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
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B66—HOISTING; LIFTING; HAULING
  • B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
  • B66B19/00—Mining-hoist operation
  • B66B19/005—Mining-hoist operation installing or exchanging the elevator drive
• • 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 adjustable mounting base for an elevator machine as defined in the preamble of claim 1.
• the present invention concerns in the first place an eleva ⁇ tor provided with a machine room or a corresponding space, the elevator hoisting machine and at least some of the di- verting pulleys being mounted on a base or equivalent fit ⁇ ted in place in the machine room or in the elevator shaft .
• the machine mounting base may consist of e.g. two I-beams or U-beams placed side by side, on which all the required components, such as the hoisting machine, diverting pulleys and rope- end fastening solutions are secured separately.
• Japanese patent specification JP7061744 (Otis Elevator Co) represents a prior-art method of placing the elevator hoisting machine and some of the diverting pulleys in the elevator machine room.
• the topmost compo- nent is the traction sheave, from which the first end of the elevator rope goes to the elevator car.
• the second end of the elevator rope goes down by the upper side of a diverting pulley to the counterweight.
• the diverting pulley is secured to the machine mounting base below the level of the traction sheave by means of two beams whose vertical web portion is provided with an elon ⁇ gated adjusting hole extending in a substantially horizon ⁇ tal plane, the diverting pulley being mounted in this hole.
• the diverting pulley can thus be moved horizontally rela ⁇ tive to the position of the traction sheave.
• the solution comprises a tensioning pulley, which is placed in both vertical and horizontal directions between the traction sheave and the diverting pulley, above the hoist- ing rope.
• the function of the tensioning pulley is to ten ⁇ sion the hoisting ropes in the direction of the traction sheave to prevent slipping of the hoisting ropes.
• a problem with the above-mentioned solution is that the tensioning pulley is placed at such an elevated position relative to the traction sheave that the hoisting rope por ⁇ tion between the tensioning pulley and the traction sheave is in an oblique position. Therefore, the angle of this rope portion changes according to the lateral position of the diverting pulley, with the result that especially the adjusting work during installation becomes more difficult.
• a further problem is encountered in preserving friction be ⁇ tween the traction sheave and the hoisting ropes.
• Elevator hoisting ropes of smaller and smaller thickness and greater and greater structural strength have been de ⁇ veloped, thus also allowing traction sheaves and diverting pulleys of smaller diameters to be used than before.
• higher suspension ratios e.g. 3:1-7:1 or even greater.
• a high suspension ratio correspondingly leads to a need to assist the suspension by the use of a number of di- verting pulleys, whose optimal layout has been difficult in many solutions.
• the roping comprises an auxil- iary diverting pulley, which, in prior-art hoisting machine arrangements secured to the elevator guide rails, is diffi ⁇ cult to set in exactly the right angle relative to the po ⁇ sition of the traction sheave.
• a double-wrap solution is needed e.g. in traction sheave mechanisms provided with coatings to increase the fri ⁇ tional grip between the trac ⁇ tion sheave and the elevator ropes. Due to the use of a plurality of diverting pulleys, the installation work has become more complicated because the amount of measuring and adjusting work during installation has increased. Prior-art arrangements provide no viable solution to this problem.
• the object of the present invention is to overcome the above-mentioned drawbacks and to create an adjustable ma ⁇ chine mounting base that is economical in cost and allows fast and as faultless an installation as possible and that also enables easy installation in structures already com ⁇ pleted, e.g. in conjunction with modernization, while en ⁇ suring a sufficient frictional grip between the hoisting ropes and the traction sheave.
• adjustable elevator machine mounting base of the invention One of the advantages of the adjustable elevator machine mounting base of the invention is that the adjustment of the rope distance can be performed reliably, easily and quickly, because the rope angles do not change during the adjustment. Therefore, the structure associated with the ropes in the machine arrangement is always identical re ⁇ gardless of the horizontal distance between the elevator car and the counterweight. Another advantage is a fastening solution of a standard nature that is suited for installa- tion even in old machine rooms in conjunction with moderni ⁇ zation of elevators.
• the machine mounting base of the invention can be used with elevator cars and coun- terweights of several different sizes.
• the adjustable ma ⁇ chine mounting base of the invention is characterized by what is disclosed in the characterization part of claim 1. Correspondingly, other embodiments of the invention are characterized by what is disclosed in the other claims.
• inventive embodiments are also presented in the description part of the present application.
• inventive content dis ⁇ closed in the application can also be defined in other ways than is done in the claims below.
• inventive content may also consist of several separate inventions, especially if the invention is considered in the light of explicit or im ⁇ plicit sub-tasks or in respect of advantages or sets of ad ⁇ vantages achieved. In this case, some of the attributes con- tained in the claims below may be superfluous from the point of view of separate inventive concepts.
• features of different embodiments of the invention can be applied in conjunction with other embodiments.
• Fig . 1 presents a partially sectioned side view of the machine mounting base of the invention
• Fig . 2 presents the machine mounting base of Fig. 1 in top view
• Fig . 3 presents the frame structure of the machine mount ⁇ ing base of the invention in side view
• Fig . 4 presents the frame structure of Fig. 3 in top view
• Fig . 5 presents a side view of the counterweight section of the machine mounting base of the invention
• Fig . 6 presents a side view of the machine section of the machine mounting base of the invention
• Fig . 7 presents a side view of the machine mounting base of the invention in a second adjusting position
• Fig. 8 presents the machine mounting base of Fig. 7 in top view
• Fig. 9 presents a diagrammatic and simplified side view of the machine mounting base and rope arrangement of the invention in an elevator with a suspension ratio of 4:1.
• Figures 1 and 2 present an adjustable mounting base 5 for an elevator machine according to the invention, in side view and partially sectioned.
• the machine mounting base 5 is placed in the elevator machine room 1 and secured in po ⁇ sition to the floor 2 of the machine room 1, said floor be ⁇ ing provided with at least passage holes 3 and 4 for the hoisting ropes 18 of the elevator.
• the adjustable machine mounting base 5 is of modular construction such that the machine mounting base 5 comprises at least three main modu ⁇ lar components, viz. a frame structure 6, a machine section 7 and a counterweight section 8. All these main components 6-8 are so designed that they are of as highly standardized construction as possible to enable them to be fitted to as many differently sized elevator constructions as possible.
• the machine section 7 and the counterweight section 8 can be secured in correct positions to the frame structure 6 by means of fastening bolts.
• the fastening is preferably so implemented that the counterweight section 8 is always se ⁇ cured to the first end of the frame structure 6 or in its immediate vicinity while the machine section 7 is secured to the frame structure at a required horizontal distance from the counterweight section 8 at the second end of the frame structure or to a suitable point between the second end and the counterweight section 8.
• the aforesaid horizon ⁇ tal distance is determined by the mutual horizontal dis ⁇ tance, i.e. rope distance, between the counterweight and the elevator car.
• the frame structure 6 of the machine mounting base is also illustrated in Fig. 3 and 4.
• the frame structure 6 is a rectangular frame mainly consisting of e.g. U-shaped profiled beams with their web plate in a substantially vertical position.
• the forward side beam 26 of the frame structure is partially sectioned so as to show the structures located behind the beam.
• the inward bent upper flange of each side beam 26 of the frame structure 6 is provided with a row of fastening holes 21, which are placed in the upper flange at regular distances to allow the machine section 7 and the counterweight sec- tion 8 to be secured to the frame structure.
• the side beams 24 are connected to each other by transverse members 27 and 28 at the ends of the side beams.
• the frame of the machine section 7 consists of side plates 24 in the lower part and transverse beams 20 connecting the side plates.
• the side plates 24 In front profile, the side plates 24 have the shape of an in ⁇ verted letter L with the shorter projection pointing up- wards.
• the width of the frame 7 of the machine section is so dimensioned that the frame can be placed between the side beams 26 of the frame structure 6 of the machine mounting base so that the outward bent flanges of the side plates 24 will rest on the holed upper surface of the side beams 26.
• the outward bent flanges of the side plates 24 are also provided with fastening holes 25 disposed in a row with substantially even spacing, some of which holes may be round and some may be elongated to make it easier to find an appropriate fastening position for the machine section 7.
• the size and spacing of the fastening holes 25 corre ⁇ sponds to the size and spacing of the fastening holes 21 in the frame of the machine mounting base.
• the drive machine of the ele ⁇ vator being mounted on the upper end of this beam.
• the drive machine comprises at least a traction sheave and, in many embodiments, also a diverting pulley 13 located directly below the traction sheave.
• the traction sheave remains behind the motor, so it is not visible in the other figures except Fig. 9, where it is indicated by reference numeral 35.
• a machine section diverting pulley 11 Secured to the first end of the frame of the machine sec ⁇ tion 7, i.e. to that part of the frame which is adjacent to the counterweight section 8, is a machine section diverting pulley 11 via its mounting base 32.
• the mounting of the di ⁇ verting pulley 11 is so implemented that the elevator rope 18 coming downwards from the traction sheave, in reality comprising a plurality of thin parallel ropes, descends substantially vertically to the rope grooves of the divert- ing pulley 11 from the side of the machine section 7 and passes around the diverting pulley 11 by its lower side and runs further in a substantially horizontal plane towards the counterweight section 8.
• auxiliary di ⁇ verting pulley 15 needed for 4:1 suspension.
• the mounting frame of the auxiliary diverting pulley consists of two vertical beams 34 and an overhead beam 33 connecting these, the auxiliary diverting pulley 15 being suspended on this overhead beam 33.
• the mounting frame of the auxiliary diverting pulley is in an oblique position relative to the longitudinal direction of the frame 6 of the machine section 7 to allow the plane of rotation of the auxiliary diverting pulley 15 to be more easily adjusted even to an oblique position so as to facilitate rope pas ⁇ sage.
• first ends of the elevator hoisting ropes 18 are secured to the overhead beam 33 of the mounting frame of the auxiliary diverting pulley of the machine sec- tion in a conventional manner by means of rope anchorages
• the auxiliary diverting pulley 15 and the seats of the rope anchorages 17 are fixedly secured in position to the frame of the machine section 7 relative to each other and the frame.
• the machine section forms a modular, inte- grated structure that can be secured as a single unit in its proper mounting position.
• the frame of the coun- terweight section 8 consists of side plates 22 in the lower part and a cross-member 19 connecting the side plates.
• the side plates 22 of the counterweight section 8 substantially correspond in structure and shape to the side plates 24 of the machine section 7.
• the side plates 22 of the counterweight section 8 also have the shape of an inverted letter L with the shorter projection pointing outwards.
• the width of the frame of the counter ⁇ weight section 8 is likewise so dimensioned that the frame can be placed between the side beams 26 of the frame struc- ture 6 of the machine mounting base so that the outward bent flanges of the side plates 22 will rest on the holed upper surface of the side beams 26.
• the outward bent flanges of the side plates 22 are also provided with fas ⁇ tening holes 23 disposed in a row with substantially even spacing, the size and spacing of said holes corresponding to the fastening holes 21 in the frame of the machine mounting base.
• the mounting and disposition of the diverting pulley 12 are so implemented that the elevator rope 18 coming from the machine section diverting pulley 11 passes around di ⁇ verting pulley 12 by its upper side and descends towards the counterweight . It is essential to the invention that between the diverting pulleys 11 and 12 the elevator rope 18 runs horizontally, so that when the mutual distance be ⁇ tween the diverting pulleys changes, the rope angles on the diverting pulleys 11 and 12 remain unchanged.
• auxiliary diverting pulley 14 Secured via its mounting frame to the frame of the counter ⁇ weight section 8 is also an auxiliary diverting pulley 14, which is needed for 4:1 suspension.
• the mounting frame of the auxiliary diverting pulley 14 consists of two vertical beams 30 and an overhead beam 29 connecting these, the aux- iliary diverting pulley 14 being suspended on this overhead beam 29.
• the mounting frame of the aux ⁇ iliary diverting pulley 14 is in a position substantially perpendicular to the longitudinal direction of the frame 6 of the machine section 7.
• the second ends of the elevator hoisting ropes 18 are secured to the overhead beam 29 of the mounting frame of the auxiliary diverting pulley 14 of the counterweight section in a conventional manner by means of rope anchorages 16.
• the counterweight section 8 forms a modular, in ⁇ tegrated structure that can be secured in its proper mount ⁇ ing position as a single unit.
• Fig. 7 and 8 present the machine mounting base of the in- vention placed in an elevator in which the horizontal dis ⁇ tance between the counterweight and the elevator car is smaller than in the solution illustrated in Fig. 1 and 2.
• the counterweight section 8 is located in the same place with respect to the frame structure 6 as in the solution according to Fig. 1 and 2, but the machine section 7 has been brought closer to the counterweight section 8 and secured to a suitable frame structure by means of fas ⁇ tening bolts. Installing the machine room components is easy because the rope angles and rope directions remain constant regardless of the position of the machine section 7.
• the mutual position of the counterweight section 8 and machine section 7 is not changed in any other respects ex ⁇ cept in respect of the horizontal distance between them, and this change involves no changes in the rope angles.
• Fig. 9 presents a diagrammatic and simplified view of an elevator suspension arrangement that can be implemented us ⁇ ing an adjustable machine mounting base 5 according to the invention.
• the figure 9 is not depicted in scale nor e.g. in a correct height ratio, so the position of the counter ⁇ weight 37 in relation to the position of the elevator car 40 is not necessarily correct.
• the elevator is preferably a traction sheave elevator with machine room, provided with a counterweight and running along guide rails 43, wherein the set of hoisting ropes consists of a plurality of substan ⁇ tially strong hoisting ropes 18 of small diameter placed side by side.
• the diverting pulleys and the traction sheave used are substantially small in diameter, so the preferably gearless hoisting machine 9 is substan ⁇ tially small and light.
• the hoisting ropes of the elevator run as fol ⁇ lows.
• the hoisting ropes 18 are secured to a fixed anchorage point 17 on the overhead beam 33 of the mounting frame of the auxiliary diverting pulley of the ma ⁇ chine section 7 placed on the machine mounting base 5.
• the ropes go downwards to a divert ⁇ ing pulley 38 fitted on the car frame 39 of the elevator car 40, pass around it by its lower side and go further up- wards to the auxiliary diverting pulley 15 of the machine section.
• the hoisting ropes return down ⁇ wards to a diverting pulley 41 fitted in position on the car frame 39 of the elevator car, pass around it by the lower side and go further upwards to the traction sheave 35 of the hoisting machine 9, which is fitted in position in the machine room, running in tangential contact with a di ⁇ verting pulley 13 placed below the traction sheave 35, preferably near and/or in conjunction with the hoisting ma ⁇ chine 9.
• Double-wrap rop- ing Between diverting pulley 13 and the traction sheave 35 of the hoisting machine 9, the figure shows Double-wrap rop- ing, wherein the hoisting ropes 18 run upwards in tangen ⁇ tial contact with the diverting pulley 13 to the traction sheave 35 and, having passed around the traction sheave 35, return back to the diverting pulley 13, pass around it and return to the traction sheave 35.
• Double-Wrap roping when the diverting pulley 13 is substantially the same size with the traction sheave 35, the diverting pulley 13 can also function as a damping pulley.
• SW Single Wrap
• the diverting pulley is substantially of the same size with the traction sheave of the hoisting machine and the use of a diverting pulley is applied as a "tangen ⁇ tial contact wheel" as described above.
• SW roping ac- cording to the example, the ropes are passed around the traction sheave only once, the contact angle between the rope and the traction sheave being about 180°.
• the diverting pulley is utilized only for "tangential contact" of the rope in the manner described above, with the diverting pulley functioning as a rope guide and as a damping pulley for damping rope vibrations.
• the ropes Having passed around diverting pulley 12, the ropes run further downwards to a diverting pulley 42 preferably fitted in position on the counterweight 37, and having passed around diverting pulley 42 by its lower side the ropes 18 run further upwards to the auxiliary diverting pulley 14 of the counterweight sec ⁇ tion, pass around it by its upper side and go further down ⁇ wards to a diverting pulley 36 mounted on the counterweight 37. Having passed around diverting pulley 36 by its lower side, the ropes finally go up to the fixed anchorage point
• the machine mounting base of the invention may have a dif ⁇ ferent construction to implement different suspension variations and suspension ratios.
• the size and disposition and number of the diverting pulleys mounted on the machine mounting base 5 may differ from the above description.
• the machine mount- ing base is of standardized construction, preferably com ⁇ prising e.g. three main components, i.e.
• the counter- weight section 8 including its diverting pulley 12, may be a fixed part of the frame structure 6.
• the counterweight section is not secured separately to the frame structure during installation, but the frame struc ⁇ ture is placed in the machine room in the appropriate posi- tion relative to the counterweight and only the machine section 7 is secured to the frame structure at a distance from the traction sheave 12 determined by the rope dis ⁇ tance.
• the invention or its preferred embodiments can just as well be used in traction sheave elevators with ⁇ out counterweight, and also in elevators with other suspen- sion ratios and other types of suspension and other roping solutions between the traction sheave and diverting pulley 13 than those described in the example.

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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)

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Publications (3)

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ID=32749242

Family Applications (1)

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Citations (4)

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• 2004
  • 2004-07-27 FI FI20041028A patent/FI117336B/fi not_active IP Right Cessation
• 2005
  • 2005-07-11 WO PCT/FI2005/000326 patent/WO2006010785A1/en active Application Filing
  • 2005-07-11 EP EP05764419.7A patent/EP1771374B1/de not_active Not-in-force

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