attachment frame 2 is also provided with guide devices (not shown) for guiding the second main ropes and the second leader strips 5 such that the second main ropes and the second leader strips 5 are moved along the outer peripheral portions of the second car-side return sheave 10 and the second counterweight-side return sheave 12.
first main ropes 21 and the second main ropes are placed on the rotary tables 59.
the first main ropes 21 are passed through the main rope hold-down device 55 and the guide device 51 in the stated order and are then connected to the first leader strips 4, respectively.
the second main ropes are passed through the main rope hold-down device 55 and the guide device (not shown) in the stated order and then connected to the second leader strips 5 respectively.
the first leader strips 4 led out from the unit-mounted component 3 are passed through the guide device 52 and the turning device 56 in the stated order and are then pulled up at the other end sides thereof, respectively.
the second leader strips 5 led out from the unit-mounted component 3 are passed through the guide device (not shown) and the turning device 56 in the stated order and then pulled up at the other end sides thereof, respectively.
Fig. 8 is a plan view showing the guide device 51 of Fig. 7 .
the guide device 51 has an annular body 60 through which the first main ropes 21 are passed, a support portion 61 fixed to the attachment member 53 to support the annular body 60, and a plurality of rollers 62 provided rotatably on the annular body 60.
the respective rollers 62 are disposed in the circumferential direction of the annular body 60.
the guide device 52 is also constructed in the same manner.
Embodiment 3 of the present invention is identical to Embodiment 1 of the present invention in other constructional details.
the respective first main ropes 21 are passed through the main rope hold-down device 55 and the guide device 51 in the stated order, and the end of each of the first main ropes 21 is connected to one end of a corresponding one of the first leader strips 4.
the respective second main ropes are passed through the main rope hold-down device 55 and the guide device (not shown) in the stated order, and the end of each of the second main ropes is connected to one end of a corresponding one of the second leader strips 5.
the other end of the first leader strip 4 is passed through the guide device 52 and the turning device 56 in the stated order
the other end of the second leader strip 5 is passed through the guide device (not shown) and the turning device 56 in the stated order.
first leader strips 4 and the other end of each of the second leader strips 5 are simultaneously pulled up while the driving sheave 8 is rotated at a low speed through the driving of the hoisting machine body 7.
first leader strips 4 and the second leader strips 5 are moved together with the first main ropes 21 and the second main ropes, respectively.
the movement of the first main ropes 21 causes the corresponding ones of the rotary tables 59 to rotate, so the first main ropes 21 are reeled out from spots on those rotary tables 59, respectively.
the movement of the second main ropes causes the corresponding ones of the rotary tables 59 to rotate, so the second main ropes are reeled out from spots on those rotary tables 59, respectively.
first main ropes 21 replace the first leader strips 4, respectively, and are successively looped around the first counterweight-side return sheave 12, the driving sheave 8, and the first car-side return sheave 9 in the stated order.
the second main ropes replace the second leader strips 5, respectively, and are successively looped around the second counterweight-side return sheave 12, the driving sheave 8, and the second car-side return sheave 10 in the stated order.
the guide devices 51 and 52 as well as the attachment members 53 and 54 are removed from the attachment frame 2, and the first leader strips 4 are disconnected from the first main ropes 21, respectively.
the guide devices (not shown) are also removed from the attachment frame 2, and the second leader strips 5 are also disconnected from the second main ropes, respectively.
the subsequent procedure is the same as in Embodiment 1 of the present invention.
the operation of looping the respective first main ropes 21 and the operation of looping the respective second main ropes are performed simultaneously.
the operation of looping the respective first main ropes 21 and the operation of looping the respective second main ropes may also be performed separately.
the attachment frame 2 is provided with the guide devices 51 and 52 for guiding either the first leader strips 4 or the first main ropes 21 such that the first leader strips 4 or the first main ropes 21 are moved along the outer peripheral portions of the first car-side return sheave 9 and the first counterweight-side return sheave 11, respectively. It is therefore possible to prevent the first leader strips 4 and the first main ropes 21 from being inclined with respect to the first car-side return sheave 9 and the first counterweight-side return sheave 11.
the attachment frame 2 is provided with the guide devices for guiding either the second leader strips 5 or the second main ropes such that the second leader strips 5 or the second main ropes are moved along the outer peripheral portions of the second car-side return sheave 10 and the second counterweight-side return sheave 12, respectively. It is therefore possible, in the same manner as described above, to prevent the second leader strips 5 or the second main ropes from being wedged between the main rope latch 16 and the second car-side return sheave 10 or between the main rope latch 18 and the second counterweight-side return sheave 12. As a result, it is possible to prevent the occurrence of an inconvenience such as ruptures of the second leader strips 5 or the second main ropes.
each of the main ropes to be lead into the unit-mounted component 3 is placed on the corresponding one of the rotary tables 59 provided at the landing 31 of the uppermost floor, and then reeled out while the rotary table 59 is rotated. It is therefore possible to prevent the main ropes from becoming tangled. As a result, it is possible to achieve an improvement in operation efficiency.
the turning device 56 for changing the direction of the first leader strips 4 or the second leader strips 5 that have been led out from the unit-mounted component 3 is provided at the landing 31 of the uppermost floor. It is therefore possible to change the direction of the first leader strips 4 or the second leader strips 5 into such a direction that makes it easy for an operator to pull the first leader strips 4 or the second leader strips 5 at the landing 31. As a result, it is possible to achieve a further improvement in operation efficiency.

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Engineering & Computer Science (AREA)
Civil Engineering (AREA)
Mechanical Engineering (AREA)
Structural Engineering (AREA)
Lift-Guide Devices, And Elevator Ropes And Cables (AREA)

EP05809382A 2005-11-22 2005-11-22 Unite de levage pour installation d ascenseur et procede de montage de cable pour ascenseur Withdrawn EP1953110A4 (fr)

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
PCT/JP2005/021441 WO2007060713A1 (fr)	2005-11-22	2005-11-22	Unite de levage pour installation d’ascenseur et procede de montage de cable pour ascenseur

Publications (2)

Publication Number	Publication Date
EP1953110A1 true EP1953110A1 (fr)	2008-08-06
EP1953110A4 EP1953110A4 (fr)	2012-09-26

Family

ID=38066955

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
EP05809382A Withdrawn EP1953110A4 (fr)	2005-11-22	2005-11-22	Unite de levage pour installation d ascenseur et procede de montage de cable pour ascenseur

Country Status (5)

Country	Link
EP (1)	EP1953110A4 (fr)
JP (1)	JP4810430B2 (fr)
KR (1)	KR100989194B1 (fr)
CN (1)	CN100590054C (fr)
WO (1)	WO2007060713A1 (fr)

Cited By (1)

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Publication number	Priority date	Publication date	Assignee	Title
CN102601989A (zh) *	2012-03-07	2012-07-25	江苏兴华胶带股份有限公司	一种电梯平衡补偿链冷定型自动盘绕设备中的提链装置

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Publication number	Priority date	Publication date	Assignee	Title
JP2002362851A (ja) *	2001-06-07	2002-12-18	Mitsubishi Electric Corp	エレベーター巻上機の綱掛け方法
JP2005178920A (ja) *	2003-12-16	2005-07-07	Hitachi Building Systems Co Ltd	エレベーターの主ロープ交換用テンション負荷装置

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JPH06156931A (ja) *	1992-11-18	1994-06-03	Hitachi Building Syst Eng & Service Co Ltd	エレベータの主ロープ掛け方法
JP2004051242A (ja)	2002-07-16	2004-02-19	Mitsubishi Electric Corp	エレベータの主索繰り出し装置
JP2004315137A (ja)	2003-04-15	2004-11-11	Hitachi Building Systems Co Ltd	エレベータの据付方法

2005
- 2005-11-22 KR KR1020087005436A patent/KR100989194B1/ko not_active IP Right Cessation
- 2005-11-22 JP JP2006536495A patent/JP4810430B2/ja not_active Expired - Fee Related
- 2005-11-22 CN CN200580051637A patent/CN100590054C/zh not_active Expired - Fee Related
- 2005-11-22 EP EP05809382A patent/EP1953110A4/fr not_active Withdrawn
- 2005-11-22 WO PCT/JP2005/021441 patent/WO2007060713A1/fr active Application Filing

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
JP2002362851A (ja) *	2001-06-07	2002-12-18	Mitsubishi Electric Corp	エレベーター巻上機の綱掛け方法
JP2005178920A (ja) *	2003-12-16	2005-07-07	Hitachi Building Systems Co Ltd	エレベーターの主ロープ交換用テンション負荷装置

Non-Patent Citations (1)

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Title
See also references of WO2007060713A1 *

Cited By (2)

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