WO2004041704A1 - Elevator - Google Patents
Elevator Download PDFInfo
- Publication number
- WO2004041704A1 WO2004041704A1 PCT/FI2003/000713 FI0300713W WO2004041704A1 WO 2004041704 A1 WO2004041704 A1 WO 2004041704A1 FI 0300713 W FI0300713 W FI 0300713W WO 2004041704 A1 WO2004041704 A1 WO 2004041704A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- elevator
- rope
- ropes
- traction sheave
- hoisting ropes
- Prior art date
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Classifications
-
- 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
- B66B11/04—Driving gear ; Details thereof, e.g. seals
- B66B11/08—Driving gear ; Details thereof, e.g. seals with hoisting rope or cable operated by frictional engagement with a winding drum or sheave
-
- 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
- B66B7/10—Arrangements of ropes or cables for equalising rope or cable tension
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B19/00—Mining-hoist operation
- B66B19/007—Mining-hoist operation method for modernisation of elevators
Definitions
- the present invention relates to an elevator as defined in the preamble of claim 1.
- the object of the present invention is to achieve at least one of the following objectives.
- it is an aim the invention to develop the. elevator without machine room further so as to allow more effective space utilization in the building and eleva- tor shaft than before. This means that the elevator should permit of being installed in a fairly narrow elevator shaft if necessary.
- it is an aim of the invention to reduce the size and/or weight of the elevator or at least its machine.
- One objective is to achieve an elevator in which the hoisting rope of an elevator with thin hoisting rope and/or a small traction sheave has a good grip/contact on the traction sheave.
- a further aim of the invention is to achieve an elevator solution without counter- weight without compromising on the properties of the elevator.
- the object of the invention should be achieved without compromising the possibility of varying the basic layout of the elevator.
- the elevator of the invention is characterized by what is disclosed in the characterization part of claim 1.
- Other embodiments of the invention are characterized by what is disclosed in the other claims.
- Some inventive embodiments are also discussed in the description section of the present application.
- the inventive con- tent of the application can also be defined differently than in the claims presented below.
- the inventive content may also consist of several separate inventions, especially if. the invention is considered in the light of expressions or implicit sub-tasks or from the point of view of advantages or categories of advantages achieved. In this case, some of the attributes contained in the claims below may be superfluous from the point view of separate . inventive concepts .
- the small coated traction sheave used allows the weight of the machine to be easily reduced even to about half of the weight of the machines now generally used in elevators without machine room. For example, in the case of elevators designed for a nominal load below 1000 kg, this means machines weighing 100-150 kg or even less. Via appropriate motor solu- tions and choices of materials, it is even possible to achieve machines having a weight below 100 kg or even as small as about 50 kg.
- a good traction sheave grip which is achieved in particular by using Double Wrap roping, and lightweight components allow the weight of the elevator car to be considerably reduced.
- the elevator machine can be advantageously placed between the car and a shaft wall.
- All or at least part of the weight of the elevator car can be carried by the elevator guide rails.
- a centric suspension arrangement of the elevator car can be readily achieved, thereby reducing the lateral supporting forces applied to the guide rails.
- the invention reduces the installation time and total installation costs of the elevator.
- the elevator is economical to manufacture and install because many of its components are smaller and lighter than those used before.
- the speed governor rope and the hoisting rope are usually different in respect of their properties and they can be easily distinguished from each other during installation if the speed governor rope is thicker than the hoisting ropes; on the other hand, the speed governor rope and the hoisting ropes may also be of identical structure, which will reduce ambiguities regarding these matters in elevator delivery logistics and installation.
- the thin and strong steel wire ropes of the invention have a diameter of the order of only 3-5 mm, although thinner and thicker ropes may also be used.
- the traction sheave and the rope pulleys are small and light as compared with those used in conven- tional elevators.
- the small traction sheave allows the use of smaller operating brakes .
- the small traction sheave reduces the torque requirement, thus allowing the use of a smaller motor with smaller operating brakes.
- the invention can be applied in gearless and geared elevator motor solutions .
- the elevator solution of the invention it is possible to dispose all ropes in the shaft on one side of the elevator car; for example, in the case of rucksack type solutions, the ropes can be arranged to run behind the elevator car in the space between the elevator car and the back wall of the elevator shaft.
- the invention makes it easy to implement scenic-type elevator solutions as well.
- the elevator solution of the invention does not necessarily comprise a counterweight, it is pos- sible to implement elevator solutions in which the elevator car has doors in several walls, in an extreme case even in all the walls of the elevator car.
- the elevator car guide rails are disposed at the corners of the elevator car.
- the elevator solution of the invention can be implemented with several different machine solutions.
- the suspension of the car can be implemented using almost any suitable suspension ratio.
- the primary area of application of the invention is elevators designed for the transportation of people and/or freight.
- a typical area of application of the invention is in elevators whose speed range is about 1.0 m/s or below but may also be higher.
- an elevator having a traveling speed of 0.6 m/s is easy to implement according to the invention.
- normal elevator hoisting ropes such as generally used steel ropes
- the load-bearing part is made of artificial fiber
- Applicable solutions include also steel-reinforced flat ropes, especially because they allow a small deflection radius.
- elevator hoisting ropes twisted e.g. from round and strong wires. From round wires, the rope can be twisted in many ways using wires of different or equal thickness.
- the wire thickness is below 0.4 mm on an average.
- Well applicable ropes made from strong wires are those in which the average wire thickness is below 0.3 mm or even below 0.2 mm.
- thin- wired and strong 4 mm ropes can be twisted relatively economically from wires such that the mean wire thickness in the finished rope is in the range of 0.15 ... 0.25 mm, while the thinnest wires may have a thickness as small as only about 0.1 mm.
- Thin rope wires can easily be made very strong.
- rope wires having a strength greater than 2000 N/mm 2 are used.
- a suitable range of rope wire strength is 2300- 2700 N/mm 2 . In principle, it is possible to use rope wires having a strength of up to about 3000 N/mm 2 or even more.
- the elevator of the invention is preferably an elevator without machine room, in which elevator the hoist- ing machine engages the hoisting ropes by means of a traction sheave, the elevator car being at least partially supported by said hoisting ropes, which serve as transmission means for moving the elevator car.
- the elevator car is connected to the hoisting ropes via at least one diverting pulley from the rim of which the hoisting ropes go upwards from both sides of the diverting pulley, and at least one diverting pulley from the rim of which the hoisting ropes go downwards from both sides of the diverting pulley, and in which ele- vator the traction sheave engages the rope portion between .these diverting pulleys
- a contact angle of over 180° between the traction sheave and the hoisting rope is achieved by using one or more diverting pul- leys.
- Fig. 1 presents a diagram representing a traction sheave elevator according to the invention
- Fig. 2. presents a diagram . representing a second traction sheave elevator according to the invention
- Fig. 3. presents a diagram representing a third trac- tion sheave elevator according to the invention
- Fig. 4 presents a diagram representing a traction sheave elevator according to the invention
- Fig. 5 presents a diagram representing a traction sheave elevator according to the invention
- Fig. 6 presents a traction sheave applying the invention
- Fig. 7 illustrates a coating solution according to the invention
- Fig. 8a presents a steel wire rope used in the invention
- Fig. 8b presents a second steel wire rope used in the invention
- Fig. 8c presents a third steel wire rope used in the invention
- Figures 10 present some traction sheave roping arrangements according to the invention
- Fig. 11 presents an embodiment of the invention
- Fig. 12 presents a diagram of a rope sheave placement according to the invention.
- Fig. 1 presents a diagrammatic illustration of the structure of the elevator.
- the elevator is preferably an elevator without machine room, with a drive machine 10 placed in the elevator shaft.
- the elevator shown in the figure is a traction sheave elevator without counterweight and with machine above.
- the passage of the hoisting ropes 3 of the elevator is as follows: One end of the ropes is immovably fixed to an anchorage 16 in the upper part of the shaft, from where the ropes 3 go further to a diverting pulley 15 placed in the upper part of the shaft and from which diverting pulley 15 the ropes go further to a diverting pulley 13 10
- Fig. 5 presents a diagram representing a traction sheave elevator according to the invention
- Fig. 6 presents a traction sheave applying the invention
- Fig. 7 illustrates a coating solution according to the invention
- Fig. 8a presents a steel wire rope used in the invention
- Fig. 8b presents a second steel wire rope used in the invention
- Fig. 8c presents a third steel wire rope used in the invention
- Figures 9 present some traction sheave roping arrangements according to the invention.
- Fig. 10 presents an embodiment of the invention
- Fig. 11 presents an embodiment of the invention
- Fig. 12 presents a diagram of a rope sheave placement according to the invention.
- Fig. 1 presents a diagrammatic illustration of the structure of the elevator.
- the elevator is preferably an elevator without machine room, with a drive machine 10 placed in the elevator shaft.
- the elevator shown in the figure is a traction sheave elevator without counterweight and with machine above.
- the passage of the hoisting ropes 3 of the elevator is as follows: One end of the ropes is immovably fixed to an anchorage 16 in the upper part of the shaft, from where the ropes 3 go further to a diverting pulley 15 placed in the upper part of the shaft and from which diverting pulley 15 the ropes go further to a diverting pulley 13 11
- the ropes 3 go further downwards past the elevator car 1 moving along the elevator guide rails 2 to a diverting pulley 4 placed in the lower part of the shaft, going further from diverting pulley 4 to a diverting pulley below the ele- vator car, from where the ropes 3 go further to a diverting pulley 6 in the lower part of the elevator shaft and then further to a diverting pulley 7 below the elevator car, from where the ropes 3 go further to an anchorage 9 in the lower part of the elevator shaft, to which the other end of the ropes 3 is immovably secured.
- the drive machine 10 may be fixed e.g. to a car guide rail, and the diverting pulley 15 in the upper part of the shaft is mounted on the beams in the upper part of the shaft, which are fastened to the car guide rails 2.
- the diverting pulleys 5,7,13,14 on the elevator car are mounted on beams above and below the car.
- the diverting pulleys in the lower part of the shaft are preferably mounted on the shaft floor.
- the traction sheave engages the rope portion between diverting pulleys 13 and 5, which is a preferable solution according to the invention.
- the drive machine 10 placed in the elevator shaft is preferably of a flat construction, in other words, the machine has a small thickness dimension as compared with its width and/or height, or at least the machine 12
- the machine is slim enough to be accommodated between the elevator car and a wall of the elevator shaft.
- the machine may also be placed differently, e.g. by disposing the slim machine partly or completely between an imaginary ex- tension of the elevator car and a shaft wall.
- a drive machine 10 of almost any type and design that fits into the space intended for it.
- a geared or a gearless machine it is possible to use a geared or a gearless machine.
- the machine may be of a compact and/or flat size.
- the rope speed is often high as compared to the speed of the elevator, so it is possible to use even unsophisticated machine types as the basic machine solution.
- the elevator shaft is advantageously provided with equipment required for the supply of power to the motor driving the traction sheave 11 as well as equipment needed for elevator control, both of which can be placed in a common instrument panel 12 or mounted separately from each other or integrated partly or completely with the drive machine 10.
- a preferable solution is a gearless machine comprising a permanent magnet motor.
- the drive machine may be fixed to a wall of the elevator shaft, to the ceiling, to a guide rail or to some other structure, such as a beam or frame.
- a further possibility is to mount the machine on the bottom of the elevator shaft.
- the elevator presented in the figure has automatic tele- scoping doors, but other types of automatic doors or turning doors may also be used within the framework of the invention.
- the elevator of the invention can also 13
- the diverting pulleys connected to the elevator car may be preferably mounted on one and the same beam, which supports both the diverting pulleys above the car and the diverting pulleys below the car.
- This beam may be fitted on top of the car, on the side of the car or below the car, on the car frame or in some other ap-litiste place in the car structure.
- the diverting pulleys may also be fitted each one separately in appropriate places on the car and in the shaft .
- Fig. 2 presents a diagram representing another traction sheave elevator according to the invention.
- This type of elevator is generally a traction sheave elevator with machine below.
- the elevator car 201 is suspended on the hoisting ropes 203 of the elevator.
- the elevator drive machine unit 210 is mounted in the elevator shaft, preferably in the lower part of the shaft.
- the elevator car 201 moves in the elevator shaft along an elevator guide rail 202 guiding it.
- the hoisting ropes run as follows: One end of the ropes is fixed to an anchorage 216 in the upper part of the shaft, from where it goes downward to a diverting pulley 213, from which the ropes go further upward to a first diverting pulley 215 mounted in the upper part of the shaft and from diverting pulley 215 to a diverting pulley 214 on the elevator car 201, from where it returns to a diverting pulley 219 in the upper part of the shaft. From diverting pulley 219, the hoisting ropes go further to the traction sheave 211 driven by the drive machine 210. From the traction sheave, the ropes go again upwards to a diverting pul- ley 204 mounted below the car, and having wrapped 14
- the elevator presented in Fig. 2 is a traction sheave elevator with machine below, in which the suspension ratio both above and below the car is 4:1.
- a smaller shaft space is needed above or below the elevator car because the rope sheaves used as diverting pulleys have small diameters as compared with earlier solutions, depending on how the rope sheaves are mounted on the elevator car and/or the frame of the elevator car.
- Fig. 3 presents a diagrammatic illustration of the structure of an elevator according to the invention.
- the elevator is preferably an elevator without machine room, with a drive machine 310 placed in the elevator shaft.
- the elevator shown in Fig. 3 is a traction sheave elevator with machine above, in which the suspension ratio above and below the elevator car is 6:1.
- the passage of the hoisting ropes 303 of the elevator is as follows: One end of the ropes 303 is immovably fixed to an anchorage 316 in the upper part of the shaft, from where the ropes run downwards to a diverting pulley 315 mounted at the side of the elevator car, from where the ropes run further to the upper part of the elevator shaft, passing around a diverting pulley 320, from which the ropes 303 go further downwards to diverting pulley 314, from which they return •downwards to diverting pulley 313. Via the rope grooves of diverting pulley 313, the hoisting ropes run further upwards to the traction sheave 311 of the drive machine 310, passing around the traction sheave 15
- the ropes 303 run further downwards to diverting pulley 322, wrapping around it along the rope grooves of the diverting pulley and then return- ing back up to the traction sheave 311, over which the ropes run in the traction sheave rope grooves .
- the ropes 303 go further downwards via the rope grooves of diverting pulley 322 to a diverting pulley 307 placed in the lower part of the elevator shaft, from where they go further to the elevator car 301 moving along the car guide rails 302 of the elevator and to a diverting pulley 306 mounted at its lower edge.
- the ropes are passed between the diverting pulleys 318,319 in the lower part of the elevator shaft and the diverting pulleys 306,305,304 in the lower part of the elevator car as many times as necessary to achieve the same suspension ratio for the portion above the elevator car and the portion below the car. After this, the rope goes downwards to an an- chorage element 308, e.g. a weight, which functions as a rope tensioning element hanging freely at the other end of the rope.
- an an- chorage element 308 e.g. a weight, which functions as a rope tensioning element hanging freely at the other end of the rope.
- the hoisting machine and the diverting pulleys are preferably all placed on one and the same side of the elevator car.
- the elevator guide rails 302 may preferably be disposed e.g. in the frontmost part of the elevator car at the sides of the elevator car/elevator car frame.
- the roping arrangement between the traction sheave 311 and the diverting pulley 322 is referred to as Double Wrap roping, wherein the hoisting ropes are wrapped around the traction sheave two and/or more times. In this way, 16
- the contact angle can be increased in two and/or more stages.
- a contact angle of 180° + 180°, i.e. 360 ° between the traction sheave 311 and the hoisting ropes 303 is achieved.
- a preferable solution is to dispose the traction sheave 311 and the diverting pulley 322 in such a way that the diverting pulley 322 will also function as a guide of the hoisting ropes 303 and as a damping wheel.
- Another advantageous solution is to build a complete unit comprising both an elevator drive machine with a traction sheave and one or more diverting pulleys with bearings in a correct operating angle relative to the traction sheave to increase the contact angle.
- the operating angle is determined by the roping used between the traction sheave an the diverting pulley/diverting pulleys, which defines the way in which the mutual positions and angle between the traction sheave and di- verting pulley/diverting pulleys relative to each other are fitted in the unit.
- This unit can be mounted in place as a unitary aggregate in the same way as a drive machine.
- the drive machine may be fixed to a wall of the elevator shaft, to the ceiling, to a guide rail or guide rails or to some other structure, such as a beam or frame.
- Double Wrap roping when the diverting pulley is of substantially equal size with the traction sheave, the diverting pulley can also function as a damping wheel. In this case, the ropes going from the traction sheave to the counterweight and to the elevator car are passed via the rope grooves of the diverting pulley and the rope deflec- 17
- Fig. 4 presents a diagrammatic illustration of the structure of a fourth elevator according to the invention.
- the elevator is preferably an elevator without machine room, with a drive machine 410 placed in the elevator shaft.
- the elevator shown in Fig. 4 is a traction sheave elevator with machine above and having a suspension ratio of 7:1 above and below the elevator car, which is a very advantageous implementation of the invention in respect of suspension ratio.
- the passage of the hoisting ropes is mainly similar to that in Fig. 3, but in this figure the starting point of the hoisting ropes 403 is on the elevator car 401, to which the rope is substantially immovably secured. With this arrangement, an odd suspension ratio is achieved for the portion above the elevator car.
- the roping arrangement presented in Fig. 4 can also be called X Wrap (XW) roping.
- XW X Wrap
- Previously known concepts are Double Wrap (DW) roping, Single Wrap (SW) roping and Extended Single Wrap (ESW) roping.
- DW Double Wrap
- SW Single Wrap
- ESW Extended Single Wrap
- X Wrap roping the hoisting ropes are caused to wrap around the traction sheave 411 with a large contact angle. For example, in the case presented in Fig. 4, a contact angle well over 180°, i.e. about 270 ° between the traction sheave 411 and the hoisting ropes is achieved.
- X Wrap roping presented in the figure can also be arranged in another way, e.g.
- diverting pulley 422 has been fitted in place at an angle relative to the traction sheave 807 such that the ropes will run crosswise in a manner known in itself so that the ropes are not damaged.
- the passage of the hoisting ropes from diverting pulley 413 is so arranged that ropes run via the rope grooves of diverting pulley 422 to the traction sheave 411 of the drive machine 410, wrapping around it along the traction sheave rope grooves . From the traction sheave 411, the ropes 403 go further downwards, passing crosswise with the ropes going upwards and further downwards via the rope grooves of the diverting pulley to diverting pulley 407.
- Fig. 5 presents 1 a diagram illustrating the structure of an elevator according to the invention.
- the eleva- tor is preferably an elevator without machine room, with a drive machine 510 placed in the elevator shaft.
- the elevator shown in the figure is a traction sheave elevator with machine above and with a 9:1 suspension ratio both above and below the elevator car.
- the pas- sage of the hoisting ropes 503 of the elevator is as follows: One end of the ropes is substantially i mova- 19
- the hoisting ropes 303 go further downwards, passing crosswise with the ropes going upwards, to diverting pulley 522, passing around it along the rope grooves of the diverting pulley 522.
- the ropes 503 go further downwards to a diverting pulley 528 in the lower part of the elevator shaft.
- the ropes then run further from diverting pulley 528 upwards between the diverting pulleys 504,505,506,507 in the lower part of the elevator car and the diverting pul- leys 528,527,526,519,518 in the lower part of the elevator shaft in the manner described in connection with the preceding figures, in Fig.
- an odd suspension ratio is achieved below the elevator car as well by having the hoisting rope fixed substantially immovably relative to the elevator car at a fixing point 531, to which fixing point is also fitted a mounting element.
- the roping arrangement used between the traction sheave 511 and diverting pulley 522 is called Extended Single Wrap roping.
- the hoisting ropes is caused to wrap around the traction sheave with a larger contact angle by using a diverting pulley.
- the contact angle between the traction sheave 511 and the hoisting ropes 503 is well over 180°, i.e. about 270°.
- the Extended Single Wrap roping presented in Fig. 5 can also be arranged in another way, e.g. by disposing the traction sheave and the di- 20
- the diverting pulley 522 is fitted in place at an angle relative to the traction sheave 511 such that the ropes pass crosswise in a manner known in itself so that the ropes are not damaged.
- Fig. 6 presents a partially sectioned view of a rope sheave 600 applying the invention.
- the rope grooves 601 are under a coating 602 on the rim 606 of the rope sheave.
- a space 603 for a bearing used to mount the rope sheave.
- the rope sheave is also provided with holes 605 for bolts, allowing the rope sheave to be fastened by its side to an anchorage in the hoisting machine 10, e.g. to a rotating flange, to form a traction sheave 11, so that no bearing separate from the hoisting machine is needed.
- the coating material used on the traction sheave and the rope sheaves may consist of rubber, polyurethane or a corresponding elastic material that increases friction.
- the material of the traction sheave and/or rope sheaves may also be so chosen that, together with the hoisting rope used, it forms a material pair such that the hoisting rope will bite into the pulley after the coating on the pulley has been worn out. This ensures a sufficient grip between the rope sheave 600 and the hoisting rope 3 in an emergency where the coating 602 has been worn out from the rope sheave 600. This feature allows the elevator to maintain its functionality and operational reliability in the situation referred to.
- the traction sheave and/or the rope sheaves can also be manufactured in such manner that only the rim 606 of the rope sheave 600 is made of a material forming a grip increasing material pair with the hoisting rope 3.
- the traction sheave diameter is pref- erably 120-200 mm, but it may even be less than this.
- the traction sheave diameter depends on the thickness of the hoisting ropes used.
- the machine in the case of elevators for a nominal load below 1000 kg, makes it possible to achieve a machine weight even as low as about one half of the weight of currently used machines, which means producing elevator machines weighing 100-150 kg or even less.
- the machine is understood as comprising at least the traction sheave, the motor, the machine housing structures and the brakes .
- the D/d ratio can be reduced if at the same time the number of ropes is increased, in which case the stress per rope will be smaller.
- reducing the D/d ratio considerably below 30 radically reduces the useful life of the rope, although this can be compen- sated by using ropes of special structure. Achieving a D/d ratio below 20 is in practice very difficult, but it might be accomplished by using a rope specially de- 22
- the weight of the elevator machine and its supporting elements used to hold the machine in place in the ele- vator shaft is at most about 1/5 of the nominal load. If the machine is exclusively or almost exclusively supported by one or more elevator guide rails, then the total weight of the machine and its supporting elements may be less than about 1/6 or even less than 1/8 of the nominal load.
- Nominal load of an elevator means a load defined for elevators of a given size.
- the supporting elements of the elevator machine may include e.g. a beam, carriage or suspension bracket used to support or suspend the machine on/from a wall structure or ceiling of the elevator shaft or on the elevator guide rails, or clamps used to secure the machine to the sides of the elevator guide rails.
- the machine deadweight without supporting elements is below 1/7 of the nominal load or even about 1/10 of the nominal load or still less.
- the combined weight of the machine and its supporting elements may be only 75 kg when the traction sheave diameter is 160 mm and hoisting ropes having a diameter of 4 mm are used, in other words, the total weight of the machine and its supporting elements is about 1/8 of the nominal load of the elevator.
- the total weight of the machine and its suspension elements is about 150 kg, so in this case the machine and its supporting elements have a total weight equaling about 1/6 of the nominal load.
- the total weight of the machine and its suspension elements is about 150 kg, so in this case the machine and its supporting elements have a total weight equaling about 1/6 of the nominal load.
- the total weight of the machine and its supporting elements will be about 300 kg, in other words, the total weight of the machine and its supporting elements equals about 1/7 of the nominal load.
- the hoisting rope suspension arrangements it is possible to reach a still lower total weight of the machine and its supporting elements. For example, when a 4:1 suspension ratio, a 160 mm traction sheave diameter and a 4 mm hoisting rope diameter are used in an elevator designed for a nominal load of 500 kg, a total weight of hoisting machine and its supporting elements of about 50 kg will be achieved.
- the total weight of the machine and its supporting elements is as small as only about 1/10 of the nominal load.
- the torque output required of the motor falls to a fraction as compared to the starting situation. For example, if instead of 2:1 suspension a 4:1 suspension ratio is used and if instead of traction sheave with diameter of 400 mm a 160-mm traction sheave is used, then, if the increased losses are disregarded, the torque requirement falls to one fifth. Therefore, the machine size is also really considerably reduced.
- Fig. 7 presents a solution in which the rope groove 701 is in the coating 702, which is thinner at the sides of the rope groove than at the bottom.
- the coating is placed in a basic groove 720 provided in the rope sheave 700 so that deformations produced in the coating by the pressure imposed on it by the rope will be small and mainly limited to the rope surface texture sinking into the coating.
- the rope sheave coating consists of rope groove-specific sub-coatings 24
- the coating By making the coating thinner at the sides of the groove than at its bottom, the stress imposed by the rope on the bottom of the rope groove while sinking into the groove is avoided or at least reduced. As the pressure cannot be discharged laterally but is di- rected by the combined effect of the shape of the basic groove 720 and the thickness variation of the coating 702 to support the rope in the rope groove 7301, lower maximum surface pressures acting on the rope and the coating are also achieved.
- One method of making a grooved coating 702 like this is to fill the round-bottomed basic groove 720 with coating material and then form a half-round rope groove 701 in this coating material in the basic groove.
- the shape of the rope grooves is well supported and the load-bearing surface layer under the rope provides a better resistance against lateral propagation of the compression stress produced by the ropes .
- the lateral spreading or rather adjustment of the coating caused by the pressure is promoted by thickness and elasticity of the coating and reduced by hardness and eventual reinforcements of the coating.
- the coating thickness on the bottom of the rope groove can be made large, even as large as half the rope thickness, in which case a hard and inelastic coating is needed.
- a coating thickness corresponding to only about one tenth of the rope thickness is used, then the coating material may be clearly softer.
- An elevator for eight persons could be implemented using a coating thickness at the bottom of the groove equal to about one fifth of the rope thickness if the ropes and 25
- the coating thickness should equal at least 2-3 times the depth of the rope surface texture formed by the surface wires of the rope. Such a very thin coating, having a thick- ness even less than the thickness of the surface wire of the hoisting rope, will not necessarily endure the strain imposed on it. In practice, the coating must have a thickness larger than this minimum thickness because the coating will also have to receive rope surface variations rougher than the surface texture. Such a rougher area is formed e.g. where the level differences between rope strands are larger than those between wires. In practice, a suitable minimum coating thickness is about 1-3 times the surface wire thick- ness.
- this thickness definition leads to a coating at least about 1 mm thick. Since a coating on the trac- tion sheave, which causes more rope wear than the other rope sheaves of the elevator, will reduce rope wear and therefore also the need to provide the rope with thick surface wires, the rope can be made smoother. Rope smoothness can naturally be improved by coating the rope with a material suited for this purpose, such as e.g. polyurethane or equivalent.
- the use of thin wires allows the rope itself to be made thinner, because thin steel wires can be manufactured from a stronger material than thicker wires.
- the wires in the steel wire rope may preferably have a thickness between 0.15 mm and 0.5 mm, in which range there are readily available steel wires with good strength properties in which even an individual wire has a sufficient wear resis- 26
- ropes made of round steel wires have been discussed. Applying the same principles, the ropes can be wholly or partly twisted from non-round profiled wires.
- the cross-sectional areas of the wires are preferably substantially the same as for round wires, i.e. in the range of 0.015 mm 2 - 0.2 mm 2 .
- wires in this thickness range it will be easy to produce steel wire ropes having a wire strength above about 2000 N/mm 2 and a wire cross- section of 0.015 mm 2 - 0.2 mm 2 and comprising a large cross-sectional area of steel material in relation to the cross-sectional area of the rope, as is achieved e.g. by using the Warrington construction.
- particularly well suited are ropes having a wire strength in the range of 2300 N/m 2 - 2700 N/mm 2 , because such ropes have a very large bearing capacity in relation to rope thickness while the high hardness of the strong wires in- volves no substantial difficulties in the use of the rope in elevators.
- a traction sheave coating well suited for such a rope is already clearly below 1 mm thick.
- the coating should be thick enough to ensure that it will not be very easily scratched away or pierced e.g. by an occasional sand grain or similar particle that may have got between the rope groove and the hoisting rope.
- a desirable minimum coating thickness, even when thin-wire hoisting ropes are used, would be about 0.5...1 mm.
- a coating having a thickness of the form A+Bcosa is well suited.
- a and B are constants so that A+B is the coating thickness at the bottom of the rope groove 701 and the angle a is the angular distance from the bottom of the rope groove as measured from the center of curvature of the rope groove cross-section. Constant A is larger than or equal to zero, and constant B is always larger than zero.
- the thickness of the coating growing thinner. towards the edges can also be defined in other ways be- sides using the formula A+Bcos ' a so that the elasticity decreases towards the edges of the rope groove.
- the elasticity in the central part of the rope groove can also be increased by making an undercut rope groove and/or by adding to the coating on the bottom of the rope groove a portion of different material of special elasticity, where the elasticity has been increased, in addition to increasing the material thickness, by the use of a material that is softer than the rest of the coating.
- FIG. 8a, 8b and 8c present cross-sections of steel wire ropes used in the invention.
- the ropes in these figures contain thin steel wires 803, a coating 802 on the steel wires and/or partly between the steel wires, and in Fig. 8a a coating 801 over the steel wires.
- the rope presented in. Fig. 8b is an uncoated steel wire rope with a rubber-like filler added to its interior structure, and Fig. 8a presents a steel wire rope provided with a coating in addition to a filler added to the internal structure.
- the rope presented in Fig. 8c has a non-metallic core 804, which may be a solid or fibrous structure made of plastic, natural fiber or some other material suited for the purpose. A fibrous structure will be good if the rope is lubricated, in which case lubricant will accumulate in the fibrous core. The core thus acts as a kind of lubricant storage.
- cross-section used in the elevator of the invention may be coated, uncoated and/or provided with a rubberlike filler, such as e.g. polyurethane or some other suitable filler, added to the interior structure of the rope and acting as a kind of lubricant lubricating the rope and also balancing the pressure between wires and strands.
- a rubberlike filler such as e.g. polyurethane or some other suitable filler
- the coating used in the steel wire ropes may be made of the same or nearly the same material as the filler or of a material that is better suited for use as a coating and has properties, such as friction and wear resistance properties, that are better suited to the purpose than a filler.
- the coat- ing of the steel wire rope may also be so implemented that the coating material penetrates partially into the rope or through the entire thickness of the rope, giving the rope the same properties as the filler mentioned above.
- the use of thin and strong steel wire ropes according to the invention is possible because the steel wires used are wires of special strength, allowing the ropes to be made substantially thin as compared with steel wire ropes used before.
- the ropes presented in Fig. 8a and 8b are steel wire ropes hav- ing a diameter of about 4 mm.
- the thin and strong steel wire ropes of the invention preferably have a diameter of about 2.5 - 5 mm in elevators for a nominal load below 1000 kg, and preferably about 5 - 8 mm in elevators for a nominal load above 1000 kg.
- Figures 9a, 9b, 9c, 9d, 9e, 9f and 9g present some variations of the roping arrangements according to the invention that can be used between the traction sheave 907 and the diverting pulley 915 to increase the contact angle between the ropes 903 and the traction sheave 907, in which arrangements the ropes 903 go downwards from the drive machine 906 towards the elevator car and diverting pulleys .
- These roping arrangements make it possible to increase the contact angle between the hoisting rope 903 and the traction sheave 907.
- contact angle refers to the length of the arc of contact between the traction sheave and the hoisting rope.
- the magnitude of the contact angle ⁇ may be expressed e.g.
- the contact angle ⁇ is presented in greater detail in Fig. 9a. In the other figures, the contact angle is not expressly indicated, but it can be seen from the other figures as well without specific separate description.
- Fig. 9a, 9b, 9c represent some variations of the X Wrap roping described above.
- the ropes 903 come via diverting pulley 915, wrapping around it along rope grooves, to the traction sheave 907, over which the ropes pass along its rope grooves and then go further back to the diverting pulley 915, passing crosswise with respect to the rope portion coming from the diverting pulley, and continuing their passage further.
- Crosswise passage of the ropes 903 be- tween the diverting pulley 915 and the traction sheave 30
- the diverting pulley 907 can be implemented e.g. by having the diverting pulley fitted at such an angle with respect to the traction sheave that the ropes will cross each other in a manner known in itself so that the ropes 903 are not damaged.
- the shaded area represents the contact angle between the ropes 903 and the traction sheave 907.
- the magnitude of the contact angle ⁇ in this figure is about 310°.
- the size of the diameter of the diverting pulley can be used as a means of deter- mining the distance of suspension that is to be provided between the diverting pulley 915 and the traction sheave 907.
- the magnitude of the contact angle can be varied by varying the distance between the diverting pulley 915 and the traction sheave 907.
- the magnitude of the angle ⁇ can also be varied by varying the diameter of the diverting pulley and/or by varying the diameter of the traction sheave and also by varying the ratio between the diameters of the diverting pulley and the traction sheave.
- Fig. 9b and 9c present an example of implementing a corresponding XW roping arrangement using two diverting pulleys .
- the roping arrangements presented in Fig. 9d and 9e are different variations of the above-mentioned Double Wrap roping.
- the ropes run via the rope grooves of a diverting pulley 915 to the traction sheave traction sheave 907 of the drive machine 906, passing over it along the rope grooves of the traction sheave.
- the ropes 903 go further downwards back to the diverting pulley 915, wrapping around it along the rope grooves of the diverting pulley and returning then back to the traction sheave 907, over which the ropes run in the rope grooves of the traction sheave.
- the ropes 903 run further downwards via the rope grooves of the diverting pulley.
- the hoisting ropes 31 the hoisting ropes 31
- the contact angle can be increased in two and/or more stages.
- a contact angle of 180° + 180° between the traction sheave 907 and the ropes 903 is achieved.
- Double Wrap roping when the diverting pulley 915 is substantially of equal size with the traction sheave 907, the diverting pulley 915 also functions as a damping wheel. In this case, the ropes going from the traction sheave 907 to the diverting pulleys and elevator car pass via the rope grooves of diverting pulley 915 and the rope deflection produced by the diverting pulley is very small.
- the diverting pulley 915 also functions as a rope guide.
- the ratio of the diameters of the diverting pulley and traction sheave can be varied by varying the diameters of the diverting pulley and/or traction sheave. This can be used as a means of defining the magnitude of the contact angle and fitting it to a de- sired magnitude.
- DW roping By using DW roping, forward bending of the rope 903 is achieved, which means that in DW roping the rope 903 is bent in the same direction on the diverting pulley 915 and on the traction sheave 907.
- DW roping can also be implemented in other ways, such as e.g. the way illustrated in Fig. 9e, where the diverting pulley 915 is disposed on the side of the drive machine 906 and the traction sheave 907. In this roping arrangement, the ropes 903 are passed in a manner corresponding to Fig. 9d, but in this case a con- tact angle of 180° + 90°, i.e. 270° is obtained. In DW roping, if the diverting pulley 915 is placed on the side of the traction sheave, greater demands are im- 32
- Fig. 9f presents an embodiment of the invention applying Extended Single Wrap roping as mentioned above.
- the ropes 903 run to the traction sheave 907 of the drive machine 906, wrapping around it along the rope grooves of the traction sheave. From the traction sheave 907, the ropes 903 go further downwards, running crosswise relative to the upwards going ropes and further to a diverting pulley 915, passing over it along the rope grooves of the diverting pulley 915. From the diverting pulley 915, the ropes 903 run further on.
- Figures 9a,b,c,d,f and g present different variations of roping arrangements between the traction sheave and the diverting pulley/diverting pulleys, in which the ropes go downwards from the drive machine towards the counterweight and the elevator car.
- these roping arrangements can be inverted and implemented in a corresponding manner so that the ropes go upwards from the elevator drive machine to- wards the diverting pulleys and the elevator car.
- Fig. 10 presents yet another embodiment of the invention, wherein the elevator drive machine 1006 is fitted together with a diverting pulley 1015 on the same mounting base 1021 in a ready-made unit 1020, which can be fitted as such to form a part of an elevator according to the invention.
- the unit 1020 contains the elevator drive machine 1006, the traction sheave 1007 and diverting pulley 1015 ready-fitted on the mounting base 1021, the traction sheave and diverting pulley being ready fitted at a correct operating angle relative to each other, depending on the roping arrangement used between the traction sheave 1007 and the diverting pulley 1015.
- the unit 1020 may comprise more than only one diverting pulley 1015, or it may only comprise the drive machine 1006 fitted on the mounting base 1021.
- the unit can be mounted in an elevator according to the invention like a drive machine, the mounting arrangement being described in greater detail in connection with the previous figures. If necessary, the unit can be used together with any of the roping arrangements described above, such as e.g. embodiments using ESW, DW, SW or XW roping.
- Fig. 11 presents an embodiment of the invention wherein the diverting pulley 1113 of the elevator is fitted in a ready-made unit 1114, which unit may be placed in the upper part and/or in the lower part of the shaft and/or in the elevator car, and in which unit it is possible to fit several diverting pulleys.
- a ready-made unit 1114 which unit may be placed in the upper part and/or in the lower part of the shaft and/or in the elevator car, and in which unit it is possible to fit several diverting pulleys.
- the unit can be provided with an unlimited number of diverting pulleys, and these can be fitted in a desired angle in the unit .
- Fig. 12 shows how the rope sheave 1204 serving to suspend the elevator car and its structures and mounted on a horizontal beam 1230 comprised in the structure supporting the elevator car 1201 is disposed with respect to the beam 1230.
- the rope sheave 1204 shown in the figure may have a height equal to or smaller than that of the beam 1230 comprised in the structure.
- the beam 1230 supporting the elevator car 1201 may be placed either below or above the elevator car.
- the rope sheave 1204 may be placed completely or at least partially inside the beam 1230, as illustrated in the figure.
- the passage of the elevator hoisting ropes 1203 in this figure is as follows.
- the hoisting ropes 1203 come to the coated rope sheave 1204 mounted on the beam 1230 comprised in the structure supporting the elevator car 1201, from where the hoisting rope runs further along the rope grooves of the rope sheave, protected by the beam.
- the elevator car 1201 rests on the beam 1230 comprised in the structure, on vibration absorbers 1229 placed between them.
- the beam 1230 functions at the same time as a rope guard for the hoisting rope 1203.
- the beam 1230 may be a C-, U-, I-, Z-shaped beam or a hollow beam or equivalent.
- the beam 1230 may support several rope sheaves fitted on 35
- a preferred embodiment of the elevator of the invention is an elevator with machine above without machine room, the drive machine of which comprises a coated traction sheave and which uses thin hoisting ropes of substantially round cross-section.
- the contact angle _ between the hoisting ropes of the elevator and the traction sheave is larger than 180°.
- the elevator com- prises a unit comprising a mounting base with a drive machine, a traction sheave and a diverting pulley ready fitted on it, said diverting pulley being fitted at a correct angle relative to the traction sheave.
- the unit is secured to the elevator guide rails.
- the elevator is implemented without counterweight with a 9:1 suspension ratio so that the elevator ropes run in the space between one of the walls of the elevator car and the wall of the elevator shaft.
- Another preferred embodiment of the elevator of the invention is an elevator without counterweight with a suspension ratio of 10:1 above and below the elevator car.
- This embodiment is implemented using conventional hoisting ropes preferably of a diameter of 8 mm and a traction sheave made of cast iron at least in the area of the rope grooves.
- the traction sheave has undercut rope grooves and its angle of contact to the traction sheave has been fitted by means of a diverting pulley to be 180° or greater.
- the traction sheave diameter is preferably 340 mm.
- the diverting pulleys used are large rope sheaves which, in the case of conventional 8-mm hoisting ropes, have a diameter of 320, 330, 340 mm or even more.
- the number of times the hoisting ropes are passed between the upper part of the elevator shaft and the elevator car and between the diverting pulleys ⁇ in the lower part and the elevator car is not a very decisive question as regards the basic advantages of the invention, although it is possible to achieve some additional advantages by using multiple rope- passages .
- applications are so implemented that the ropes go to the elevator car from above as many times as from below, the suspension ratios of the diverting pulleys going upwards and those the diverting pulleys going downwards thus being the same. It is also obvi- ous that the hoisting ropes need not necessarily be passed under the car.
- the skilled person can vary the embodiment of the invention, while the traction sheaves and rope sheaves, instead of being coated metal sheaves, may also be uncoated metal sheaves or uncoated sheaves made of some other material suited to the purpose.
- the metallic traction sheaves and rope sheaves used in the invention which are coated with a non- metallic material at least in the area of their grooves, may be implemented using a coating material consisting of e.g. rubber, polyurethane or some other material suited to the purpose.
- the elevator car and the machine unit may be laid out in the cross-section of the elevator shaft in a manner differing from the lay-out described in the examples.
- Such a different lay-out might be e.g. one in which the machine is located behind the car as seen 37
- the equipment required for the supply of power to the motor and the equipment needed for elevator control can be placed elsewhere than in connection with the machine unit, e.g. in a separate instrument panel. It is also possible to fit pieces of equipment needed for control into separate units which can then be disposed in different places in the elevator shaft and/or in other parts of the building. It is likewise obvious to the skilled person that an elevator applying the invention may be equipped differently from the exam- pies described above. It is further obvious to the skilled person that the suspension solutions according to the invention can also be implemented using almost any type of flexible hoisting means as hoisting ropes, e.g. flexible rope of one or more strands, flat belt, cogged belt, trapezoidal belt or some other type of belt applicable to the purpose.
- hoisting ropes e.g. flexible rope of one or more strands, flat belt, cogged belt, trapezoidal belt or some other type of belt applicable to the purpose.
- the wire thicknesses in the rope may vary, e.g. even by a factor of 3 or more.
- the elevator of the invention can be implemented using different roping arrangements for increasing the contact angle between the traction sheave and the di- verting pulley/diverting pulleys than those described as examples.
- the elevator can also be provided with a counterweight, in which elevator for example the counterweight preferably has a weight below that of the car and is suspended with separate roping.
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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)
- Cage And Drive Apparatuses For Elevators (AREA)
- Types And Forms Of Lifts (AREA)
Abstract
Description
Claims
Priority Applications (32)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
ES03810462T ES2382919T3 (en) | 2002-11-04 | 2003-10-01 | Elevator |
MXPA05004243A MXPA05004243A (en) | 2002-11-04 | 2003-10-01 | Elevator. |
AT03810462T ATE551290T1 (en) | 2002-11-04 | 2003-10-01 | ELEVATOR |
AU2003264664A AU2003264664B2 (en) | 2002-11-04 | 2003-10-01 | Elevator |
EP03810462A EP1558514B1 (en) | 2002-11-04 | 2003-10-01 | Elevator |
JP2004549205A JP2006505470A (en) | 2002-11-04 | 2003-10-01 | elevator |
EA200500494A EA006907B1 (en) | 2002-11-04 | 2003-10-01 | Elevator |
CA2500819A CA2500819C (en) | 2002-11-04 | 2003-10-01 | Elevator roping system |
BR0315899-3A BR0315899A (en) | 2002-11-04 | 2003-10-01 | Elevator |
KR1020127000671A KR101160066B1 (en) | 2002-11-04 | 2003-10-01 | Elevator |
SI200331020T SI1567442T1 (en) | 2002-11-04 | 2003-10-31 | Traction sheave elevator without counterweight |
DE60315873T DE60315873T2 (en) | 2002-11-04 | 2003-10-31 | DRIVE DISC WITHOUT COUNTERWEIGHT |
AT03758181T ATE370909T1 (en) | 2002-11-04 | 2003-10-31 | DRIVE DISC ELEVATOR WITHOUT COUNTERWEIGHT |
AU2003274200A AU2003274200B2 (en) | 2002-11-04 | 2003-10-31 | Tractor sheave elevator without counterweight |
PT03758181T PT1567442E (en) | 2002-11-04 | 2003-10-31 | Traction sheave elevator without counterweight |
EA200500495A EA006906B1 (en) | 2002-11-04 | 2003-10-31 | Tractor sheave elevator without counterweight |
MXPA05004785A MXPA05004785A (en) | 2002-11-04 | 2003-10-31 | Tractor sheave elevator without counterweight. |
JP2004549210A JP2006505471A (en) | 2002-11-04 | 2003-10-31 | Traction sheave elevator without counterweight |
CA2500835A CA2500835C (en) | 2002-11-04 | 2003-10-31 | Traction sheave elevator without counterweight |
ES03758181T ES2289326T3 (en) | 2002-11-04 | 2003-10-31 | ELEVATOR WITH NON-WEIGHT TRACTION PULLEY. |
BRPI0315886-1A BR0315886B1 (en) | 2002-11-04 | 2003-10-31 | elevator. |
DK03758181T DK1567442T3 (en) | 2002-11-04 | 2003-10-31 | Drive disk elevator without counterweight |
PCT/FI2003/000809 WO2004041700A1 (en) | 2002-11-04 | 2003-10-31 | Tractor sheave elevator without counterweight |
EP03758181A EP1567442B1 (en) | 2002-11-04 | 2003-10-31 | Traction sheave elevator without counterweight |
KR1020057007838A KR20050067225A (en) | 2002-11-04 | 2003-10-31 | Tractor sheave elevator without conuterweight |
US11/097,392 US20050236232A1 (en) | 2002-11-04 | 2005-04-04 | Elevator |
NO20051661A NO329964B1 (en) | 2002-11-04 | 2005-04-04 | Elevator with driving pulley, without counterweight |
NO20051660A NO330313B1 (en) | 2002-11-04 | 2005-04-04 | Elevator |
US11/097,181 US7225901B2 (en) | 2002-11-04 | 2005-04-04 | Elevator roping system |
HK06101662.9A HK1081509A1 (en) | 2002-11-04 | 2006-02-08 | Counterweight-less elevator |
HK06101661.0A HK1081508A1 (en) | 2002-11-04 | 2006-02-08 | Elevator without counterweight |
CY20071101496T CY1107507T1 (en) | 2002-11-04 | 2007-11-22 | ROLLING WHEEL WITHOUT ANTIVARO |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FI20021959 | 2002-11-04 | ||
FI20021959A FI20021959A (en) | 2002-11-04 | 2002-11-04 | Elevator |
Related Child Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US11/097,181 Continuation US7225901B2 (en) | 2002-11-04 | 2005-04-04 | Elevator roping system |
Publications (1)
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WO2004041704A1 true WO2004041704A1 (en) | 2004-05-21 |
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PCT/FI2003/000713 WO2004041704A1 (en) | 2002-11-04 | 2003-10-01 | Elevator |
Country Status (24)
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US (2) | US7225901B2 (en) |
EP (1) | EP1558514B1 (en) |
JP (2) | JP2006505470A (en) |
KR (3) | KR20050063801A (en) |
CN (4) | CN100548855C (en) |
AR (1) | AR041857A1 (en) |
AT (2) | ATE551290T1 (en) |
AU (2) | AU2003264664B2 (en) |
BR (2) | BR0315899A (en) |
CA (2) | CA2500819C (en) |
CY (1) | CY1107507T1 (en) |
EA (2) | EA006907B1 (en) |
ES (1) | ES2382919T3 (en) |
FI (1) | FI20021959A (en) |
HK (2) | HK1081508A1 (en) |
MX (2) | MXPA05004243A (en) |
MY (1) | MY136569A (en) |
NO (2) | NO329964B1 (en) |
PT (1) | PT1567442E (en) |
SI (1) | SI1567442T1 (en) |
TW (1) | TWI308903B (en) |
UA (3) | UA92305C2 (en) |
WO (1) | WO2004041704A1 (en) |
ZA (4) | ZA200503334B (en) |
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CH699578A1 (en) * | 2008-09-30 | 2010-03-31 | Marco Hoerler | Elevator comprises a system of flat belts and small pulleys for increasing friction and improving the smooth operation of the elevator with or without use of a counterweight |
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EP2567924A1 (en) | 2011-09-07 | 2013-03-13 | Thyssenkrupp Elevator Manufacturing Spain S.L. | Elevator without counterweight with a cogged belt and pulley |
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